This page collects the papers that analyze Complex System Uncertainty documentation.

This page is maintained by Chao Tan from School of Computer Science and Technology, Nanjing University of Aeronautics and Astronautics, China.

The total literature list is as follows:

Total Literature List:

1. Agadakos I, Chen C Y, Campanelli M, et al. Jumping the air gap: Modeling cyber-physical attack paths in the Internet-of-Things[C]//Proceedings of the 2017 Workshop on Cyber-Physical Systems Security and PrivaCy. 2017: 37-48.

[BibTeX] [DOI]

BibTeX: @inproceedings{agadakos2017jumping, title={Jumping the air gap: Modeling cyber-physical attack paths in the Internet-of-Things}, author={Agadakos, Ioannis and Chen, Chien-Ying and Campanelli, Matteo and Anantharaman, Prashant and Hasan, Monowar and Copos, Bogdan and Lepoint, Tancr{\`e}de and Locasto, Michael and Ciocarlie, Gabriela F and Lindqvist, Ulf}, booktitle={Proceedings of the 2017 Workshop on Cyber-Physical Systems Security and PrivaCy}, pages={37--48}, year={2017} }



2. Agarwal S, Pape L E, Dagli C H, et al. Flexible and intelligent learning architectures for sos (fila-sos): Architectural evolution in systems-of-systems[J]. Procedia Computer Science, 2015, 44(C): 76-85.

[BibTeX] [DOI]

BibTeX: @article{agarwal2015flexible, title={Flexible and intelligent learning architectures for sos (fila-sos): Architectural evolution in systems-of-systems}, author={Agarwal, Siddhartha and Pape, Louis E and Dagli, Cihan H and Ergin, Nil K and Enke, David and Gosavi, Abhijit and Qin, Ruwen and Konur, Dincer and Wang, Renzhong and Gottapu, Ram Deepak}, journal={Procedia Computer Science}, volume={44}, number={C}, pages={76--85}, year={2015}, publisher={Elsevier BV} }



3. AAgeeva L, Majidi M, Pozo D. Analysis of feasibility region of active distribution networks[C]//2019 International Youth Conference on Radio Electronics, Electrical and Power Engineering (REEPE). IEEE, 2019: 1-5.

[BibTeX] [DOI]

BibTeX: @inproceedings{ageeva2019analysis, title={Analysis of feasibility region of active distribution networks}, author={Ageeva, Liliia and Majidi, Maryam and Pozo, David}, booktitle={2019 International Youth Conference on Radio Electronics, Electrical and Power Engineering (REEPE)}, pages={1--5}, year={2019}, organization={IEEE} }



4. Ahmad M, Gnaho C, Bruel J M, et al. Towards a Requirements Engineering Approach for Capturing Uncertainty in Cyber-Physical Systems Environment[C]//International Conference on Model and Data Engineering. Springer, Cham, 2018: 115-129.

[BibTeX] [DOI]

BibTeX: @inproceedings{ahmad2018towards, title={Towards a Requirements Engineering Approach for Capturing Uncertainty in Cyber-Physical Systems Environment}, author={Ahmad, Manzoor and Gnaho, Christophe and Bruel, Jean-Michel and Laleau, R{\'e}gine}, booktitle={International Conference on Model and Data Engineering}, pages={115--129}, year={2018}, organization={Springer} }



5. Aichernig B K, Burghard C, Korošec R. Learning-based testing of an industrial measurement device[C]//NASA Formal Methods Symposium. Springer, Cham, 2019: 1-18.

[BibTeX] [DOI]

BibTeX: @inproceedings{aichernig2019learning, title={Learning-based testing of an industrial measurement device}, author={Aichernig, Bernhard K and Burghard, Christian and Koro{\v{s}}ec, Robert}, booktitle={NASA Formal Methods Symposium}, pages={1--18}, year={2019}, organization={Springer} }



6. Akbar A, Kousiouris G, Pervaiz H, et al. Real-time probabilistic data fusion for large-scale IoT applications[J]. Ieee Access, 2018, 6: 10015-10027.

[BibTeX] [DOI]

Abstract: Internet of Things (IoT) data analytics is underpinning numerous applications, however, the task is still challenging predominantly due to heterogeneous IoT data streams, unreliable networks, and ever increasing size of the data. In this context, we propose a two-layer architecture for analyzing IoT data. The first layer provides a generic interface using a service oriented gateway to ingest data from multiple interfaces and IoT systems, store it in a scalable manner and analyze it in real-time to extract high-level events; whereas second layer is responsible for probabilistic fusion of these high-level events. In the second layer, we extend state-of-the-art event processing using Bayesian networks in order to take uncertainty into account while detecting complex events. We implement our proposed solution using open source components optimized for large-scale applications. We demonstrate our solution on real-world use-case in the domain of intelligent transportation system where we analyzed traffic, weather, and social media data streams from Madrid city in order to predict probability of congestion in real-time. The performance of the system is evaluated qualitatively using a web-interface where traffic administrators can provide the feedback about the quality of predictions and quantitatively using F-measure with an accuracy of over 80%.

BibTeX: @article{akbar2018real, title={Real-time probabilistic data fusion for large-scale IoT applications}, author={Akbar, Adnan and Kousiouris, George and Pervaiz, Haris and Sancho, Juan and Ta-Shma, Paula and Carrez, Francois and Moessner, Klaus}, journal={Ieee Access}, volume={6}, pages={10015--10027}, year={2018}, publisher={IEEE} }



7. Alhakami W, ALharbi A, Bourouis S, et al. Network anomaly intrusion detection using a nonparametric Bayesian approach and feature selection[J]. IEEE Access, 2019, 7: 52181-52190.

[BibTeX] [DOI]

BibTeX: @article{alhakami2019network, title={Network anomaly intrusion detection using a nonparametric Bayesian approach and feature selection}, author={Alhakami, Wajdi and ALharbi, Abdullah and Bourouis, Sami and Alroobaea, Roobaea and Bouguila, Nizar}, journal={IEEE Access}, volume={7}, pages={52181--52190}, year={2019}, publisher={IEEE} }



8. Ali S, Li Y, Yue T, et al. An empirical evaluation of mutation and crossover operators for multi-objective uncertainty-wise test minimization[C]//2017 IEEE/ACM 10th International Workshop on Search-Based Software Testing (SBST). IEEE, 2017: 21-27.

[BibTeX] [DOI]

BibTeX: @inproceedings{ali2017empirical, title={An empirical evaluation of mutation and crossover operators for multi-objective uncertainty-wise test minimization}, author={Ali, Shaukat and Li, Yan and Yue, Tao and Zhang, Man}, booktitle={2017 IEEE/ACM 10th International Workshop on Search-Based Software Testing (SBST)}, pages={21--27}, year={2017}, organization={IEEE} }



9. Ali S, Lu H, Wang S, et al. Uncertainty-wise testing of cyber-physical systems[M]//Advances in Computers. Elsevier, 2017, 107: 23-94.

[BibTeX] [DOI]

BibTeX: @incollection{ali2017uncertainty, title={Uncertainty-wise testing of cyber-physical systems}, author={Ali, Shaukat and Lu, Hong and Wang, Shuai and Yue, Tao and Zhang, Man}, booktitle={Advances in Computers}, volume={107}, pages={23--94}, year={2017}, publisher={Elsevier} }



10. Al-Turjman F, Zahmatkesh H, Mostarda L. Quantifying uncertainty in internet of medical things and big-data services using intelligence and deep learning[J]. IEEE Access, 2019, 7: 115749-115759.

[BibTeX] [DOI]

BibTeX: @article{al2019quantifying, title={Quantifying uncertainty in internet of medical things and big-data services using intelligence and deep learning}, author={Al-Turjman, Fadi and Zahmatkesh, Hadi and Mostarda, Leonardo}, journal={IEEE Access}, volume={7}, pages={115749--115759}, year={2019}, publisher={IEEE} }



11. Amir M, Givargis T. Hybrid state machine model for fast model predictive control: Application to path tracking[C]//2017 IEEE/ACM International Conference on Computer-Aided Design (ICCAD). IEEE, 2017: 185-192.

[BibTeX] [DOI]

BibTeX: @inproceedings{amir2017hybrid, title={Hybrid state machine model for fast model predictive control: Application to path tracking}, author={Amir, Maral and Givargis, Tony}, booktitle={2017 IEEE/ACM International Conference on Computer-Aided Design (ICCAD)}, pages={185--192}, year={2017}, organization={IEEE} }



12. Anwar F, D’souza S, Symington A, et al. Timeline: An operating system abstraction for time-aware applications[C]//2016 IEEE Real-Time Systems Symposium (RTSS). IEEE, 2016: 191-202.

[BibTeX] [DOI]

BibTeX: @inproceedings{anwar2016timeline, title={Timeline: An operating system abstraction for time-aware applications}, author={Anwar, Fatima and D’souza, Sandeep and Symington, Andrew and Dongare, Adwait and Rajkumar, Ragunathan and Rowe, Anthony and Srivastava, Mani}, booktitle={2016 IEEE Real-Time Systems Symposium (RTSS)}, pages={191--202}, year={2016}, organization={IEEE} }



13. Önol A Ö, Padir T. Towards Autonomous Grasping with Robotic Prosthetic Hands[C]//Proceedings of the 10th International Conference on PErvasive Technologies Related to Assistive Environments. 2017: 385-389.

[BibTeX] [DOI]

BibTeX: @inproceedings{onol2017towards, title={Towards Autonomous Grasping with Robotic Prosthetic Hands}, author={{\"O}nol, Aykut {\"O}zg{\"u}n and Padir, Ta{\c{s}}k{\i}n}, booktitle={Proceedings of the 10th International Conference on PErvasive Technologies Related to Assistive Environments}, pages={385--389}, year={2017} }



14. Bacci G, Hansen M, Larsen K G. On the verification of weighted kripke structures under uncertainty[C]//International Conference on Quantitative Evaluation of Systems. Springer, Cham, 2018: 71-86.

[BibTeX] [DOI]

BibTeX: @inproceedings{bacci2018verification, title={On the verification of weighted kripke structures under uncertainty}, author={Bacci, Giovanni and Hansen, Mikkel and Larsen, Kim Guldstrand}, booktitle={International Conference on Quantitative Evaluation of Systems}, pages={71--86}, year={2018}, organization={Springer} }



15. Banaszuk A, Fonoberov V A, Frewen T A, et al. Scalable approach to uncertainty quantification and robust design of interconnected dynamical systems[J]. Annual Reviews in Control, 2011, 35(1): 77-98.

[BibTeX] [DOI]

BibTeX: @article{banaszuk2011scalable, title={Scalable approach to uncertainty quantification and robust design of interconnected dynamical systems}, author={Banaszuk, Andrzej and Fonoberov, Vladimir A and Frewen, Thomas A and Kobilarov, Marin and Mathew, George and Mezic, Igor and Pinto, Alessandro and Sahai, Tuhin and Sane, Harshad and Speranzon, Alberto and others}, journal={Annual Reviews in Control}, volume={35}, number={1}, pages={77--98}, year={2011}, publisher={Elsevier} }



16. Banerjee S, Bouzefrane S, Mühlethaler P. Mobility prediction in vehicular networks: an approach through hybrid neural networks under uncertainty[C]//International Conference on Mobile, Secure, and Programmable Networking. Springer, Cham, 2017: 178-194.

[BibTeX] [DOI]

BibTeX: @inproceedings{banerjee2017mobility, title={Mobility prediction in vehicular networks: an approach through hybrid neural networks under uncertainty}, author={Banerjee, Soumya and Bouzefrane, Samia and M{\"u}hlethaler, Paul}, booktitle={International Conference on Mobile, Secure, and Programmable Networking}, pages={178--194}, year={2017}, organization={Springer} }



17. Behl M, Nghiem T X, Mangharam R. Model-iq: Uncertainty propagation from sensing to modeling and control in buildings[C]//2014 ACM/IEEE International Conference on Cyber-Physical Systems (ICCPS). IEEE, 2014: 13-24.

[BibTeX] [DOI]

BibTeX: @inproceedings{behl2014model, title={Model-iq: Uncertainty propagation from sensing to modeling and control in buildings}, author={Behl, Madhur and Nghiem, Truong X and Mangharam, Rahul}, booktitle={2014 ACM/IEEE International Conference on Cyber-Physical Systems (ICCPS)}, pages={13--24}, year={2014}, organization={IEEE} }



18. Bertoa M F, Burgueño L, Moreno N, et al. Incorporating measurement uncertainty into OCL/UML primitive datatypes[J]. Software & Systems Modeling, 2019: 1-27.

[BibTeX] [DOI]

BibTeX: @article{bertoa2019incorporating, title={Incorporating measurement uncertainty into OCL/UML primitive datatypes}, author={Bertoa, Manuel F and Burgue{\~n}o, Loli and Moreno, Nathalie and Vallecillo, Antonio}, journal={Software \& Systems Modeling}, pages={1--27}, year={2019}, publisher={Springer} }



19. Bertoa M F, Moreno N, Barquero G, et al. Expressing measurement uncertainty in OCL/UML datatypes[C]//European Conference on Modelling Foundations and Applications. Springer, Cham, 2018: 46-62.

[BibTeX] [DOI]

BibTeX: @inproceedings{bertoa2018expressing, title={Expressing measurement uncertainty in OCL/UML datatypes}, author={Bertoa, Manuel F and Moreno, Nathalie and Barquero, Gala and Burgue{\~n}o, Loli and Troya, Javier and Vallecillo, Antonio}, booktitle={European Conference on Modelling Foundations and Applications}, pages={46--62}, year={2018}, organization={Springer} }



20. Bhadoria R S, Chaudhari N S, Samanta S. Uncertainty in sensor data acquisition for SOA system[J]. Neural Computing and Applications, 2018, 30(10): 3177-3187.

[BibTeX] [DOI]

BibTeX: @article{bhadoria2018uncertainty, title={Uncertainty in sensor data acquisition for SOA system}, author={Bhadoria, Robin Singh and Chaudhari, Narendra S and Samanta, Sovan}, journal={Neural Computing and Applications}, volume={30}, number={10}, pages={3177--3187}, year={2018}, publisher={Springer} }



21. Bhattacharjee S, Salimitari M, Chatterjee M, et al. Preserving data integrity in iot networks under opportunistic data manipulation[C]//2017 IEEE 15th Intl Conf on Dependable, Autonomic and Secure Computing, 15th Intl Conf on Pervasive Intelligence and Computing, 3rd Intl Conf on Big Data Intelligence and Computing and Cyber Science and Technology Congress (DASC/PiCom/DataCom/CyberSciTech). IEEE, 2017: 446-453.

[BibTeX] [DOI]

BibTeX: @inproceedings{bhattacharjee2017preserving, title={Preserving data integrity in iot networks under opportunistic data manipulation}, author={Bhattacharjee, Shameek and Salimitari, Mehrdad and Chatterjee, Mainak and Kwiat, Kevin and Kamhoua, Charles}, booktitle={2017 IEEE 15th Intl Conf on Dependable, Autonomic and Secure Computing, 15th Intl Conf on Pervasive Intelligence and Computing, 3rd Intl Conf on Big Data Intelligence and Computing and Cyber Science and Technology Congress (DASC/PiCom/DataCom/CyberSciTech)}, pages={446--453}, year={2017}, organization={IEEE} }



22. Bi R, Ren J, Wang H, et al. Model Based Adaptive Data Acquisition for Internet of Things[C]//International Conference on Wireless Algorithms, Systems, and Applications. Springer, Cham, 2019: 16-28.

[BibTeX] [DOI]

BibTeX: @inproceedings{bi2019model, title={Model Based Adaptive Data Acquisition for Internet of Things}, author={Bi, Ran and Ren, Jiankang and Wang, Hao and Liu, Qian and Huang, Shan}, booktitle={International Conference on Wireless Algorithms, Systems, and Applications}, pages={16--28}, year={2019}, organization={Springer} }



23. Xiao B, Chen L, Liu M, et al. Design and implementation of rule-based uncertainty reasoning in smart house[C]//2015 IEEE 16th International Conference on Communication Technology (ICCT). IEEE, 2015: 441-448.

[BibTeX] [DOI]

BibTeX: @inproceedings{xiao2015design, title={Design and implementation of rule-based uncertainty reasoning in smart house}, author={Xiao, Biyi and Chen, Leiting and Liu, Ming and Cao, Yue and Yang, Yong}, booktitle={2015 IEEE 16th International Conference on Communication Technology (ICCT)}, pages={441--448}, year={2015}, organization={IEEE} }



24. Bordel B, Alcarria R, De Andrés D M, et al. Securing Internet-of-Things systems through implicit and explicit reputation models[J]. IEEE Access, 2018, 6: 47472-47488.

[BibTeX] [DOI]

BibTeX: @article{bordel2018securing, title={Securing Internet-of-Things systems through implicit and explicit reputation models}, author={Bordel, Borja and Alcarria, Ram{\'o}n and De Andr{\'e}s, Diego Mart{\'\i}n and You, Ilsun}, journal={IEEE Access}, volume={6}, pages={47472--47488}, year={2018}, publisher={IEEE} }



25. Bortolussi L, Cairoli F, Paoletti N, et al. Conformal predictions for hybrid system state classification[M]//From Reactive Systems to Cyber-Physical Systems. Springer, Cham, 2019: 225-241.

[BibTeX] [DOI]

BibTeX: @incollection{bortolussi2019conformal, title={Conformal predictions for hybrid system state classification}, author={Bortolussi, Luca and Cairoli, Francesca and Paoletti, Nicola and Stoller, Scott D}, booktitle={From Reactive Systems to Cyber-Physical Systems}, pages={225--241}, year={2019}, publisher={Springer} }



26. Bousdekis A, Papageorgiou N, Magoutas B, et al. A probabilistic model for context-aware proactive decision making[C]//2016 7th International Conference on Information, Intelligence, Systems & Applications (IISA). IEEE, 2016: 1-6.

[BibTeX] [DOI]

BibTeX: @inproceedings{bousdekis2016probabilistic, title={A probabilistic model for context-aware proactive decision making}, author={Bousdekis, Alexandros and Papageorgiou, Nikos and Magoutas, Babis and Apostolou, Dimitris and Mentzas, Gregoris}, booktitle={2016 7th International Conference on Information, Intelligence, Systems \& Applications (IISA)}, pages={1--6}, year={2016}, organization={IEEE} }



27. Cámara J, Garlan D, Moreno G A, et al. Analyzing self-adaptation via model checking of stochastic games[M]//Software Engineering for Self-Adaptive Systems III. Assurances. Springer, Cham, 2017: 154-187.

[BibTeX] [DOI]

BibTeX: @incollection{camara2017analyzing, title={Analyzing self-adaptation via model checking of stochastic games}, author={C{\'a}mara, Javier and Garlan, David and Moreno, Gabriel A and Schmerl, Bradley}, booktitle={Software Engineering for Self-Adaptive Systems III. Assurances}, pages={154--187}, year={2017}, publisher={Springer} }



28. Cámara J, Garlan D, Schmerl B. Synthesis and quantitative verification of tradeoff spaces for families of software systems[C]//European Conference on Software Architecture. Springer, Cham, 2017: 3-21.

[BibTeX] [DOI]

BibTeX: @inproceedings{camara2017synthesis, title={Synthesis and quantitative verification of tradeoff spaces for families of software systems}, author={C{\'a}mara, Javier and Garlan, David and Schmerl, Bradley}, booktitle={European Conference on Software Architecture}, pages={3--21}, year={2017}, organization={Springer} }



29. Cámara J, Garlan D, Schmerl B. Synthesizing tradeoff spaces with quantitative guarantees for families of software systems[J]. Journal of Systems and Software, 2019, 152: 33-49.

[BibTeX] [DOI]

BibTeX: @article{camara2019synthesizing, title={Synthesizing tradeoff spaces with quantitative guarantees for families of software systems}, author={C{\'a}mara, Javier and Garlan, David and Schmerl, Bradley}, journal={Journal of Systems and Software}, volume={152}, pages={33--49}, year={2019}, publisher={Elsevier} }



30. Cámara J, Peng W, Garlan D, et al. Reasoning about sensing uncertainty in decision-making for self-adaptation[C]//International Conference on Software Engineering and Formal Methods. Springer, Cham, 2017: 523-540.

[BibTeX] [DOI]

BibTeX: @inproceedings{camara2017reasoning, title={Reasoning about sensing uncertainty in decision-making for self-adaptation}, author={C{\'a}mara, Javier and Peng, Wenxin and Garlan, David and Schmerl, Bradley}, booktitle={International Conference on Software Engineering and Formal Methods}, pages={523--540}, year={2017}, organization={Springer} }



31. Carlén N, Forsman A, Svensson J, et al. IoT Enabled Process Innovation: Exploring Sensor-Based Digital Service Design Through an Information Requirements Framework[C]//IFIP International Internet of Things Conference. Springer, Cham, 2018: 105-120.

[BibTeX] [DOI]

BibTeX: @inproceedings{carlen2018iot, title={IoT Enabled Process Innovation: Exploring Sensor-Based Digital Service Design Through an Information Requirements Framework}, author={Carl{\'e}n, Niclas and Forsman, August and Svensson, Jesper and Sandberg, Johan}, booktitle={IFIP International Internet of Things Conference}, pages={105--120}, year={2018}, organization={Springer, Cham} }



32. Chati Y S, Balakrishnan H. A Gaussian process regression approach to model aircraft engine fuel flow rate[C]//2017 ACM/IEEE 8th International Conference on Cyber-Physical Systems (ICCPS). IEEE, 2017: 131-140.

[BibTeX] [DOI]

BibTeX: @inproceedings{chati2017gaussian, title={A Gaussian process regression approach to model aircraft engine fuel flow rate}, author={Chati, Yashovardhan Sushil and Balakrishnan, Hamsa}, booktitle={2017 ACM/IEEE 8th International Conference on Cyber-Physical Systems (ICCPS)}, pages={131--140}, year={2017}, organization={IEEE} }



33. Chatzikonstantinou G, Kontogiannis K. Efficient parallel reasoning on fuzzy goal models for run time requirements verification[J]. Software & Systems Modeling, 2018, 17(4): 1339-1364.

[BibTeX] [DOI]

BibTeX: @article{chatzikonstantinou2018efficient, title={Efficient parallel reasoning on fuzzy goal models for run time requirements verification}, author={Chatzikonstantinou, George and Kontogiannis, Kostas}, journal={Software \& Systems Modeling}, volume={17}, number={4}, pages={1339--1364}, year={2018}, publisher={Springer} }



34. Chaves L C, Ismail H I, Bessa I V, et al. Verifying fragility in digital systems with uncertainties using DSVerifier v2. 0[J]. Journal of Systems and Software, 2019, 153: 22-43.

[BibTeX] [DOI]

BibTeX: @article{chaves2019verifying, title={Verifying fragility in digital systems with uncertainties using DSVerifier v2. 0}, author={Chaves, Lennon C and Ismail, Hussama I and Bessa, Iury V and Cordeiro, Lucas C and de Lima Filho, Eddie B}, journal={Journal of Systems and Software}, volume={153}, pages={22--43}, year={2019}, publisher={Elsevier} }



35. Chen B, Niu Y, Zou Y. Security control for Markov jump system with adversarial attacks and unknown transition rates via adaptive sliding mode technique[J]. Journal of the Franklin Institute, 2019, 356(6): 3333-3352.

[BibTeX] [DOI]

BibTeX: @article{chen2019security, title={Security control for Markov jump system with adversarial attacks and unknown transition rates via adaptive sliding mode technique}, author={Chen, Bei and Niu, Yugang and Zou, Yuanyuan}, journal={Journal of the Franklin Institute}, volume={356}, number={6}, pages={3333--3352}, year={2019}, publisher={Elsevier} }



36. Chen B, Pompili D. Minimizing position uncertainty for under-ice autonomous underwater vehicles[J]. Computer Networks, 2013, 57(18): 3840-3854.

[BibTeX] [DOI]

BibTeX: @article{chen2013minimizing, title={Minimizing position uncertainty for under-ice autonomous underwater vehicles}, author={Chen, Baozhi and Pompili, Dario}, journal={Computer Networks}, volume={57}, number={18}, pages={3840--3854}, year={2013}, publisher={Elsevier} }



37. Chen B, Pompili D. Modeling position uncertainty of networked autonomous underwater vehicles[J]. Ad Hoc Networks, 2015, 34: 184-195.

[BibTeX] [DOI]

BibTeX: @article{chen2015modeling, title={Modeling position uncertainty of networked autonomous underwater vehicles}, author={Chen, Baozhi and Pompili, Dario}, journal={Ad Hoc Networks}, volume={34}, pages={184--195}, year={2015}, publisher={Elsevier} }



38. Chen C, Chen D, Yan Y, et al. Integration of numerical model and cloud computing[J]. Future Generation Computer Systems, 2018, 79: 396-407.

[BibTeX] [DOI]

BibTeX: @article{chen2018integration, title={Integration of numerical model and cloud computing}, author={Chen, Chong and Chen, Dan and Yan, Yingnan and Zhang, Gaofeng and Zhou, Qingguo and Zhou, Rui}, journal={Future Generation Computer Systems}, volume={79}, pages={396--407}, year={2018}, publisher={Elsevier} }



39. Chen D J, Lu Z. A model-based approach to dynamic self-assessment for automated performance and safety awareness of cyber-physical systems[C]//International Symposium on Model-Based Safety and Assessment. Springer, Cham, 2017: 227-240.

[BibTeX] [DOI]

BibTeX: @inproceedings{chen2017model, title={A model-based approach to dynamic self-assessment for automated performance and safety awareness of cyber-physical systems}, author={Chen, DeJiu and Lu, Zhonghai}, booktitle={International Symposium on Model-Based Safety and Assessment}, pages={227--240}, year={2017}, organization={Springer} }



40. Chen W, An J, Li R, et al. A novel fuzzy deep-learning approach to traffic flow prediction with uncertain spatial–temporal data features[J]. Future generation computer systems, 2018, 89: 78-88.

[BibTeX] [DOI]

BibTeX: @article{chen2018novel, title={A novel fuzzy deep-learning approach to traffic flow prediction with uncertain spatial--temporal data features}, author={Chen, Weihong and An, Jiyao and Li, Renfa and Fu, Li and Xie, Guoqi and Bhuiyan, Md Zakirul Alam and Li, Keqin}, journal={Future generation computer systems}, volume={89}, pages={78--88}, year={2018}, publisher={Elsevier} }



41. Cheng B H C, Ramirez A, McKinley P K. Harnessing evolutionary computation to enable dynamically adaptive systems to manage uncertainty[C]//2013 1st International Workshop on Combining Modelling and Search-Based Software Engineering (CMSBSE). IEEE, 2013: 1-6.

[BibTeX] [DOI]

BibTeX: @inproceedings{cheng2013harnessing, title={Harnessing evolutionary computation to enable dynamically adaptive systems to manage uncertainty}, author={Cheng, Betty HC and Ramirez, Andres and McKinley, Philip K}, booktitle={2013 1st International Workshop on Combining Modelling and Search-Based Software Engineering (CMSBSE)}, pages={1--6}, year={2013}, organization={IEEE} }



42. Dai X, Burns A. Period adaptation of real-time control tasks with fixed-priority scheduling in cyber-physical systems[J]. Journal of Systems Architecture, 2020, 103: 101691.

[BibTeX] [DOI]

BibTeX: @article{dai2020period, title={Period adaptation of real-time control tasks with fixed-priority scheduling in cyber-physical systems}, author={Dai, Xiaotian and Burns, Alan}, journal={Journal of Systems Architecture}, volume={103}, pages={101691}, year={2020}, publisher={Elsevier} }



43. Dilli R, Argou A, Pilla M, et al. Fuzzy logic and MCDA in IoT resources classification[C]//Proceedings of the 33rd Annual ACM Symposium on Applied Computing. 2018: 761-766.

[BibTeX] [DOI]

BibTeX: @inproceedings{dilli2018fuzzy, title={Fuzzy logic and MCDA in IoT resources classification}, author={Dilli, Renato and Argou, Amanda and Pilla, Mauricio and Pernas, Ana Marilza and Reiser, Renata and Yamin, Adenauer}, booktitle={Proceedings of the 33rd Annual ACM Symposium on Applied Computing}, pages={761--766}, year={2018} }



44. Dilli R, Argou A, Reiser R, et al. Iot resources ranking: Decision making under uncertainty combining machine learning and fuzzy logic[C]//North American Fuzzy Information Processing Society Annual Conference. Springer, Cham, 2018: 119-131.

[BibTeX] [DOI]

BibTeX: @inproceedings{dilli2018iot, title={Iot resources ranking: Decision making under uncertainty combining machine learning and fuzzy logic}, author={Dilli, Renato and Argou, Amanda and Reiser, Renata and Yamin, Adenauer}, booktitle={North American Fuzzy Information Processing Society Annual Conference}, pages={119--131}, year={2018}, organization={Springer} }



45. Ding K, Ren X, Quevedo D E, et al. Defensive deception against reactive jamming attacks in remote state estimation[J]. Automatica, 2020, 113: 108680.

[BibTeX] [DOI]

BibTeX: @article{ding2020defensive, title={Defensive deception against reactive jamming attacks in remote state estimation}, author={Ding, Kemi and Ren, Xiaoqiang and Quevedo, Daniel E and Dey, Subhrakanti and Shi, Ling}, journal={Automatica}, volume={113}, pages={108680}, year={2020}, publisher={Elsevier} }



46. Dong Y, Zhao X, Tong Y, et al. Service Optimization of Internet of Manufacturing Things Based on Mixed Information Axioms[J]. IEEE Access, 2018, 6: 53254-53264.

[BibTeX] [DOI]

BibTeX: @article{dong2018service, title={Service Optimization of Internet of Manufacturing Things Based on Mixed Information Axioms}, author={Dong, Ying and Zhao, Xiaojun and Tong, Yifei and Li, Dong-Bo}, journal={IEEE Access}, volume={6}, pages={53254--53264}, year={2018}, publisher={IEEE} }



47. Esfahani N, Malek S. Uncertainty in self-adaptive software systems[M]//Software Engineering for Self-Adaptive Systems II. Springer, Berlin, Heidelberg, 2013: 214-238.

[BibTeX] [DOI]

BibTeX: @incollection{esfahani2013uncertainty, title={Uncertainty in self-adaptive software systems}, author={Esfahani, Naeem and Malek, Sam}, booktitle={Software Engineering for Self-Adaptive Systems II}, pages={214--238}, year={2013}, publisher={Springer} }



48. Esteves J A R, Pousinho H M I, Mendes V M F. Stochastic Optimal Operation of Concentrating Solar Power Plants Based on Conditional Value-at-Risk[C]//Doctoral Conference on Computing, Electrical and Industrial Systems. Springer, Cham, 2017: 348-357.

[BibTeX] [DOI]

BibTeX: @inproceedings{esteves2017stochastic, title={Stochastic Optimal Operation of Concentrating Solar Power Plants Based on Conditional Value-at-Risk}, author={Esteves, Jo{\~a}o AR and Pousinho, Hugo MI and Mendes, Victor MF}, booktitle={Doctoral Conference on Computing, Electrical and Industrial Systems}, pages={348--357}, year={2017}, organization={Springer} }



49. Etuk A, Norman T J, Bisdikian C, et al. TAF: A trust assessment framework for inferencing with uncertain streaming information[C]//2013 IEEE International Conference on Pervasive Computing and Communications Workshops (PERCOM Workshops). IEEE, 2013: 475-480.

[BibTeX] [DOI]

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BibTeX: @article{qi2016ellipse, title={Ellipse fitting model for improving the effectiveness of life-logging physical activity measures in an Internet of Things environment}, author={Qi, Jun and Yang, Po and Hanneghan, Martin and Fan, Dina and Deng, Zhikun and Dong, Feng}, journal={Iet Networks}, volume={5}, number={5}, pages={107--113}, year={2016}, publisher={IET} }



101. Ramparany F, Mondi R, Demazeau Y. A semantic approach for managing trust and uncertainty in distributed systems environments[C]//2016 21st International Conference on Engineering of Complex Computer Systems (ICECCS). IEEE, 2016: 63-70.

[BibTeX] [DOI]

BibTeX: @inproceedings{ramparany2016semantic, title={A semantic approach for managing trust and uncertainty in distributed systems environments}, author={Ramparany, Fano and Mondi, Ravi and Demazeau, Yves}, booktitle={2016 21st International Conference on Engineering of Complex Computer Systems (ICECCS)}, pages={63--70}, year={2016}, organization={IEEE} }



102. Ratasich D, Platzer M, Grosu R, et al. Adaptive Fault Detection exploiting Redundancy with Uncertainties in Space and Time[C]//2019 IEEE 13th International Conference on Self-Adaptive and Self-Organizing Systems (SASO). IEEE, 2019: 23-32.

[BibTeX] [DOI]

BibTeX: @inproceedings{ratasich2019adaptive, title={Adaptive Fault Detection exploiting Redundancy with Uncertainties in Space and Time}, author={Ratasich, Denise and Platzer, Michael and Grosu, Radu and Bartocci, Ezio}, booktitle={2019 IEEE 13th International Conference on Self-Adaptive and Self-Organizing Systems (SASO)}, pages={23--32}, year={2019}, organization={IEEE} }



103. Ravi M, Demazeau Y, Ramparany F. Reasoning with trust and uncertainty illustration in the internet of things[C]//2015 IEEE/WIC/ACM International Conference on Web Intelligence and Intelligent Agent Technology (WI-IAT). IEEE, 2015, 2: 125-128.

[BibTeX] [DOI]

BibTeX: @inproceedings{ravi2015reasoning, title={Reasoning with trust and uncertainty illustration in the internet of things}, author={Ravi, Mondi and Demazeau, Yves and Ramparany, Fano}, booktitle={2015 IEEE/WIC/ACM International Conference on Web Intelligence and Intelligent Agent Technology (WI-IAT)}, volume={2}, pages={125--128}, year={2015}, organization={IEEE} }



104. Rostampour V, Ferrari R, Teixeira A M H, et al. Differentially-private distributed fault diagnosis for large-scale nonlinear uncertain systems[J]. IFAC-PapersOnLine, 2018, 51(24): 975-982.

[BibTeX] [DOI]

BibTeX: @article{rostampour2018differentially, title={Differentially-private distributed fault diagnosis for large-scale nonlinear uncertain systems}, author={Rostampour, Vahab and Ferrari, Riccardo and Teixeira, Andr{\'e} MH and Keviczky, Tam{\'a}s}, journal={IFAC-PapersOnLine}, volume={51}, number={24}, pages={975--982}, year={2018}, publisher={Elsevier} }



105. Ruchkin I, Rao A, De Niz D, et al. Eliminating inter-domain vulnerabilities in cyber-physical systems: An analysis contracts approach[C]//Proceedings of the First ACM Workshop on Cyber-Physical Systems-Security and/or PrivaCy. 2015: 11-22.

[BibTeX] [DOI]

BibTeX: @inproceedings{ruchkin2015eliminating, title={Eliminating inter-domain vulnerabilities in cyber-physical systems: An analysis contracts approach}, author={Ruchkin, Ivan and Rao, Ashwini and De Niz, Dionisio and Chaki, Sagar and Garlan, David}, booktitle={Proceedings of the First ACM Workshop on Cyber-Physical Systems-Security and/or PrivaCy}, pages={11--22}, year={2015} }



106. Ruchkin V, Fulin V, Kostrov B, et al. Forest fire monitoring by means of cyber-physical system[C]//2016 5th Mediterranean Conference on Embedded Computing (MECO). IEEE, 2016: 30-34.

[BibTeX] [DOI]

BibTeX: @inproceedings{ruchkin2016forest, title={Forest fire monitoring by means of cyber-physical system}, author={Ruchkin, Vladimir and Fulin, Vladimir and Kostrov, Boris and Taganov, Aleksandr and Kolesenkov, Aleksandr}, booktitle={2016 5th Mediterranean Conference on Embedded Computing (MECO)}, pages={30--34}, year={2016}, organization={IEEE} }



107. Ruchkin V, Romanchuk V, Kostrov B, et al. Smart monitoring of the emergencies by cyber-physical systems[C]//2018 ELEKTRO. IEEE, 2018: 1-5.

[BibTeX] [DOI]

BibTeX: @inproceedings{ruchkin2018smart, title={Smart monitoring of the emergencies by cyber-physical systems}, author={Ruchkin, Vladimir and Romanchuk, Vitaly and Kostrov, Boris and Kolesenkov, Aleksandr and Ruchkina, Ekaterina}, booktitle={2018 ELEKTRO}, pages={1--5}, year={2018}, organization={IEEE} }



108. Saeedi R, Fallahzadeh R, Alinia P, et al. An energy-efficient computational model for uncertainty management in dynamically changing networked wearables[C]//Proceedings of the 2016 International Symposium on Low Power Electronics and Design. 2016: 46-51.

