REFERENCES

1. Peng Y, Lu T, Liu J, Gao Y, Guo X, Xie F. Cyber-physical System Risk Assessment, 2013 Ninth International Conference on Intelligent Information Hiding and Multimedia Signal Processing, 2013,Oct. 16-18, Beijing, China. IEEE, 2013. pp. 442-7.

2. Mauthe A, Hutchison D, Çetinkaya EK, et al. Disaster-resilient communication networks: Principles and best practices, 2016 8th International Workshop on Resilient Networks Design and Modeling (RNDM), 2013 Oct. 16-18, Halmstad, Sweden. IEEE, 2016. pp. 1-10.

3. Hollnagel E. Resilience: The challenge of the unstable. In: Hollnagel E, Woods D, Leveson N, editors. Resilience engineering: Concepts and precepts, 1st ed. Aldershot: Ashgate; 2006. pp. 9-17.

4. Carvalho P V R, dos Santos I L, Gomes J O, Borges M R S. Micro incident analysis framework to assess safety and resilience in the operation of safe critical systems: A case study in a nuclear power plant. J Loss Prevent Proc 2008;21:277-86.

5. Saurin T A, Carim Júnior G C. Evaluation and improvement of a method for assessing HSMS from the resilience engineering perspective: A case study of an electricity distributor. Saf Sci 2011;49:355-68.

6. Azadeh