[BibTeX] [DOI]

BibTeX: @inproceedings{saeedi2016energy, title={An energy-efficient computational model for uncertainty management in dynamically changing networked wearables}, author={Saeedi, Ramyar and Fallahzadeh, Ramin and Alinia, Parastoo and Ghasemzadeh, Hassan}, booktitle={Proceedings of the 2016 International Symposium on Low Power Electronics and Design}, pages={46--51}, year={2016} }



109. Schneider M A, Wendland M F, Bornemann L. Gaining Certainty About Uncertainty[C]//International Workshop on Risk Assessment and Risk-driven Testing. Springer, Cham, 2016: 129-142.

[BibTeX] [DOI]

BibTeX: @inproceedings{schneider2016gaining, title={Gaining Certainty About Uncertainty}, author={Schneider, Martin A and Wendland, Marc-Florian and Bornemann, Leon}, booktitle={International Workshop on Risk Assessment and Risk-driven Testing}, pages={129--142}, year={2016}, organization={Springer} }



110. Shariatmadar K, Misra A, Debrouwere F, et al. Optimal modelling of process variations in industry 4.0 facility under advanced p-box uncertainty[C]//2019 IEEE Student Conference on Research and Development (SCOReD). IEEE, 2019: 180-185.

[BibTeX] [DOI]

BibTeX: @inproceedings{shariatmadar2019optimal, title={Optimal modelling of process variations in industry 4.0 facility under advanced p-box uncertainty}, author={Shariatmadar, Keivan and Misra, Ashwin and Debrouwere, Frederik and Versteyhe, Mark}, booktitle={2019 IEEE Student Conference on Research and Development (SCOReD)}, pages={180--185}, year={2019}, organization={IEEE} }



111. Sharifloo A M, Metzger A. Mcaas: Model checking in the cloud for assurances of adaptive systems[M]//Software Engineering for Self-Adaptive Systems III. Assurances. Springer, Cham, 2017: 137-153.

[BibTeX] [DOI]

BibTeX: @incollection{sharifloo2017mcaas, title={Mcaas: Model checking in the cloud for assurances of adaptive systems}, author={Sharifloo, Amir Molzam and Metzger, Andreas}, booktitle={Software Engineering for Self-Adaptive Systems III. Assurances}, pages={137--153}, year={2017}, publisher={Springer} }



112. Shevtsov S, Weyns D, Maggio M. SimCA* A Control-theoretic Approach to Handle Uncertainty in Self-adaptive Systems with Guarantees[J]. ACM Transactions on Autonomous and Adaptive Systems (TAAS), 2019, 13(4): 1-34.

[BibTeX] [DOI]

BibTeX: @article{shevtsov2019simca, title={SimCA* A Control-theoretic Approach to Handle Uncertainty in Self-adaptive Systems with Guarantees}, author={Shevtsov, Stepan and Weyns, Danny and Maggio, Martina}, journal={ACM Transactions on Autonomous and Adaptive Systems (TAAS)}, volume={13}, number={4}, pages={1--34}, year={2019}, publisher={ACM New York, NY, USA} }



113. Shin, Seung Yeob, et al. "Test case prioritization for acceptance testing of cyber physical systems: a multi-objective search-based approach." Proceedings of the 27th ACM SIGSOFT International Symposium on Software Testing and Analysis. 2018.

[BibTeX] [DOI]

BibTeX: @inproceedings{shin2018test, title={Test case prioritization for acceptance testing of cyber physical systems: a multi-objective search-based approach}, author={Shin, Seung Yeob and Nejati, Shiva and Sabetzadeh, Mehrdad and Briand, Lionel C and Zimmer, Frank}, booktitle={Proceedings of the 27th ACM SIGSOFT International Symposium on Software Testing and Analysis}, pages={49--60}, year={2018} }



114. Song, Junsup, Yeongbok Choe, and Moonkun Lee. "Application of probabilistic process model for smart factory systems." International Conference on Knowledge Science, Engineering and Management. Springer, Cham, 2019.

[BibTeX] [DOI]

BibTeX: @inproceedings{song2019application, title={Application of probabilistic process model for smart factory systems}, author={Song, Junsup and Choe, Yeongbok and Lee, Moonkun}, booktitle={International Conference on Knowledge Science, Engineering and Management}, pages={25--36}, year={2019}, organization={Springer} }



115. Song, Wei, et al. "RFID Based Real-Time Manufacturing Information Perception and Processing." International Conference on Algorithms and Architectures for Parallel Processing. Springer, Cham, 2013.

[BibTeX] [DOI]

BibTeX: @inproceedings{song2013rfid, title={RFID Based Real-Time Manufacturing Information Perception and Processing}, author={Song, Wei and Li, Wenfeng and Fu, Xiuwen and Cao, Yulian and Yang, Lin}, booktitle={International Conference on Algorithms and Architectures for Parallel Processing}, pages={303--310}, year={2013}, organization={Springer} }



116. Taghavifar, Hamid, and Subhash Rakheja. "Path-tracking of autonomous vehicles using a novel adaptive robust exponential-like-sliding-mode fuzzy type-2 neural network controller." Mechanical Systems and Signal Processing 130 (2019): 41-55.

[BibTeX] [DOI]

BibTeX: @article{taghavifar2019path, title={Path-tracking of autonomous vehicles using a novel adaptive robust exponential-like-sliding-mode fuzzy type-2 neural network controller}, author={Taghavifar, Hamid and Rakheja, Subhash}, journal={Mechanical Systems and Signal Processing}, volume={130}, pages={41--55}, year={2019}, publisher={Elsevier} }



117. Tan, Rui, et al. "Adaptive calibration for fusion-based cyber-physical systems." ACM Transactions on Embedded Computing Systems (TECS) 11.4 (2013): 1-25.

[BibTeX] [DOI]

BibTeX: @article{tan2013adaptive, title={Adaptive calibration for fusion-based cyber-physical systems}, author={Tan, Rui and Xing, Guoliang and Liu, Xue and Yao, Jianguo and Yuan, Zhaohui}, journal={ACM Transactions on Embedded Computing Systems (TECS)}, volume={11}, number={4}, pages={1--25}, year={2013}, publisher={ACM New York, NY, USA} }



118. Truong, Hong-Linh, and Luca Berardinelli. "Testing uncertainty of cyber-physical systems in IoT cloud infrastructures: combining model-driven engineering and elastic execution." Proceedings of the 1st ACM SIGSOFT International Workshop on Testing Embedded and Cyber-Physical Systems. 2017.

[BibTeX] [DOI]

BibTeX: @inproceedings{truong2017testing, title={Testing uncertainty of cyber-physical systems in IoT cloud infrastructures: combining model-driven engineering and elastic execution}, author={Truong, Hong-Linh and Berardinelli, Luca}, booktitle={Proceedings of the 1st ACM SIGSOFT International Workshop on Testing Embedded and Cyber-Physical Systems}, pages={5--8}, year={2017} }



119. Tsigkanos, Christos, Timo Kehrer, and Carlo Ghezzi. "Architecting dynamic cyber-physical spaces." Computing 98.10 (2016): 1011-1040.

[BibTeX] [DOI]

BibTeX: @article{tsigkanos2016architecting, title={Architecting dynamic cyber-physical spaces}, author={Tsigkanos, Christos and Kehrer, Timo and Ghezzi, Carlo}, journal={Computing}, volume={98}, number={10}, pages={1011--1040}, year={2016}, publisher={Springer} }



120. Viswanathan, Hariharasudhan, Eun Kyung Lee, and Dario Pompili. "Mobile grid computing for data-and patient-centric ubiquitous healthcare." 2012 The First IEEE Workshop on Enabling Technologies for Smartphone and Internet of Things (ETSIoT). IEEE, 2012.

[BibTeX] [DOI]

BibTeX: @inproceedings{viswanathan2012mobile, title={Mobile grid computing for data-and patient-centric ubiquitous healthcare}, author={Viswanathan, Hariharasudhan and Lee, Eun Kyung and Pompili, Dario}, booktitle={2012 The First IEEE Workshop on Enabling Technologies for Smartphone and Internet of Things (ETSIoT)}, pages={36--41}, year={2012}, organization={IEEE} }



121. Vrbaski, Mira, Miodrag Bolic, and Shikharesh Majumdar. "Complex event recognition notification methodology for uncertain IoT systems based on micro-service architecture." 2018 IEEE 6th International Conference on Future Internet of Things and Cloud (FiCloud). IEEE, 2018.

[BibTeX] [DOI]

BibTeX: @inproceedings{vrbaski2018complex, title={Complex event recognition notification methodology for uncertain IoT systems based on micro-service architecture}, author={Vrbaski, Mira and Bolic, Miodrag and Majumdar, Shikharesh}, booktitle={2018 IEEE 6th International Conference on Future Internet of Things and Cloud (FiCloud)}, pages={184--191}, year={2018}, organization={IEEE} }



122. Wang, Qinsi, et al. "Sreach: A probabilistic bounded delta-reachability analyzer for stochastic hybrid systems." International Conference on Computational Methods in Systems Biology. Springer, Cham, 2015.

[BibTeX] [DOI]

BibTeX: @inproceedings{wang2015sreach, title={Sreach: A probabilistic bounded delta-reachability analyzer for stochastic hybrid systems}, author={Wang, Qinsi and Zuliani, Paolo and Kong, Soonho and Gao, Sicun and Clarke, Edmund M}, booktitle={International Conference on Computational Methods in Systems Biology}, pages={15--27}, year={2015}, organization={Springer} }



123. Wang W, Hong T, Li N, et al. Linking energy-cyber-physical systems with occupancy prediction and interpretation through WiFi probe-based ensemble classification[J]. Applied energy, 2019, 236: 55-69.

[BibTeX] [DOI]

BibTeX: @article{wang2019linking, title={Linking energy-cyber-physical systems with occupancy prediction and interpretation through WiFi probe-based ensemble classification}, author={Wang, Wei and Hong, Tianzhen and Li, Nan and Wang, Ryan Qi and Chen, Jiayu}, journal={Applied energy}, volume={236}, pages={55--69}, year={2019}, publisher={Elsevier} }



124. Wang X, Hovakimyan N, Sha L. RSimplex: a robust control architecture for cyber and physical failures[J]. ACM Transactions on Cyber-Physical Systems, 2018, 2(4): 1-26.

[BibTeX] [DOI]

BibTeX: @article{wang2018rsimplex, title={RSimplex: a robust control architecture for cyber and physical failures}, author={Wang, Xiaofeng and Hovakimyan, Naira and Sha, Lui}, journal={ACM Transactions on Cyber-Physical Systems}, volume={2}, number={4}, pages={1--26}, year={2018}, publisher={ACM New York, NY, USA} }



125. Wei T, Zhou J, Cao K, et al. Cost-constrained QoS optimization for approximate computation real-time tasks in heterogeneous MPSoCs[J]. IEEE Transactions on Computer-Aided Design of Integrated Circuits and Systems, 2017, 37(9): 1733-1746.

[BibTeX] [DOI]

BibTeX: @article{wei2017cost, title={Cost-constrained QoS optimization for approximate computation real-time tasks in heterogeneous MPSoCs}, author={Wei, Tongquan and Zhou, Junlong and Cao, Kun and Cong, Peijin and Chen, Mingsong and Zhang, Gongxuan and Hu, Xiaobo Sharon and Yan, Jianming}, journal={IEEE Transactions on Computer-Aided Design of Integrated Circuits and Systems}, volume={37}, number={9}, pages={1733--1746}, year={2017}, publisher={IEEE} }



126. Xie D, Sheng Q Z, Ma J, et al. A framework for processing uncertain RFID data in supply chain management[C]//International Conference on Web Information Systems Engineering. Springer, Berlin, Heidelberg, 2013: 396-409.

[BibTeX] [DOI]

BibTeX: @inproceedings{xie2013framework, title={A framework for processing uncertain RFID data in supply chain management}, author={Xie, Dong and Sheng, Quan Z and Ma, Jiangang and Cheng, Yun and Qin, Yongrui and Zeng, Rui}, booktitle={International Conference on Web Information Systems Engineering}, pages={396--409}, year={2013}, organization={Springer} }



127. Xie P, Feng J, Cao Z, et al. GeneWave: Fast authentication and key agreement on commodity mobile devices[J]. IEEE/ACM Transactions on Networking, 2018, 26(4): 1688-1700.

[BibTeX] [DOI]

BibTeX: @article{xie2018genewave, title={GeneWave: Fast authentication and key agreement on commodity mobile devices}, author={Xie, Pengjin and Feng, Jingchao and Cao, Zhichao and Wang, Jiliang}, journal={IEEE/ACM Transactions on Networking}, volume={26}, number={4}, pages={1688--1700}, year={2018}, publisher={IEEE} }



128. Xu S, Miao W, Kunz T, et al. Quantitative analysis of variation-aware Internet of Things designs using statistical model checking[C]//2016 IEEE International Conference on Software Quality, Reliability and Security (QRS). IEEE, 2016: 274-285.

[BibTeX] [DOI]

BibTeX: @inproceedings{xu2016quantitative, title={Quantitative analysis of variation-aware Internet of Things designs using statistical model checking}, author={Xu, Siyuan and Miao, Weikai and Kunz, Thomas and Wei, Tongquan and Chen, Mingsong}, booktitle={2016 IEEE International Conference on Software Quality, Reliability and Security (QRS)}, pages={274--285}, year={2016}, organization={IEEE} }



129. Xu Z, Julius A A. Robust temporal logic inference for provably correct fault detection and privacy preservation of switched systems[J]. IEEE Systems Journal, 2019, 13(3): 3010-3021.

[BibTeX] [DOI]

BibTeX: @article{xu2019robust, title={Robust temporal logic inference for provably correct fault detection and privacy preservation of switched systems}, author={Xu, Zhe and Julius, A Agung}, journal={IEEE Systems Journal}, volume={13}, number={3}, pages={3010--3021}, year={2019}, publisher={IEEE} }



130. Yachir A, Amirat Y, Chibani A, et al. Event-aware framework for dynamic services discovery and selection in the context of ambient intelligence and Internet of Things[J]. IEEE Transactions on Automation Science and Engineering, 2015, 13(1): 85-102.

[BibTeX] [DOI]

BibTeX: @article{yachir2015event, title={Event-aware framework for dynamic services discovery and selection in the context of ambient intelligence and Internet of Things}, author={Yachir, Ali and Amirat, Yacine and Chibani, Abdelghani and Badache, Nadjib}, journal={IEEE Transactions on Automation Science and Engineering}, volume={13}, number={1}, pages={85--102}, year={2015}, publisher={IEEE} }



131. Yang P, Hanneghan M, Qi J, et al. Improving the validity of lifelogging physical activity measures in an internet of things environment[C]//2015 IEEE International Conference on Computer and Information Technology; Ubiquitous Computing and Communications; Dependable, Autonomic and Secure Computing; Pervasive Intelligence and Computing. IEEE, 2015: 2309-2314.

[BibTeX] [DOI]

BibTeX: @inproceedings{yang2015improving, title={Improving the validity of lifelogging physical activity measures in an internet of things environment}, author={Yang, Po and Hanneghan, Martin and Qi, Jun and Deng, Zhikun and Dong, Feng and Fan, Dina}, booktitle={2015 IEEE International Conference on Computer and Information Technology; Ubiquitous Computing and Communications; Dependable, Autonomic and Secure Computing; Pervasive Intelligence and Computing}, pages={2309--2314}, year={2015}, organization={IEEE} }



132. Yang P, Stankevicius D, Marozas V, et al. Lifelogging data validation model for internet of things enabled personalized healthcare[J]. IEEE Transactions on Systems, Man, and Cybernetics: Systems, 2016, 48(1): 50-64.

[BibTeX] [DOI]

BibTeX: @article{yang2016lifelogging, title={Lifelogging data validation model for internet of things enabled personalized healthcare}, author={Yang, Po and Stankevicius, Dainius and Marozas, Vaidotas and Deng, Zhikun and Liu, Enjie and Lukosevicius, Arunas and Dong, Feng and Xu, Lida and Min, Geyong}, journal={IEEE Transactions on Systems, Man, and Cybernetics: Systems}, volume={48}, number={1}, pages={50--64}, year={2016}, publisher={IEEE} }



133. Yang Z, Wu M, Lin W. An efficient framework for barrier certificate generation of uncertain nonlinear hybrid systems[J]. Nonlinear Analysis: Hybrid Systems, 2020, 36: 100837.

[BibTeX] [DOI]

BibTeX: @article{yang2020efficient, title={An efficient framework for barrier certificate generation of uncertain nonlinear hybrid systems}, author={Yang, Zhengfeng and Wu, Min and Lin, Wang}, journal={Nonlinear Analysis: Hybrid Systems}, volume={36}, pages={100837}, year={2020}, publisher={Elsevier} }



134. Yue X, Chen Y. Strategy optimization of supply chain enterprises based on fuzzy decision making model in internet of things[J]. IEEE Access, 2018, 6: 70378-70387.

[BibTeX] [DOI]

BibTeX: @article{yue2018strategy, title={Strategy optimization of supply chain enterprises based on fuzzy decision making model in internet of things}, author={Yue, Xiaoyun and Chen, Yehua}, journal={IEEE Access}, volume={6}, pages={70378--70387}, year={2018}, publisher={IEEE} }



135. Zavala E, Franch X, Marco J, et al. SACRE: Supporting contextual requirements’ adaptation in modern self-adaptive systems in the presence of uncertainty at runtime[J]. Expert Systems with Applications, 2018, 98: 166-188.

[BibTeX] [DOI]

BibTeX: @article{zavala2018sacre, title={SACRE: Supporting contextual requirements’ adaptation in modern self-adaptive systems in the presence of uncertainty at runtime}, author={Zavala, Edith and Franch, Xavier and Marco, Jordi and Knauss, Alessia and Damian, Daniela}, journal={Expert Systems with Applications}, volume={98}, pages={166--188}, year={2018}, publisher={Elsevier} }



136. Zhang K, Qu T, Zhou D, et al. Digital twin-based opti-state control method for a synchronized production operation system[J]. Robotics and Computer-Integrated Manufacturing, 2020, 63: 101892.

[BibTeX] [DOI]

BibTeX: @article{zhang2020digital, title={Digital twin-based opti-state control method for a synchronized production operation system}, author={Zhang, Kai and Qu, Ting and Zhou, Dajian and Jiang, Hongfei and Lin, Yuanxin and Li, Peize and Guo, Hongfei and Liu, Yang and Li, Congdong and Huang, George Q}, journal={Robotics and Computer-Integrated Manufacturing}, volume={63}, pages={101892}, year={2020}, publisher={Elsevier} }



137. Zhang M, Ali S, Yue T. Uncertainty-wise test case generation and minimization for cyber-physical systems[J]. Journal of Systems and Software, 2019, 153: 1-21.

[BibTeX] [DOI]

BibTeX: @article{zhang2019uncertainty, title={Uncertainty-wise test case generation and minimization for cyber-physical systems}, author={Zhang, Man and Ali, Shaukat and Yue, Tao}, journal={Journal of Systems and Software}, volume={153}, pages={1--21}, year={2019}, publisher={Elsevier} }



138. Zhang M, Ali S, Yue T, et al. Uncertainty-wise evolution of test ready models[J]. Information and Software Technology, 2017, 87: 140-159.

[BibTeX] [DOI]

BibTeX: @article{zhang2017uncertainty, title={Uncertainty-wise evolution of test ready models}, author={Zhang, Man and Ali, Shaukat and Yue, Tao and Norgre, Roland}, journal={Information and Software Technology}, volume={87}, pages={140--159}, year={2017}, publisher={Elsevier} }



139. Zhang M, Ali S, Yue T, et al. Uncertainty-wise cyber-physical system test modeling[J]. Software & Systems Modeling, 2019, 18(2): 1379-1418.

[BibTeX] [DOI]

BibTeX: @article{zhang2019uncertainty, title={Uncertainty-wise cyber-physical system test modeling}, author={Zhang, Man and Ali, Shaukat and Yue, Tao and Norgren, Roland and Okariz, Oscar}, journal={Software \& Systems Modeling}, volume={18}, number={2}, pages={1379--1418}, year={2019}, publisher={Springer} }



140. Zhang M, Selic B, Ali S, et al. Understanding uncertainty in cyber-physical systems: a conceptual model[C]//European conference on modelling foundations and applications. Springer, Cham, 2016: 247-264.

[BibTeX] [DOI]

BibTeX: @inproceedings{zhang2016understanding, title={Understanding uncertainty in cyber-physical systems: a conceptual model}, author={Zhang, Man and Selic, Bran and Ali, Shaukat and Yue, Tao and Okariz, Oscar and Norgren, Roland}, booktitle={European conference on modelling foundations and applications}, pages={247--264}, year={2016}, organization={Springer} }



141. Cámara J, Peng W, Garlan D, et al. Reasoning about sensing uncertainty and its reduction in decision-making for self-adaptation[J]. Science of Computer Programming, 2018, 167: 51-69.

[BibTeX] [DOI]

BibTeX: @article{camara2018reasoning, title={Reasoning about sensing uncertainty and its reduction in decision-making for self-adaptation}, author={C{\'a}mara, Javier and Peng, Wenxin and Garlan, David and Schmerl, Bradley}, journal={Science of Computer Programming}, volume={167}, pages={51--69}, year={2018}, publisher={Elsevier} }



142. Van Der Donckt J, Weyns D, Iftikhar M U, et al. Effective Decision Making in Self-adaptive Systems Using Cost-Benefit Analysis at Runtime and Online Learning of Adaptation Spaces[C]//International Conference on Evaluation of Novel Approaches to Software Engineering. Springer, Cham, 2018: 373-403.

[BibTeX] [DOI]

BibTeX: @inproceedings{van2018effective, title={Effective Decision Making in Self-adaptive Systems Using Cost-Benefit Analysis at Runtime and Online Learning of Adaptation Spaces}, author={Van Der Donckt, Jeroen and Weyns, Danny and Iftikhar, M Usman and Buttar, Sarpreet Singh}, booktitle={International Conference on Evaluation of Novel Approaches to Software Engineering}, pages={373--403}, year={2018}, organization={Springer} }

The works ananlyzing Complex System Uncertainty Documentation can be roughly divided into four categories:

1 In which complex systems the uncertainty appears:

(1.1) Cyber-Physical System:

1. Agarwal S, Pape L E, Dagli C H, et al. Flexible and intelligent learning architectures for sos (fila-sos): Architectural evolution in systems-of-systems[J]. Procedia Computer Science, 2015, 44(C): 76-85.

[BibTeX] [DOI]

BibTeX: @article{agarwal2015flexible, title={Flexible and intelligent learning architectures for sos (fila-sos): Architectural evolution in systems-of-systems}, author={Agarwal, Siddhartha and Pape, Louis E and Dagli, Cihan H and Ergin, Nil K and Enke, David and Gosavi, Abhijit and Qin, Ruwen and Konur, Dincer and Wang, Renzhong and Gottapu, Ram Deepak}, journal={Procedia Computer Science}, volume={44}, number={C}, pages={76--85}, year={2015}, publisher={Elsevier BV} }



2. AAgeeva L, Majidi M, Pozo D. Analysis of feasibility region of active distribution networks[C]//2019 International Youth Conference on Radio Electronics, Electrical and Power Engineering (REEPE). IEEE, 2019: 1-5.

[BibTeX] [DOI]

BibTeX: @inproceedings{ageeva2019analysis, title={Analysis of feasibility region of active distribution networks}, author={Ageeva, Liliia and Majidi, Maryam and Pozo, David}, booktitle={2019 International Youth Conference on Radio Electronics, Electrical and Power Engineering (REEPE)}, pages={1--5}, year={2019}, organization={IEEE} }



3. Ahmad M, Gnaho C, Bruel J M, et al. Towards a Requirements Engineering Approach for Capturing Uncertainty in Cyber-Physical Systems Environment[C]//International Conference on Model and Data Engineering. Springer, Cham, 2018: 115-129.

[BibTeX] [DOI]

BibTeX: @inproceedings{ahmad2018towards, title={Towards a Requirements Engineering Approach for Capturing Uncertainty in Cyber-Physical Systems Environment}, author={Ahmad, Manzoor and Gnaho, Christophe and Bruel, Jean-Michel and Laleau, R{\'e}gine}, booktitle={International Conference on Model and Data Engineering}, pages={115--129}, year={2018}, organization={Springer} }



4. Aichernig B K, Burghard C, Korošec R. Learning-based testing of an industrial measurement device[C]//NASA Formal Methods Symposium. Springer, Cham, 2019: 1-18.

[BibTeX] [DOI]

BibTeX: @inproceedings{aichernig2019learning, title={Learning-based testing of an industrial measurement device}, author={Aichernig, Bernhard K and Burghard, Christian and Koro{\v{s}}ec, Robert}, booktitle={NASA Formal Methods Symposium}, pages={1--18}, year={2019}, organization={Springer} }



5. Ali S, Li Y, Yue T, et al. An empirical evaluation of mutation and crossover operators for multi-objective uncertainty-wise test minimization[C]//2017 IEEE/ACM 10th International Workshop on Search-Based Software Testing (SBST). IEEE, 2017: 21-27.

[BibTeX] [DOI]

BibTeX: @inproceedings{ali2017empirical, title={An empirical evaluation of mutation and crossover operators for multi-objective uncertainty-wise test minimization}, author={Ali, Shaukat and Li, Yan and Yue, Tao and Zhang, Man}, booktitle={2017 IEEE/ACM 10th International Workshop on Search-Based Software Testing (SBST)}, pages={21--27}, year={2017}, organization={IEEE} }



6. Ali S, Lu H, Wang S, et al. Uncertainty-wise testing of cyber-physical systems[M]//Advances in Computers. Elsevier, 2017, 107: 23-94.

[BibTeX] [DOI]

BibTeX: @incollection{ali2017uncertainty, title={Uncertainty-wise testing of cyber-physical systems}, author={Ali, Shaukat and Lu, Hong and Wang, Shuai and Yue, Tao and Zhang, Man}, booktitle={Advances in Computers}, volume={107}, pages={23--94}, year={2017}, publisher={Elsevier} }



7. Amir M, Givargis T. Hybrid state machine model for fast model predictive control: Application to path tracking[C]//2017 IEEE/ACM International Conference on Computer-Aided Design (ICCAD). IEEE, 2017: 185-192.

[BibTeX] [DOI]

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60. Truong, Hong-Linh, and Luca Berardinelli. "Testing uncertainty of cyber-physical systems in IoT cloud infrastructures: combining model-driven engineering and elastic execution." Proceedings of the 1st ACM SIGSOFT International Workshop on Testing Embedded and Cyber-Physical Systems. 2017.

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61. Wang, Qinsi, et al. "Sreach: A probabilistic bounded delta-reachability analyzer for stochastic hybrid systems." International Conference on Computational Methods in Systems Biology. Springer, Cham, 2015.

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62. Wang W, Hong T, Li N, et al. Linking energy-cyber-physical systems with occupancy prediction and interpretation through WiFi probe-based ensemble classification[J]. Applied energy, 2019, 236: 55-69.

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63. Wang X, Hovakimyan N, Sha L. RSimplex: a robust control architecture for cyber and physical failures[J]. ACM Transactions on Cyber-Physical Systems, 2018, 2(4): 1-26.

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64. Xu Z, Julius A A. Robust temporal logic inference for provably correct fault detection and privacy preservation of switched systems[J]. IEEE Systems Journal, 2019, 13(3): 3010-3021.

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65. Yang Z, Wu M, Lin W. An efficient framework for barrier certificate generation of uncertain nonlinear hybrid systems[J]. Nonlinear Analysis: Hybrid Systems, 2020, 36: 100837.

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66. Zhang K, Qu T, Zhou D, et al. Digital twin-based opti-state control method for a synchronized production operation system[J]. Robotics and Computer-Integrated Manufacturing, 2020, 63: 101892.

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67. Zhang M, Ali S, Yue T. Uncertainty-wise test case generation and minimization for cyber-physical systems[J]. Journal of Systems and Software, 2019, 153: 1-21.

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68. Zhang M, Ali S, Yue T, et al. Uncertainty-wise evolution of test ready models[J]. Information and Software Technology, 2017, 87: 140-159.

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69. Zhang M, Ali S, Yue T, et al. Uncertainty-wise cyber-physical system test modeling[J]. Software & Systems Modeling, 2019, 18(2): 1379-1418.

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(1.2) Internet of Things:

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2. Akbar A, Kousiouris G, Pervaiz H, et al. Real-time probabilistic data fusion for large-scale IoT applications[J]. Ieee Access, 2018, 6: 10015-10027.

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3. Alhakami W, ALharbi A, Bourouis S, et al. Network anomaly intrusion detection using a nonparametric Bayesian approach and feature selection[J]. IEEE Access, 2019, 7: 52181-52190.

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4. Al-Turjman F, Zahmatkesh H, Mostarda L. Quantifying uncertainty in internet of medical things and big-data services using intelligence and deep learning[J]. IEEE Access, 2019, 7: 115749-115759.

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5. Bhattacharjee S, Salimitari M, Chatterjee M, et al. Preserving data integrity in iot networks under opportunistic data manipulation[C]//2017 IEEE 15th Intl Conf on Dependable, Autonomic and Secure Computing, 15th Intl Conf on Pervasive Intelligence and Computing, 3rd Intl Conf on Big Data Intelligence and Computing and Cyber Science and Technology Congress (DASC/PiCom/DataCom/CyberSciTech). IEEE, 2017: 446-453.

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12. Dilli R, Argou A, Pilla M, et al. Fuzzy logic and MCDA in IoT resources classification[C]//Proceedings of the 33rd Annual ACM Symposium on Applied Computing. 2018: 761-766.

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13. Dilli R, Argou A, Reiser R, et al. Iot resources ranking: Decision making under uncertainty combining machine learning and fuzzy logic[C]//North American Fuzzy Information Processing Society Annual Conference. Springer, Cham, 2018: 119-131.

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14. Dong Y, Zhao X, Tong Y, et al. Service Optimization of Internet of Manufacturing Things Based on Mixed Information Axioms[J]. IEEE Access, 2018, 6: 53254-53264.

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20. Jaribion, Alireza, et al. "[WiP] a novel method for big data analytics and summarization based on fuzzy similarity measure." 2018 IEEE 11th Conference on Service-Oriented Computing and Applications (SOCA). IEEE, 2018.

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21. Jarraya, Amina, et al. "FSCEP: a new model for context perception in smart homes." OTM Confederated International Conferences" On the Move to Meaningful Internet Systems". Springer, Cham, 2016.

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22. Kargin, Anatolii, and Tetyana Petrenko. "Abstraction as a Way of Uncertainty Representation in Smart Rules Engine." 2019 XIth International Scientific and Practical Conference on Electronics and Information Technologies (ELIT). IEEE, 2019.

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23. Katayama, Kei, and Hiroyuki Ohsaki. "Fluid-Based Modeling of Large-Scale IEEE 802.15. 4 Wireless Sensor Networks." 2019 IEEE 43rd Annual Computer Software and Applications Conference (COMPSAC). Vol. 2. IEEE, 2019.

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25. Li H, Zhang Y, Chen Y. PSTEP-A Novel Probabilistic Event Processing Language for Uncertain Spatio-temporal Event Streams of Internet of Vehicles[C]//2015 IEEE International Conference on Software Quality, Reliability and Security-Companion. IEEE, 2015: 161-168.

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BibTeX: @article{wei2017cost, title={Cost-constrained QoS optimization for approximate computation real-time tasks in heterogeneous MPSoCs}, author={Wei, Tongquan and Zhou, Junlong and Cao, Kun and Cong, Peijin and Chen, Mingsong and Zhang, Gongxuan and Hu, Xiaobo Sharon and Yan, Jianming}, journal={IEEE Transactions on Computer-Aided Design of Integrated Circuits and Systems}, volume={37}, number={9}, pages={1733--1746}, year={2017}, publisher={IEEE} }



39. Xie D, Sheng Q Z, Ma J, et al. A framework for processing uncertain RFID data in supply chain management[C]//International Conference on Web Information Systems Engineering. Springer, Berlin, Heidelberg, 2013: 396-409.

[BibTeX] [DOI]

BibTeX: @inproceedings{xie2013framework, title={A framework for processing uncertain RFID data in supply chain management}, author={Xie, Dong and Sheng, Quan Z and Ma, Jiangang and Cheng, Yun and Qin, Yongrui and Zeng, Rui}, booktitle={International Conference on Web Information Systems Engineering}, pages={396--409}, year={2013}, organization={Springer} }



40. Xie P, Feng J, Cao Z, et al. GeneWave: Fast authentication and key agreement on commodity mobile devices[J]. IEEE/ACM Transactions on Networking, 2018, 26(4): 1688-1700.

[BibTeX] [DOI]

BibTeX: @article{xie2018genewave, title={GeneWave: Fast authentication and key agreement on commodity mobile devices}, author={Xie, Pengjin and Feng, Jingchao and Cao, Zhichao and Wang, Jiliang}, journal={IEEE/ACM Transactions on Networking}, volume={26}, number={4}, pages={1688--1700}, year={2018}, publisher={IEEE} }



41. Xu S, Miao W, Kunz T, et al. Quantitative analysis of variation-aware Internet of Things designs using statistical model checking[C]//2016 IEEE International Conference on Software Quality, Reliability and Security (QRS). IEEE, 2016: 274-285.

[BibTeX] [DOI]

BibTeX: @inproceedings{xu2016quantitative, title={Quantitative analysis of variation-aware Internet of Things designs using statistical model checking}, author={Xu, Siyuan and Miao, Weikai and Kunz, Thomas and Wei, Tongquan and Chen, Mingsong}, booktitle={2016 IEEE International Conference on Software Quality, Reliability and Security (QRS)}, pages={274--285}, year={2016}, organization={IEEE} }



42. Yachir A, Amirat Y, Chibani A, et al. Event-aware framework for dynamic services discovery and selection in the context of ambient intelligence and Internet of Things[J]. IEEE Transactions on Automation Science and Engineering, 2015, 13(1): 85-102.

[BibTeX] [DOI]

BibTeX: @article{yachir2015event, title={Event-aware framework for dynamic services discovery and selection in the context of ambient intelligence and Internet of Things}, author={Yachir, Ali and Amirat, Yacine and Chibani, Abdelghani and Badache, Nadjib}, journal={IEEE Transactions on Automation Science and Engineering}, volume={13}, number={1}, pages={85--102}, year={2015}, publisher={IEEE} }



43. Yang P, Hanneghan M, Qi J, et al. Improving the validity of lifelogging physical activity measures in an internet of things environment[C]//2015 IEEE International Conference on Computer and Information Technology; Ubiquitous Computing and Communications; Dependable, Autonomic and Secure Computing; Pervasive Intelligence and Computing. IEEE, 2015: 2309-2314.

[BibTeX] [DOI]

BibTeX: @inproceedings{yang2015improving, title={Improving the validity of lifelogging physical activity measures in an internet of things environment}, author={Yang, Po and Hanneghan, Martin and Qi, Jun and Deng, Zhikun and Dong, Feng and Fan, Dina}, booktitle={2015 IEEE International Conference on Computer and Information Technology; Ubiquitous Computing and Communications; Dependable, Autonomic and Secure Computing; Pervasive Intelligence and Computing}, pages={2309--2314}, year={2015}, organization={IEEE} }



44. Yang P, Stankevicius D, Marozas V, et al. Lifelogging data validation model for internet of things enabled personalized healthcare[J]. IEEE Transactions on Systems, Man, and Cybernetics: Systems, 2016, 48(1): 50-64.

[BibTeX] [DOI]

BibTeX: @article{yang2016lifelogging, title={Lifelogging data validation model for internet of things enabled personalized healthcare}, author={Yang, Po and Stankevicius, Dainius and Marozas, Vaidotas and Deng, Zhikun and Liu, Enjie and Lukosevicius, Arunas and Dong, Feng and Xu, Lida and Min, Geyong}, journal={IEEE Transactions on Systems, Man, and Cybernetics: Systems}, volume={48}, number={1}, pages={50--64}, year={2016}, publisher={IEEE} }



45. Yue X, Chen Y. Strategy optimization of supply chain enterprises based on fuzzy decision making model in internet of things[J]. IEEE Access, 2018, 6: 70378-70387.

[BibTeX] [DOI]

BibTeX: @article{yue2018strategy, title={Strategy optimization of supply chain enterprises based on fuzzy decision making model in internet of things}, author={Yue, Xiaoyun and Chen, Yehua}, journal={IEEE Access}, volume={6}, pages={70378--70387}, year={2018}, publisher={IEEE} }

(1.3) Cyber-Physical System and Internet of Things:

1. Anwar F, D’souza S, Symington A, et al. Timeline: An operating system abstraction for time-aware applications[C]//2016 IEEE Real-Time Systems Symposium (RTSS). IEEE, 2016: 191-202.

[BibTeX] [DOI]

BibTeX: @inproceedings{anwar2016timeline, title={Timeline: An operating system abstraction for time-aware applications}, author={Anwar, Fatima and D’souza, Sandeep and Symington, Andrew and Dongare, Adwait and Rajkumar, Ragunathan and Rowe, Anthony and Srivastava, Mani}, booktitle={2016 IEEE Real-Time Systems Symposium (RTSS)}, pages={191--202}, year={2016}, organization={IEEE} }



2. Bertoa M F, Burgueño L, Moreno N, et al. Incorporating measurement uncertainty into OCL/UML primitive datatypes[J]. Software & Systems Modeling, 2019: 1-27.

[BibTeX] [DOI]

BibTeX: @article{bertoa2019incorporating, title={Incorporating measurement uncertainty into OCL/UML primitive datatypes}, author={Bertoa, Manuel F and Burgue{\~n}o, Loli and Moreno, Nathalie and Vallecillo, Antonio}, journal={Software \& Systems Modeling}, pages={1--27}, year={2019}, publisher={Springer} }



3. Bertoa M F, Moreno N, Barquero G, et al. Expressing measurement uncertainty in OCL/UML datatypes[C]//European Conference on Modelling Foundations and Applications. Springer, Cham, 2018: 46-62.

[BibTeX] [DOI]

BibTeX: @inproceedings{bertoa2018expressing, title={Expressing measurement uncertainty in OCL/UML datatypes}, author={Bertoa, Manuel F and Moreno, Nathalie and Barquero, Gala and Burgue{\~n}o, Loli and Troya, Javier and Vallecillo, Antonio}, booktitle={European Conference on Modelling Foundations and Applications}, pages={46--62}, year={2018}, organization={Springer} }



4. Bhadoria R S, Chaudhari N S, Samanta S. Uncertainty in sensor data acquisition for SOA system[J]. Neural Computing and Applications, 2018, 30(10): 3177-3187.

[BibTeX] [DOI]

BibTeX: @article{bhadoria2018uncertainty, title={Uncertainty in sensor data acquisition for SOA system}, author={Bhadoria, Robin Singh and Chaudhari, Narendra S and Samanta, Sovan}, journal={Neural Computing and Applications}, volume={30}, number={10}, pages={3177--3187}, year={2018}, publisher={Springer} }



5. Mönks U, Lohweg V, Dörksen H. Conflict Measures and Importance Weighting for Information Fusion Applied to Industry 4.0[M]//Information Quality in Information Fusion and Decision Making. Springer, Cham, 2019: 539-561.

[BibTeX] [DOI]

BibTeX: @incollection{monks2019conflict, title={Conflict Measures and Importance Weighting for Information Fusion Applied to Industry 4.0}, author={M{\"o}nks, Uwe and Lohweg, Volker and D{\"o}rksen, Helene}, booktitle={Information Quality in Information Fusion and Decision Making}, pages={539--561}, year={2019}, publisher={Springer} }



6. Pang J, Liu D, Peng Y, et al. Anomaly detection based on uncertainty fusion for univariate monitoring series[J]. Measurement, 2017, 95: 280-292.

[BibTeX] [DOI]

BibTeX: @article{pang2017anomaly, title={Anomaly detection based on uncertainty fusion for univariate monitoring series}, author={Pang, Jingyue and Liu, Datong and Peng, Yu and Peng, Xiyuan}, journal={Measurement}, volume={95}, pages={280--292}, year={2017}, publisher={Elsevier} }



7. Ratasich D, Platzer M, Grosu R, et al. Adaptive Fault Detection exploiting Redundancy with Uncertainties in Space and Time[C]//2019 IEEE 13th International Conference on Self-Adaptive and Self-Organizing Systems (SASO). IEEE, 2019: 23-32.

[BibTeX] [DOI]

BibTeX: @inproceedings{ratasich2019adaptive, title={Adaptive Fault Detection exploiting Redundancy with Uncertainties in Space and Time}, author={Ratasich, Denise and Platzer, Michael and Grosu, Radu and Bartocci, Ezio}, booktitle={2019 IEEE 13th International Conference on Self-Adaptive and Self-Organizing Systems (SASO)}, pages={23--32}, year={2019}, organization={IEEE} }



8. Shariatmadar K, Misra A, Debrouwere F, et al. Optimal modelling of process variations in industry 4.0 facility under advanced p-box uncertainty[C]//2019 IEEE Student Conference on Research and Development (SCOReD). IEEE, 2019: 180-185.

[BibTeX] [DOI]

BibTeX: @inproceedings{shariatmadar2019optimal, title={Optimal modelling of process variations in industry 4.0 facility under advanced p-box uncertainty}, author={Shariatmadar, Keivan and Misra, Ashwin and Debrouwere, Frederik and Versteyhe, Mark}, booktitle={2019 IEEE Student Conference on Research and Development (SCOReD)}, pages={180--185}, year={2019}, organization={IEEE} }

(1.4) Cyber-Physical System and Self-Adaption System:

1. Cámara J, Garlan D, Moreno G A, et al. Analyzing self-adaptation via model checking of stochastic games[M]//Software Engineering for Self-Adaptive Systems III. Assurances. Springer, Cham, 2017: 154-187.

[BibTeX] [DOI]

BibTeX: @incollection{camara2017analyzing, title={Analyzing self-adaptation via model checking of stochastic games}, author={C{\'a}mara, Javier and Garlan, David and Moreno, Gabriel A and Schmerl, Bradley}, booktitle={Software Engineering for Self-Adaptive Systems III. Assurances}, pages={154--187}, year={2017}, publisher={Springer} }



2. Cámara J, Garlan D, Schmerl B. Synthesis and quantitative verification of tradeoff spaces for families of software systems[C]//European Conference on Software Architecture. Springer, Cham, 2017: 3-21.

[BibTeX] [DOI]

BibTeX: @inproceedings{camara2017synthesis, title={Synthesis and quantitative verification of tradeoff spaces for families of software systems}, author={C{\'a}mara, Javier and Garlan, David and Schmerl, Bradley}, booktitle={European Conference on Software Architecture}, pages={3--21}, year={2017}, organization={Springer} }



3. Cámara J, Garlan D, Schmerl B. Synthesizing tradeoff spaces with quantitative guarantees for families of software systems[J]. Journal of Systems and Software, 2019, 152: 33-49.

[BibTeX] [DOI]

BibTeX: @article{camara2019synthesizing, title={Synthesizing tradeoff spaces with quantitative guarantees for families of software systems}, author={C{\'a}mara, Javier and Garlan, David and Schmerl, Bradley}, journal={Journal of Systems and Software}, volume={152}, pages={33--49}, year={2019}, publisher={Elsevier} }



4. Cámara J, Peng W, Garlan D, et al. Reasoning about sensing uncertainty in decision-making for self-adaptation[C]//International Conference on Software Engineering and Formal Methods. Springer, Cham, 2017: 523-540.

[BibTeX] [DOI]

BibTeX: @inproceedings{camara2017reasoning, title={Reasoning about sensing uncertainty in decision-making for self-adaptation}, author={C{\'a}mara, Javier and Peng, Wenxin and Garlan, David and Schmerl, Bradley}, booktitle={International Conference on Software Engineering and Formal Methods}, pages={523--540}, year={2017}, organization={Springer} }



5. Cheng B H C, Ramirez A, McKinley P K. Harnessing evolutionary computation to enable dynamically adaptive systems to manage uncertainty[C]//2013 1st International Workshop on Combining Modelling and Search-Based Software Engineering (CMSBSE). IEEE, 2013: 1-6.

[BibTeX] [DOI]

BibTeX: @inproceedings{cheng2013harnessing, title={Harnessing evolutionary computation to enable dynamically adaptive systems to manage uncertainty}, author={Cheng, Betty HC and Ramirez, Andres and McKinley, Philip K}, booktitle={2013 1st International Workshop on Combining Modelling and Search-Based Software Engineering (CMSBSE)}, pages={1--6}, year={2013}, organization={IEEE} }



6. Esfahani N, Malek S. Uncertainty in self-adaptive software systems[M]//Software Engineering for Self-Adaptive Systems II. Springer, Berlin, Heidelberg, 2013: 214-238.

[BibTeX] [DOI]

BibTeX: @incollection{esfahani2013uncertainty, title={Uncertainty in self-adaptive software systems}, author={Esfahani, Naeem and Malek, Sam}, booktitle={Software Engineering for Self-Adaptive Systems II}, pages={214--238}, year={2013}, publisher={Springer} }



7. Gerostathopoulos I, Skoda D, Plasil F, et al. Architectural homeostasis in self-adaptive software-intensive cyber-physical systems[C]//European Conference on Software Architecture. Springer, Cham, 2016: 113-128.

[BibTeX] [DOI]

BibTeX: @inproceedings{gerostathopoulos2016architectural, title={Architectural homeostasis in self-adaptive software-intensive cyber-physical systems}, author={Gerostathopoulos, Ilias and Skoda, Dominik and Plasil, Frantisek and Bures, Tomas and Knauss, Alessia}, booktitle={European Conference on Software Architecture}, pages={113--128}, year={2016}, organization={Springer} } } }



8. Gerostathopoulos I, Skoda D, Plasil F, et al. Tuning self-adaptation in cyber-physical systems through architectural homeostasis[J]. Journal of Systems and Software, 2019, 148: 37-55.

[BibTeX] [DOI]

BibTeX: @article{gerostathopoulos2019tuning, title={Tuning self-adaptation in cyber-physical systems through architectural homeostasis}, author={Gerostathopoulos, Ilias and Skoda, Dominik and Plasil, Frantisek and Bures, Tomas and Knauss, Alessia}, journal={Journal of Systems and Software}, volume={148}, pages={37--55}, year={2019}, publisher={Elsevier} } } }



9. Han D, Yang Q, Xing J, et al. FAME: A UML-based framework for modeling fuzzy self-adaptive software[J]. Information and Software Technology, 2016, 76: 118-134.

[BibTeX] [DOI]

BibTeX: @article{han2016fame, title={FAME: A UML-based framework for modeling fuzzy self-adaptive software}, author={Han, Deshuai and Yang, Qiliang and Xing, Jianchun and Li, Juelong and Wang, Hongda}, journal={Information and Software Technology}, volume={76}, pages={118--134}, year={2016}, publisher={Elsevier} }



10. Islam N, Azim A. Assuring the runtime behavior of self-adaptive cyber-physical systems using feature modeling[C]//Proceedings of the 28th Annual International Conference on Computer Science and Software Engineering. 2018: 48-59.

[BibTeX] [DOI]

BibTeX: @inproceedings{islam2018assuring, title={Assuring the runtime behavior of self-adaptive cyber-physical systems using feature modeling}, author={Islam, Nayreet and Azim, Akramul}, booktitle={Proceedings of the 28th Annual International Conference on Computer Science and Software Engineering}, pages={48--59}, year={2018} }



11. Igel, Burkhard, et al. "Feedback-Aware Requirements Documents for Smart Devices." Proceedings of International Working Conference on Requirements Engineering: Foundation for Software Quality (REFSQ 2014).

[BibTeX] [DOI]

BibTeX: @inproceedings{igel2014feedback, title={Feedback-Aware Requirements Documents for Smart Devices}, author={Igel, Burkhard and Kamsties, Erik and Kneer, Fabian and Kolb, Bernd and Voelter, Markus}, booktitle={Proceedings of International Working Conference on Requirements Engineering: Foundation for Software Quality (REFSQ 2014)}, pages={119--134} }



12. Leite F L, Schneider D, Adler R. Dynamic risk management for cooperative autonomous medical cyber-physical systems[C]//International Conference on Computer Safety, Reliability, and Security. Springer, Cham, 2018: 126-138.

[BibTeX] [DOI]

BibTeX: @inproceedings{leite2018dynamic, title={Dynamic risk management for cooperative autonomous medical cyber-physical systems}, author={Leite, F{\'a}bio L and Schneider, Daniel and Adler, Rasmus}, booktitle={International Conference on Computer Safety, Reliability, and Security}, pages={126--138}, year={2018}, organization={Springer} }



13. Nia M A, Kargahi M, Faghih F. Probabilistic approximation of runtime quantitative verification in self-adaptive systems[J]. Microprocessors and Microsystems, 2020, 72: 102943.

[BibTeX] [DOI]

BibTeX: @article{nia2020probabilistic, title={Probabilistic approximation of runtime quantitative verification in self-adaptive systems}, author={Nia, Mehran Alidoost and Kargahi, Mehdi and Faghih, Fathiyeh}, journal={Microprocessors and Microsystems}, volume={72}, pages={102943}, year={2020}, publisher={Elsevier} }



14. Tsigkanos, Christos, Timo Kehrer, and Carlo Ghezzi. "Architecting dynamic cyber-physical spaces." Computing 98.10 (2016): 1011-1040.

[BibTeX] [DOI]

BibTeX: @article{tsigkanos2016architecting, title={Architecting dynamic cyber-physical spaces}, author={Tsigkanos, Christos and Kehrer, Timo and Ghezzi, Carlo}, journal={Computing}, volume={98}, number={10}, pages={1011--1040}, year={2016}, publisher={Springer} }



15. Zavala E, Franch X, Marco J, et al. SACRE: Supporting contextual requirements’ adaptation in modern self-adaptive systems in the presence of uncertainty at runtime[J]. Expert Systems with Applications, 2018, 98: 166-188.

[BibTeX] [DOI]

BibTeX: @article{zavala2018sacre, title={SACRE: Supporting contextual requirements’ adaptation in modern self-adaptive systems in the presence of uncertainty at runtime}, author={Zavala, Edith and Franch, Xavier and Marco, Jordi and Knauss, Alessia and Damian, Daniela}, journal={Expert Systems with Applications}, volume={98}, pages={166--188}, year={2018}, publisher={Elsevier} }



16. Cámara J, Peng W, Garlan D, et al. Reasoning about sensing uncertainty and its reduction in decision-making for self-adaptation[J]. Science of Computer Programming, 2018, 167: 51-69.

[BibTeX] [DOI]

BibTeX: @article{camara2018reasoning, title={Reasoning about sensing uncertainty and its reduction in decision-making for self-adaptation}, author={C{\'a}mara, Javier and Peng, Wenxin and Garlan, David and Schmerl, Bradley}, journal={Science of Computer Programming}, volume={167}, pages={51--69}, year={2018}, publisher={Elsevier} }

(1.5) Internet of Things and Self-Adaption System:

1. Shevtsov S, Weyns D, Maggio M. SimCA* A Control-theoretic Approach to Handle Uncertainty in Self-adaptive Systems with Guarantees[J]. ACM Transactions on Autonomous and Adaptive Systems (TAAS), 2019, 13(4): 1-34.

[BibTeX] [DOI]

BibTeX: @article{shevtsov2019simca, title={SimCA* A Control-theoretic Approach to Handle Uncertainty in Self-adaptive Systems with Guarantees}, author={Shevtsov, Stepan and Weyns, Danny and Maggio, Martina}, journal={ACM Transactions on Autonomous and Adaptive Systems (TAAS)}, volume={13}, number={4}, pages={1--34}, year={2019}, publisher={ACM New York, NY, USA} }



2. Van Der Donckt J, Weyns D, Iftikhar M U, et al. Effective Decision Making in Self-adaptive Systems Using Cost-Benefit Analysis at Runtime and Online Learning of Adaptation Spaces[C]//International Conference on Evaluation of Novel Approaches to Software Engineering. Springer, Cham, 2018: 373-403.

[BibTeX] [DOI]

BibTeX: @inproceedings{van2018effective, title={Effective Decision Making in Self-adaptive Systems Using Cost-Benefit Analysis at Runtime and Online Learning of Adaptation Spaces}, author={Van Der Donckt, Jeroen and Weyns, Danny and Iftikhar, M Usman and Buttar, Sarpreet Singh}, booktitle={International Conference on Evaluation of Novel Approaches to Software Engineering}, pages={373--403}, year={2018}, organization={Springer} }

(1.6) Cyber-Physical System, Internet of Things and Self-Adaption System:

1. Sharifloo A M, Metzger A. Mcaas: Model checking in the cloud for assurances of adaptive systems[M]//Software Engineering for Self-Adaptive Systems III. Assurances. Springer, Cham, 2017: 137-153.

[BibTeX] [DOI]

BibTeX: @incollection{sharifloo2017mcaas, title={Mcaas: Model checking in the cloud for assurances of adaptive systems}, author={Sharifloo, Amir Molzam and Metzger, Andreas}, booktitle={Software Engineering for Self-Adaptive Systems III. Assurances}, pages={137--153}, year={2017}, publisher={Springer} }

2 External Uncertainty, Internal Uncertainty and Sensor Uncertainty:

(2.1) External Uncertainty:

(a) Environment Uncertainty:

1. Agarwal S, Pape L E, Dagli C H, et al. Flexible and intelligent learning architectures for sos (fila-sos): Architectural evolution in systems-of-systems[J]. Procedia Computer Science, 2015, 44(C): 76-85.

[BibTeX] [DOI]

BibTeX: @article{agarwal2015flexible, title={Flexible and intelligent learning architectures for sos (fila-sos): Architectural evolution in systems-of-systems}, author={Agarwal, Siddhartha and Pape, Louis E and Dagli, Cihan H and Ergin, Nil K and Enke, David and Gosavi, Abhijit and Qin, Ruwen and Konur, Dincer and Wang, Renzhong and Gottapu, Ram Deepak}, journal={Procedia Computer Science}, volume={44}, number={C}, pages={76--85}, year={2015}, publisher={Elsevier BV} }



2. Ahmad M, Gnaho C, Bruel J M, et al. Towards a Requirements Engineering Approach for Capturing Uncertainty in Cyber-Physical Systems Environment[C]//International Conference on Model and Data Engineering. Springer, Cham, 2018: 115-129.

[BibTeX] [DOI]

BibTeX: @inproceedings{ahmad2018towards, title={Towards a Requirements Engineering Approach for Capturing Uncertainty in Cyber-Physical Systems Environment}, author={Ahmad, Manzoor and Gnaho, Christophe and Bruel, Jean-Michel and Laleau, R{\'e}gine}, booktitle={International Conference on Model and Data Engineering}, pages={115--129}, year={2018}, organization={Springer} }



3. Ali S, Li Y, Yue T, et al. An empirical evaluation of mutation and crossover operators for multi-objective uncertainty-wise test minimization[C]//2017 IEEE/ACM 10th International Workshop on Search-Based Software Testing (SBST). IEEE, 2017: 21-27.

[BibTeX] [DOI]

BibTeX: @inproceedings{ali2017empirical, title={An empirical evaluation of mutation and crossover operators for multi-objective uncertainty-wise test minimization}, author={Ali, Shaukat and Li, Yan and Yue, Tao and Zhang, Man}, booktitle={2017 IEEE/ACM 10th International Workshop on Search-Based Software Testing (SBST)}, pages={21--27}, year={2017}, organization={IEEE} }



4. Ali S, Lu H, Wang S, et al. Uncertainty-wise testing of cyber-physical systems[M]//Advances in Computers. Elsevier, 2017, 107: 23-94.

[BibTeX] [DOI]

BibTeX: @incollection{ali2017uncertainty, title={Uncertainty-wise testing of cyber-physical systems}, author={Ali, Shaukat and Lu, Hong and Wang, Shuai and Yue, Tao and Zhang, Man}, booktitle={Advances in Computers}, volume={107}, pages={23--94}, year={2017}, publisher={Elsevier} }



5. Banaszuk A, Fonoberov V A, Frewen T A, et al. Scalable approach to uncertainty quantification and robust design of interconnected dynamical systems[J]. Annual Reviews in Control, 2011, 35(1): 77-98.

[BibTeX] [DOI]

BibTeX: @article{banaszuk2011scalable, title={Scalable approach to uncertainty quantification and robust design of interconnected dynamical systems}, author={Banaszuk, Andrzej and Fonoberov, Vladimir A and Frewen, Thomas A and Kobilarov, Marin and Mathew, George and Mezic, Igor and Pinto, Alessandro and Sahai, Tuhin and Sane, Harshad and Speranzon, Alberto and others}, journal={Annual Reviews in Control}, volume={35}, number={1}, pages={77--98}, year={2011}, publisher={Elsevier} }



6. Xiao B, Chen L, Liu M, et al. Design and implementation of rule-based uncertainty reasoning in smart house[C]//2015 IEEE 16th International Conference on Communication Technology (ICCT). IEEE, 2015: 441-448.

[BibTeX] [DOI]

BibTeX: @inproceedings{xiao2015design, title={Design and implementation of rule-based uncertainty reasoning in smart house}, author={Xiao, Biyi and Chen, Leiting and Liu, Ming and Cao, Yue and Yang, Yong}, booktitle={2015 IEEE 16th International Conference on Communication Technology (ICCT)}, pages={441--448}, year={2015}, organization={IEEE} }



7. Bousdekis A, Papageorgiou N, Magoutas B, et al. A probabilistic model for context-aware proactive decision making[C]//2016 7th International Conference on Information, Intelligence, Systems & Applications (IISA). IEEE, 2016: 1-6.

[BibTeX] [DOI]

BibTeX: @inproceedings{bousdekis2016probabilistic, title={A probabilistic model for context-aware proactive decision making}, author={Bousdekis, Alexandros and Papageorgiou, Nikos and Magoutas, Babis and Apostolou, Dimitris and Mentzas, Gregoris}, booktitle={2016 7th International Conference on Information, Intelligence, Systems \& Applications (IISA)}, pages={1--6}, year={2016}, organization={IEEE} }



8. Cámara J, Garlan D, Moreno G A, et al. Analyzing self-adaptation via model checking of stochastic games[M]//Software Engineering for Self-Adaptive Systems III. Assurances. Springer, Cham, 2017: 154-187.

[BibTeX] [DOI]

BibTeX: @incollection{camara2017analyzing, title={Analyzing self-adaptation via model checking of stochastic games}, author={C{\'a}mara, Javier and Garlan, David and Moreno, Gabriel A and Schmerl, Bradley}, booktitle={Software Engineering for Self-Adaptive Systems III. Assurances}, pages={154--187}, year={2017}, publisher={Springer} }



9. Cámara J, Garlan D, Schmerl B. Synthesizing tradeoff spaces with quantitative guarantees for families of software systems[J]. Journal of Systems and Software, 2019, 152: 33-49.

[BibTeX] [DOI]

BibTeX: @article{camara2019synthesizing, title={Synthesizing tradeoff spaces with quantitative guarantees for families of software systems}, author={C{\'a}mara, Javier and Garlan, David and Schmerl, Bradley}, journal={Journal of Systems and Software}, volume={152}, pages={33--49}, year={2019}, publisher={Elsevier} }



10. Chati Y S, Balakrishnan H. A Gaussian process regression approach to model aircraft engine fuel flow rate[C]//2017 ACM/IEEE 8th International Conference on Cyber-Physical Systems (ICCPS). IEEE, 2017: 131-140.

[BibTeX] [DOI]

BibTeX: @inproceedings{chati2017gaussian, title={A Gaussian process regression approach to model aircraft engine fuel flow rate}, author={Chati, Yashovardhan Sushil and Balakrishnan, Hamsa}, booktitle={2017 ACM/IEEE 8th International Conference on Cyber-Physical Systems (ICCPS)}, pages={131--140}, year={2017}, organization={IEEE} }



11. Cheng B H C, Ramirez A, McKinley P K. Harnessing evolutionary computation to enable dynamically adaptive systems to manage uncertainty[C]//2013 1st International Workshop on Combining Modelling and Search-Based Software Engineering (CMSBSE). IEEE, 2013: 1-6.

[BibTeX] [DOI]

BibTeX: @inproceedings{cheng2013harnessing, title={Harnessing evolutionary computation to enable dynamically adaptive systems to manage uncertainty}, author={Cheng, Betty HC and Ramirez, Andres and McKinley, Philip K}, booktitle={2013 1st International Workshop on Combining Modelling and Search-Based Software Engineering (CMSBSE)}, pages={1--6}, year={2013}, organization={IEEE} }



12. Esfahani N, Malek S. Uncertainty in self-adaptive software systems[M]//Software Engineering for Self-Adaptive Systems II. Springer, Berlin, Heidelberg, 2013: 214-238.

[BibTeX] [DOI]

BibTeX: @incollection{esfahani2013uncertainty, title={Uncertainty in self-adaptive software systems}, author={Esfahani, Naeem and Malek, Sam}, booktitle={Software Engineering for Self-Adaptive Systems II}, pages={214--238}, year={2013}, publisher={Springer} }



13. Farahani S S, Raman V, Murray R M. Robust model predictive control for signal temporal logic synthesis[J]. IFAC-PapersOnLine, 2015, 48(27): 323-328.

[BibTeX] [DOI]

BibTeX: @article{farahani2015robust, title={Robust model predictive control for signal temporal logic synthesis}, author={Farahani, Samira S and Raman, Vasumathi and Murray, Richard M}, journal={IFAC-PapersOnLine}, volume={48}, number={27}, pages={323--328}, year={2015}, publisher={Elsevier} }



14. Feliú M A, Moscato M M. Towards a Formal Safety Framework for Trajectories[C]//NASA Formal Methods Symposium. Springer, Cham, 2018: 179-184.

[BibTeX] [DOI]

BibTeX: @inproceedings{feliu2018towards, title={Towards a Formal Safety Framework for Trajectories}, author={Feli{\'u}, Marco A and Moscato, Mariano M}, booktitle={NASA Formal Methods Symposium}, pages={179--184}, year={2018}, organization={Springer} }



15. Gerostathopoulos I, Skoda D, Plasil F, et al. Architectural homeostasis in self-adaptive software-intensive cyber-physical systems[C]//European Conference on Software Architecture. Springer, Cham, 2016: 113-128.

[BibTeX] [DOI]

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16. Gerostathopoulos I, Skoda D, Plasil F, et al. Tuning self-adaptation in cyber-physical systems through architectural homeostasis[J]. Journal of Systems and Software, 2019, 148: 37-55.

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17. Han D, Yang Q, Xing J, et al. FAME: A UML-based framework for modeling fuzzy self-adaptive software[J]. Information and Software Technology, 2016, 76: 118-134.

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18. Harirchi F, Ozay N. Guaranteed model-based fault detection in cyber–physical systems: A model invalidation approach[J]. Automatica, 2018, 93: 476-488.

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19. Hoi C S H, Leung C K, Tran K, et al. Supporting social information discovery from big uncertain social key-value data via graph-like metaphors[C]//International Conference on Cognitive Computing. Springer, Cham, 2018: 102-116.

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20. Islam N, Azim A. Assuring the runtime behavior of self-adaptive cyber-physical systems using feature modeling[C]//Proceedings of the 28th Annual International Conference on Computer Science and Software Engineering. 2018: 48-59.

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21. Jafarnejadsani, Hamidreza, Hanmin Lee, and Naira Hovakimyan. "L1 adaptive sampled-data control for uncertain multi-input multi-output systems." Automatica 103 (2019): 346-353.

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22. Jha, Susmit, and Vasumathi Raman. "On optimal control of stochastic linear hybrid systems." International Conference on Formal Modeling and Analysis of Timed Systems. Springer, Cham, 2016.

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23. Igel, Burkhard, et al. "Feedback-Aware Requirements Documents for Smart Devices." Proceedings of International Working Conference on Requirements Engineering: Foundation for Software Quality (REFSQ 2014).

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24. Kargin, Anatolii, and Tetyana Petrenko. "Abstraction as a Way of Uncertainty Representation in Smart Rules Engine." 2019 XIth International Scientific and Practical Conference on Electronics and Information Technologies (ELIT). IEEE, 2019.

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25. Ma T, Ali S, Yue T. Modeling foundations for executable model-based testing of self-healing cyber-physical systems[J]. Software & Systems Modeling, 2019, 18(5): 2843-2873.

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26. Ma T, Ali S, Yue T, et al. Fragility-oriented testing with model execution and reinforcement learning[C]//IFIP International Conference on Testing Software and Systems. Springer, Cham, 2017: 3-20.

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27. Nannapaneni S, Dubey A, Mahadevan S. Performance evaluation of smart systems under uncertainty[C]//2017 IEEE SmartWorld, Ubiquitous Intelligence & Computing, Advanced & Trusted Computed, Scalable Computing & Communications, Cloud & Big Data Computing, Internet of People and Smart City Innovation (SmartWorld/SCALCOM/UIC/ATC/CBDCom/IOP/SCI). IEEE, 2017: 1-8.

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28. Nia M A, Kargahi M, Faghih F. Probabilistic approximation of runtime quantitative verification in self-adaptive systems[J]. Microprocessors and Microsystems, 2020, 72: 102943.

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29. Oquendo F. Coping with Uncertainty in Systems-of-Systems Architecture Modeling on the IoT with SosADL[C]//SoSE. 2019: 131-136.

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30. Ratasich D, Platzer M, Grosu R, et al. Adaptive Fault Detection exploiting Redundancy with Uncertainties in Space and Time[C]//2019 IEEE 13th International Conference on Self-Adaptive and Self-Organizing Systems (SASO). IEEE, 2019: 23-32.

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31. Ruchkin I, Rao A, De Niz D, et al. Eliminating inter-domain vulnerabilities in cyber-physical systems: An analysis contracts approach[C]//Proceedings of the First ACM Workshop on Cyber-Physical Systems-Security and/or PrivaCy. 2015: 11-22.

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32. Ruchkin V, Fulin V, Kostrov B, et al. Forest fire monitoring by means of cyber-physical system[C]//2016 5th Mediterranean Conference on Embedded Computing (MECO). IEEE, 2016: 30-34.

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BibTeX: @inproceedings{ruchkin2016forest, title={Forest fire monitoring by means of cyber-physical system}, author={Ruchkin, Vladimir and Fulin, Vladimir and Kostrov, Boris and Taganov, Aleksandr and Kolesenkov, Aleksandr}, booktitle={2016 5th Mediterranean Conference on Embedded Computing (MECO)}, pages={30--34}, year={2016}, organization={IEEE} }



33. Ruchkin V, Romanchuk V, Kostrov B, et al. Smart monitoring of the emergencies by cyber-physical systems[C]//2018 ELEKTRO. IEEE, 2018: 1-5.

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34. Schneider M A, Wendland M F, Bornemann L. Gaining Certainty About Uncertainty[C]//International Workshop on Risk Assessment and Risk-driven Testing. Springer, Cham, 2016: 129-142.

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35. Shevtsov S, Weyns D, Maggio M. SimCA* A Control-theoretic Approach to Handle Uncertainty in Self-adaptive Systems with Guarantees[J]. ACM Transactions on Autonomous and Adaptive Systems (TAAS), 2019, 13(4): 1-34.

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BibTeX: @article{shevtsov2019simca, title={SimCA* A Control-theoretic Approach to Handle Uncertainty in Self-adaptive Systems with Guarantees}, author={Shevtsov, Stepan and Weyns, Danny and Maggio, Martina}, journal={ACM Transactions on Autonomous and Adaptive Systems (TAAS)}, volume={13}, number={4}, pages={1--34}, year={2019}, publisher={ACM New York, NY, USA} }



36. Shin, Seung Yeob, et al. "Test case prioritization for acceptance testing of cyber physical systems: a multi-objective search-based approach." Proceedings of the 27th ACM SIGSOFT International Symposium on Software Testing and Analysis. 2018.

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BibTeX: @inproceedings{shin2018test, title={Test case prioritization for acceptance testing of cyber physical systems: a multi-objective search-based approach}, author={Shin, Seung Yeob and Nejati, Shiva and Sabetzadeh, Mehrdad and Briand, Lionel C and Zimmer, Frank}, booktitle={Proceedings of the 27th ACM SIGSOFT International Symposium on Software Testing and Analysis}, pages={49--60}, year={2018} }



37. Tsigkanos, Christos, Timo Kehrer, and Carlo Ghezzi. "Architecting dynamic cyber-physical spaces." Computing 98.10 (2016): 1011-1040.

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38. Xu S, Miao W, Kunz T, et al. Quantitative analysis of variation-aware Internet of Things designs using statistical model checking[C]//2016 IEEE International Conference on Software Quality, Reliability and Security (QRS). IEEE, 2016: 274-285.

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BibTeX: @inproceedings{xu2016quantitative, title={Quantitative analysis of variation-aware Internet of Things designs using statistical model checking}, author={Xu, Siyuan and Miao, Weikai and Kunz, Thomas and Wei, Tongquan and Chen, Mingsong}, booktitle={2016 IEEE International Conference on Software Quality, Reliability and Security (QRS)}, pages={274--285}, year={2016}, organization={IEEE} }



39. Yachir A, Amirat Y, Chibani A, et al. Event-aware framework for dynamic services discovery and selection in the context of ambient intelligence and Internet of Things[J]. IEEE Transactions on Automation Science and Engineering, 2015, 13(1): 85-102.

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BibTeX: @article{yachir2015event, title={Event-aware framework for dynamic services discovery and selection in the context of ambient intelligence and Internet of Things}, author={Yachir, Ali and Amirat, Yacine and Chibani, Abdelghani and Badache, Nadjib}, journal={IEEE Transactions on Automation Science and Engineering}, volume={13}, number={1}, pages={85--102}, year={2015}, publisher={IEEE} }



40. Zavala E, Franch X, Marco J, et al. SACRE: Supporting contextual requirements’ adaptation in modern self-adaptive systems in the presence of uncertainty at runtime[J]. Expert Systems with Applications, 2018, 98: 166-188.

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BibTeX: @article{zavala2018sacre, title={SACRE: Supporting contextual requirements’ adaptation in modern self-adaptive systems in the presence of uncertainty at runtime}, author={Zavala, Edith and Franch, Xavier and Marco, Jordi and Knauss, Alessia and Damian, Daniela}, journal={Expert Systems with Applications}, volume={98}, pages={166--188}, year={2018}, publisher={Elsevier} }



41. Zhang M, Ali S, Yue T. Uncertainty-wise test case generation and minimization for cyber-physical systems[J]. Journal of Systems and Software, 2019, 153: 1-21.

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42. Zhang M, Ali S, Yue T, et al. Uncertainty-wise evolution of test ready models[J]. Information and Software Technology, 2017, 87: 140-159.

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43. Zhang M, Ali S, Yue T, et al. Uncertainty-wise cyber-physical system test modeling[J]. Software & Systems Modeling, 2019, 18(2): 1379-1418.

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BibTeX: @article{zhang2019uncertainty, title={Uncertainty-wise cyber-physical system test modeling}, author={Zhang, Man and Ali, Shaukat and Yue, Tao and Norgren, Roland and Okariz, Oscar}, journal={Software \& Systems Modeling}, volume={18}, number={2}, pages={1379--1418}, year={2019}, publisher={Springer} }



44. Zhang M, Selic B, Ali S, et al. Understanding uncertainty in cyber-physical systems: a conceptual model[C]//European conference on modelling foundations and applications. Springer, Cham, 2016: 247-264.

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(b) Infrastructure Uncertainty:

1. Banerjee S, Bouzefrane S, Mühlethaler P. Mobility prediction in vehicular networks: an approach through hybrid neural networks under uncertainty[C]//International Conference on Mobile, Secure, and Programmable Networking. Springer, Cham, 2017: 178-194.

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BibTeX: @inproceedings{banerjee2017mobility, title={Mobility prediction in vehicular networks: an approach through hybrid neural networks under uncertainty}, author={Banerjee, Soumya and Bouzefrane, Samia and M{\"u}hlethaler, Paul}, booktitle={International Conference on Mobile, Secure, and Programmable Networking}, pages={178--194}, year={2017}, organization={Springer} }



2. Bordel B, Alcarria R, De Andrés D M, et al. Securing Internet-of-Things systems through implicit and explicit reputation models[J]. IEEE Access, 2018, 6: 47472-47488.

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BibTeX: @article{bordel2018securing, title={Securing Internet-of-Things systems through implicit and explicit reputation models}, author={Bordel, Borja and Alcarria, Ram{\'o}n and De Andr{\'e}s, Diego Mart{\'\i}n and You, Ilsun}, journal={IEEE Access}, volume={6}, pages={47472--47488}, year={2018}, publisher={IEEE} }



3. Chen B, Pompili D. Minimizing position uncertainty for under-ice autonomous underwater vehicles[J]. Computer Networks, 2013, 57(18): 3840-3854.

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BibTeX: @article{chen2013minimizing, title={Minimizing position uncertainty for under-ice autonomous underwater vehicles}, author={Chen, Baozhi and Pompili, Dario}, journal={Computer Networks}, volume={57}, number={18}, pages={3840--3854}, year={2013}, publisher={Elsevier} }



4. Chen B, Pompili D. Modeling position uncertainty of networked autonomous underwater vehicles[J]. Ad Hoc Networks, 2015, 34: 184-195.

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BibTeX: @article{chen2015modeling, title={Modeling position uncertainty of networked autonomous underwater vehicles}, author={Chen, Baozhi and Pompili, Dario}, journal={Ad Hoc Networks}, volume={34}, pages={184--195}, year={2015}, publisher={Elsevier} }



5. Cheng B H C, Ramirez A, McKinley P K. Harnessing evolutionary computation to enable dynamically adaptive systems to manage uncertainty[C]//2013 1st International Workshop on Combining Modelling and Search-Based Software Engineering (CMSBSE). IEEE, 2013: 1-6.

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BibTeX: @inproceedings{cheng2013harnessing, title={Harnessing evolutionary computation to enable dynamically adaptive systems to manage uncertainty}, author={Cheng, Betty HC and Ramirez, Andres and McKinley, Philip K}, booktitle={2013 1st International Workshop on Combining Modelling and Search-Based Software Engineering (CMSBSE)}, pages={1--6}, year={2013}, organization={IEEE} }



6. Gerostathopoulos I, Skoda D, Plasil F, et al. Tuning self-adaptation in cyber-physical systems through architectural homeostasis[J]. Journal of Systems and Software, 2019, 148: 37-55.

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BibTeX: @article{gerostathopoulos2019tuning, title={Tuning self-adaptation in cyber-physical systems through architectural homeostasis}, author={Gerostathopoulos, Ilias and Skoda, Dominik and Plasil, Frantisek and Bures, Tomas and Knauss, Alessia}, journal={Journal of Systems and Software}, volume={148}, pages={37--55}, year={2019}, publisher={Elsevier} } } }



7. Hashemi-Dezaki H, Askarian-Abyaneh H, Shams-Ansari A, et al. Direct cyber-power interdependencies-based reliability evaluation of smart grids including wind/solar/diesel distributed generations and plug-in hybrid electrical vehicles[J]. International Journal of Electrical Power & Energy Systems, 2017, 93: 1-14.

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BibTeX: @article{hashemi2017direct, title={Direct cyber-power interdependencies-based reliability evaluation of smart grids including wind/solar/diesel distributed generations and plug-in hybrid electrical vehicles}, author={Hashemi-Dezaki, Hamed and Askarian-Abyaneh, Hossein and Shams-Ansari, Amirhasan and DehghaniSanij, Mohammad and Hejazi, Maryam A}, journal={International Journal of Electrical Power \& Energy Systems}, volume={93}, pages={1--14}, year={2017}, publisher={Elsevier} }



8. Katayama, Kei, and Hiroyuki Ohsaki. "Fluid-Based Modeling of Large-Scale IEEE 802.15. 4 Wireless Sensor Networks." 2019 IEEE 43rd Annual Computer Software and Applications Conference (COMPSAC). Vol. 2. IEEE, 2019.

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BibTeX: @inproceedings{katayama2019fluid, title={Fluid-Based Modeling of Large-Scale IEEE 802.15. 4 Wireless Sensor Networks}, author={Katayama, Kei and Ohsaki, Hiroyuki}, booktitle={2019 IEEE 43rd Annual Computer Software and Applications Conference (COMPSAC)}, volume={2}, pages={543--548}, year={2019}, organization={IEEE} }



9. Koutsoukos X, Kottenstette N, Hall J, et al. A passivity approach for model-based compositional design of networked control systems[J]. ACM Transactions on Embedded Computing Systems (TECS), 2013, 11(4): 1-31.

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BibTeX: @article{koutsoukos2013passivity, title={A passivity approach for model-based compositional design of networked control systems}, author={Koutsoukos, Xenofon and Kottenstette, Nicholas and Hall, Joseph and Eyisi, Emeka and Leblanc, Heath and Porter, Joseph and Sztipanovits, Janos}, journal={ACM Transactions on Embedded Computing Systems (TECS)}, volume={11}, number={4}, pages={1--31}, year={2013}, publisher={ACM New York, NY, USA} }



10. Moreno N, Bertoa M F, Barquero G, et al. Managing uncertain complex events in web of things applications[C]//International Conference on Web Engineering. Springer, Cham, 2018: 349-357.

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BibTeX: @inproceedings{moreno2018managing, title={Managing uncertain complex events in web of things applications}, author={Moreno, Nathalie and Bertoa, Manuel F and Barquero, Gala and Burgue{\~n}o, Loli and Troya, Javier and Garc{\'\i}a-L{\'o}pez, Adri{\'a}n and Vallecillo, Antonio}, booktitle={International Conference on Web Engineering}, pages={349--357}, year={2018}, organization={Springer} }



11. Nannapaneni S, Dubey A, Mahadevan S. Performance evaluation of smart systems under uncertainty[C]//2017 IEEE SmartWorld, Ubiquitous Intelligence & Computing, Advanced & Trusted Computed, Scalable Computing & Communications, Cloud & Big Data Computing, Internet of People and Smart City Innovation (SmartWorld/SCALCOM/UIC/ATC/CBDCom/IOP/SCI). IEEE, 2017: 1-8.

[BibTeX] [DOI]

BibTeX: @inproceedings{nannapaneni2017performance, title={Performance evaluation of smart systems under uncertainty}, author={Nannapaneni, Saideep and Dubey, Abhishek and Mahadevan, Sankaran}, booktitle={2017 IEEE SmartWorld, Ubiquitous Intelligence \& Computing, Advanced \& Trusted Computed, Scalable Computing \& Communications, Cloud \& Big Data Computing, Internet of People and Smart City Innovation (SmartWorld/SCALCOM/UIC/ATC/CBDCom/IOP/SCI)}, pages={1--8}, year={2017}, organization={IEEE} }



12. Tan, Rui, et al. "Adaptive calibration for fusion-based cyber-physical systems." ACM Transactions on Embedded Computing Systems (TECS) 11.4 (2013): 1-25.

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BibTeX: @article{tan2013adaptive, title={Adaptive calibration for fusion-based cyber-physical systems}, author={Tan, Rui and Xing, Guoliang and Liu, Xue and Yao, Jianguo and Yuan, Zhaohui}, journal={ACM Transactions on Embedded Computing Systems (TECS)}, volume={11}, number={4}, pages={1--25}, year={2013}, publisher={ACM New York, NY, USA} }



13. Truong, Hong-Linh, and Luca Berardinelli. "Testing uncertainty of cyber-physical systems in IoT cloud infrastructures: combining model-driven engineering and elastic execution." Proceedings of the 1st ACM SIGSOFT International Workshop on Testing Embedded and Cyber-Physical Systems. 2017.

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BibTeX: @inproceedings{truong2017testing, title={Testing uncertainty of cyber-physical systems in IoT cloud infrastructures: combining model-driven engineering and elastic execution}, author={Truong, Hong-Linh and Berardinelli, Luca}, booktitle={Proceedings of the 1st ACM SIGSOFT International Workshop on Testing Embedded and Cyber-Physical Systems}, pages={5--8}, year={2017} }



14. Viswanathan, Hariharasudhan, Eun Kyung Lee, and Dario Pompili. "Mobile grid computing for data-and patient-centric ubiquitous healthcare." 2012 The First IEEE Workshop on Enabling Technologies for Smartphone and Internet of Things (ETSIoT). IEEE, 2012.

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BibTeX: @inproceedings{viswanathan2012mobile, title={Mobile grid computing for data-and patient-centric ubiquitous healthcare}, author={Viswanathan, Hariharasudhan and Lee, Eun Kyung and Pompili, Dario}, booktitle={2012 The First IEEE Workshop on Enabling Technologies for Smartphone and Internet of Things (ETSIoT)}, pages={36--41}, year={2012}, organization={IEEE} }



15. Zhang M, Selic B, Ali S, et al. Understanding uncertainty in cyber-physical systems: a conceptual model[C]//European conference on modelling foundations and applications. Springer, Cham, 2016: 247-264.

[BibTeX] [DOI]

BibTeX: @inproceedings{zhang2016understanding, title={Understanding uncertainty in cyber-physical systems: a conceptual model}, author={Zhang, Man and Selic, Bran and Ali, Shaukat and Yue, Tao and Okariz, Oscar and Norgren, Roland}, booktitle={European conference on modelling foundations and applications}, pages={247--264}, year={2016}, organization={Springer} }

(c) User Action Uncertainty:

1. Xiao B, Chen L, Liu M, et al. Design and implementation of rule-based uncertainty reasoning in smart house[C]//2015 IEEE 16th International Conference on Communication Technology (ICCT). IEEE, 2015: 441-448.

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BibTeX: @inproceedings{xiao2015design, title={Design and implementation of rule-based uncertainty reasoning in smart house}, author={Xiao, Biyi and Chen, Leiting and Liu, Ming and Cao, Yue and Yang, Yong}, booktitle={2015 IEEE 16th International Conference on Communication Technology (ICCT)}, pages={441--448}, year={2015}, organization={IEEE} }



2. Ding K, Ren X, Quevedo D E, et al. Defensive deception against reactive jamming attacks in remote state estimation[J]. Automatica, 2020, 113: 108680.

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BibTeX: @article{ding2020defensive, title={Defensive deception against reactive jamming attacks in remote state estimation}, author={Ding, Kemi and Ren, Xiaoqiang and Quevedo, Daniel E and Dey, Subhrakanti and Shi, Ling}, journal={Automatica}, volume={113}, pages={108680}, year={2020}, publisher={Elsevier} }



3. Hasan S, Curry E. Approximate semantic matching of events for the internet of things[J]. ACM Transactions on Internet Technology (TOIT), 2014, 14(1): 1-23.

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BibTeX: @article{hasan2014approximate, title={Approximate semantic matching of events for the internet of things}, author={Hasan, Souleiman and Curry, Edward}, journal={ACM Transactions on Internet Technology (TOIT)}, volume={14}, number={1}, pages={1--23}, year={2014}, publisher={ACM New York, NY, USA} }



4. Hashemi-Dezaki H, Askarian-Abyaneh H, Shams-Ansari A, et al. Direct cyber-power interdependencies-based reliability evaluation of smart grids including wind/solar/diesel distributed generations and plug-in hybrid electrical vehicles[J]. International Journal of Electrical Power & Energy Systems, 2017, 93: 1-14.

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BibTeX: @article{hashemi2017direct, title={Direct cyber-power interdependencies-based reliability evaluation of smart grids including wind/solar/diesel distributed generations and plug-in hybrid electrical vehicles}, author={Hashemi-Dezaki, Hamed and Askarian-Abyaneh, Hossein and Shams-Ansari, Amirhasan and DehghaniSanij, Mohammad and Hejazi, Maryam A}, journal={International Journal of Electrical Power \& Energy Systems}, volume={93}, pages={1--14}, year={2017}, publisher={Elsevier} }



5. Muccini H, Moghaddam M T. A cyber-physical space operational approach for crowd evacuation handling[C]//International Workshop on Software Engineering for Resilient Systems. Springer, Cham, 2017: 81-95.

[BibTeX] [DOI]

BibTeX: @inproceedings{muccini2017cyber, title={A cyber-physical space operational approach for crowd evacuation handling}, author={Muccini, Henry and Moghaddam, Mahyar Tourchi}, booktitle={International Workshop on Software Engineering for Resilient Systems}, pages={81--95}, year={2017}, organization={Springer} }



6. Ruchkin V, Romanchuk V, Kostrov B, et al. Smart monitoring of the emergencies by cyber-physical systems[C]//2018 ELEKTRO. IEEE, 2018: 1-5.

[BibTeX] [DOI]

BibTeX: @inproceedings{ruchkin2018smart, title={Smart monitoring of the emergencies by cyber-physical systems}, author={Ruchkin, Vladimir and Romanchuk, Vitaly and Kostrov, Boris and Kolesenkov, Aleksandr and Ruchkina, Ekaterina}, booktitle={2018 ELEKTRO}, pages={1--5}, year={2018}, organization={IEEE} }



7. Wang W, Hong T, Li N, et al. Linking energy-cyber-physical systems with occupancy prediction and interpretation through WiFi probe-based ensemble classification[J]. Applied energy, 2019, 236: 55-69.

[BibTeX] [DOI]

BibTeX: @article{wang2019linking, title={Linking energy-cyber-physical systems with occupancy prediction and interpretation through WiFi probe-based ensemble classification}, author={Wang, Wei and Hong, Tianzhen and Li, Nan and Wang, Ryan Qi and Chen, Jiayu}, journal={Applied energy}, volume={236}, pages={55--69}, year={2019}, publisher={Elsevier} }



8. Zhang M, Selic B, Ali S, et al. Understanding uncertainty in cyber-physical systems: a conceptual model[C]//European conference on modelling foundations and applications. Springer, Cham, 2016: 247-264.

[BibTeX] [DOI]

BibTeX: @inproceedings{zhang2016understanding, title={Understanding uncertainty in cyber-physical systems: a conceptual model}, author={Zhang, Man and Selic, Bran and Ali, Shaukat and Yue, Tao and Okariz, Oscar and Norgren, Roland}, booktitle={European conference on modelling foundations and applications}, pages={247--264}, year={2016}, organization={Springer} }

(d) Economic Attributes Uncertainty:

1. Esteves J A R, Pousinho H M I, Mendes V M F. Stochastic Optimal Operation of Concentrating Solar Power Plants Based on Conditional Value-at-Risk[C]//Doctoral Conference on Computing, Electrical and Industrial Systems. Springer, Cham, 2017: 348-357.

[BibTeX] [DOI]

BibTeX: @inproceedings{esteves2017stochastic, title={Stochastic Optimal Operation of Concentrating Solar Power Plants Based on Conditional Value-at-Risk}, author={Esteves, Jo{\~a}o AR and Pousinho, Hugo MI and Mendes, Victor MF}, booktitle={Doctoral Conference on Computing, Electrical and Industrial Systems}, pages={348--357}, year={2017}, organization={Springer} }



2. Liang Y, Chen D. ClusRed: Clustering and network reduction based probabilistic optimal power flow analysis for large-scale smart grids[C]//2014 51st ACM/EDAC/IEEE Design Automation Conference (DAC). IEEE, 2014: 1-6.

[BibTeX] [DOI]

BibTeX: @inproceedings{liang2014clusred, title={ClusRed: Clustering and network reduction based probabilistic optimal power flow analysis for large-scale smart grids}, author={Liang, Yi and Chen, Deming}, booktitle={2014 51st ACM/EDAC/IEEE Design Automation Conference (DAC)}, pages={1--6}, year={2014}, organization={IEEE} }



3. Wei T, Zhou J, Cao K, et al. Cost-constrained QoS optimization for approximate computation real-time tasks in heterogeneous MPSoCs[J]. IEEE Transactions on Computer-Aided Design of Integrated Circuits and Systems, 2017, 37(9): 1733-1746.

[BibTeX] [DOI]

BibTeX: @article{wei2017cost, title={Cost-constrained QoS optimization for approximate computation real-time tasks in heterogeneous MPSoCs}, author={Wei, Tongquan and Zhou, Junlong and Cao, Kun and Cong, Peijin and Chen, Mingsong and Zhang, Gongxuan and Hu, Xiaobo Sharon and Yan, Jianming}, journal={IEEE Transactions on Computer-Aided Design of Integrated Circuits and Systems}, volume={37}, number={9}, pages={1733--1746}, year={2017}, publisher={IEEE} }



4. Zhang K, Qu T, Zhou D, et al. Digital twin-based opti-state control method for a synchronized production operation system[J]. Robotics and Computer-Integrated Manufacturing, 2020, 63: 101892.

[BibTeX] [DOI]

BibTeX: @article{zhang2020digital, title={Digital twin-based opti-state control method for a synchronized production operation system}, author={Zhang, Kai and Qu, Ting and Zhou, Dajian and Jiang, Hongfei and Lin, Yuanxin and Li, Peize and Guo, Hongfei and Liu, Yang and Li, Congdong and Huang, George Q}, journal={Robotics and Computer-Integrated Manufacturing}, volume={63}, pages={101892}, year={2020}, publisher={Elsevier} }



5. Zhang M, Selic B, Ali S, et al. Understanding uncertainty in cyber-physical systems: a conceptual model[C]//European conference on modelling foundations and applications. Springer, Cham, 2016: 247-264.

[BibTeX] [DOI]

BibTeX: @inproceedings{zhang2016understanding, title={Understanding uncertainty in cyber-physical systems: a conceptual model}, author={Zhang, Man and Selic, Bran and Ali, Shaukat and Yue, Tao and Okariz, Oscar and Norgren, Roland}, booktitle={European conference on modelling foundations and applications}, pages={247--264}, year={2016}, organization={Springer} }



6. Van Der Donckt J, Weyns D, Iftikhar M U, et al. Effective Decision Making in Self-adaptive Systems Using Cost-Benefit Analysis at Runtime and Online Learning of Adaptation Spaces[C]//International Conference on Evaluation of Novel Approaches to Software Engineering. Springer, Cham, 2018: 373-403.

[BibTeX] [DOI]

BibTeX: @inproceedings{van2018effective, title={Effective Decision Making in Self-adaptive Systems Using Cost-Benefit Analysis at Runtime and Online Learning of Adaptation Spaces}, author={Van Der Donckt, Jeroen and Weyns, Danny and Iftikhar, M Usman and Buttar, Sarpreet Singh}, booktitle={International Conference on Evaluation of Novel Approaches to Software Engineering}, pages={373--403}, year={2018}, organization={Springer} }

(2.2) Internal Uncertainty:

(a) Structure Uncertainty:

1. Agarwal S, Pape L E, Dagli C H, et al. Flexible and intelligent learning architectures for sos (fila-sos): Architectural evolution in systems-of-systems[J]. Procedia Computer Science, 2015, 44(C): 76-85.

[BibTeX] [DOI]

BibTeX: @article{agarwal2015flexible, title={Flexible and intelligent learning architectures for sos (fila-sos): Architectural evolution in systems-of-systems}, author={Agarwal, Siddhartha and Pape, Louis E and Dagli, Cihan H and Ergin, Nil K and Enke, David and Gosavi, Abhijit and Qin, Ruwen and Konur, Dincer and Wang, Renzhong and Gottapu, Ram Deepak}, journal={Procedia Computer Science}, volume={44}, number={C}, pages={76--85}, year={2015}, publisher={Elsevier BV} }



2. AAgeeva L, Majidi M, Pozo D. Analysis of feasibility region of active distribution networks[C]//2019 International Youth Conference on Radio Electronics, Electrical and Power Engineering (REEPE). IEEE, 2019: 1-5.

[BibTeX] [DOI]

BibTeX: @inproceedings{ageeva2019analysis, title={Analysis of feasibility region of active distribution networks}, author={Ageeva, Liliia and Majidi, Maryam and Pozo, David}, booktitle={2019 International Youth Conference on Radio Electronics, Electrical and Power Engineering (REEPE)}, pages={1--5}, year={2019}, organization={IEEE} }



3. Cámara J, Garlan D, Schmerl B. Synthesis and quantitative verification of tradeoff spaces for families of software systems[C]//European Conference on Software Architecture. Springer, Cham, 2017: 3-21.

[BibTeX] [DOI]

BibTeX: @inproceedings{camara2017synthesis, title={Synthesis and quantitative verification of tradeoff spaces for families of software systems}, author={C{\'a}mara, Javier and Garlan, David and Schmerl, Bradley}, booktitle={European Conference on Software Architecture}, pages={3--21}, year={2017}, organization={Springer} }



4. Cámara J, Garlan D, Schmerl B. Synthesizing tradeoff spaces with quantitative guarantees for families of software systems[J]. Journal of Systems and Software, 2019, 152: 33-49.

[BibTeX] [DOI]

BibTeX: @article{camara2019synthesizing, title={Synthesizing tradeoff spaces with quantitative guarantees for families of software systems}, author={C{\'a}mara, Javier and Garlan, David and Schmerl, Bradley}, journal={Journal of Systems and Software}, volume={152}, pages={33--49}, year={2019}, publisher={Elsevier} }



5. Chen D J, Lu Z. A model-based approach to dynamic self-assessment for automated performance and safety awareness of cyber-physical systems[C]//International Symposium on Model-Based Safety and Assessment. Springer, Cham, 2017: 227-240.

[BibTeX] [DOI]

BibTeX: @inproceedings{chen2017model, title={A model-based approach to dynamic self-assessment for automated performance and safety awareness of cyber-physical systems}, author={Chen, DeJiu and Lu, Zhonghai}, booktitle={International Symposium on Model-Based Safety and Assessment}, pages={227--240}, year={2017}, organization={Springer} }



6. Cheng B H C, Ramirez A, McKinley P K. Harnessing evolutionary computation to enable dynamically adaptive systems to manage uncertainty[C]//2013 1st International Workshop on Combining Modelling and Search-Based Software Engineering (CMSBSE). IEEE, 2013: 1-6.

[BibTeX] [DOI]

BibTeX: @inproceedings{cheng2013harnessing, title={Harnessing evolutionary computation to enable dynamically adaptive systems to manage uncertainty}, author={Cheng, Betty HC and Ramirez, Andres and McKinley, Philip K}, booktitle={2013 1st International Workshop on Combining Modelling and Search-Based Software Engineering (CMSBSE)}, pages={1--6}, year={2013}, organization={IEEE} }



7. Esfahani N, Malek S. Uncertainty in self-adaptive software systems[M]//Software Engineering for Self-Adaptive Systems II. Springer, Berlin, Heidelberg, 2013: 214-238.

[BibTeX] [DOI]

BibTeX: @incollection{esfahani2013uncertainty, title={Uncertainty in self-adaptive software systems}, author={Esfahani, Naeem and Malek, Sam}, booktitle={Software Engineering for Self-Adaptive Systems II}, pages={214--238}, year={2013}, publisher={Springer} }



8. Hoi C S H, Leung C K, Tran K, et al. Supporting social information discovery from big uncertain social key-value data via graph-like metaphors[C]//International Conference on Cognitive Computing. Springer, Cham, 2018: 102-116.

[BibTeX] [DOI]

BibTeX: @inproceedings{hoi2018supporting, title={Supporting social information discovery from big uncertain social key-value data via graph-like metaphors}, author={Hoi, Calvin SH and Leung, Carson K and Tran, Kimberly and Cuzzocrea, Alfredo and Bochicchio, Mario and Simonetti, Marco}, booktitle={International Conference on Cognitive Computing}, pages={102--116}, year={2018}, organization={Springer} }



9. Ma T, Ali S, Yue T. Modeling foundations for executable model-based testing of self-healing cyber-physical systems[J]. Software & Systems Modeling, 2019, 18(5): 2843-2873.

[BibTeX] [DOI]

BibTeX: @article{ma2019modeling, title={Modeling foundations for executable model-based testing of self-healing cyber-physical systems}, author={Ma, Tao and Ali, Shaukat and Yue, Tao}, journal={Software \& Systems Modeling}, volume={18}, number={5}, pages={2843--2873}, year={2019}, publisher={Springer} }



10. Ma T, Ali S, Yue T, et al. Fragility-oriented testing with model execution and reinforcement learning[C]//IFIP International Conference on Testing Software and Systems. Springer, Cham, 2017: 3-20.

[BibTeX] [DOI]

BibTeX: @inproceedings{ma2017fragility, title={Fragility-oriented testing with model execution and reinforcement learning}, author={Ma, Tao and Ali, Shaukat and Yue, Tao and Elaasar, Maged}, booktitle={IFIP International Conference on Testing Software and Systems}, pages={3--20}, year={2017}, organization={Springer} }



11. Nia M A, Kargahi M, Faghih F. Probabilistic approximation of runtime quantitative verification in self-adaptive systems[J]. Microprocessors and Microsystems, 2020, 72: 102943.

[BibTeX] [DOI]

BibTeX: @article{nia2020probabilistic, title={Probabilistic approximation of runtime quantitative verification in self-adaptive systems}, author={Nia, Mehran Alidoost and Kargahi, Mehdi and Faghih, Fathiyeh}, journal={Microprocessors and Microsystems}, volume={72}, pages={102943}, year={2020}, publisher={Elsevier} }



12. Oquendo F. Coping with Uncertainty in Systems-of-Systems Architecture Modeling on the IoT with SosADL[C]//SoSE. 2019: 131-136.

[BibTeX] [DOI]

BibTeX: @inproceedings{oquendo2019coping, title={Coping with Uncertainty in Systems-of-Systems Architecture Modeling on the IoT with SosADL.}, author={Oquendo, Flavio}, booktitle={SoSE}, pages={131--136}, year={2019} }



13. Sharifloo A M, Metzger A. Mcaas: Model checking in the cloud for assurances of adaptive systems[M]//Software Engineering for Self-Adaptive Systems III. Assurances. Springer, Cham, 2017: 137-153.

[BibTeX] [DOI]

BibTeX: @incollection{sharifloo2017mcaas, title={Mcaas: Model checking in the cloud for assurances of adaptive systems}, author={Sharifloo, Amir Molzam and Metzger, Andreas}, booktitle={Software Engineering for Self-Adaptive Systems III. Assurances}, pages={137--153}, year={2017}, publisher={Springer} }



14. Viswanathan, Hariharasudhan, Eun Kyung Lee, and Dario Pompili. "Mobile grid computing for data-and patient-centric ubiquitous healthcare." 2012 The First IEEE Workshop on Enabling Technologies for Smartphone and Internet of Things (ETSIoT). IEEE, 2012.

[BibTeX] [DOI]

BibTeX: @inproceedings{viswanathan2012mobile, title={Mobile grid computing for data-and patient-centric ubiquitous healthcare}, author={Viswanathan, Hariharasudhan and Lee, Eun Kyung and Pompili, Dario}, booktitle={2012 The First IEEE Workshop on Enabling Technologies for Smartphone and Internet of Things (ETSIoT)}, pages={36--41}, year={2012}, organization={IEEE} }



15. Wang X, Hovakimyan N, Sha L. RSimplex: a robust control architecture for cyber and physical failures[J]. ACM Transactions on Cyber-Physical Systems, 2018, 2(4): 1-26.

[BibTeX] [DOI]

BibTeX: @article{wang2018rsimplex, title={RSimplex: a robust control architecture for cyber and physical failures}, author={Wang, Xiaofeng and Hovakimyan, Naira and Sha, Lui}, journal={ACM Transactions on Cyber-Physical Systems}, volume={2}, number={4}, pages={1--26}, year={2018}, publisher={ACM New York, NY, USA} }



16. Zavala E, Franch X, Marco J, et al. SACRE: Supporting contextual requirements’ adaptation in modern self-adaptive systems in the presence of uncertainty at runtime[J]. Expert Systems with Applications, 2018, 98: 166-188.

[BibTeX] [DOI]

BibTeX: @article{zavala2018sacre, title={SACRE: Supporting contextual requirements’ adaptation in modern self-adaptive systems in the presence of uncertainty at runtime}, author={Zavala, Edith and Franch, Xavier and Marco, Jordi and Knauss, Alessia and Damian, Daniela}, journal={Expert Systems with Applications}, volume={98}, pages={166--188}, year={2018}, publisher={Elsevier} }



17. Zhang M, Selic B, Ali S, et al. Understanding uncertainty in cyber-physical systems: a conceptual model[C]//European conference on modelling foundations and applications. Springer, Cham, 2016: 247-264.

[BibTeX] [DOI]

BibTeX: @inproceedings{zhang2016understanding, title={Understanding uncertainty in cyber-physical systems: a conceptual model}, author={Zhang, Man and Selic, Bran and Ali, Shaukat and Yue, Tao and Okariz, Oscar and Norgren, Roland}, booktitle={European conference on modelling foundations and applications}, pages={247--264}, year={2016}, organization={Springer} }



18. Van Der Donckt J, Weyns D, Iftikhar M U, et al. Effective Decision Making in Self-adaptive Systems Using Cost-Benefit Analysis at Runtime and Online Learning of Adaptation Spaces[C]//International Conference on Evaluation of Novel Approaches to Software Engineering. Springer, Cham, 2018: 373-403.

[BibTeX] [DOI]

BibTeX: @inproceedings{van2018effective, title={Effective Decision Making in Self-adaptive Systems Using Cost-Benefit Analysis at Runtime and Online Learning of Adaptation Spaces}, author={Van Der Donckt, Jeroen and Weyns, Danny and Iftikhar, M Usman and Buttar, Sarpreet Singh}, booktitle={International Conference on Evaluation of Novel Approaches to Software Engineering}, pages={373--403}, year={2018}, organization={Springer} }

(b) Interaction Uncertainty:

1. Agadakos I, Chen C Y, Campanelli M, et al. Jumping the air gap: Modeling cyber-physical attack paths in the Internet-of-Things[C]//Proceedings of the 2017 Workshop on Cyber-Physical Systems Security and PrivaCy. 2017: 37-48.

[BibTeX] [DOI]

BibTeX: @inproceedings{agadakos2017jumping, title={Jumping the air gap: Modeling cyber-physical attack paths in the Internet-of-Things}, author={Agadakos, Ioannis and Chen, Chien-Ying and Campanelli, Matteo and Anantharaman, Prashant and Hasan, Monowar and Copos, Bogdan and Lepoint, Tancr{\`e}de and Locasto, Michael and Ciocarlie, Gabriela F and Lindqvist, Ulf}, booktitle={Proceedings of the 2017 Workshop on Cyber-Physical Systems Security and PrivaCy}, pages={37--48}, year={2017} }



2. Aichernig B K, Burghard C, Korošec R. Learning-based testing of an industrial measurement device[C]//NASA Formal Methods Symposium. Springer, Cham, 2019: 1-18.

[BibTeX] [DOI]

BibTeX: @inproceedings{aichernig2019learning, title={Learning-based testing of an industrial measurement device}, author={Aichernig, Bernhard K and Burghard, Christian and Koro{\v{s}}ec, Robert}, booktitle={NASA Formal Methods Symposium}, pages={1--18}, year={2019}, organization={Springer} }



3. Akbar A, Kousiouris G, Pervaiz H, et al. Real-time probabilistic data fusion for large-scale IoT applications[J]. Ieee Access, 2018, 6: 10015-10027.

[BibTeX] [DOI]

BibTeX: @article{akbar2018real, title={Real-time probabilistic data fusion for large-scale IoT applications}, author={Akbar, Adnan and Kousiouris, George and Pervaiz, Haris and Sancho, Juan and Ta-Shma, Paula and Carrez, Francois and Moessner, Klaus}, journal={Ieee Access}, volume={6}, pages={10015--10027}, year={2018}, publisher={IEEE} }



4. Anwar F, D’souza S, Symington A, et al. Timeline: An operating system abstraction for time-aware applications[C]//2016 IEEE Real-Time Systems Symposium (RTSS). IEEE, 2016: 191-202.

[BibTeX] [DOI]

BibTeX: @inproceedings{anwar2016timeline, title={Timeline: An operating system abstraction for time-aware applications}, author={Anwar, Fatima and D’souza, Sandeep and Symington, Andrew and Dongare, Adwait and Rajkumar, Ragunathan and Rowe, Anthony and Srivastava, Mani}, booktitle={2016 IEEE Real-Time Systems Symposium (RTSS)}, pages={191--202}, year={2016}, organization={IEEE} }



5. Önol A Ö, Padir T. Towards Autonomous Grasping with Robotic Prosthetic Hands[C]//Proceedings of the 10th International Conference on PErvasive Technologies Related to Assistive Environments. 2017: 385-389.

[BibTeX] [DOI]

BibTeX: @inproceedings{onol2017towards, title={Towards Autonomous Grasping with Robotic Prosthetic Hands}, author={{\"O}nol, Aykut {\"O}zg{\"u}n and Padir, Ta{\c{s}}k{\i}n}, booktitle={Proceedings of the 10th International Conference on PErvasive Technologies Related to Assistive Environments}, pages={385--389}, year={2017} }



6. Xiao B, Chen L, Liu M, et al. Design and implementation of rule-based uncertainty reasoning in smart house[C]//2015 IEEE 16th International Conference on Communication Technology (ICCT). IEEE, 2015: 441-448.

[BibTeX] [DOI]

BibTeX: @inproceedings{xiao2015design, title={Design and implementation of rule-based uncertainty reasoning in smart house}, author={Xiao, Biyi and Chen, Leiting and Liu, Ming and Cao, Yue and Yang, Yong}, booktitle={2015 IEEE 16th International Conference on Communication Technology (ICCT)}, pages={441--448}, year={2015}, organization={IEEE} }



7. Cheng B H C, Ramirez A, McKinley P K. Harnessing evolutionary computation to enable dynamically adaptive systems to manage uncertainty[C]//2013 1st International Workshop on Combining Modelling and Search-Based Software Engineering (CMSBSE). IEEE, 2013: 1-6.

[BibTeX] [DOI]

BibTeX: @inproceedings{cheng2013harnessing, title={Harnessing evolutionary computation to enable dynamically adaptive systems to manage uncertainty}, author={Cheng, Betty HC and Ramirez, Andres and McKinley, Philip K}, booktitle={2013 1st International Workshop on Combining Modelling and Search-Based Software Engineering (CMSBSE)}, pages={1--6}, year={2013}, organization={IEEE} }



8. Feliú M A, Moscato M M. Towards a Formal Safety Framework for Trajectories[C]//NASA Formal Methods Symposium. Springer, Cham, 2018: 179-184.

[BibTeX] [DOI]

BibTeX: @inproceedings{feliu2018towards, title={Towards a Formal Safety Framework for Trajectories}, author={Feli{\'u}, Marco A and Moscato, Mariano M}, booktitle={NASA Formal Methods Symposium}, pages={179--184}, year={2018}, organization={Springer} }



9. Fu Y, Ding J, Wang H, et al. Two-objective stochastic flow-shop scheduling with deteriorating and learning effect in Industry 4.0-based manufacturing system[J]. Applied Soft Computing, 2018, 68: 847-855.

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BibTeX: @article{fu2018two, title={Two-objective stochastic flow-shop scheduling with deteriorating and learning effect in Industry 4.0-based manufacturing system}, author={Fu, Yaping and Ding, Jinliang and Wang, Hongfeng and Wang, Junwei}, journal={Applied Soft Computing}, volume={68}, pages={847--855}, year={2018}, publisher={Elsevier} } }



10. Han D, Yang Q, Xing J, et al. FAME: A UML-based framework for modeling fuzzy self-adaptive software[J]. Information and Software Technology, 2016, 76: 118-134.

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BibTeX: @article{han2016fame, title={FAME: A UML-based framework for modeling fuzzy self-adaptive software}, author={Han, Deshuai and Yang, Qiliang and Xing, Jianchun and Li, Juelong and Wang, Hongda}, journal={Information and Software Technology}, volume={76}, pages={118--134}, year={2016}, publisher={Elsevier} }



11. Hasan S, Curry E. Approximate semantic matching of events for the internet of things[J]. ACM Transactions on Internet Technology (TOIT), 2014, 14(1): 1-23.

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BibTeX: @article{hasan2014approximate, title={Approximate semantic matching of events for the internet of things}, author={Hasan, Souleiman and Curry, Edward}, journal={ACM Transactions on Internet Technology (TOIT)}, volume={14}, number={1}, pages={1--23}, year={2014}, publisher={ACM New York, NY, USA} }



12. Jafarnejadsani, Hamidreza, Hanmin Lee, and Naira Hovakimyan. "L1 adaptive sampled-data control for uncertain multi-input multi-output systems." Automatica 103 (2019): 346-353.

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BibTeX: @article{jafarnejadsani2019l1, title={L1 adaptive sampled-data control for uncertain multi-input multi-output systems}, author={Jafarnejadsani, Hamidreza and Lee, Hanmin and Hovakimyan, Naira}, journal={Automatica}, volume={103}, pages={346--353}, year={2019}, publisher={Elsevier} }



13. Jha, Susmit, and Vasumathi Raman. "On optimal control of stochastic linear hybrid systems." International Conference on Formal Modeling and Analysis of Timed Systems. Springer, Cham, 2016.

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BibTeX: @inproceedings{jha2016optimal, title={On optimal control of stochastic linear hybrid systems}, author={Jha, Susmit and Raman, Vasumathi}, booktitle={International Conference on Formal Modeling and Analysis of Timed Systems}, pages={69--84}, year={2016}, organization={Springer} }



14. Jha, Susmit, et al. "Safe autonomy under perception uncertainty using chance-constrained temporal logic." Journal of Automated Reasoning 60.1 (2018): 43-62.

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BibTeX: @article{jha2018safe, title={Safe autonomy under perception uncertainty using chance-constrained temporal logic}, author={Jha, Susmit and Raman, Vasumathi and Sadigh, Dorsa and Seshia, Sanjit A}, journal={Journal of Automated Reasoning}, volume={60}, number={1}, pages={43--62}, year={2018}, publisher={Springer} }



15. Kargin, Anatolii, and Tetyana Petrenko. "Abstraction as a Way of Uncertainty Representation in Smart Rules Engine." 2019 XIth International Scientific and Practical Conference on Electronics and Information Technologies (ELIT). IEEE, 2019.

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BibTeX: @inproceedings{kargin2019abstraction, title={Abstraction as a Way of Uncertainty Representation in Smart Rules Engine}, author={Kargin, Anatolii and Petrenko, Tetyana}, booktitle={2019 XIth International Scientific and Practical Conference on Electronics and Information Technologies (ELIT)}, pages={136--141}, year={2019}, organization={IEEE} }



16. Katayama, Kei, and Hiroyuki Ohsaki. "Fluid-Based Modeling of Large-Scale IEEE 802.15. 4 Wireless Sensor Networks." 2019 IEEE 43rd Annual Computer Software and Applications Conference (COMPSAC). Vol. 2. IEEE, 2019.

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BibTeX: @inproceedings{katayama2019fluid, title={Fluid-Based Modeling of Large-Scale IEEE 802.15. 4 Wireless Sensor Networks}, author={Katayama, Kei and Ohsaki, Hiroyuki}, booktitle={2019 IEEE 43rd Annual Computer Software and Applications Conference (COMPSAC)}, volume={2}, pages={543--548}, year={2019}, organization={IEEE} }



17. Li H, Zhang Y, Chen Y. PSTEP-A Novel Probabilistic Event Processing Language for Uncertain Spatio-temporal Event Streams of Internet of Vehicles[C]//2015 IEEE International Conference on Software Quality, Reliability and Security-Companion. IEEE, 2015: 161-168.

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BibTeX: @inproceedings{li2015pstep, title={PSTEP-A Novel Probabilistic Event Processing Language for Uncertain Spatio-temporal Event Streams of Internet of Vehicles}, author={Li, Huiyong and Zhang, Yuanrui and Chen, Yixiang}, booktitle={2015 IEEE International Conference on Software Quality, Reliability and Security-Companion}, pages={161--168}, year={2015}, organization={IEEE} }



18. Li X, Soh Y C, Xie L. Robust consensus of uncertain linear multi-agent systems via dynamic output feedback[J]. Automatica, 2018, 98: 114-123.

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BibTeX: @article{li2018robust, title={Robust consensus of uncertain linear multi-agent systems via dynamic output feedback}, author={Li, Xianwei and Soh, Yeng Chai and Xie, Lihua}, journal={Automatica}, volume={98}, pages={114--123}, year={2018}, publisher={Elsevier} }



19. Liang Y, Chen D. ClusRed: Clustering and network reduction based probabilistic optimal power flow analysis for large-scale smart grids[C]//2014 51st ACM/EDAC/IEEE Design Automation Conference (DAC). IEEE, 2014: 1-6.

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BibTeX: @inproceedings{liang2014clusred, title={ClusRed: Clustering and network reduction based probabilistic optimal power flow analysis for large-scale smart grids}, author={Liang, Yi and Chen, Deming}, booktitle={2014 51st ACM/EDAC/IEEE Design Automation Conference (DAC)}, pages={1--6}, year={2014}, organization={IEEE} }



20. Moreno N, Bertoa M F, Barquero G, et al. Managing uncertain complex events in web of things applications[C]//International Conference on Web Engineering. Springer, Cham, 2018: 349-357.

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BibTeX: @inproceedings{moreno2018managing, title={Managing uncertain complex events in web of things applications}, author={Moreno, Nathalie and Bertoa, Manuel F and Barquero, Gala and Burgue{\~n}o, Loli and Troya, Javier and Garc{\'\i}a-L{\'o}pez, Adri{\'a}n and Vallecillo, Antonio}, booktitle={International Conference on Web Engineering}, pages={349--357}, year={2018}, organization={Springer} }



21. Ruchkin I, Rao A, De Niz D, et al. Eliminating inter-domain vulnerabilities in cyber-physical systems: An analysis contracts approach[C]//Proceedings of the First ACM Workshop on Cyber-Physical Systems-Security and/or PrivaCy. 2015: 11-22.

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BibTeX: @inproceedings{ruchkin2015eliminating, title={Eliminating inter-domain vulnerabilities in cyber-physical systems: An analysis contracts approach}, author={Ruchkin, Ivan and Rao, Ashwini and De Niz, Dionisio and Chaki, Sagar and Garlan, David}, booktitle={Proceedings of the First ACM Workshop on Cyber-Physical Systems-Security and/or PrivaCy}, pages={11--22}, year={2015} }



22. Saeedi R, Fallahzadeh R, Alinia P, et al. An energy-efficient computational model for uncertainty management in dynamically changing networked wearables[C]//Proceedings of the 2016 International Symposium on Low Power Electronics and Design. 2016: 46-51.

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BibTeX: @inproceedings{saeedi2016energy, title={An energy-efficient computational model for uncertainty management in dynamically changing networked wearables}, author={Saeedi, Ramyar and Fallahzadeh, Ramin and Alinia, Parastoo and Ghasemzadeh, Hassan}, booktitle={Proceedings of the 2016 International Symposium on Low Power Electronics and Design}, pages={46--51}, year={2016} }



23. Schneider M A, Wendland M F, Bornemann L. Gaining Certainty About Uncertainty[C]//International Workshop on Risk Assessment and Risk-driven Testing. Springer, Cham, 2016: 129-142.

[BibTeX] [DOI]

BibTeX: @inproceedings{schneider2016gaining, title={Gaining Certainty About Uncertainty}, author={Schneider, Martin A and Wendland, Marc-Florian and Bornemann, Leon}, booktitle={International Workshop on Risk Assessment and Risk-driven Testing}, pages={129--142}, year={2016}, organization={Springer} }



24. Shevtsov S, Weyns D, Maggio M. SimCA* A Control-theoretic Approach to Handle Uncertainty in Self-adaptive Systems with Guarantees[J]. ACM Transactions on Autonomous and Adaptive Systems (TAAS), 2019, 13(4): 1-34.

[ [BibTeX] [DOI]

BibTeX: @article{shevtsov2019simca, title={SimCA* A Control-theoretic Approach to Handle Uncertainty in Self-adaptive Systems with Guarantees}, author={Shevtsov, Stepan and Weyns, Danny and Maggio, Martina}, journal={ACM Transactions on Autonomous and Adaptive Systems (TAAS)}, volume={13}, number={4}, pages={1--34}, year={2019}, publisher={ACM New York, NY, USA} }



25. Zhang M, Ali S, Yue T, et al. Uncertainty-wise cyber-physical system test modeling[J]. Software & Systems Modeling, 2019, 18(2): 1379-1418.

[BibTeX] [DOI]

BibTeX: @article{zhang2019uncertainty, title={Uncertainty-wise cyber-physical system test modeling}, author={Zhang, Man and Ali, Shaukat and Yue, Tao and Norgren, Roland and Okariz, Oscar}, journal={Software \& Systems Modeling}, volume={18}, number={2}, pages={1379--1418}, year={2019}, publisher={Springer} }



26. Zhang M, Selic B, Ali S, et al. Understanding uncertainty in cyber-physical systems: a conceptual model[C]//European conference on modelling foundations and applications. Springer, Cham, 2016: 247-264.

[BibTeX] [DOI]

BibTeX: @inproceedings{zhang2016understanding, title={Understanding uncertainty in cyber-physical systems: a conceptual model}, author={Zhang, Man and Selic, Bran and Ali, Shaukat and Yue, Tao and Okariz, Oscar and Norgren, Roland}, booktitle={European conference on modelling foundations and applications}, pages={247--264}, year={2016}, organization={Springer} }

(c) Support System Technology Uncertainty:

1. Al-Turjman F, Zahmatkesh H, Mostarda L. Quantifying uncertainty in internet of medical things and big-data services using intelligence and deep learning[J]. IEEE Access, 2019, 7: 115749-115759.

[BibTeX] [DOI]

BibTeX: @article{al2019quantifying, title={Quantifying uncertainty in internet of medical things and big-data services using intelligence and deep learning}, author={Al-Turjman, Fadi and Zahmatkesh, Hadi and Mostarda, Leonardo}, journal={IEEE Access}, volume={7}, pages={115749--115759}, year={2019}, publisher={IEEE} }



2. Amir M, Givargis T. Hybrid state machine model for fast model predictive control: Application to path tracking[C]//2017 IEEE/ACM International Conference on Computer-Aided Design (ICCAD). IEEE, 2017: 185-192.

[BibTeX] [DOI]

BibTeX: @inproceedings{amir2017hybrid, title={Hybrid state machine model for fast model predictive control: Application to path tracking}, author={Amir, Maral and Givargis, Tony}, booktitle={2017 IEEE/ACM International Conference on Computer-Aided Design (ICCAD)}, pages={185--192}, year={2017}, organization={IEEE} }



3. Banerjee S, Bouzefrane S, Mühlethaler P. Mobility prediction in vehicular networks: an approach through hybrid neural networks under uncertainty[C]//International Conference on Mobile, Secure, and Programmable Networking. Springer, Cham, 2017: 178-194.

[BibTeX] [DOI]

BibTeX: @inproceedings{banerjee2017mobility, title={Mobility prediction in vehicular networks: an approach through hybrid neural networks under uncertainty}, author={Banerjee, Soumya and Bouzefrane, Samia and M{\"u}hlethaler, Paul}, booktitle={International Conference on Mobile, Secure, and Programmable Networking}, pages={178--194}, year={2017}, organization={Springer} }



4. Harirchi F, Ozay N. Guaranteed model-based fault detection in cyber–physical systems: A model invalidation approach[J]. Automatica, 2018, 93: 476-488.

[BibTeX] [DOI]

BibTeX: @article{harirchi2018guaranteed, title={Guaranteed model-based fault detection in cyber--physical systems: A model invalidation approach}, author={Harirchi, Farshad and Ozay, Necmiye}, journal={Automatica}, volume={93}, pages={476--488}, year={2018}, publisher={Elsevier} }



5. Zhang M, Selic B, Ali S, et al. Understanding uncertainty in cyber-physical systems: a conceptual model[C]//European conference on modelling foundations and applications. Springer, Cham, 2016: 247-264.

[BibTeX] [DOI]

BibTeX: @inproceedings{zhang2016understanding, title={Understanding uncertainty in cyber-physical systems: a conceptual model}, author={Zhang, Man and Selic, Bran and Ali, Shaukat and Yue, Tao and Okariz, Oscar and Norgren, Roland}, booktitle={European conference on modelling foundations and applications}, pages={247--264}, year={2016}, organization={Springer} }

(d) Handling System Operation Technology Uncertainty:

1. Alhakami W, ALharbi A, Bourouis S, et al. Network anomaly intrusion detection using a nonparametric Bayesian approach and feature selection[J]. IEEE Access, 2019, 7: 52181-52190.

[BibTeX] [DOI]

BibTeX: @article{alhakami2019network, title={Network anomaly intrusion detection using a nonparametric Bayesian approach and feature selection}, author={Alhakami, Wajdi and ALharbi, Abdullah and Bourouis, Sami and Alroobaea, Roobaea and Bouguila, Nizar}, journal={IEEE Access}, volume={7}, pages={52181--52190}, year={2019}, publisher={IEEE} }



2. Bortolussi L, Cairoli F, Paoletti N, et al. Conformal predictions for hybrid system state classification[M]//From Reactive Systems to Cyber-Physical Systems. Springer, Cham, 2019: 225-241.

[BibTeX] [DOI]

BibTeX: @incollection{bortolussi2019conformal, title={Conformal predictions for hybrid system state classification}, author={Bortolussi, Luca and Cairoli, Francesca and Paoletti, Nicola and Stoller, Scott D}, booktitle={From Reactive Systems to Cyber-Physical Systems}, pages={225--241}, year={2019}, publisher={Springer} }



3. Chati Y S, Balakrishnan H. A Gaussian process regression approach to model aircraft engine fuel flow rate[C]//2017 ACM/IEEE 8th International Conference on Cyber-Physical Systems (ICCPS). IEEE, 2017: 131-140.

[BibTeX] [DOI]

BibTeX: @inproceedings{chati2017gaussian, title={A Gaussian process regression approach to model aircraft engine fuel flow rate}, author={Chati, Yashovardhan Sushil and Balakrishnan, Hamsa}, booktitle={2017 ACM/IEEE 8th International Conference on Cyber-Physical Systems (ICCPS)}, pages={131--140}, year={2017}, organization={IEEE} }



4. Chen B, Pompili D. Minimizing position uncertainty for under-ice autonomous underwater vehicles[J]. Computer Networks, 2013, 57(18): 3840-3854.

[BibTeX] [DOI]

BibTeX: @article{chen2013minimizing, title={Minimizing position uncertainty for under-ice autonomous underwater vehicles}, author={Chen, Baozhi and Pompili, Dario}, journal={Computer Networks}, volume={57}, number={18}, pages={3840--3854}, year={2013}, publisher={Elsevier} }



5. Chen B, Pompili D. Modeling position uncertainty of networked autonomous underwater vehicles[J]. Ad Hoc Networks, 2015, 34: 184-195.

[BibTeX] [DOI]

BibTeX: @article{chen2015modeling, title={Modeling position uncertainty of networked autonomous underwater vehicles}, author={Chen, Baozhi and Pompili, Dario}, journal={Ad Hoc Networks}, volume={34}, pages={184--195}, year={2015}, publisher={Elsevier} }



6. Gomes I L R, Pousinho H M I, Melício R, et al. Stochastic optimization for the daily joint operation of wind/pv and energy storage[C]//Doctoral Conference on Computing, Electrical and Industrial Systems. Springer, Cham, 2017: 277-286.

[BibTeX] [DOI]

BibTeX: @inproceedings{gomes2017stochastic, title={Stochastic optimization for the daily joint operation of wind/pv and energy storage}, author={Gomes, Isa{\'\i}as LR and Pousinho, Hugo MI and Mel{\'\i}cio, Rui and Mendes, Vitor MF}, booktitle={Doctoral Conference on Computing, Electrical and Industrial Systems}, pages={277--286}, year={2017}, organization={Springer} }



7. Jang, Kuk Jin, et al. "Robustness evaluation of computer-aided clinical trials for medical devices." Proceedings of the 10th ACM/IEEE International Conference on Cyber-Physical Systems. 2019.

[BibTeX] [DOI]

BibTeX: @inproceedings{jang2019robustness, title={Robustness evaluation of computer-aided clinical trials for medical devices}, author={Jang, Kuk Jin and Pant, Yash Vardhan and Zhang, Bo and Weimer, James and Mangharam, Rahul}, booktitle={Proceedings of the 10th ACM/IEEE International Conference on Cyber-Physical Systems}, pages={163--173}, year={2019} }



8. Nannapaneni S, Dubey A, Mahadevan S. Performance evaluation of smart systems under uncertainty[C]//2017 IEEE SmartWorld, Ubiquitous Intelligence & Computing, Advanced & Trusted Computed, Scalable Computing & Communications, Cloud & Big Data Computing, Internet of People and Smart City Innovation (SmartWorld/SCALCOM/UIC/ATC/CBDCom/IOP/SCI). IEEE, 2017: 1-8.

[BibTeX] [DOI]

BibTeX: @inproceedings{nannapaneni2017performance, title={Performance evaluation of smart systems under uncertainty}, author={Nannapaneni, Saideep and Dubey, Abhishek and Mahadevan, Sankaran}, booktitle={2017 IEEE SmartWorld, Ubiquitous Intelligence \& Computing, Advanced \& Trusted Computed, Scalable Computing \& Communications, Cloud \& Big Data Computing, Internet of People and Smart City Innovation (SmartWorld/SCALCOM/UIC/ATC/CBDCom/IOP/SCI)}, pages={1--8}, year={2017}, organization={IEEE} }



9. Zhang M, Selic B, Ali S, et al. Understanding uncertainty in cyber-physical systems: a conceptual model[C]//European conference on modelling foundations and applications. Springer, Cham, 2016: 247-264.

[BibTeX] [DOI]

BibTeX: @inproceedings{zhang2016understanding, title={Understanding uncertainty in cyber-physical systems: a conceptual model}, author={Zhang, Man and Selic, Bran and Ali, Shaukat and Yue, Tao and Okariz, Oscar and Norgren, Roland}, booktitle={European conference on modelling foundations and applications}, pages={247--264}, year={2016}, organization={Springer} }

(2.3) Sensor Uncertainty:

1. Bacci G, Hansen M, Larsen K G. On the verification of weighted kripke structures under uncertainty[C]//International Conference on Quantitative Evaluation of Systems. Springer, Cham, 2018: 71-86.

[BibTeX] [DOI]

BibTeX: @inproceedings{bacci2018verification, title={On the verification of weighted kripke structures under uncertainty}, author={Bacci, Giovanni and Hansen, Mikkel and Larsen, Kim Guldstrand}, booktitle={International Conference on Quantitative Evaluation of Systems}, pages={71--86}, year={2018}, organization={Springer} }



2. Behl M, Nghiem T X, Mangharam R. Model-iq: Uncertainty propagation from sensing to modeling and control in buildings[C]//2014 ACM/IEEE International Conference on Cyber-Physical Systems (ICCPS). IEEE, 2014: 13-24.

[BibTeX] [DOI]

BibTeX: @inproceedings{behl2014model, title={Model-iq: Uncertainty propagation from sensing to modeling and control in buildings}, author={Behl, Madhur and Nghiem, Truong X and Mangharam, Rahul}, booktitle={2014 ACM/IEEE International Conference on Cyber-Physical Systems (ICCPS)}, pages={13--24}, year={2014}, organization={IEEE} }



3. Bhadoria R S, Chaudhari N S, Samanta S. Uncertainty in sensor data acquisition for SOA system[J]. Neural Computing and Applications, 2018, 30(10): 3177-3187.

[BibTeX] [DOI]

BibTeX: @article{bhadoria2018uncertainty, title={Uncertainty in sensor data acquisition for SOA system}, author={Bhadoria, Robin Singh and Chaudhari, Narendra S and Samanta, Sovan}, journal={Neural Computing and Applications}, volume={30}, number={10}, pages={3177--3187}, year={2018}, publisher={Springer} }



4. Bhattacharjee S, Salimitari M, Chatterjee M, et al. Preserving data integrity in iot networks under opportunistic data manipulation[C]//2017 IEEE 15th Intl Conf on Dependable, Autonomic and Secure Computing, 15th Intl Conf on Pervasive Intelligence and Computing, 3rd Intl Conf on Big Data Intelligence and Computing and Cyber Science and Technology Congress (DASC/PiCom/DataCom/CyberSciTech). IEEE, 2017: 446-453.

[BibTeX] [DOI]

BibTeX: @inproceedings{bhattacharjee2017preserving, title={Preserving data integrity in iot networks under opportunistic data manipulation}, author={Bhattacharjee, Shameek and Salimitari, Mehrdad and Chatterjee, Mainak and Kwiat, Kevin and Kamhoua, Charles}, booktitle={2017 IEEE 15th Intl Conf on Dependable, Autonomic and Secure Computing, 15th Intl Conf on Pervasive Intelligence and Computing, 3rd Intl Conf on Big Data Intelligence and Computing and Cyber Science and Technology Congress (DASC/PiCom/DataCom/CyberSciTech)}, pages={446--453}, year={2017}, organization={IEEE} }



5. Bi R, Ren J, Wang H, et al. Model Based Adaptive Data Acquisition for Internet of Things[C]//International Conference on Wireless Algorithms, Systems, and Applications. Springer, Cham, 2019: 16-28.

[BibTeX] [DOI]

BibTeX: @inproceedings{bi2019model, title={Model Based Adaptive Data Acquisition for Internet of Things}, author={Bi, Ran and Ren, Jiankang and Wang, Hao and Liu, Qian and Huang, Shan}, booktitle={International Conference on Wireless Algorithms, Systems, and Applications}, pages={16--28}, year={2019}, organization={Springer} }



6. Cámara J, Peng W, Garlan D, et al. Reasoning about sensing uncertainty in decision-making for self-adaptation[C]//International Conference on Software Engineering and Formal Methods. Springer, Cham, 2017: 523-540.

[BibTeX] [DOI]

BibTeX: @inproceedings{camara2017reasoning, title={Reasoning about sensing uncertainty in decision-making for self-adaptation}, author={C{\'a}mara, Javier and Peng, Wenxin and Garlan, David and Schmerl, Bradley}, booktitle={International Conference on Software Engineering and Formal Methods}, pages={523--540}, year={2017}, organization={Springer} }



7. Kotenko I, Saenko I, Ageev S. Countermeasure security risks management in the internet of things based on fuzzy logic inference[C]//2015 IEEE Trustcom/BigDataSE/ISPA. IEEE, 2015, 1: 654-659.

[BibTeX] [DOI]

BibTeX: @inproceedings{kotenko2015countermeasure, title={Countermeasure security risks management in the internet of things based on fuzzy logic inference}, author={Kotenko, Igor and Saenko, Igor and Ageev, Sergey}, booktitle={2015 IEEE Trustcom/BigDataSE/ISPA}, volume={1}, pages={654--659}, year={2015}, organization={IEEE} }



8. Leite F L, Schneider D, Adler R. Dynamic risk management for cooperative autonomous medical cyber-physical systems[C]//International Conference on Computer Safety, Reliability, and Security. Springer, Cham, 2018: 126-138.

[BibTeX] [DOI]

BibTeX: @inproceedings{leite2018dynamic, title={Dynamic risk management for cooperative autonomous medical cyber-physical systems}, author={Leite, F{\'a}bio L and Schneider, Daniel and Adler, Rasmus}, booktitle={International Conference on Computer Safety, Reliability, and Security}, pages={126--138}, year={2018}, organization={Springer} }



9. Margelis G, Piechocki R, Tryfonas T, et al. Smart Attacks on the integrity of the Internet of Things: Avoiding detection by employing Game Theory[C]//2016 IEEE Global Communications Conference (GLOBECOM). IEEE, 2016: 1-6.

[BibTeX] [DOI]

BibTeX: @inproceedings{margelis2016smart, title={Smart Attacks on the integrity of the Internet of Things: Avoiding detection by employing Game Theory}, author={Margelis, George and Piechocki, Robert and Tryfonas, Theo and Thomas, Paul}, booktitle={2016 IEEE Global Communications Conference (GLOBECOM)}, pages={1--6}, year={2016}, organization={IEEE} }



10. Vrbaski, Mira, Miodrag Bolic, and Shikharesh Majumdar. "Complex event recognition notification methodology for uncertain IoT systems based on micro-service architecture." 2018 IEEE 6th International Conference on Future Internet of Things and Cloud (FiCloud). IEEE, 2018.

[BibTeX] [DOI]

BibTeX: @inproceedings{vrbaski2018complex, title={Complex event recognition notification methodology for uncertain IoT systems based on micro-service architecture}, author={Vrbaski, Mira and Bolic, Miodrag and Majumdar, Shikharesh}, booktitle={2018 IEEE 6th International Conference on Future Internet of Things and Cloud (FiCloud)}, pages={184--191}, year={2018}, organization={IEEE} }



11. Cámara J, Peng W, Garlan D, et al. Reasoning about sensing uncertainty and its reduction in decision-making for self-adaptation[J]. Science of Computer Programming, 2018, 167: 51-69.

[BibTeX] [DOI]

BibTeX: @article{camara2018reasoning, title={Reasoning about sensing uncertainty and its reduction in decision-making for self-adaptation}, author={C{\'a}mara, Javier and Peng, Wenxin and Garlan, David and Schmerl, Bradley}, journal={Science of Computer Programming}, volume={167}, pages={51--69}, year={2018}, publisher={Elsevier} }

3 Uncertainty of each artifact during system development:

(3.1) Requirements Uncertainty:

1. Carlén N, Forsman A, Svensson J, et al. IoT Enabled Process Innovation: Exploring Sensor-Based Digital Service Design Through an Information Requirements Framework[C]//IFIP International Internet of Things Conference. Springer, Cham, 2018: 105-120.

[BibTeX] [DOI]

BibTeX: @inproceedings{carlen2018iot, title={IoT Enabled Process Innovation: Exploring Sensor-Based Digital Service Design Through an Information Requirements Framework}, author={Carl{\'e}n, Niclas and Forsman, August and Svensson, Jesper and Sandberg, Johan}, booktitle={IFIP International Internet of Things Conference}, pages={105--120}, year={2018}, organization={Springer, Cham} }



2. Chatzikonstantinou G, Kontogiannis K. Efficient parallel reasoning on fuzzy goal models for run time requirements verification[J]. Software & Systems Modeling, 2018, 17(4): 1339-1364.

[BibTeX] [DOI]

BibTeX: @article{chatzikonstantinou2018efficient, title={Efficient parallel reasoning on fuzzy goal models for run time requirements verification}, author={Chatzikonstantinou, George and Kontogiannis, Kostas}, journal={Software \& Systems Modeling}, volume={17}, number={4}, pages={1339--1364}, year={2018}, publisher={Springer} }



3. Ghezzi C. Dependability of adaptable and evolvable distributed systems[C]//International School on Formal Methods for the Design of Computer, Communication and Software Systems. Springer, Cham, 2016: 36-60.

[BibTeX] [DOI]

BibTeX: @inproceedings{ghezzi2016dependability, title={Dependability of adaptable and evolvable distributed systems}, author={Ghezzi, Carlo}, booktitle={International School on Formal Methods for the Design of Computer, Communication and Software Systems}, pages={36--60}, year={2016}, organization={Springer} } } }



4. Shevtsov S, Weyns D, Maggio M. SimCA* A Control-theoretic Approach to Handle Uncertainty in Self-adaptive Systems with Guarantees[J]. ACM Transactions on Autonomous and Adaptive Systems (TAAS), 2019, 13(4): 1-34.

[BibTeX] [DOI]

BibTeX: @article{shevtsov2019simca, title={SimCA* A Control-theoretic Approach to Handle Uncertainty in Self-adaptive Systems with Guarantees}, author={Shevtsov, Stepan and Weyns, Danny and Maggio, Martina}, journal={ACM Transactions on Autonomous and Adaptive Systems (TAAS)}, volume={13}, number={4}, pages={1--34}, year={2019}, publisher={ACM New York, NY, USA} }

(3.2) Model Uncertainty:

1. Bacci G, Hansen M, Larsen K G. On the verification of weighted kripke structures under uncertainty[C]//International Conference on Quantitative Evaluation of Systems. Springer, Cham, 2018: 71-86.

[BibTeX] [DOI]

BibTeX: @inproceedings{bacci2018verification, title={On the verification of weighted kripke structures under uncertainty}, author={Bacci, Giovanni and Hansen, Mikkel and Larsen, Kim Guldstrand}, booktitle={International Conference on Quantitative Evaluation of Systems}, pages={71--86}, year={2018}, organization={Springer} }



2. Chaves L C, Ismail H I, Bessa I V, et al. Verifying fragility in digital systems with uncertainties using DSVerifier v2. 0[J]. Journal of Systems and Software, 2019, 153: 22-43.

[BibTeX] [DOI]

BibTeX: @article{chaves2019verifying, title={Verifying fragility in digital systems with uncertainties using DSVerifier v2. 0}, author={Chaves, Lennon C and Ismail, Hussama I and Bessa, Iury V and Cordeiro, Lucas C and de Lima Filho, Eddie B}, journal={Journal of Systems and Software}, volume={153}, pages={22--43}, year={2019}, publisher={Elsevier} }



3. Dai X, Burns A. Period adaptation of real-time control tasks with fixed-priority scheduling in cyber-physical systems[J]. Journal of Systems Architecture, 2020, 103: 101691.

[BibTeX] [DOI]

BibTeX: @article{dai2020period, title={Period adaptation of real-time control tasks with fixed-priority scheduling in cyber-physical systems}, author={Dai, Xiaotian and Burns, Alan}, journal={Journal of Systems Architecture}, volume={103}, pages={101691}, year={2020}, publisher={Elsevier} }



4. Dilli R, Argou A, Pilla M, et al. Fuzzy logic and MCDA in IoT resources classification[C]//Proceedings of the 33rd Annual ACM Symposium on Applied Computing. 2018: 761-766.

[BibTeX] [DOI]

BibTeX: @inproceedings{dilli2018fuzzy, title={Fuzzy logic and MCDA in IoT resources classification}, author={Dilli, Renato and Argou, Amanda and Pilla, Mauricio and Pernas, Ana Marilza and Reiser, Renata and Yamin, Adenauer}, booktitle={Proceedings of the 33rd Annual ACM Symposium on Applied Computing}, pages={761--766}, year={2018} }



5. Dilli R, Argou A, Reiser R, et al. Iot resources ranking: Decision making under uncertainty combining machine learning and fuzzy logic[C]//North American Fuzzy Information Processing Society Annual Conference. Springer, Cham, 2018: 119-131.

[BibTeX] [DOI]

BibTeX: @inproceedings{dilli2018iot, title={Iot resources ranking: Decision making under uncertainty combining machine learning and fuzzy logic}, author={Dilli, Renato and Argou, Amanda and Reiser, Renata and Yamin, Adenauer}, booktitle={North American Fuzzy Information Processing Society Annual Conference}, pages={119--131}, year={2018}, organization={Springer} }



6. Dong Y, Zhao X, Tong Y, et al. Service Optimization of Internet of Manufacturing Things Based on Mixed Information Axioms[J]. IEEE Access, 2018, 6: 53254-53264.

[BibTeX] [DOI]

BibTeX: @article{dong2018service, title={Service Optimization of Internet of Manufacturing Things Based on Mixed Information Axioms}, author={Dong, Ying and Zhao, Xiaojun and Tong, Yifei and Li, Dong-Bo}, journal={IEEE Access}, volume={6}, pages={53254--53264}, year={2018}, publisher={IEEE} }



7. Esfahani N, Malek S. Uncertainty in self-adaptive software systems[M]//Software Engineering for Self-Adaptive Systems II. Springer, Berlin, Heidelberg, 2013: 214-238.

[BibTeX] [DOI]

BibTeX: @incollection{esfahani2013uncertainty, title={Uncertainty in self-adaptive software systems}, author={Esfahani, Naeem and Malek, Sam}, booktitle={Software Engineering for Self-Adaptive Systems II}, pages={214--238}, year={2013}, publisher={Springer} }



8. Falas Ł, Stelmach P. Web service composition with uncertain non-functional parameters[C]//Doctoral Conference on Computing, Electrical and Industrial Systems. Springer, Berlin, Heidelberg, 2013: 45-52.

[BibTeX] [DOI]

BibTeX: @inproceedings{falas2013web, title={Web service composition with uncertain non-functional parameters}, author={Falas, {\L}ukasz and Stelmach, Pawe{\l}}, booktitle={Doctoral Conference on Computing, Electrical and Industrial Systems}, pages={45--52}, year={2013}, organization={Springer} }



9. Gao R, Huang J, Wang L. Leaderless consensus control of uncertain multi-agents systems with sensor and actuator attacks[J]. Information Sciences, 2019, 505: 144-156.

[BibTeX] [DOI]

BibTeX: @article{gao2019leaderless, title={Leaderless consensus control of uncertain multi-agents systems with sensor and actuator attacks}, author={Gao, Rui and Huang, Jiangshuai and Wang, Lei}, journal={Information Sciences}, volume={505}, pages={144--156}, year={2019}, publisher={Elsevier} } }



10. Ge H, Yue D, Xie X, et al. A unified modeling of muti-sources cyber-attacks with uncertainties for CPS security control[J]. Journal of the Franklin Institute, 2019.

[BibTeX] [DOI]

BibTeX: @article{ge2019unified, title={A unified modeling of muti-sources cyber-attacks with uncertainties for CPS security control}, author={Ge, Hui and Yue, Dong and Xie, Xiangpeng and Deng, Song and Dou, Chunxia}, journal={Journal of the Franklin Institute}, year={2019}, publisher={Elsevier} } } }



11. Ge H, Zhao Z. Security analysis of energy internet with robust control approaches and defense design[J]. IEEE Access, 2018, 6: 11203-11214.

[BibTeX] [DOI]

BibTeX: @article{ge2018security, title={Security analysis of energy internet with robust control approaches and defense design}, author={Ge, Hui and Zhao, Zhenjiang}, journal={IEEE Access}, volume={6}, pages={11203--11214}, year={2018}, publisher={IEEE} } } }



12. Geilen M, Tripakis S, Wiggers M. The earlier the better: A theory of timed actor interfaces[C]//Proceedings of the 14th international conference on Hybrid systems: computation and control. 2011: 23-32.

[BibTeX] [DOI]

BibTeX: @inproceedings{geilen2011earlier, title={The earlier the better: A theory of timed actor interfaces}, author={Geilen, Marc and Tripakis, Stavros and Wiggers, Maarten}, booktitle={Proceedings of the 14th international conference on Hybrid systems: computation and control}, pages={23--32}, year={2011} } } }



13. Giannetti C, Ransing R S. Risk based uncertainty quantification to improve robustness of manufacturing operations[J]. Computers & Industrial Engineering, 2016, 101: 70-80.

[BibTeX] [DOI]

BibTeX: @article{giannetti2016risk, title={Risk based uncertainty quantification to improve robustness of manufacturing operations}, author={Giannetti, Cinzia and Ransing, Rajesh S}, journal={Computers \& Industrial Engineering}, volume={101}, pages={70--80}, year={2016}, publisher={Elsevier} } } }



14. Gurriet T, Singletary A, Reher J, et al. Towards a framework for realizable safety critical control through active set invariance[C]//2018 ACM/IEEE 9th International Conference on Cyber-Physical Systems (ICCPS). IEEE, 2018: 98-106.

[BibTeX] [DOI]

BibTeX: @inproceedings{gurriet2018towards, title={Towards a framework for realizable safety critical control through active set invariance}, author={Gurriet, Thomas and Singletary, Andrew and Reher, Jacob and Ciarletta, Laurent and Feron, Eric and Ames, Aaron}, booktitle={2018 ACM/IEEE 9th International Conference on Cyber-Physical Systems (ICCPS)}, pages={98--106}, year={2018}, organization={IEEE} }



15. Hamouda L B, Ayadi M, Langlois N. Fault tolerant fuzzy-based model predictive controllers for automotive application[C]//2016 International Conference on Control, Decision and Information Technologies (CoDIT). IEEE, 2016: 117-122.

[BibTeX] [DOI]

BibTeX: @inproceedings{hamouda2016fault, title={Fault tolerant fuzzy-based model predictive controllers for automotive application}, author={Hamouda, Lamia Ben and Ayadi, Mounir and Langlois, Nicolas}, booktitle={2016 International Conference on Control, Decision and Information Technologies (CoDIT)}, pages={117--122}, year={2016}, organization={IEEE} }



16. Pang J, Liu D, Peng Y, et al. Anomaly detection based on uncertainty fusion for univariate monitoring series[J]. Measurement, 2017, 95: 280-292.

[BibTeX] [DOI]

BibTeX: @article{pang2017anomaly, title={Anomaly detection based on uncertainty fusion for univariate monitoring series}, author={Pang, Jingyue and Liu, Datong and Peng, Yu and Peng, Xiyuan}, journal={Measurement}, volume={95}, pages={280--292}, year={2017}, publisher={Elsevier} }



17. Rostampour V, Ferrari R, Teixeira A M H, et al. Differentially-private distributed fault diagnosis for large-scale nonlinear uncertain systems[J]. IFAC-PapersOnLine, 2018, 51(24): 975-982.

[BibTeX] [DOI]

BibTeX: @article{rostampour2018differentially, title={Differentially-private distributed fault diagnosis for large-scale nonlinear uncertain systems}, author={Rostampour, Vahab and Ferrari, Riccardo and Teixeira, Andr{\'e} MH and Keviczky, Tam{\'a}s}, journal={IFAC-PapersOnLine}, volume={51}, number={24}, pages={975--982}, year={2018}, publisher={Elsevier} }



18. Shariatmadar K, Misra A, Debrouwere F, et al. Optimal modelling of process variations in industry 4.0 facility under advanced p-box uncertainty[C]//2019 IEEE Student Conference on Research and Development (SCOReD). IEEE, 2019: 180-185.

[BibTeX] [DOI]

BibTeX: @inproceedings{shariatmadar2019optimal, title={Optimal modelling of process variations in industry 4.0 facility under advanced p-box uncertainty}, author={Shariatmadar, Keivan and Misra, Ashwin and Debrouwere, Frederik and Versteyhe, Mark}, booktitle={2019 IEEE Student Conference on Research and Development (SCOReD)}, pages={180--185}, year={2019}, organization={IEEE} }



19. Shevtsov S, Weyns D, Maggio M. SimCA* A Control-theoretic Approach to Handle Uncertainty in Self-adaptive Systems with Guarantees[J]. ACM Transactions on Autonomous and Adaptive Systems (TAAS), 2019, 13(4): 1-34.

[BibTeX] [DOI]

BibTeX: @article{shevtsov2019simca, title={SimCA* A Control-theoretic Approach to Handle Uncertainty in Self-adaptive Systems with Guarantees}, author={Shevtsov, Stepan and Weyns, Danny and Maggio, Martina}, journal={ACM Transactions on Autonomous and Adaptive Systems (TAAS)}, volume={13}, number={4}, pages={1--34}, year={2019}, publisher={ACM New York, NY, USA} }



20. Song, Junsup, Yeongbok Choe, and Moonkun Lee. "Application of probabilistic process model for smart factory systems." International Conference on Knowledge Science, Engineering and Management. Springer, Cham, 2019.

[BibTeX] [DOI]

BibTeX: @inproceedings{song2019application, title={Application of probabilistic process model for smart factory systems}, author={Song, Junsup and Choe, Yeongbok and Lee, Moonkun}, booktitle={International Conference on Knowledge Science, Engineering and Management}, pages={25--36}, year={2019}, organization={Springer} }



21. Taghavifar, Hamid, and Subhash Rakheja. "Path-tracking of autonomous vehicles using a novel adaptive robust exponential-like-sliding-mode fuzzy type-2 neural network controller." Mechanical Systems and Signal Processing 130 (2019): 41-55.

[BibTeX] [DOI]

BibTeX: @article{taghavifar2019path, title={Path-tracking of autonomous vehicles using a novel adaptive robust exponential-like-sliding-mode fuzzy type-2 neural network controller}, author={Taghavifar, Hamid and Rakheja, Subhash}, journal={Mechanical Systems and Signal Processing}, volume={130}, pages={41--55}, year={2019}, publisher={Elsevier} }



22. Vrbaski, Mira, Miodrag Bolic, and Shikharesh Majumdar. "Complex event recognition notification methodology for uncertain IoT systems based on micro-service architecture." 2018 IEEE 6th International Conference on Future Internet of Things and Cloud (FiCloud). IEEE, 2018.

[BibTeX] [DOI]

BibTeX: @inproceedings{vrbaski2018complex, title={Complex event recognition notification methodology for uncertain IoT systems based on micro-service architecture}, author={Vrbaski, Mira and Bolic, Miodrag and Majumdar, Shikharesh}, booktitle={2018 IEEE 6th International Conference on Future Internet of Things and Cloud (FiCloud)}, pages={184--191}, year={2018}, organization={IEEE} }



23. Xu Z, Julius A A. Robust temporal logic inference for provably correct fault detection and privacy preservation of switched systems[J]. IEEE Systems Journal, 2019, 13(3): 3010-3021.

[BibTeX] [DOI]

BibTeX: @article{xu2019robust, title={Robust temporal logic inference for provably correct fault detection and privacy preservation of switched systems}, author={Xu, Zhe and Julius, A Agung}, journal={IEEE Systems Journal}, volume={13}, number={3}, pages={3010--3021}, year={2019}, publisher={IEEE} }

(3.3) Parametric Uncertainty:

1. Chen B, Niu Y, Zou Y. Security control for Markov jump system with adversarial attacks and unknown transition rates via adaptive sliding mode technique[J]. Journal of the Franklin Institute, 2019, 356(6): 3333-3352.

[BibTeX] [DOI]

BibTeX: @article{chen2019security, title={Security control for Markov jump system with adversarial attacks and unknown transition rates via adaptive sliding mode technique}, author={Chen, Bei and Niu, Yugang and Zou, Yuanyuan}, journal={Journal of the Franklin Institute}, volume={356}, number={6}, pages={3333--3352}, year={2019}, publisher={Elsevier} }



2. Chen C, Chen D, Yan Y, et al. Integration of numerical model and cloud computing[J]. Future Generation Computer Systems, 2018, 79: 396-407.

[BibTeX] [DOI]

BibTeX: @article{chen2018integration, title={Integration of numerical model and cloud computing}, author={Chen, Chong and Chen, Dan and Yan, Yingnan and Zhang, Gaofeng and Zhou, Qingguo and Zhou, Rui}, journal={Future Generation Computer Systems}, volume={79}, pages={396--407}, year={2018}, publisher={Elsevier} }



3. Wang, Qinsi, et al. "Sreach: A probabilistic bounded delta-reachability analyzer for stochastic hybrid systems." International Conference on Computational Methods in Systems Biology. Springer, Cham, 2015.

[BibTeX] [DOI]

BibTeX: @inproceedings{wang2015sreach, title={Sreach: A probabilistic bounded delta-reachability analyzer for stochastic hybrid systems}, author={Wang, Qinsi and Zuliani, Paolo and Kong, Soonho and Gao, Sicun and Clarke, Edmund M}, booktitle={International Conference on Computational Methods in Systems Biology}, pages={15--27}, year={2015}, organization={Springer} }



4. Yachir A, Amirat Y, Chibani A, et al. Event-aware framework for dynamic services discovery and selection in the context of ambient intelligence and Internet of Things[J]. IEEE Transactions on Automation Science and Engineering, 2015, 13(1): 85-102.

[BibTeX] [DOI]

BibTeX: @article{yachir2015event, title={Event-aware framework for dynamic services discovery and selection in the context of ambient intelligence and Internet of Things}, author={Yachir, Ali and Amirat, Yacine and Chibani, Abdelghani and Badache, Nadjib}, journal={IEEE Transactions on Automation Science and Engineering}, volume={13}, number={1}, pages={85--102}, year={2015}, publisher={IEEE} }



5. Yang Z, Wu M, Lin W. An efficient framework for barrier certificate generation of uncertain nonlinear hybrid systems[J]. Nonlinear Analysis: Hybrid Systems, 2020, 36: 100837.

[BibTeX] [DOI]

BibTeX: @article{yang2020efficient, title={An efficient framework for barrier certificate generation of uncertain nonlinear hybrid systems}, author={Yang, Zhengfeng and Wu, Min and Lin, Wang}, journal={Nonlinear Analysis: Hybrid Systems}, volume={36}, pages={100837}, year={2020}, publisher={Elsevier} }



6. Yue X, Chen Y. Strategy optimization of supply chain enterprises based on fuzzy decision making model in internet of things[J]. IEEE Access, 2018, 6: 70378-70387.

[BibTeX] [DOI]

BibTeX: @article{yue2018strategy, title={Strategy optimization of supply chain enterprises based on fuzzy decision making model in internet of things}, author={Yue, Xiaoyun and Chen, Yehua}, journal={IEEE Access}, volume={6}, pages={70378--70387}, year={2018}, publisher={IEEE} }

(3.4) Data Uncertainty:

1. Behl M, Nghiem T X, Mangharam R. Model-iq: Uncertainty propagation from sensing to modeling and control in buildings[C]//2014 ACM/IEEE International Conference on Cyber-Physical Systems (ICCPS). IEEE, 2014: 13-24.

[BibTeX] [DOI]

BibTeX: @inproceedings{behl2014model, title={Model-iq: Uncertainty propagation from sensing to modeling and control in buildings}, author={Behl, Madhur and Nghiem, Truong X and Mangharam, Rahul}, booktitle={2014 ACM/IEEE International Conference on Cyber-Physical Systems (ICCPS)}, pages={13--24}, year={2014}, organization={IEEE} }



2. Bertoa M F, Burgueño L, Moreno N, et al. Incorporating measurement uncertainty into OCL/UML primitive datatypes[J]. Software & Systems Modeling, 2019: 1-27.

[BibTeX] [DOI]

BibTeX: @article{bertoa2019incorporating, title={Incorporating measurement uncertainty into OCL/UML primitive datatypes}, author={Bertoa, Manuel F and Burgue{\~n}o, Loli and Moreno, Nathalie and Vallecillo, Antonio}, journal={Software \& Systems Modeling}, pages={1--27}, year={2019}, publisher={Springer} }



3. Bertoa M F, Moreno N, Barquero G, et al. Expressing measurement uncertainty in OCL/UML datatypes[C]//European Conference on Modelling Foundations and Applications. Springer, Cham, 2018: 46-62.

[BibTeX] [DOI]

BibTeX: @inproceedings{bertoa2018expressing, title={Expressing measurement uncertainty in OCL/UML datatypes}, author={Bertoa, Manuel F and Moreno, Nathalie and Barquero, Gala and Burgue{\~n}o, Loli and Troya, Javier and Vallecillo, Antonio}, booktitle={European Conference on Modelling Foundations and Applications}, pages={46--62}, year={2018}, organization={Springer} }



4. Bhadoria R S, Chaudhari N S, Samanta S. Uncertainty in sensor data acquisition for SOA system[J]. Neural Computing and Applications, 2018, 30(10): 3177-3187.

[BibTeX] [DOI]

BibTeX: @article{bhadoria2018uncertainty, title={Uncertainty in sensor data acquisition for SOA system}, author={Bhadoria, Robin Singh and Chaudhari, Narendra S and Samanta, Sovan}, journal={Neural Computing and Applications}, volume={30}, number={10}, pages={3177--3187}, year={2018}, publisher={Springer} }



5. Bhattacharjee S, Salimitari M, Chatterjee M, et al. Preserving data integrity in iot networks under opportunistic data manipulation[C]//2017 IEEE 15th Intl Conf on Dependable, Autonomic and Secure Computing, 15th Intl Conf on Pervasive Intelligence and Computing, 3rd Intl Conf on Big Data Intelligence and Computing and Cyber Science and Technology Congress (DASC/PiCom/DataCom/CyberSciTech). IEEE, 2017: 446-453.

[BibTeX] [DOI]

BibTeX: @inproceedings{bhattacharjee2017preserving, title={Preserving data integrity in iot networks under opportunistic data manipulation}, author={Bhattacharjee, Shameek and Salimitari, Mehrdad and Chatterjee, Mainak and Kwiat, Kevin and Kamhoua, Charles}, booktitle={2017 IEEE 15th Intl Conf on Dependable, Autonomic and Secure Computing, 15th Intl Conf on Pervasive Intelligence and Computing, 3rd Intl Conf on Big Data Intelligence and Computing and Cyber Science and Technology Congress (DASC/PiCom/DataCom/CyberSciTech)}, pages={446--453}, year={2017}, organization={IEEE} }



6. Bi R, Ren J, Wang H, et al. Model Based Adaptive Data Acquisition for Internet of Things[C]//International Conference on Wireless Algorithms, Systems, and Applications. Springer, Cham, 2019: 16-28.

[BibTeX] [DOI]

BibTeX: @inproceedings{bi2019model, title={Model Based Adaptive Data Acquisition for Internet of Things}, author={Bi, Ran and Ren, Jiankang and Wang, Hao and Liu, Qian and Huang, Shan}, booktitle={International Conference on Wireless Algorithms, Systems, and Applications}, pages={16--28}, year={2019}, organization={Springer} }



7. Cámara J, Peng W, Garlan D, et al. Reasoning about sensing uncertainty in decision-making for self-adaptation[C]//International Conference on Software Engineering and Formal Methods. Springer, Cham, 2017: 523-540.

[BibTeX] [DOI]

BibTeX: @inproceedings{camara2017reasoning, title={Reasoning about sensing uncertainty in decision-making for self-adaptation}, author={C{\'a}mara, Javier and Peng, Wenxin and Garlan, David and Schmerl, Bradley}, booktitle={International Conference on Software Engineering and Formal Methods}, pages={523--540}, year={2017}, organization={Springer} }



8. Chen W, An J, Li R, et al. A novel fuzzy deep-learning approach to traffic flow prediction with uncertain spatial–temporal data features[J]. Future generation computer systems, 2018, 89: 78-88.

[BibTeX] [DOI]

BibTeX: @article{chen2018novel, title={A novel fuzzy deep-learning approach to traffic flow prediction with uncertain spatial--temporal data features}, author={Chen, Weihong and An, Jiyao and Li, Renfa and Fu, Li and Xie, Guoqi and Bhuiyan, Md Zakirul Alam and Li, Keqin}, journal={Future generation computer systems}, volume={89}, pages={78--88}, year={2018}, publisher={Elsevier} }



9. Etuk A, Norman T J, Bisdikian C, et al. TAF: A trust assessment framework for inferencing with uncertain streaming information[C]//2013 IEEE International Conference on Pervasive Computing and Communications Workshops (PERCOM Workshops). IEEE, 2013: 475-480.

[BibTeX] [DOI]

BibTeX: @inproceedings{etuk2013taf, title={TAF: A trust assessment framework for inferencing with uncertain streaming information}, author={Etuk, Anthony and Norman, Timothy J and Bisdikian, Chatschik and Srivatsa, Mudhakar}, booktitle={2013 IEEE International Conference on Pervasive Computing and Communications Workshops (PERCOM Workshops)}, pages={475--480}, year={2013}, organization={IEEE} }



10. Gullo F, Ponti G, Tagarelli A, et al. Handling Uncertainty in Clustering Art-Exhibition Visiting Styles[C]//International Conference on Big Data Technologies and Applications. Springer, Cham, 2016: 54-63.

[BibTeX] [DOI]

BibTeX: @inproceedings{gullo2016handling, title={Handling Uncertainty in Clustering Art-Exhibition Visiting Styles}, author={Gullo, Francesco and Ponti, Giovanni and Tagarelli, Andrea and Cuomo, Salvatore and De Michele, Pasquale and Piccialli, Francesco}, booktitle={International Conference on Big Data Technologies and Applications}, pages={54--63}, year={2016}, organization={Springer} }



11. Jaribion, Alireza, et al. "[WiP] a novel method for big data analytics and summarization based on fuzzy similarity measure." 2018 IEEE 11th Conference on Service-Oriented Computing and Applications (SOCA). IEEE, 2018.

[BibTeX] [DOI]

BibTeX: @inproceedings{jaribion2018wip, title={[WiP] a novel method for big data analytics and summarization based on fuzzy similarity measure}, author={Jaribion, Alireza and Khajavi, Siavash H and Motlagh, Naser Hossein and Holmstr{\"o}m, Jan}, booktitle={2018 IEEE 11th Conference on Service-Oriented Computing and Applications (SOCA)}, pages={221--226}, year={2018}, organization={IEEE} }



12. Jarraya, Amina, et al. "FSCEP: a new model for context perception in smart homes." OTM Confederated International Conferences" On the Move to Meaningful Internet Systems". Springer, Cham, 2016.

[BibTeX] [DOI]

BibTeX: @inproceedings{jarraya2016fscep, title={FSCEP: a new model for context perception in smart homes}, author={Jarraya, Amina and Ramoly, Nathan and Bouzeghoub, Amel and Arour, Khedija and Borgi, Amel and Finance, B{\'e}atrice}, booktitle={OTM Confederated International Conferences" On the Move to Meaningful Internet Systems"}, pages={465--484}, year={2016}, organization={Springer} }



13. Kotenko I, Saenko I, Ageev S. Countermeasure security risks management in the internet of things based on fuzzy logic inference[C]//2015 IEEE Trustcom/BigDataSE/ISPA. IEEE, 2015, 1: 654-659.

[BibTeX] [DOI]

BibTeX: @inproceedings{kotenko2015countermeasure, title={Countermeasure security risks management in the internet of things based on fuzzy logic inference}, author={Kotenko, Igor and Saenko, Igor and Ageev, Sergey}, booktitle={2015 IEEE Trustcom/BigDataSE/ISPA}, volume={1}, pages={654--659}, year={2015}, organization={IEEE} }



14. Leite F L, Schneider D, Adler R. Dynamic risk management for cooperative autonomous medical cyber-physical systems[C]//International Conference on Computer Safety, Reliability, and Security. Springer, Cham, 2018: 126-138.

[BibTeX] [DOI]

BibTeX: @inproceedings{leite2018dynamic, title={Dynamic risk management for cooperative autonomous medical cyber-physical systems}, author={Leite, F{\'a}bio L and Schneider, Daniel and Adler, Rasmus}, booktitle={International Conference on Computer Safety, Reliability, and Security}, pages={126--138}, year={2018}, organization={Springer} }



15. Li H, Zhang Y, Chen Y. PSTEP-A Novel Probabilistic Event Processing Language for Uncertain Spatio-temporal Event Streams of Internet of Vehicles[C]//2015 IEEE International Conference on Software Quality, Reliability and Security-Companion. IEEE, 2015: 161-168.

[BibTeX] [DOI]

BibTeX: @inproceedings{li2015pstep, title={PSTEP-A Novel Probabilistic Event Processing Language for Uncertain Spatio-temporal Event Streams of Internet of Vehicles}, author={Li, Huiyong and Zhang, Yuanrui and Chen, Yixiang}, booktitle={2015 IEEE International Conference on Software Quality, Reliability and Security-Companion}, pages={161--168}, year={2015}, organization={IEEE} }



16. Margelis G, Piechocki R, Tryfonas T, et al. Smart Attacks on the integrity of the Internet of Things: Avoiding detection by employing Game Theory[C]//2016 IEEE Global Communications Conference (GLOBECOM). IEEE, 2016: 1-6.

[BibTeX] [DOI]

BibTeX: @inproceedings{margelis2016smart, title={Smart Attacks on the integrity of the Internet of Things: Avoiding detection by employing Game Theory}, author={Margelis, George and Piechocki, Robert and Tryfonas, Theo and Thomas, Paul}, booktitle={2016 IEEE Global Communications Conference (GLOBECOM)}, pages={1--6}, year={2016}, organization={IEEE} }



17. Mönks U, Lohweg V, Dörksen H. Conflict Measures and Importance Weighting for Information Fusion Applied to Industry 4.0[M]//Information Quality in Information Fusion and Decision Making. Springer, Cham, 2019: 539-561.

[BibTeX] [DOI]

BibTeX: @incollection{monks2019conflict, title={Conflict Measures and Importance Weighting for Information Fusion Applied to Industry 4.0}, author={M{\"o}nks, Uwe and Lohweg, Volker and D{\"o}rksen, Helene}, booktitle={Information Quality in Information Fusion and Decision Making}, pages={539--561}, year={2019}, publisher={Springer} }



18. Nannapaneni S, Dubey A, Mahadevan S. Performance evaluation of smart systems under uncertainty[C]//2017 IEEE SmartWorld, Ubiquitous Intelligence & Computing, Advanced & Trusted Computed, Scalable Computing & Communications, Cloud & Big Data Computing, Internet of People and Smart City Innovation (SmartWorld/SCALCOM/UIC/ATC/CBDCom/IOP/SCI). IEEE, 2017: 1-8.

[BibTeX] [DOI]

BibTeX: @inproceedings{nannapaneni2017performance, title={Performance evaluation of smart systems under uncertainty}, author={Nannapaneni, Saideep and Dubey, Abhishek and Mahadevan, Sankaran}, booktitle={2017 IEEE SmartWorld, Ubiquitous Intelligence \& Computing, Advanced \& Trusted Computed, Scalable Computing \& Communications, Cloud \& Big Data Computing, Internet of People and Smart City Innovation (SmartWorld/SCALCOM/UIC/ATC/CBDCom/IOP/SCI)}, pages={1--8}, year={2017}, organization={IEEE} }



19. Pang J, Liu D, Peng Y, et al. Anomaly detection based on uncertainty fusion for univariate monitoring series[J]. Measurement, 2017, 95: 280-292.

[BibTeX] [DOI]

BibTeX: @article{pang2017anomaly, title={Anomaly detection based on uncertainty fusion for univariate monitoring series}, author={Pang, Jingyue and Liu, Datong and Peng, Yu and Peng, Xiyuan}, journal={Measurement}, volume={95}, pages={280--292}, year={2017}, publisher={Elsevier} }



20. Pushpa P V. Internet of Things based Context Aware Health Care Services[C]//2019 Second International Conference on Advanced Computational and Communication Paradigms (ICACCP). IEEE, 2019: 1-6.

[BibTeX] [DOI]

BibTeX: @inproceedings{pushpa2019internet, title={Internet of Things based Context Aware Health Care Services}, author={Pushpa, PV}, booktitle={2019 Second International Conference on Advanced Computational and Communication Paradigms (ICACCP)}, pages={1--6}, year={2019}, organization={IEEE} }



21. Qi J, Yang P, Hanneghan M, et al. Ellipse fitting model for improving the effectiveness of life-logging physical activity measures in an Internet of Things environment[J]. Iet Networks, 2016, 5(5): 107-113.

[BibTeX] [DOI]

BibTeX: @article{qi2016ellipse, title={Ellipse fitting model for improving the effectiveness of life-logging physical activity measures in an Internet of Things environment}, author={Qi, Jun and Yang, Po and Hanneghan, Martin and Fan, Dina and Deng, Zhikun and Dong, Feng}, journal={Iet Networks}, volume={5}, number={5}, pages={107--113}, year={2016}, publisher={IET} }



22. Ramparany F, Mondi R, Demazeau Y. A semantic approach for managing trust and uncertainty in distributed systems environments[C]//2016 21st International Conference on Engineering of Complex Computer Systems (ICECCS). IEEE, 2016: 63-70.

[BibTeX] [DOI]

BibTeX: @inproceedings{ramparany2016semantic, title={A semantic approach for managing trust and uncertainty in distributed systems environments}, author={Ramparany, Fano and Mondi, Ravi and Demazeau, Yves}, booktitle={2016 21st International Conference on Engineering of Complex Computer Systems (ICECCS)}, pages={63--70}, year={2016}, organization={IEEE} }



23. Song, Wei, et al. "RFID Based Real-Time Manufacturing Information Perception and Processing." International Conference on Algorithms and Architectures for Parallel Processing. Springer, Cham, 2013.

[BibTeX] [DOI]

BibTeX: @inproceedings{song2013rfid, title={RFID Based Real-Time Manufacturing Information Perception and Processing}, author={Song, Wei and Li, Wenfeng and Fu, Xiuwen and Cao, Yulian and Yang, Lin}, booktitle={International Conference on Algorithms and Architectures for Parallel Processing}, pages={303--310}, year={2013}, organization={Springer} }



24. Vrbaski, Mira, Miodrag Bolic, and Shikharesh Majumdar. "Complex event recognition notification methodology for uncertain IoT systems based on micro-service architecture." 2018 IEEE 6th International Conference on Future Internet of Things and Cloud (FiCloud). IEEE, 2018.

[BibTeX] [DOI]

BibTeX: @inproceedings{vrbaski2018complex, title={Complex event recognition notification methodology for uncertain IoT systems based on micro-service architecture}, author={Vrbaski, Mira and Bolic, Miodrag and Majumdar, Shikharesh}, booktitle={2018 IEEE 6th International Conference on Future Internet of Things and Cloud (FiCloud)}, pages={184--191}, year={2018}, organization={IEEE} }



25. Xie D, Sheng Q Z, Ma J, et al. A framework for processing uncertain RFID data in supply chain management[C]//International Conference on Web Information Systems Engineering. Springer, Berlin, Heidelberg, 2013: 396-409.

[BibTeX] [DOI]

BibTeX: @inproceedings{xie2013framework, title={A framework for processing uncertain RFID data in supply chain management}, author={Xie, Dong and Sheng, Quan Z and Ma, Jiangang and Cheng, Yun and Qin, Yongrui and Zeng, Rui}, booktitle={International Conference on Web Information Systems Engineering}, pages={396--409}, year={2013}, organization={Springer} }



26. Yang P, Hanneghan M, Qi J, et al. Improving the validity of lifelogging physical activity measures in an internet of things environment[C]//2015 IEEE International Conference on Computer and Information Technology; Ubiquitous Computing and Communications; Dependable, Autonomic and Secure Computing; Pervasive Intelligence and Computing. IEEE, 2015: 2309-2314.

[BibTeX] [DOI]

BibTeX: @inproceedings{yang2015improving, title={Improving the validity of lifelogging physical activity measures in an internet of things environment}, author={Yang, Po and Hanneghan, Martin and Qi, Jun and Deng, Zhikun and Dong, Feng and Fan, Dina}, booktitle={2015 IEEE International Conference on Computer and Information Technology; Ubiquitous Computing and Communications; Dependable, Autonomic and Secure Computing; Pervasive Intelligence and Computing}, pages={2309--2314}, year={2015}, organization={IEEE} }



27. Yang P, Stankevicius D, Marozas V, et al. Lifelogging data validation model for internet of things enabled personalized healthcare[J]. IEEE Transactions on Systems, Man, and Cybernetics: Systems, 2016, 48(1): 50-64.

[BibTeX] [DOI]

BibTeX: @article{yang2016lifelogging, title={Lifelogging data validation model for internet of things enabled personalized healthcare}, author={Yang, Po and Stankevicius, Dainius and Marozas, Vaidotas and Deng, Zhikun and Liu, Enjie and Lukosevicius, Arunas and Dong, Feng and Xu, Lida and Min, Geyong}, journal={IEEE Transactions on Systems, Man, and Cybernetics: Systems}, volume={48}, number={1}, pages={50--64}, year={2016}, publisher={IEEE} }



28. Cámara J, Peng W, Garlan D, et al. Reasoning about sensing uncertainty and its reduction in decision-making for self-adaptation[J]. Science of Computer Programming, 2018, 167: 51-69.

[BibTeX] [DOI]

BibTeX: @article{camara2018reasoning, title={Reasoning about sensing uncertainty and its reduction in decision-making for self-adaptation}, author={C{\'a}mara, Javier and Peng, Wenxin and Garlan, David and Schmerl, Bradley}, journal={Science of Computer Programming}, volume={167}, pages={51--69}, year={2018}, publisher={Elsevier} }

(3.5) Evolution Uncertainty:

1. Agarwal S, Pape L E, Dagli C H, et al. Flexible and intelligent learning architectures for sos (fila-sos): Architectural evolution in systems-of-systems[J]. Procedia Computer Science, 2015, 44(C): 76-85.

[BibTeX] [DOI]

BibTeX: @article{agarwal2015flexible, title={Flexible and intelligent learning architectures for sos (fila-sos): Architectural evolution in systems-of-systems}, author={Agarwal, Siddhartha and Pape, Louis E and Dagli, Cihan H and Ergin, Nil K and Enke, David and Gosavi, Abhijit and Qin, Ruwen and Konur, Dincer and Wang, Renzhong and Gottapu, Ram Deepak}, journal={Procedia Computer Science}, volume={44}, number={C}, pages={76--85}, year={2015}, publisher={Elsevier BV} }



2. Francalanza E, Borg J, Constantinescu C. A knowledge-based tool for designing cyber physical production systems[J]. Computers in Industry, 2017, 84: 39-58.

[BibTeX] [DOI]

BibTeX: @article{francalanza2017knowledge, title={A knowledge-based tool for designing cyber physical production systems}, author={Francalanza, Emmanuel and Borg, Jonathan and Constantinescu, Carmen}, journal={Computers in Industry}, volume={84}, pages={39--58}, year={2017}, publisher={Elsevier} }

(3.6) Constraint Uncertainty:

1. Jha, Susmit, and Vasumathi Raman. "On optimal control of stochastic linear hybrid systems." International Conference on Formal Modeling and Analysis of Timed Systems. Springer, Cham, 2016.

[BibTeX] [DOI]

BibTeX: @inproceedings{jha2016optimal, title={On optimal control of stochastic linear hybrid systems}, author={Jha, Susmit and Raman, Vasumathi}, booktitle={International Conference on Formal Modeling and Analysis of Timed Systems}, pages={69--84}, year={2016}, organization={Springer} }



2. Kate, Sayali, et al. "Phys: probabilistic physical unit assignment and inconsistency detection." Proceedings of the 2018 26th ACM Joint Meeting on European Software Engineering Conference and Symposium on the Foundations of Software Engineering. 2018.

[BibTeX] [DOI]

BibTeX: @inproceedings{kate2018phys, title={Phys: probabilistic physical unit assignment and inconsistency detection}, author={Kate, Sayali and Ore, John-Paul and Zhang, Xiangyu and Elbaum, Sebastian and Xu, Zhaogui}, booktitle={Proceedings of the 2018 26th ACM Joint Meeting on European Software Engineering Conference and Symposium on the Foundations of Software Engineering}, pages={563--573}, year={2018} }

(3.7) Information Uncertainty:

1. Ravi M, Demazeau Y, Ramparany F. Reasoning with trust and uncertainty illustration in the internet of things[C]//2015 IEEE/WIC/ACM International Conference on Web Intelligence and Intelligent Agent Technology (WI-IAT). IEEE, 2015, 2: 125-128.

[BibTeX] [DOI]

BibTeX: @inproceedings{ravi2015reasoning, title={Reasoning with trust and uncertainty illustration in the internet of things}, author={Ravi, Mondi and Demazeau, Yves and Ramparany, Fano}, booktitle={2015 IEEE/WIC/ACM International Conference on Web Intelligence and Intelligent Agent Technology (WI-IAT)}, volume={2}, pages={125--128}, year={2015}, organization={IEEE} }

(3.8) Time Uncertainty:

1. Shin, Seung Yeob, et al. "Test case prioritization for acceptance testing of cyber physical systems: a multi-objective search-based approach." Proceedings of the 27th ACM SIGSOFT International Symposium on Software Testing and Analysis. 2018.

[BibTeX] [DOI]

BibTeX: @inproceedings{shin2018test, title={Test case prioritization for acceptance testing of cyber physical systems: a multi-objective search-based approach}, author={Shin, Seung Yeob and Nejati, Shiva and Sabetzadeh, Mehrdad and Briand, Lionel C and Zimmer, Frank}, booktitle={Proceedings of the 27th ACM SIGSOFT International Symposium on Software Testing and Analysis}, pages={49--60}, year={2018} }



2. Xie P, Feng J, Cao Z, et al. GeneWave: Fast authentication and key agreement on commodity mobile devices[J]. IEEE/ACM Transactions on Networking, 2018, 26(4): 1688-1700.

[BibTeX] [DOI]

BibTeX: @article{xie2018genewave, title={GeneWave: Fast authentication and key agreement on commodity mobile devices}, author={Xie, Pengjin and Feng, Jingchao and Cao, Zhichao and Wang, Jiliang}, journal={IEEE/ACM Transactions on Networking}, volume={26}, number={4}, pages={1688--1700}, year={2018}, publisher={IEEE} }



3. Xu Z, Julius A A. Robust temporal logic inference for provably correct fault detection and privacy preservation of switched systems[J]. IEEE Systems Journal, 2019, 13(3): 3010-3021.

[BibTeX] [DOI]

BibTeX: @article{xu2019robust, title={Robust temporal logic inference for provably correct fault detection and privacy preservation of switched systems}, author={Xu, Zhe and Julius, A Agung}, journal={IEEE Systems Journal}, volume={13}, number={3}, pages={3010--3021}, year={2019}, publisher={IEEE} }

4 Uncertainty Handle Methods:

(4.1) Uncertainty Quantification:

1. Ali S, Lu H, Wang S, et al. Uncertainty-wise testing of cyber-physical systems[M]//Advances in Computers. Elsevier, 2017, 107: 23-94.

[BibTeX] [DOI]

BibTeX: @incollection{ali2017uncertainty, title={Uncertainty-wise testing of cyber-physical systems}, author={Ali, Shaukat and Lu, Hong and Wang, Shuai and Yue, Tao and Zhang, Man}, booktitle={Advances in Computers}, volume={107}, pages={23--94}, year={2017}, publisher={Elsevier} }



2. Al-Turjman F, Zahmatkesh H, Mostarda L. Quantifying uncertainty in internet of medical things and big-data services using intelligence and deep learning[J]. IEEE Access, 2019, 7: 115749-115759.

[BibTeX] [DOI]

BibTeX: @article{al2019quantifying, title={Quantifying uncertainty in internet of medical things and big-data services using intelligence and deep learning}, author={Al-Turjman, Fadi and Zahmatkesh, Hadi and Mostarda, Leonardo}, journal={IEEE Access}, volume={7}, pages={115749--115759}, year={2019}, publisher={IEEE} }



3. Anwar F, D’souza S, Symington A, et al. Timeline: An operating system abstraction for time-aware applications[C]//2016 IEEE Real-Time Systems Symposium (RTSS). IEEE, 2016: 191-202.

[BibTeX] [DOI]

BibTeX: @inproceedings{anwar2016timeline, title={Timeline: An operating system abstraction for time-aware applications}, author={Anwar, Fatima and D’souza, Sandeep and Symington, Andrew and Dongare, Adwait and Rajkumar, Ragunathan and Rowe, Anthony and Srivastava, Mani}, booktitle={2016 IEEE Real-Time Systems Symposium (RTSS)}, pages={191--202}, year={2016}, organization={IEEE} }



4. Banaszuk A, Fonoberov V A, Frewen T A, et al. Scalable approach to uncertainty quantification and robust design of interconnected dynamical systems[J]. Annual Reviews in Control, 2011, 35(1): 77-98.

[BibTeX] [DOI]

BibTeX: @article{banaszuk2011scalable, title={Scalable approach to uncertainty quantification and robust design of interconnected dynamical systems}, author={Banaszuk, Andrzej and Fonoberov, Vladimir A and Frewen, Thomas A and Kobilarov, Marin and Mathew, George and Mezic, Igor and Pinto, Alessandro and Sahai, Tuhin and Sane, Harshad and Speranzon, Alberto and others}, journal={Annual Reviews in Control}, volume={35}, number={1}, pages={77--98}, year={2011}, publisher={Elsevier} }



5. Bortolussi L, Cairoli F, Paoletti N, et al. Conformal predictions for hybrid system state classification[M]//From Reactive Systems to Cyber-Physical Systems. Springer, Cham, 2019: 225-241.

[BibTeX] [DOI]

BibTeX: @incollection{bortolussi2019conformal, title={Conformal predictions for hybrid system state classification}, author={Bortolussi, Luca and Cairoli, Francesca and Paoletti, Nicola and Stoller, Scott D}, booktitle={From Reactive Systems to Cyber-Physical Systems}, pages={225--241}, year={2019}, publisher={Springer} }



6. Giannetti C, Ransing R S. Risk based uncertainty quantification to improve robustness of manufacturing operations[J]. Computers & Industrial Engineering, 2016, 101: 70-80.

[BibTeX] [DOI]

BibTeX: @article{giannetti2016risk, title={Risk based uncertainty quantification to improve robustness of manufacturing operations}, author={Giannetti, Cinzia and Ransing, Rajesh S}, journal={Computers \& Industrial Engineering}, volume={101}, pages={70--80}, year={2016}, publisher={Elsevier} } } }



7. Jang, Kuk Jin, et al. "Robustness evaluation of computer-aided clinical trials for medical devices." Proceedings of the 10th ACM/IEEE International Conference on Cyber-Physical Systems. 2019.

[BibTeX] [DOI]

BibTeX: @inproceedings{jang2019robustness, title={Robustness evaluation of computer-aided clinical trials for medical devices}, author={Jang, Kuk Jin and Pant, Yash Vardhan and Zhang, Bo and Weimer, James and Mangharam, Rahul}, booktitle={Proceedings of the 10th ACM/IEEE International Conference on Cyber-Physical Systems}, pages={163--173}, year={2019} }



8. Nannapaneni S, Dubey A, Mahadevan S. Performance evaluation of smart systems under uncertainty[C]//2017 IEEE SmartWorld, Ubiquitous Intelligence & Computing, Advanced & Trusted Computed, Scalable Computing & Communications, Cloud & Big Data Computing, Internet of People and Smart City Innovation (SmartWorld/SCALCOM/UIC/ATC/CBDCom/IOP/SCI). IEEE, 2017: 1-8.

[BibTeX] [DOI]

BibTeX: @inproceedings{nannapaneni2017performance, title={Performance evaluation of smart systems under uncertainty}, author={Nannapaneni, Saideep and Dubey, Abhishek and Mahadevan, Sankaran}, booktitle={2017 IEEE SmartWorld, Ubiquitous Intelligence \& Computing, Advanced \& Trusted Computed, Scalable Computing \& Communications, Cloud \& Big Data Computing, Internet of People and Smart City Innovation (SmartWorld/SCALCOM/UIC/ATC/CBDCom/IOP/SCI)}, pages={1--8}, year={2017}, organization={IEEE} }



9. Ravi M, Demazeau Y, Ramparany F. Reasoning with trust and uncertainty illustration in the internet of things[C]//2015 IEEE/WIC/ACM International Conference on Web Intelligence and Intelligent Agent Technology (WI-IAT). IEEE, 2015, 2: 125-128.

[BibTeX] [DOI]

BibTeX: @inproceedings{ravi2015reasoning, title={Reasoning with trust and uncertainty illustration in the internet of things}, author={Ravi, Mondi and Demazeau, Yves and Ramparany, Fano}, booktitle={2015 IEEE/WIC/ACM International Conference on Web Intelligence and Intelligent Agent Technology (WI-IAT)}, volume={2}, pages={125--128}, year={2015}, organization={IEEE} }



10. Wang X, Hovakimyan N, Sha L. RSimplex: a robust control architecture for cyber and physical failures[J]. ACM Transactions on Cyber-Physical Systems, 2018, 2(4): 1-26.

[BibTeX] [DOI]

BibTeX: @article{wang2018rsimplex, title={RSimplex: a robust control architecture for cyber and physical failures}, author={Wang, Xiaofeng and Hovakimyan, Naira and Sha, Lui}, journal={ACM Transactions on Cyber-Physical Systems}, volume={2}, number={4}, pages={1--26}, year={2018}, publisher={ACM New York, NY, USA} }



11. Xie D, Sheng Q Z, Ma J, et al. A framework for processing uncertain RFID data in supply chain management[C]//International Conference on Web Information Systems Engineering. Springer, Berlin, Heidelberg, 2013: 396-409.

[BibTeX] [DOI]

BibTeX: @inproceedings{xie2013framework, title={A framework for processing uncertain RFID data in supply chain management}, author={Xie, Dong and Sheng, Quan Z and Ma, Jiangang and Cheng, Yun and Qin, Yongrui and Zeng, Rui}, booktitle={International Conference on Web Information Systems Engineering}, pages={396--409}, year={2013}, organization={Springer} }

(4.2) Uncertainty Management:

1. Banaszuk A, Fonoberov V A, Frewen T A, et al. Scalable approach to uncertainty quantification and robust design of interconnected dynamical systems[J]. Annual Reviews in Control, 2011, 35(1): 77-98.

[BibTeX] [DOI]

BibTeX: @article{banaszuk2011scalable, title={Scalable approach to uncertainty quantification and robust design of interconnected dynamical systems}, author={Banaszuk, Andrzej and Fonoberov, Vladimir A and Frewen, Thomas A and Kobilarov, Marin and Mathew, George and Mezic, Igor and Pinto, Alessandro and Sahai, Tuhin and Sane, Harshad and Speranzon, Alberto and others}, journal={Annual Reviews in Control}, volume={35}, number={1}, pages={77--98}, year={2011}, publisher={Elsevier} }



2. Bhadoria R S, Chaudhari N S, Samanta S. Uncertainty in sensor data acquisition for SOA system[J]. Neural Computing and Applications, 2018, 30(10): 3177-3187.

[BibTeX] [DOI]

BibTeX: @article{bhadoria2018uncertainty, title={Uncertainty in sensor data acquisition for SOA system}, author={Bhadoria, Robin Singh and Chaudhari, Narendra S and Samanta, Sovan}, journal={Neural Computing and Applications}, volume={30}, number={10}, pages={3177--3187}, year={2018}, publisher={Springer} }



3. Bi R, Ren J, Wang H, et al. Model Based Adaptive Data Acquisition for Internet of Things[C]//International Conference on Wireless Algorithms, Systems, and Applications. Springer, Cham, 2019: 16-28.

[BibTeX] [DOI]

BibTeX: @inproceedings{bi2019model, title={Model Based Adaptive Data Acquisition for Internet of Things}, author={Bi, Ran and Ren, Jiankang and Wang, Hao and Liu, Qian and Huang, Shan}, booktitle={International Conference on Wireless Algorithms, Systems, and Applications}, pages={16--28}, year={2019}, organization={Springer} }



4. Carlén N, Forsman A, Svensson J, et al. IoT Enabled Process Innovation: Exploring Sensor-Based Digital Service Design Through an Information Requirements Framework[C]//IFIP International Internet of Things Conference. Springer, Cham, 2018: 105-120.

[BibTeX] [DOI]

BibTeX: @inproceedings{carlen2018iot, title={IoT Enabled Process Innovation: Exploring Sensor-Based Digital Service Design Through an Information Requirements Framework}, author={Carl{\'e}n, Niclas and Forsman, August and Svensson, Jesper and Sandberg, Johan}, booktitle={IFIP International Internet of Things Conference}, pages={105--120}, year={2018}, organization={Springer, Cham} }



5. Chen C, Chen D, Yan Y, et al. Integration of numerical model and cloud computing[J]. Future Generation Computer Systems, 2018, 79: 396-407.

[BibTeX] [DOI]

BibTeX: @article{chen2018integration, title={Integration of numerical model and cloud computing}, author={Chen, Chong and Chen, Dan and Yan, Yingnan and Zhang, Gaofeng and Zhou, Qingguo and Zhou, Rui}, journal={Future Generation Computer Systems}, volume={79}, pages={396--407}, year={2018}, publisher={Elsevier} }



6. Chen W, An J, Li R, et al. A novel fuzzy deep-learning approach to traffic flow prediction with uncertain spatial–temporal data features[J]. Future generation computer systems, 2018, 89: 78-88.

[BibTeX] [DOI]

BibTeX: @article{chen2018novel, title={A novel fuzzy deep-learning approach to traffic flow prediction with uncertain spatial--temporal data features}, author={Chen, Weihong and An, Jiyao and Li, Renfa and Fu, Li and Xie, Guoqi and Bhuiyan, Md Zakirul Alam and Li, Keqin}, journal={Future generation computer systems}, volume={89}, pages={78--88}, year={2018}, publisher={Elsevier} }



7. Geilen M, Tripakis S, Wiggers M. The earlier the better: A theory of timed actor interfaces[C]//Proceedings of the 14th international conference on Hybrid systems: computation and control. 2011: 23-32.

[BibTeX] [DOI]

BibTeX: @inproceedings{geilen2011earlier, title={The earlier the better: A theory of timed actor interfaces}, author={Geilen, Marc and Tripakis, Stavros and Wiggers, Maarten}, booktitle={Proceedings of the 14th international conference on Hybrid systems: computation and control}, pages={23--32}, year={2011} } } }



8. Hasan S, Curry E. Approximate semantic matching of events for the internet of things[J]. ACM Transactions on Internet Technology (TOIT), 2014, 14(1): 1-23.

[BibTeX] [DOI]

BibTeX: @article{hasan2014approximate, title={Approximate semantic matching of events for the internet of things}, author={Hasan, Souleiman and Curry, Edward}, journal={ACM Transactions on Internet Technology (TOIT)}, volume={14}, number={1}, pages={1--23}, year={2014}, publisher={ACM New York, NY, USA} }



9. Mönks U, Lohweg V, Dörksen H. Conflict Measures and Importance Weighting for Information Fusion Applied to Industry 4.0[M]//Information Quality in Information Fusion and Decision Making. Springer, Cham, 2019: 539-561.

[BibTeX] [DOI]

BibTeX: @incollection{monks2019conflict, title={Conflict Measures and Importance Weighting for Information Fusion Applied to Industry 4.0}, author={M{\"o}nks, Uwe and Lohweg, Volker and D{\"o}rksen, Helene}, booktitle={Information Quality in Information Fusion and Decision Making}, pages={539--561}, year={2019}, publisher={Springer} }



10. Qi J, Yang P, Hanneghan M, et al. Ellipse fitting model for improving the effectiveness of life-logging physical activity measures in an Internet of Things environment[J]. Iet Networks, 2016, 5(5): 107-113.

[BibTeX] [DOI]

BibTeX: @article{qi2016ellipse, title={Ellipse fitting model for improving the effectiveness of life-logging physical activity measures in an Internet of Things environment}, author={Qi, Jun and Yang, Po and Hanneghan, Martin and Fan, Dina and Deng, Zhikun and Dong, Feng}, journal={Iet Networks}, volume={5}, number={5}, pages={107--113}, year={2016}, publisher={IET} }



11. Saeedi R, Fallahzadeh R, Alinia P, et al. An energy-efficient computational model for uncertainty management in dynamically changing networked wearables[C]//Proceedings of the 2016 International Symposium on Low Power Electronics and Design. 2016: 46-51.

[BibTeX] [DOI]

BibTeX: @inproceedings{saeedi2016energy, title={An energy-efficient computational model for uncertainty management in dynamically changing networked wearables}, author={Saeedi, Ramyar and Fallahzadeh, Ramin and Alinia, Parastoo and Ghasemzadeh, Hassan}, booktitle={Proceedings of the 2016 International Symposium on Low Power Electronics and Design}, pages={46--51}, year={2016} }



12. Song, Wei, et al. "RFID Based Real-Time Manufacturing Information Perception and Processing." International Conference on Algorithms and Architectures for Parallel Processing. Springer, Cham, 2013.

[BibTeX] [DOI]

BibTeX: @inproceedings{song2013rfid, title={RFID Based Real-Time Manufacturing Information Perception and Processing}, author={Song, Wei and Li, Wenfeng and Fu, Xiuwen and Cao, Yulian and Yang, Lin}, booktitle={International Conference on Algorithms and Architectures for Parallel Processing}, pages={303--310}, year={2013}, organization={Springer} }



13. Xie P, Feng J, Cao Z, et al. GeneWave: Fast authentication and key agreement on commodity mobile devices[J]. IEEE/ACM Transactions on Networking, 2018, 26(4): 1688-1700.

[BibTeX] [DOI]

BibTeX: @article{xie2018genewave, title={GeneWave: Fast authentication and key agreement on commodity mobile devices}, author={Xie, Pengjin and Feng, Jingchao and Cao, Zhichao and Wang, Jiliang}, journal={IEEE/ACM Transactions on Networking}, volume={26}, number={4}, pages={1688--1700}, year={2018}, publisher={IEEE} }



14. Yang P, Hanneghan M, Qi J, et al. Improving the validity of lifelogging physical activity measures in an internet of things environment[C]//2015 IEEE International Conference on Computer and Information Technology; Ubiquitous Computing and Communications; Dependable, Autonomic and Secure Computing; Pervasive Intelligence and Computing. IEEE, 2015: 2309-2314.

[BibTeX] [DOI]

BibTeX: @inproceedings{yang2015improving, title={Improving the validity of lifelogging physical activity measures in an internet of things environment}, author={Yang, Po and Hanneghan, Martin and Qi, Jun and Deng, Zhikun and Dong, Feng and Fan, Dina}, booktitle={2015 IEEE International Conference on Computer and Information Technology; Ubiquitous Computing and Communications; Dependable, Autonomic and Secure Computing; Pervasive Intelligence and Computing}, pages={2309--2314}, year={2015}, organization={IEEE} }



15. Yang P, Stankevicius D, Marozas V, et al. Lifelogging data validation model for internet of things enabled personalized healthcare[J]. IEEE Transactions on Systems, Man, and Cybernetics: Systems, 2016, 48(1): 50-64.

[BibTeX] [DOI]

BibTeX: @article{yang2016lifelogging, title={Lifelogging data validation model for internet of things enabled personalized healthcare}, author={Yang, Po and Stankevicius, Dainius and Marozas, Vaidotas and Deng, Zhikun and Liu, Enjie and Lukosevicius, Arunas and Dong, Feng and Xu, Lida and Min, Geyong}, journal={IEEE Transactions on Systems, Man, and Cybernetics: Systems}, volume={48}, number={1}, pages={50--64}, year={2016}, publisher={IEEE} }



16. Cámara J, Peng W, Garlan D, et al. Reasoning about sensing uncertainty and its reduction in decision-making for self-adaptation[J]. Science of Computer Programming, 2018, 167: 51-69.

[BibTeX] [DOI]

BibTeX: @article{camara2018reasoning, title={Reasoning about sensing uncertainty and its reduction in decision-making for self-adaptation}, author={C{\'a}mara, Javier and Peng, Wenxin and Garlan, David and Schmerl, Bradley}, journal={Science of Computer Programming}, volume={167}, pages={51--69}, year={2018}, publisher={Elsevier} }

(4.3) Uncertainty Specification/modeling:

1. Ahmad M, Gnaho C, Bruel J M, et al. Towards a Requirements Engineering Approach for Capturing Uncertainty in Cyber-Physical Systems Environment[C]//International Conference on Model and Data Engineering. Springer, Cham, 2018: 115-129.

[BibTeX] [DOI]

BibTeX: @inproceedings{ahmad2018towards, title={Towards a Requirements Engineering Approach for Capturing Uncertainty in Cyber-Physical Systems Environment}, author={Ahmad, Manzoor and Gnaho, Christophe and Bruel, Jean-Michel and Laleau, R{\'e}gine}, booktitle={International Conference on Model and Data Engineering}, pages={115--129}, year={2018}, organization={Springer} }



2. Bertoa M F, Burgueño L, Moreno N, et al. Incorporating measurement uncertainty into OCL/UML primitive datatypes[J]. Software & Systems Modeling, 2019: 1-27.

[BibTeX] [DOI]

BibTeX: @article{bertoa2019incorporating, title={Incorporating measurement uncertainty into OCL/UML primitive datatypes}, author={Bertoa, Manuel F and Burgue{\~n}o, Loli and Moreno, Nathalie and Vallecillo, Antonio}, journal={Software \& Systems Modeling}, pages={1--27}, year={2019}, publisher={Springer} }



3. Bertoa M F, Moreno N, Barquero G, et al. Expressing measurement uncertainty in OCL/UML datatypes[C]//European Conference on Modelling Foundations and Applications. Springer, Cham, 2018: 46-62.

[BibTeX] [DOI]

BibTeX: @inproceedings{bertoa2018expressing, title={Expressing measurement uncertainty in OCL/UML datatypes}, author={Bertoa, Manuel F and Moreno, Nathalie and Barquero, Gala and Burgue{\~n}o, Loli and Troya, Javier and Vallecillo, Antonio}, booktitle={European Conference on Modelling Foundations and Applications}, pages={46--62}, year={2018}, organization={Springer} }



4. Bhattacharjee S, Salimitari M, Chatterjee M, et al. Preserving data integrity in iot networks under opportunistic data manipulation[C]//2017 IEEE 15th Intl Conf on Dependable, Autonomic and Secure Computing, 15th Intl Conf on Pervasive Intelligence and Computing, 3rd Intl Conf on Big Data Intelligence and Computing and Cyber Science and Technology Congress (DASC/PiCom/DataCom/CyberSciTech). IEEE, 2017: 446-453.

[BibTeX] [DOI]

BibTeX: @inproceedings{bhattacharjee2017preserving, title={Preserving data integrity in iot networks under opportunistic data manipulation}, author={Bhattacharjee, Shameek and Salimitari, Mehrdad and Chatterjee, Mainak and Kwiat, Kevin and Kamhoua, Charles}, booktitle={2017 IEEE 15th Intl Conf on Dependable, Autonomic and Secure Computing, 15th Intl Conf on Pervasive Intelligence and Computing, 3rd Intl Conf on Big Data Intelligence and Computing and Cyber Science and Technology Congress (DASC/PiCom/DataCom/CyberSciTech)}, pages={446--453}, year={2017}, organization={IEEE} }



5. Chen B, Pompili D. Minimizing position uncertainty for under-ice autonomous underwater vehicles[J]. Computer Networks, 2013, 57(18): 3840-3854.

[BibTeX] [DOI]

BibTeX: @article{chen2013minimizing, title={Minimizing position uncertainty for under-ice autonomous underwater vehicles}, author={Chen, Baozhi and Pompili, Dario}, journal={Computer Networks}, volume={57}, number={18}, pages={3840--3854}, year={2013}, publisher={Elsevier} }



6. Chen B, Pompili D. Modeling position uncertainty of networked autonomous underwater vehicles[J]. Ad Hoc Networks, 2015, 34: 184-195.

[BibTeX] [DOI]

BibTeX: @article{chen2015modeling, title={Modeling position uncertainty of networked autonomous underwater vehicles}, author={Chen, Baozhi and Pompili, Dario}, journal={Ad Hoc Networks}, volume={34}, pages={184--195}, year={2015}, publisher={Elsevier} }



7. Chen W, An J, Li R, et al. A novel fuzzy deep-learning approach to traffic flow prediction with uncertain spatial–temporal data features[J]. Future generation computer systems, 2018, 89: 78-88.

[BibTeX] [DOI]

BibTeX: @article{chen2018novel, title={A novel fuzzy deep-learning approach to traffic flow prediction with uncertain spatial--temporal data features}, author={Chen, Weihong and An, Jiyao and Li, Renfa and Fu, Li and Xie, Guoqi and Bhuiyan, Md Zakirul Alam and Li, Keqin}, journal={Future generation computer systems}, volume={89}, pages={78--88}, year={2018}, publisher={Elsevier} }



8. Cheng B H C, Ramirez A, McKinley P K. Harnessing evolutionary computation to enable dynamically adaptive systems to manage uncertainty[C]//2013 1st International Workshop on Combining Modelling and Search-Based Software Engineering (CMSBSE). IEEE, 2013: 1-6.

[BibTeX] [DOI]

BibTeX: @inproceedings{cheng2013harnessing, title={Harnessing evolutionary computation to enable dynamically adaptive systems to manage uncertainty}, author={Cheng, Betty HC and Ramirez, Andres and McKinley, Philip K}, booktitle={2013 1st International Workshop on Combining Modelling and Search-Based Software Engineering (CMSBSE)}, pages={1--6}, year={2013}, organization={IEEE} }



9. Dong Y, Zhao X, Tong Y, et al. Service Optimization of Internet of Manufacturing Things Based on Mixed Information Axioms[J]. IEEE Access, 2018, 6: 53254-53264.

[BibTeX] [DOI]

BibTeX: @article{dong2018service, title={Service Optimization of Internet of Manufacturing Things Based on Mixed Information Axioms}, author={Dong, Ying and Zhao, Xiaojun and Tong, Yifei and Li, Dong-Bo}, journal={IEEE Access}, volume={6}, pages={53254--53264}, year={2018}, publisher={IEEE} }



10. Hamouda L B, Ayadi M, Langlois N. Fault tolerant fuzzy-based model predictive controllers for automotive application[C]//2016 International Conference on Control, Decision and Information Technologies (CoDIT). IEEE, 2016: 117-122.

[BibTeX] [DOI]

BibTeX: @inproceedings{hamouda2016fault, title={Fault tolerant fuzzy-based model predictive controllers for automotive application}, author={Hamouda, Lamia Ben and Ayadi, Mounir and Langlois, Nicolas}, booktitle={2016 International Conference on Control, Decision and Information Technologies (CoDIT)}, pages={117--122}, year={2016}, organization={IEEE} }



11. Harirchi F, Ozay N. Guaranteed model-based fault detection in cyber–physical systems: A model invalidation approach[J]. Automatica, 2018, 93: 476-488.

[BibTeX] [DOI]

BibTeX: @article{harirchi2018guaranteed, title={Guaranteed model-based fault detection in cyber--physical systems: A model invalidation approach}, author={Harirchi, Farshad and Ozay, Necmiye}, journal={Automatica}, volume={93}, pages={476--488}, year={2018}, publisher={Elsevier} }



12. Islam N, Azim A. Assuring the runtime behavior of self-adaptive cyber-physical systems using feature modeling[C]//Proceedings of the 28th Annual International Conference on Computer Science and Software Engineering. 2018: 48-59.

[BibTeX] [DOI]

BibTeX: @inproceedings{islam2018assuring, title={Assuring the runtime behavior of self-adaptive cyber-physical systems using feature modeling}, author={Islam, Nayreet and Azim, Akramul}, booktitle={Proceedings of the 28th Annual International Conference on Computer Science and Software Engineering}, pages={48--59}, year={2018} }



13. Jang, Kuk Jin, et al. "Robustness evaluation of computer-aided clinical trials for medical devices." Proceedings of the 10th ACM/IEEE International Conference on Cyber-Physical Systems. 2019.

[BibTeX] [DOI]

BibTeX: @inproceedings{jang2019robustness, title={Robustness evaluation of computer-aided clinical trials for medical devices}, author={Jang, Kuk Jin and Pant, Yash Vardhan and Zhang, Bo and Weimer, James and Mangharam, Rahul}, booktitle={Proceedings of the 10th ACM/IEEE International Conference on Cyber-Physical Systems}, pages={163--173}, year={2019} }



14. Jarraya, Amina, et al. "FSCEP: a new model for context perception in smart homes." OTM Confederated International Conferences" On the Move to Meaningful Internet Systems". Springer, Cham, 2016.

[BibTeX] [DOI]

BibTeX: @inproceedings{jarraya2016fscep, title={FSCEP: a new model for context perception in smart homes}, author={Jarraya, Amina and Ramoly, Nathan and Bouzeghoub, Amel and Arour, Khedija and Borgi, Amel and Finance, B{\'e}atrice}, booktitle={OTM Confederated International Conferences" On the Move to Meaningful Internet Systems"}, pages={465--484}, year={2016}, organization={Springer} }



15. Igel, Burkhard, et al. "Feedback-Aware Requirements Documents for Smart Devices." Proceedings of International Working Conference on Requirements Engineering: Foundation for Software Quality (REFSQ 2014).

[BibTeX] [DOI]

BibTeX: @inproceedings{igel2014feedback, title={Feedback-Aware Requirements Documents for Smart Devices}, author={Igel, Burkhard and Kamsties, Erik and Kneer, Fabian and Kolb, Bernd and Voelter, Markus}, booktitle={Proceedings of International Working Conference on Requirements Engineering: Foundation for Software Quality (REFSQ 2014)}, pages={119--134} }



16. Kargin, Anatolii, and Tetyana Petrenko. "Abstraction as a Way of Uncertainty Representation in Smart Rules Engine." 2019 XIth International Scientific and Practical Conference on Electronics and Information Technologies (ELIT). IEEE, 2019.

[BibTeX] [DOI]

BibTeX: @inproceedings{kargin2019abstraction, title={Abstraction as a Way of Uncertainty Representation in Smart Rules Engine}, author={Kargin, Anatolii and Petrenko, Tetyana}, booktitle={2019 XIth International Scientific and Practical Conference on Electronics and Information Technologies (ELIT)}, pages={136--141}, year={2019}, organization={IEEE} }



17. Katayama, Kei, and Hiroyuki Ohsaki. "Fluid-Based Modeling of Large-Scale IEEE 802.15. 4 Wireless Sensor Networks." 2019 IEEE 43rd Annual Computer Software and Applications Conference (COMPSAC). Vol. 2. IEEE, 2019.

[BibTeX] [DOI]

BibTeX: @inproceedings{katayama2019fluid, title={Fluid-Based Modeling of Large-Scale IEEE 802.15. 4 Wireless Sensor Networks}, author={Katayama, Kei and Ohsaki, Hiroyuki}, booktitle={2019 IEEE 43rd Annual Computer Software and Applications Conference (COMPSAC)}, volume={2}, pages={543--548}, year={2019}, organization={IEEE} }



18. Kate, Sayali, et al. "Phys: probabilistic physical unit assignment and inconsistency detection." Proceedings of the 2018 26th ACM Joint Meeting on European Software Engineering Conference and Symposium on the Foundations of Software Engineering. 2018.

[BibTeX] [DOI]

BibTeX: @inproceedings{kate2018phys, title={Phys: probabilistic physical unit assignment and inconsistency detection}, author={Kate, Sayali and Ore, John-Paul and Zhang, Xiangyu and Elbaum, Sebastian and Xu, Zhaogui}, booktitle={Proceedings of the 2018 26th ACM Joint Meeting on European Software Engineering Conference and Symposium on the Foundations of Software Engineering}, pages={563--573}, year={2018} }



19. Li H, Zhang Y, Chen Y. PSTEP-A Novel Probabilistic Event Processing Language for Uncertain Spatio-temporal Event Streams of Internet of Vehicles[C]//2015 IEEE International Conference on Software Quality, Reliability and Security-Companion. IEEE, 2015: 161-168.

[BibTeX] [DOI]

BibTeX: @inproceedings{li2015pstep, title={PSTEP-A Novel Probabilistic Event Processing Language for Uncertain Spatio-temporal Event Streams of Internet of Vehicles}, author={Li, Huiyong and Zhang, Yuanrui and Chen, Yixiang}, booktitle={2015 IEEE International Conference on Software Quality, Reliability and Security-Companion}, pages={161--168}, year={2015}, organization={IEEE} }



20. Ma T, Ali S, Yue T. Modeling foundations for executable model-based testing of self-healing cyber-physical systems[J]. Software & Systems Modeling, 2019, 18(5): 2843-2873.

[BibTeX] [DOI]

BibTeX: @article{ma2019modeling, title={Modeling foundations for executable model-based testing of self-healing cyber-physical systems}, author={Ma, Tao and Ali, Shaukat and Yue, Tao}, journal={Software \& Systems Modeling}, volume={18}, number={5}, pages={2843--2873}, year={2019}, publisher={Springer} }



21. Moreno N, Bertoa M F, Barquero G, et al. Managing uncertain complex events in web of things applications[C]//International Conference on Web Engineering. Springer, Cham, 2018: 349-357.

[BibTeX] [DOI]

BibTeX: @inproceedings{moreno2018managing, title={Managing uncertain complex events in web of things applications}, author={Moreno, Nathalie and Bertoa, Manuel F and Barquero, Gala and Burgue{\~n}o, Loli and Troya, Javier and Garc{\'\i}a-L{\'o}pez, Adri{\'a}n and Vallecillo, Antonio}, booktitle={International Conference on Web Engineering}, pages={349--357}, year={2018}, organization={Springer} }



22. Oquendo F. Coping with Uncertainty in Systems-of-Systems Architecture Modeling on the IoT with SosADL[C]//SoSE. 2019: 131-136.

[BibTeX] [DOI]

BibTeX: @inproceedings{oquendo2019coping, title={Coping with Uncertainty in Systems-of-Systems Architecture Modeling on the IoT with SosADL.}, author={Oquendo, Flavio}, booktitle={SoSE}, pages={131--136}, year={2019} }



23. Ravi M, Demazeau Y, Ramparany F. Reasoning with trust and uncertainty illustration in the internet of things[C]//2015 IEEE/WIC/ACM International Conference on Web Intelligence and Intelligent Agent Technology (WI-IAT). IEEE, 2015, 2: 125-128.

[BibTeX] [DOI]

BibTeX: @inproceedings{ravi2015reasoning, title={Reasoning with trust and uncertainty illustration in the internet of things}, author={Ravi, Mondi and Demazeau, Yves and Ramparany, Fano}, booktitle={2015 IEEE/WIC/ACM International Conference on Web Intelligence and Intelligent Agent Technology (WI-IAT)}, volume={2}, pages={125--128}, year={2015}, organization={IEEE} }



24. Shariatmadar K, Misra A, Debrouwere F, et al. Optimal modelling of process variations in industry 4.0 facility under advanced p-box uncertainty[C]//2019 IEEE Student Conference on Research and Development (SCOReD). IEEE, 2019: 180-185.

[BibTeX] [DOI]

BibTeX: @inproceedings{shariatmadar2019optimal, title={Optimal modelling of process variations in industry 4.0 facility under advanced p-box uncertainty}, author={Shariatmadar, Keivan and Misra, Ashwin and Debrouwere, Frederik and Versteyhe, Mark}, booktitle={2019 IEEE Student Conference on Research and Development (SCOReD)}, pages={180--185}, year={2019}, organization={IEEE} }



25. Song, Junsup, Yeongbok Choe, and Moonkun Lee. "Application of probabilistic process model for smart factory systems." International Conference on Knowledge Science, Engineering and Management. Springer, Cham, 2019.

[BibTeX] [DOI]

BibTeX: @inproceedings{song2019application, title={Application of probabilistic process model for smart factory systems}, author={Song, Junsup and Choe, Yeongbok and Lee, Moonkun}, booktitle={International Conference on Knowledge Science, Engineering and Management}, pages={25--36}, year={2019}, organization={Springer} }



26. Wang, Qinsi, et al. "Sreach: A probabilistic bounded delta-reachability analyzer for stochastic hybrid systems." International Conference on Computational Methods in Systems Biology. Springer, Cham, 2015.

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BibTeX: @inproceedings{wang2015sreach, title={Sreach: A probabilistic bounded delta-reachability analyzer for stochastic hybrid systems}, author={Wang, Qinsi and Zuliani, Paolo and Kong, Soonho and Gao, Sicun and Clarke, Edmund M}, booktitle={International Conference on Computational Methods in Systems Biology}, pages={15--27}, year={2015}, organization={Springer} }



27. Yue X, Chen Y. Strategy optimization of supply chain enterprises based on fuzzy decision making model in internet of things[J]. IEEE Access, 2018, 6: 70378-70387.

[BibTeX] [DOI]

BibTeX: @article{yue2018strategy, title={Strategy optimization of supply chain enterprises based on fuzzy decision making model in internet of things}, author={Yue, Xiaoyun and Chen, Yehua}, journal={IEEE Access}, volume={6}, pages={70378--70387}, year={2018}, publisher={IEEE} }



28. Zhang M, Ali S, Yue T, et al. Uncertainty-wise cyber-physical system test modeling[J]. Software & Systems Modeling, 2019, 18(2): 1379-1418.

[BibTeX] [DOI]

BibTeX: @article{zhang2019uncertainty, title={Uncertainty-wise cyber-physical system test modeling}, author={Zhang, Man and Ali, Shaukat and Yue, Tao and Norgren, Roland and Okariz, Oscar}, journal={Software \& Systems Modeling}, volume={18}, number={2}, pages={1379--1418}, year={2019}, publisher={Springer} }



29. Zhang M, Selic B, Ali S, et al. Understanding uncertainty in cyber-physical systems: a conceptual model[C]//European conference on modelling foundations and applications. Springer, Cham, 2016: 247-264.

[BibTeX] [DOI]

BibTeX: @inproceedings{zhang2016understanding, title={Understanding uncertainty in cyber-physical systems: a conceptual model}, author={Zhang, Man and Selic, Bran and Ali, Shaukat and Yue, Tao and Okariz, Oscar and Norgren, Roland}, booktitle={European conference on modelling foundations and applications}, pages={247--264}, year={2016}, organization={Springer} }

(4.4) Uncertainty Reasoning:

1. Agadakos I, Chen C Y, Campanelli M, et al. Jumping the air gap: Modeling cyber-physical attack paths in the Internet-of-Things[C]//Proceedings of the 2017 Workshop on Cyber-Physical Systems Security and PrivaCy. 2017: 37-48.

[BibTeX] [DOI]

BibTeX: @inproceedings{agadakos2017jumping, title={Jumping the air gap: Modeling cyber-physical attack paths in the Internet-of-Things}, author={Agadakos, Ioannis and Chen, Chien-Ying and Campanelli, Matteo and Anantharaman, Prashant and Hasan, Monowar and Copos, Bogdan and Lepoint, Tancr{\`e}de and Locasto, Michael and Ciocarlie, Gabriela F and Lindqvist, Ulf}, booktitle={Proceedings of the 2017 Workshop on Cyber-Physical Systems Security and PrivaCy}, pages={37--48}, year={2017} }



2. AAgeeva L, Majidi M, Pozo D. Analysis of feasibility region of active distribution networks[C]//2019 International Youth Conference on Radio Electronics, Electrical and Power Engineering (REEPE). IEEE, 2019: 1-5.

[BibTeX] [DOI]

BibTeX: @inproceedings{ageeva2019analysis, title={Analysis of feasibility region of active distribution networks}, author={Ageeva, Liliia and Majidi, Maryam and Pozo, David}, booktitle={2019 International Youth Conference on Radio Electronics, Electrical and Power Engineering (REEPE)}, pages={1--5}, year={2019}, organization={IEEE} }



3. Akbar A, Kousiouris G, Pervaiz H, et al. Real-time probabilistic data fusion for large-scale IoT applications[J]. Ieee Access, 2018, 6: 10015-10027.

[BibTeX] [DOI]

BibTeX: @article{akbar2018real, title={Real-time probabilistic data fusion for large-scale IoT applications}, author={Akbar, Adnan and Kousiouris, George and Pervaiz, Haris and Sancho, Juan and Ta-Shma, Paula and Carrez, Francois and Moessner, Klaus}, journal={Ieee Access}, volume={6}, pages={10015--10027}, year={2018}, publisher={IEEE} }



4. Alhakami W, ALharbi A, Bourouis S, et al. Network anomaly intrusion detection using a nonparametric Bayesian approach and feature selection[J]. IEEE Access, 2019, 7: 52181-52190.

[BibTeX] [DOI]

BibTeX: @article{alhakami2019network, title={Network anomaly intrusion detection using a nonparametric Bayesian approach and feature selection}, author={Alhakami, Wajdi and ALharbi, Abdullah and Bourouis, Sami and Alroobaea, Roobaea and Bouguila, Nizar}, journal={IEEE Access}, volume={7}, pages={52181--52190}, year={2019}, publisher={IEEE} }



5. Amir M, Givargis T. Hybrid state machine model for fast model predictive control: Application to path tracking[C]//2017 IEEE/ACM International Conference on Computer-Aided Design (ICCAD). IEEE, 2017: 185-192.

[BibTeX] [DOI]

BibTeX: @inproceedings{amir2017hybrid, title={Hybrid state machine model for fast model predictive control: Application to path tracking}, author={Amir, Maral and Givargis, Tony}, booktitle={2017 IEEE/ACM International Conference on Computer-Aided Design (ICCAD)}, pages={185--192}, year={2017}, organization={IEEE} }



6. Bacci G, Hansen M, Larsen K G. On the verification of weighted kripke structures under uncertainty[C]//International Conference on Quantitative Evaluation of Systems. Springer, Cham, 2018: 71-86.

[BibTeX] [DOI]

BibTeX: @inproceedings{bacci2018verification, title={On the verification of weighted kripke structures under uncertainty}, author={Bacci, Giovanni and Hansen, Mikkel and Larsen, Kim Guldstrand}, booktitle={International Conference on Quantitative Evaluation of Systems}, pages={71--86}, year={2018}, organization={Springer} }



7. Banerjee S, Bouzefrane S, Mühlethaler P. Mobility prediction in vehicular networks: an approach through hybrid neural networks under uncertainty[C]//International Conference on Mobile, Secure, and Programmable Networking. Springer, Cham, 2017: 178-194.

[BibTeX] [DOI]

BibTeX: @inproceedings{banerjee2017mobility, title={Mobility prediction in vehicular networks: an approach through hybrid neural networks under uncertainty}, author={Banerjee, Soumya and Bouzefrane, Samia and M{\"u}hlethaler, Paul}, booktitle={International Conference on Mobile, Secure, and Programmable Networking}, pages={178--194}, year={2017}, organization={Springer} }



8. Bousdekis A, Papageorgiou N, Magoutas B, et al. A probabilistic model for context-aware proactive decision making[C]//2016 7th International Conference on Information, Intelligence, Systems & Applications (IISA). IEEE, 2016: 1-6.

[BibTeX] [DOI]

BibTeX: @inproceedings{bousdekis2016probabilistic, title={A probabilistic model for context-aware proactive decision making}, author={Bousdekis, Alexandros and Papageorgiou, Nikos and Magoutas, Babis and Apostolou, Dimitris and Mentzas, Gregoris}, booktitle={2016 7th International Conference on Information, Intelligence, Systems \& Applications (IISA)}, pages={1--6}, year={2016}, organization={IEEE} }



9. Cámara J, Garlan D, Moreno G A, et al. Analyzing self-adaptation via model checking of stochastic games[M]//Software Engineering for Self-Adaptive Systems III. Assurances. Springer, Cham, 2017: 154-187.

[BibTeX] [DOI]

BibTeX: @incollection{camara2017analyzing, title={Analyzing self-adaptation via model checking of stochastic games}, author={C{\'a}mara, Javier and Garlan, David and Moreno, Gabriel A and Schmerl, Bradley}, booktitle={Software Engineering for Self-Adaptive Systems III. Assurances}, pages={154--187}, year={2017}, publisher={Springer} }



10. Cámara J, Garlan D, Schmerl B. Synthesis and quantitative verification of tradeoff spaces for families of software systems[C]//European Conference on Software Architecture. Springer, Cham, 2017: 3-21.

[BibTeX] [DOI]

BibTeX: @inproceedings{camara2017synthesis, title={Synthesis and quantitative verification of tradeoff spaces for families of software systems}, author={C{\'a}mara, Javier and Garlan, David and Schmerl, Bradley}, booktitle={European Conference on Software Architecture}, pages={3--21}, year={2017}, organization={Springer} }



11. Cámara J, Garlan D, Schmerl B. Synthesizing tradeoff spaces with quantitative guarantees for families of software systems[J]. Journal of Systems and Software, 2019, 152: 33-49.

[BibTeX] [DOI]

BibTeX: @article{camara2019synthesizing, title={Synthesizing tradeoff spaces with quantitative guarantees for families of software systems}, author={C{\'a}mara, Javier and Garlan, David and Schmerl, Bradley}, journal={Journal of Systems and Software}, volume={152}, pages={33--49}, year={2019}, publisher={Elsevier} }



12. Cámara J, Peng W, Garlan D, et al. Reasoning about sensing uncertainty in decision-making for self-adaptation[C]//International Conference on Software Engineering and Formal Methods. Springer, Cham, 2017: 523-540.

[BibTeX] [DOI]

BibTeX: @inproceedings{camara2017reasoning, title={Reasoning about sensing uncertainty in decision-making for self-adaptation}, author={C{\'a}mara, Javier and Peng, Wenxin and Garlan, David and Schmerl, Bradley}, booktitle={International Conference on Software Engineering and Formal Methods}, pages={523--540}, year={2017}, organization={Springer} }



13. Chatzikonstantinou G, Kontogiannis K. Efficient parallel reasoning on fuzzy goal models for run time requirements verification[J]. Software & Systems Modeling, 2018, 17(4): 1339-1364.

[BibTeX] [DOI]

BibTeX: @article{chatzikonstantinou2018efficient, title={Efficient parallel reasoning on fuzzy goal models for run time requirements verification}, author={Chatzikonstantinou, George and Kontogiannis, Kostas}, journal={Software \& Systems Modeling}, volume={17}, number={4}, pages={1339--1364}, year={2018}, publisher={Springer} }



14. Chaves L C, Ismail H I, Bessa I V, et al. Verifying fragility in digital systems with uncertainties using DSVerifier v2. 0[J]. Journal of Systems and Software, 2019, 153: 22-43.

[BibTeX] [DOI]

BibTeX: @article{chaves2019verifying, title={Verifying fragility in digital systems with uncertainties using DSVerifier v2. 0}, author={Chaves, Lennon C and Ismail, Hussama I and Bessa, Iury V and Cordeiro, Lucas C and de Lima Filho, Eddie B}, journal={Journal of Systems and Software}, volume={153}, pages={22--43}, year={2019}, publisher={Elsevier} }



15. Chen B, Niu Y, Zou Y. Security control for Markov jump system with adversarial attacks and unknown transition rates via adaptive sliding mode technique[J]. Journal of the Franklin Institute, 2019, 356(6): 3333-3352.

[BibTeX] [DOI]

BibTeX: @article{chen2019security, title={Security control for Markov jump system with adversarial attacks and unknown transition rates via adaptive sliding mode technique}, author={Chen, Bei and Niu, Yugang and Zou, Yuanyuan}, journal={Journal of the Franklin Institute}, volume={356}, number={6}, pages={3333--3352}, year={2019}, publisher={Elsevier} }



16. Chen D J, Lu Z. A model-based approach to dynamic self-assessment for automated performance and safety awareness of cyber-physical systems[C]//International Symposium on Model-Based Safety and Assessment. Springer, Cham, 2017: 227-240.

[BibTeX] [DOI]

BibTeX: @inproceedings{chen2017model, title={A model-based approach to dynamic self-assessment for automated performance and safety awareness of cyber-physical systems}, author={Chen, DeJiu and Lu, Zhonghai}, booktitle={International Symposium on Model-Based Safety and Assessment}, pages={227--240}, year={2017}, organization={Springer} }



17. Feliú M A, Moscato M M. Towards a Formal Safety Framework for Trajectories[C]//NASA Formal Methods Symposium. Springer, Cham, 2018: 179-184.

[BibTeX] [DOI]

BibTeX: @inproceedings{feliu2018towards, title={Towards a Formal Safety Framework for Trajectories}, author={Feli{\'u}, Marco A and Moscato, Mariano M}, booktitle={NASA Formal Methods Symposium}, pages={179--184}, year={2018}, organization={Springer} }



18. Ghezzi C. Dependability of adaptable and evolvable distributed systems[C]//International School on Formal Methods for the Design of Computer, Communication and Software Systems. Springer, Cham, 2016: 36-60.

[BibTeX] [DOI]

BibTeX: @inproceedings{ghezzi2016dependability, title={Dependability of adaptable and evolvable distributed systems}, author={Ghezzi, Carlo}, booktitle={International School on Formal Methods for the Design of Computer, Communication and Software Systems}, pages={36--60}, year={2016}, organization={Springer} } } }



19. Hamouda L B, Ayadi M, Langlois N. Fault tolerant fuzzy-based model predictive controllers for automotive application[C]//2016 International Conference on Control, Decision and Information Technologies (CoDIT). IEEE, 2016: 117-122.

[BibTeX] [DOI]

BibTeX: @inproceedings{hamouda2016fault, title={Fault tolerant fuzzy-based model predictive controllers for automotive application}, author={Hamouda, Lamia Ben and Ayadi, Mounir and Langlois, Nicolas}, booktitle={2016 International Conference on Control, Decision and Information Technologies (CoDIT)}, pages={117--122}, year={2016}, organization={IEEE} }



20. Jang, Kuk Jin, et al. "Robustness evaluation of computer-aided clinical trials for medical devices." Proceedings of the 10th ACM/IEEE International Conference on Cyber-Physical Systems. 2019.

[BibTeX] [DOI]

BibTeX: @inproceedings{jang2019robustness, title={Robustness evaluation of computer-aided clinical trials for medical devices}, author={Jang, Kuk Jin and Pant, Yash Vardhan and Zhang, Bo and Weimer, James and Mangharam, Rahul}, booktitle={Proceedings of the 10th ACM/IEEE International Conference on Cyber-Physical Systems}, pages={163--173}, year={2019} }



21. Jaribion, Alireza, et al. "[WiP] a novel method for big data analytics and summarization based on fuzzy similarity measure." 2018 IEEE 11th Conference on Service-Oriented Computing and Applications (SOCA). IEEE, 2018.

[BibTeX] [DOI]

BibTeX: @inproceedings{jaribion2018wip, title={[WiP] a novel method for big data analytics and summarization based on fuzzy similarity measure}, author={Jaribion, Alireza and Khajavi, Siavash H and Motlagh, Naser Hossein and Holmstr{\"o}m, Jan}, booktitle={2018 IEEE 11th Conference on Service-Oriented Computing and Applications (SOCA)}, pages={221--226}, year={2018}, organization={IEEE} }



22. Jarraya, Amina, et al. "FSCEP: a new model for context perception in smart homes." OTM Confederated International Conferences" On the Move to Meaningful Internet Systems". Springer, Cham, 2016.

[BibTeX] [DOI]

BibTeX: @inproceedings{jarraya2016fscep, title={FSCEP: a new model for context perception in smart homes}, author={Jarraya, Amina and Ramoly, Nathan and Bouzeghoub, Amel and Arour, Khedija and Borgi, Amel and Finance, B{\'e}atrice}, booktitle={OTM Confederated International Conferences" On the Move to Meaningful Internet Systems"}, pages={465--484}, year={2016}, organization={Springer} }



23. Jha, Susmit, et al. "Safe autonomy under perception uncertainty using chance-constrained temporal logic." Journal of Automated Reasoning 60.1 (2018): 43-62.

[BibTeX] [DOI]

BibTeX: @article{jha2018safe, title={Safe autonomy under perception uncertainty using chance-constrained temporal logic}, author={Jha, Susmit and Raman, Vasumathi and Sadigh, Dorsa and Seshia, Sanjit A}, journal={Journal of Automated Reasoning}, volume={60}, number={1}, pages={43--62}, year={2018}, publisher={Springer} }



24. Kargin, Anatolii, and Tetyana Petrenko. "Abstraction as a Way of Uncertainty Representation in Smart Rules Engine." 2019 XIth International Scientific and Practical Conference on Electronics and Information Technologies (ELIT). IEEE, 2019.

[BibTeX] [DOI]

BibTeX: @inproceedings{kargin2019abstraction, title={Abstraction as a Way of Uncertainty Representation in Smart Rules Engine}, author={Kargin, Anatolii and Petrenko, Tetyana}, booktitle={2019 XIth International Scientific and Practical Conference on Electronics and Information Technologies (ELIT)}, pages={136--141}, year={2019}, organization={IEEE} }



25. Kate, Sayali, et al. "Phys: probabilistic physical unit assignment and inconsistency detection." Proceedings of the 2018 26th ACM Joint Meeting on European Software Engineering Conference and Symposium on the Foundations of Software Engineering. 2018.

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BibTeX: @inproceedings{kate2018phys, title={Phys: probabilistic physical unit assignment and inconsistency detection}, author={Kate, Sayali and Ore, John-Paul and Zhang, Xiangyu and Elbaum, Sebastian and Xu, Zhaogui}, booktitle={Proceedings of the 2018 26th ACM Joint Meeting on European Software Engineering Conference and Symposium on the Foundations of Software Engineering}, pages={563--573}, year={2018} }



26. Kotenko I, Saenko I, Ageev S. Countermeasure security risks management in the internet of things based on fuzzy logic inference[C]//2015 IEEE Trustcom/BigDataSE/ISPA. IEEE, 2015, 1: 654-659.

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BibTeX: @inproceedings{kotenko2015countermeasure, title={Countermeasure security risks management in the internet of things based on fuzzy logic inference}, author={Kotenko, Igor and Saenko, Igor and Ageev, Sergey}, booktitle={2015 IEEE Trustcom/BigDataSE/ISPA}, volume={1}, pages={654--659}, year={2015}, organization={IEEE} }



27. Leite F L, Schneider D, Adler R. Dynamic risk management for cooperative autonomous medical cyber-physical systems[C]//International Conference on Computer Safety, Reliability, and Security. Springer, Cham, 2018: 126-138.

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BibTeX: @inproceedings{leite2018dynamic, title={Dynamic risk management for cooperative autonomous medical cyber-physical systems}, author={Leite, F{\'a}bio L and Schneider, Daniel and Adler, Rasmus}, booktitle={International Conference on Computer Safety, Reliability, and Security}, pages={126--138}, year={2018}, organization={Springer} }



28. Muccini H, Moghaddam M T. A cyber-physical space operational approach for crowd evacuation handling[C]//International Workshop on Software Engineering for Resilient Systems. Springer, Cham, 2017: 81-95.

[BibTeX] [DOI]

BibTeX: @inproceedings{muccini2017cyber, title={A cyber-physical space operational approach for crowd evacuation handling}, author={Muccini, Henry and Moghaddam, Mahyar Tourchi}, booktitle={International Workshop on Software Engineering for Resilient Systems}, pages={81--95}, year={2017}, organization={Springer} }



29. Nannapaneni S, Dubey A, Mahadevan S. Performance evaluation of smart systems under uncertainty[C]//2017 IEEE SmartWorld, Ubiquitous Intelligence & Computing, Advanced & Trusted Computed, Scalable Computing & Communications, Cloud & Big Data Computing, Internet of People and Smart City Innovation (SmartWorld/SCALCOM/UIC/ATC/CBDCom/IOP/SCI). IEEE, 2017: 1-8.

[BibTeX] [DOI]

BibTeX: @inproceedings{nannapaneni2017performance, title={Performance evaluation of smart systems under uncertainty}, author={Nannapaneni, Saideep and Dubey, Abhishek and Mahadevan, Sankaran}, booktitle={2017 IEEE SmartWorld, Ubiquitous Intelligence \& Computing, Advanced \& Trusted Computed, Scalable Computing \& Communications, Cloud \& Big Data Computing, Internet of People and Smart City Innovation (SmartWorld/SCALCOM/UIC/ATC/CBDCom/IOP/SCI)}, pages={1--8}, year={2017}, organization={IEEE} }



30. Nia M A, Kargahi M, Faghih F. Probabilistic approximation of runtime quantitative verification in self-adaptive systems[J]. Microprocessors and Microsystems, 2020, 72: 102943.

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BibTeX: @article{nia2020probabilistic, title={Probabilistic approximation of runtime quantitative verification in self-adaptive systems}, author={Nia, Mehran Alidoost and Kargahi, Mehdi and Faghih, Fathiyeh}, journal={Microprocessors and Microsystems}, volume={72}, pages={102943}, year={2020}, publisher={Elsevier} }



31. Oquendo F. Coping with Uncertainty in Systems-of-Systems Architecture Modeling on the IoT with SosADL[C]//SoSE. 2019: 131-136.

[BibTeX] [DOI]

BibTeX: @inproceedings{oquendo2019coping, title={Coping with Uncertainty in Systems-of-Systems Architecture Modeling on the IoT with SosADL.}, author={Oquendo, Flavio}, booktitle={SoSE}, pages={131--136}, year={2019} }



32. Pushpa P V. Internet of Things based Context Aware Health Care Services[C]//2019 Second International Conference on Advanced Computational and Communication Paradigms (ICACCP). IEEE, 2019: 1-6.

[BibTeX] [DOI]

BibTeX: @inproceedings{pushpa2019internet, title={Internet of Things based Context Aware Health Care Services}, author={Pushpa, PV}, booktitle={2019 Second International Conference on Advanced Computational and Communication Paradigms (ICACCP)}, pages={1--6}, year={2019}, organization={IEEE} }



33. Ramparany F, Mondi R, Demazeau Y. A semantic approach for managing trust and uncertainty in distributed systems environments[C]//2016 21st International Conference on Engineering of Complex Computer Systems (ICECCS). IEEE, 2016: 63-70.

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BibTeX: @inproceedings{ramparany2016semantic, title={A semantic approach for managing trust and uncertainty in distributed systems environments}, author={Ramparany, Fano and Mondi, Ravi and Demazeau, Yves}, booktitle={2016 21st International Conference on Engineering of Complex Computer Systems (ICECCS)}, pages={63--70}, year={2016}, organization={IEEE} }



34. Ravi M, Demazeau Y, Ramparany F. Reasoning with trust and uncertainty illustration in the internet of things[C]//2015 IEEE/WIC/ACM International Conference on Web Intelligence and Intelligent Agent Technology (WI-IAT). IEEE, 2015, 2: 125-128.

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BibTeX: @inproceedings{ravi2015reasoning, title={Reasoning with trust and uncertainty illustration in the internet of things}, author={Ravi, Mondi and Demazeau, Yves and Ramparany, Fano}, booktitle={2015 IEEE/WIC/ACM International Conference on Web Intelligence and Intelligent Agent Technology (WI-IAT)}, volume={2}, pages={125--128}, year={2015}, organization={IEEE} }



35. Sharifloo A M, Metzger A. Mcaas: Model checking in the cloud for assurances of adaptive systems[M]//Software Engineering for Self-Adaptive Systems III. Assurances. Springer, Cham, 2017: 137-153.

[BibTeX] [DOI]

BibTeX: @incollection{sharifloo2017mcaas, title={Mcaas: Model checking in the cloud for assurances of adaptive systems}, author={Sharifloo, Amir Molzam and Metzger, Andreas}, booktitle={Software Engineering for Self-Adaptive Systems III. Assurances}, pages={137--153}, year={2017}, publisher={Springer} }



36. Tsigkanos, Christos, Timo Kehrer, and Carlo Ghezzi. "Architecting dynamic cyber-physical spaces." Computing 98.10 (2016): 1011-1040.

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BibTeX: @article{tsigkanos2016architecting, title={Architecting dynamic cyber-physical spaces}, author={Tsigkanos, Christos and Kehrer, Timo and Ghezzi, Carlo}, journal={Computing}, volume={98}, number={10}, pages={1011--1040}, year={2016}, publisher={Springer} }



37. Vrbaski, Mira, Miodrag Bolic, and Shikharesh Majumdar. "Complex event recognition notification methodology for uncertain IoT systems based on micro-service architecture." 2018 IEEE 6th International Conference on Future Internet of Things and Cloud (FiCloud). IEEE, 2018.

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BibTeX: @inproceedings{vrbaski2018complex, title={Complex event recognition notification methodology for uncertain IoT systems based on micro-service architecture}, author={Vrbaski, Mira and Bolic, Miodrag and Majumdar, Shikharesh}, booktitle={2018 IEEE 6th International Conference on Future Internet of Things and Cloud (FiCloud)}, pages={184--191}, year={2018}, organization={IEEE} }



38. Wang W, Hong T, Li N, et al. Linking energy-cyber-physical systems with occupancy prediction and interpretation through WiFi probe-based ensemble classification[J]. Applied energy, 2019, 236: 55-69.

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BibTeX: @article{wang2019linking, title={Linking energy-cyber-physical systems with occupancy prediction and interpretation through WiFi probe-based ensemble classification}, author={Wang, Wei and Hong, Tianzhen and Li, Nan and Wang, Ryan Qi and Chen, Jiayu}, journal={Applied energy}, volume={236}, pages={55--69}, year={2019}, publisher={Elsevier} }



39. Xie D, Sheng Q Z, Ma J, et al. A framework for processing uncertain RFID data in supply chain management[C]//International Conference on Web Information Systems Engineering. Springer, Berlin, Heidelberg, 2013: 396-409.

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BibTeX: @inproceedings{xie2013framework, title={A framework for processing uncertain RFID data in supply chain management}, author={Xie, Dong and Sheng, Quan Z and Ma, Jiangang and Cheng, Yun and Qin, Yongrui and Zeng, Rui}, booktitle={International Conference on Web Information Systems Engineering}, pages={396--409}, year={2013}, organization={Springer} }



40. Xu S, Miao W, Kunz T, et al. Quantitative analysis of variation-aware Internet of Things designs using statistical model checking[C]//2016 IEEE International Conference on Software Quality, Reliability and Security (QRS). IEEE, 2016: 274-285.

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BibTeX: @inproceedings{xu2016quantitative, title={Quantitative analysis of variation-aware Internet of Things designs using statistical model checking}, author={Xu, Siyuan and Miao, Weikai and Kunz, Thomas and Wei, Tongquan and Chen, Mingsong}, booktitle={2016 IEEE International Conference on Software Quality, Reliability and Security (QRS)}, pages={274--285}, year={2016}, organization={IEEE} }



41. Xu Z, Julius A A. Robust temporal logic inference for provably correct fault detection and privacy preservation of switched systems[J]. IEEE Systems Journal, 2019, 13(3): 3010-3021.

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BibTeX: @article{xu2019robust, title={Robust temporal logic inference for provably correct fault detection and privacy preservation of switched systems}, author={Xu, Zhe and Julius, A Agung}, journal={IEEE Systems Journal}, volume={13}, number={3}, pages={3010--3021}, year={2019}, publisher={IEEE} }



42. Yang Z, Wu M, Lin W. An efficient framework for barrier certificate generation of uncertain nonlinear hybrid systems[J]. Nonlinear Analysis: Hybrid Systems, 2020, 36: 100837.

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BibTeX: @article{yang2020efficient, title={An efficient framework for barrier certificate generation of uncertain nonlinear hybrid systems}, author={Yang, Zhengfeng and Wu, Min and Lin, Wang}, journal={Nonlinear Analysis: Hybrid Systems}, volume={36}, pages={100837}, year={2020}, publisher={Elsevier} }



43. Zhang M, Ali S, Yue T, et al. Uncertainty-wise evolution of test ready models[J]. Information and Software Technology, 2017, 87: 140-159.

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BibTeX: @article{zhang2017uncertainty, title={Uncertainty-wise evolution of test ready models}, author={Zhang, Man and Ali, Shaukat and Yue, Tao and Norgre, Roland}, journal={Information and Software Technology}, volume={87}, pages={140--159}, year={2017}, publisher={Elsevier} }



44. Cámara J, Peng W, Garlan D, et al. Reasoning about sensing uncertainty and its reduction in decision-making for self-adaptation[J]. Science of Computer Programming, 2018, 167: 51-69.

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BibTeX: @article{camara2018reasoning, title={Reasoning about sensing uncertainty and its reduction in decision-making for self-adaptation}, author={C{\'a}mara, Javier and Peng, Wenxin and Garlan, David and Schmerl, Bradley}, journal={Science of Computer Programming}, volume={167}, pages={51--69}, year={2018}, publisher={Elsevier} }

(4.5) Decision making under uncertainty:

1. Agarwal S, Pape L E, Dagli C H, et al. Flexible and intelligent learning architectures for sos (fila-sos): Architectural evolution in systems-of-systems[J]. Procedia Computer Science, 2015, 44(C): 76-85.

[BibTeX] [DOI]

BibTeX: @article{agarwal2015flexible, title={Flexible and intelligent learning architectures for sos (fila-sos): Architectural evolution in systems-of-systems}, author={Agarwal, Siddhartha and Pape, Louis E and Dagli, Cihan H and Ergin, Nil K and Enke, David and Gosavi, Abhijit and Qin, Ruwen and Konur, Dincer and Wang, Renzhong and Gottapu, Ram Deepak}, journal={Procedia Computer Science}, volume={44}, number={C}, pages={76--85}, year={2015}, publisher={Elsevier BV} }



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BibTeX: @article{wei2017cost, title={Cost-constrained QoS optimization for approximate computation real-time tasks in heterogeneous MPSoCs}, author={Wei, Tongquan and Zhou, Junlong and Cao, Kun and Cong, Peijin and Chen, Mingsong and Zhang, Gongxuan and Hu, Xiaobo Sharon and Yan, Jianming}, journal={IEEE Transactions on Computer-Aided Design of Integrated Circuits and Systems}, volume={37}, number={9}, pages={1733--1746}, year={2017}, publisher={IEEE} }



52. Yachir A, Amirat Y, Chibani A, et al. Event-aware framework for dynamic services discovery and selection in the context of ambient intelligence and Internet of Things[J]. IEEE Transactions on Automation Science and Engineering, 2015, 13(1): 85-102.

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BibTeX: @article{yachir2015event, title={Event-aware framework for dynamic services discovery and selection in the context of ambient intelligence and Internet of Things}, author={Yachir, Ali and Amirat, Yacine and Chibani, Abdelghani and Badache, Nadjib}, journal={IEEE Transactions on Automation Science and Engineering}, volume={13}, number={1}, pages={85--102}, year={2015}, publisher={IEEE} }



53. Yue X, Chen Y. Strategy optimization of supply chain enterprises based on fuzzy decision making model in internet of things[J]. IEEE Access, 2018, 6: 70378-70387.

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BibTeX: @article{yue2018strategy, title={Strategy optimization of supply chain enterprises based on fuzzy decision making model in internet of things}, author={Yue, Xiaoyun and Chen, Yehua}, journal={IEEE Access}, volume={6}, pages={70378--70387}, year={2018}, publisher={IEEE} }



54. Zavala E, Franch X, Marco J, et al. SACRE: Supporting contextual requirements’ adaptation in modern self-adaptive systems in the presence of uncertainty at runtime[J]. Expert Systems with Applications, 2018, 98: 166-188.

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BibTeX: @article{zavala2018sacre, title={SACRE: Supporting contextual requirements’ adaptation in modern self-adaptive systems in the presence of uncertainty at runtime}, author={Zavala, Edith and Franch, Xavier and Marco, Jordi and Knauss, Alessia and Damian, Daniela}, journal={Expert Systems with Applications}, volume={98}, pages={166--188}, year={2018}, publisher={Elsevier} }



55. Zhang K, Qu T, Zhou D, et al. Digital twin-based opti-state control method for a synchronized production operation system[J]. Robotics and Computer-Integrated Manufacturing, 2020, 63: 101892.

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BibTeX: @article{zhang2020digital, title={Digital twin-based opti-state control method for a synchronized production operation system}, author={Zhang, Kai and Qu, Ting and Zhou, Dajian and Jiang, Hongfei and Lin, Yuanxin and Li, Peize and Guo, Hongfei and Liu, Yang and Li, Congdong and Huang, George Q}, journal={Robotics and Computer-Integrated Manufacturing}, volume={63}, pages={101892}, year={2020}, publisher={Elsevier} }



56. Zhang M, Ali S, Yue T. Uncertainty-wise test case generation and minimization for cyber-physical systems[J]. Journal of Systems and Software, 2019, 153: 1-21.

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BibTeX: @article{zhang2019uncertainty, title={Uncertainty-wise test case generation and minimization for cyber-physical systems}, author={Zhang, Man and Ali, Shaukat and Yue, Tao}, journal={Journal of Systems and Software}, volume={153}, pages={1--21}, year={2019}, publisher={Elsevier} }



57. Cámara J, Peng W, Garlan D, et al. Reasoning about sensing uncertainty and its reduction in decision-making for self-adaptation[J]. Science of Computer Programming, 2018, 167: 51-69.

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BibTeX: @article{camara2018reasoning, title={Reasoning about sensing uncertainty and its reduction in decision-making for self-adaptation}, author={C{\'a}mara, Javier and Peng, Wenxin and Garlan, David and Schmerl, Bradley}, journal={Science of Computer Programming}, volume={167}, pages={51--69}, year={2018}, publisher={Elsevier} }



58. Van Der Donckt J, Weyns D, Iftikhar M U, et al. Effective Decision Making in Self-adaptive Systems Using Cost-Benefit Analysis at Runtime and Online Learning of Adaptation Spaces[C]//International Conference on Evaluation of Novel Approaches to Software Engineering. Springer, Cham, 2018: 373-403.

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BibTeX: @inproceedings{van2018effective, title={Effective Decision Making in Self-adaptive Systems Using Cost-Benefit Analysis at Runtime and Online Learning of Adaptation Spaces}, author={Van Der Donckt, Jeroen and Weyns, Danny and Iftikhar, M Usman and Buttar, Sarpreet Singh}, booktitle={International Conference on Evaluation of Novel Approaches to Software Engineering}, pages={373--403}, year={2018}, organization={Springer} }

(4.6) Uncertainty propagation:

1. Anwar F, D’souza S, Symington A, et al. Timeline: An operating system abstraction for time-aware applications[C]//2016 IEEE Real-Time Systems Symposium (RTSS). IEEE, 2016: 191-202.

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BibTeX: @inproceedings{anwar2016timeline, title={Timeline: An operating system abstraction for time-aware applications}, author={Anwar, Fatima and D’souza, Sandeep and Symington, Andrew and Dongare, Adwait and Rajkumar, Ragunathan and Rowe, Anthony and Srivastava, Mani}, booktitle={2016 IEEE Real-Time Systems Symposium (RTSS)}, pages={191--202}, year={2016}, organization={IEEE} }



2. Behl M, Nghiem T X, Mangharam R. Model-iq: Uncertainty propagation from sensing to modeling and control in buildings[C]//2014 ACM/IEEE International Conference on Cyber-Physical Systems (ICCPS). IEEE, 2014: 13-24.

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BibTeX: @inproceedings{behl2014model, title={Model-iq: Uncertainty propagation from sensing to modeling and control in buildings}, author={Behl, Madhur and Nghiem, Truong X and Mangharam, Rahul}, booktitle={2014 ACM/IEEE International Conference on Cyber-Physical Systems (ICCPS)}, pages={13--24}, year={2014}, organization={IEEE} }



3. Chati Y S, Balakrishnan H. A Gaussian process regression approach to model aircraft engine fuel flow rate[C]//2017 ACM/IEEE 8th International Conference on Cyber-Physical Systems (ICCPS). IEEE, 2017: 131-140.

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BibTeX: @inproceedings{chati2017gaussian, title={A Gaussian process regression approach to model aircraft engine fuel flow rate}, author={Chati, Yashovardhan Sushil and Balakrishnan, Hamsa}, booktitle={2017 ACM/IEEE 8th International Conference on Cyber-Physical Systems (ICCPS)}, pages={131--140}, year={2017}, organization={IEEE} }



4. Chen B, Pompili D. Minimizing position uncertainty for under-ice autonomous underwater vehicles[J]. Computer Networks, 2013, 57(18): 3840-3854.

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BibTeX: @article{chen2013minimizing, title={Minimizing position uncertainty for under-ice autonomous underwater vehicles}, author={Chen, Baozhi and Pompili, Dario}, journal={Computer Networks}, volume={57}, number={18}, pages={3840--3854}, year={2013}, publisher={Elsevier} }



5. Chen B, Pompili D. Modeling position uncertainty of networked autonomous underwater vehicles[J]. Ad Hoc Networks, 2015, 34: 184-195.

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BibTeX: @article{chen2015modeling, title={Modeling position uncertainty of networked autonomous underwater vehicles}, author={Chen, Baozhi and Pompili, Dario}, journal={Ad Hoc Networks}, volume={34}, pages={184--195}, year={2015}, publisher={Elsevier} }



6. Dai X, Burns A. Period adaptation of real-time control tasks with fixed-priority scheduling in cyber-physical systems[J]. Journal of Systems Architecture, 2020, 103: 101691.

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BibTeX: @article{dai2020period, title={Period adaptation of real-time control tasks with fixed-priority scheduling in cyber-physical systems}, author={Dai, Xiaotian and Burns, Alan}, journal={Journal of Systems Architecture}, volume={103}, pages={101691}, year={2020}, publisher={Elsevier} }



7. Gao R, Huang J, Wang L. Leaderless consensus control of uncertain multi-agents systems with sensor and actuator attacks[J]. Information Sciences, 2019, 505: 144-156.

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BibTeX: @article{gao2019leaderless, title={Leaderless consensus control of uncertain multi-agents systems with sensor and actuator attacks}, author={Gao, Rui and Huang, Jiangshuai and Wang, Lei}, journal={Information Sciences}, volume={505}, pages={144--156}, year={2019}, publisher={Elsevier} } }



8. Ge H, Yue D, Xie X, et al. A unified modeling of muti-sources cyber-attacks with uncertainties for CPS security control[J]. Journal of the Franklin Institute, 2019.

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9. Ge H, Zhao Z. Security analysis of energy internet with robust control approaches and defense design[J]. IEEE Access, 2018, 6: 11203-11214.

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10. Gerostathopoulos I, Skoda D, Plasil F, et al. Architectural homeostasis in self-adaptive software-intensive cyber-physical systems[C]//European Conference on Software Architecture. Springer, Cham, 2016: 113-128.

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BibTeX: @inproceedings{gerostathopoulos2016architectural, title={Architectural homeostasis in self-adaptive software-intensive cyber-physical systems}, author={Gerostathopoulos, Ilias and Skoda, Dominik and Plasil, Frantisek and Bures, Tomas and Knauss, Alessia}, booktitle={European Conference on Software Architecture}, pages={113--128}, year={2016}, organization={Springer} } } }



11. Gerostathopoulos I, Skoda D, Plasil F, et al. Tuning self-adaptation in cyber-physical systems through architectural homeostasis[J]. Journal of Systems and Software, 2019, 148: 37-55.

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BibTeX: @article{gerostathopoulos2019tuning, title={Tuning self-adaptation in cyber-physical systems through architectural homeostasis}, author={Gerostathopoulos, Ilias and Skoda, Dominik and Plasil, Frantisek and Bures, Tomas and Knauss, Alessia}, journal={Journal of Systems and Software}, volume={148}, pages={37--55}, year={2019}, publisher={Elsevier} } } }



12. Gullo F, Ponti G, Tagarelli A, et al. Handling Uncertainty in Clustering Art-Exhibition Visiting Styles[C]//International Conference on Big Data Technologies and Applications. Springer, Cham, 2016: 54-63.

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BibTeX: @inproceedings{gullo2016handling, title={Handling Uncertainty in Clustering Art-Exhibition Visiting Styles}, author={Gullo, Francesco and Ponti, Giovanni and Tagarelli, Andrea and Cuomo, Salvatore and De Michele, Pasquale and Piccialli, Francesco}, booktitle={International Conference on Big Data Technologies and Applications}, pages={54--63}, year={2016}, organization={Springer} }



13. Islam N, Azim A. Assuring the runtime behavior of self-adaptive cyber-physical systems using feature modeling[C]//Proceedings of the 28th Annual International Conference on Computer Science and Software Engineering. 2018: 48-59.

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BibTeX: @inproceedings{islam2018assuring, title={Assuring the runtime behavior of self-adaptive cyber-physical systems using feature modeling}, author={Islam, Nayreet and Azim, Akramul}, booktitle={Proceedings of the 28th Annual International Conference on Computer Science and Software Engineering}, pages={48--59}, year={2018} }



14. Igel, Burkhard, et al. "Feedback-Aware Requirements Documents for Smart Devices." Proceedings of International Working Conference on Requirements Engineering: Foundation for Software Quality (REFSQ 2014).

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BibTeX: @inproceedings{igel2014feedback, title={Feedback-Aware Requirements Documents for Smart Devices}, author={Igel, Burkhard and Kamsties, Erik and Kneer, Fabian and Kolb, Bernd and Voelter, Markus}, booktitle={Proceedings of International Working Conference on Requirements Engineering: Foundation for Software Quality (REFSQ 2014)}, pages={119--134} }



15. Li H, Zhang Y, Chen Y. PSTEP-A Novel Probabilistic Event Processing Language for Uncertain Spatio-temporal Event Streams of Internet of Vehicles[C]//2015 IEEE International Conference on Software Quality, Reliability and Security-Companion. IEEE, 2015: 161-168.

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BibTeX: @inproceedings{li2015pstep, title={PSTEP-A Novel Probabilistic Event Processing Language for Uncertain Spatio-temporal Event Streams of Internet of Vehicles}, author={Li, Huiyong and Zhang, Yuanrui and Chen, Yixiang}, booktitle={2015 IEEE International Conference on Software Quality, Reliability and Security-Companion}, pages={161--168}, year={2015}, organization={IEEE} }



16. Margelis G, Piechocki R, Tryfonas T, et al. Smart Attacks on the integrity of the Internet of Things: Avoiding detection by employing Game Theory[C]//2016 IEEE Global Communications Conference (GLOBECOM). IEEE, 2016: 1-6.

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BibTeX: @inproceedings{margelis2016smart, title={Smart Attacks on the integrity of the Internet of Things: Avoiding detection by employing Game Theory}, author={Margelis, George and Piechocki, Robert and Tryfonas, Theo and Thomas, Paul}, booktitle={2016 IEEE Global Communications Conference (GLOBECOM)}, pages={1--6}, year={2016}, organization={IEEE} }



17. Shevtsov S, Weyns D, Maggio M. SimCA* A Control-theoretic Approach to Handle Uncertainty in Self-adaptive Systems with Guarantees[J]. ACM Transactions on Autonomous and Adaptive Systems (TAAS), 2019, 13(4): 1-34.

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BibTeX: @article{shevtsov2019simca, title={SimCA* A Control-theoretic Approach to Handle Uncertainty in Self-adaptive Systems with Guarantees}, author={Shevtsov, Stepan and Weyns, Danny and Maggio, Martina}, journal={ACM Transactions on Autonomous and Adaptive Systems (TAAS)}, volume={13}, number={4}, pages={1--34}, year={2019}, publisher={ACM New York, NY, USA} }



18. Song, Junsup, Yeongbok Choe, and Moonkun Lee. "Application of probabilistic process model for smart factory systems." International Conference on Knowledge Science, Engineering and Management. Springer, Cham, 2019.

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BibTeX: @inproceedings{song2019application, title={Application of probabilistic process model for smart factory systems}, author={Song, Junsup and Choe, Yeongbok and Lee, Moonkun}, booktitle={International Conference on Knowledge Science, Engineering and Management}, pages={25--36}, year={2019}, organization={Springer} }



19. Zavala E, Franch X, Marco J, et al. SACRE: Supporting contextual requirements’ adaptation in modern self-adaptive systems in the presence of uncertainty at runtime[J]. Expert Systems with Applications, 2018, 98: 166-188.

[BibTeX] [DOI]

BibTeX: @article{zavala2018sacre, title={SACRE: Supporting contextual requirements’ adaptation in modern self-adaptive systems in the presence of uncertainty at runtime}, author={Zavala, Edith and Franch, Xavier and Marco, Jordi and Knauss, Alessia and Damian, Daniela}, journal={Expert Systems with Applications}, volume={98}, pages={166--188}, year={2018}, publisher={Elsevier} }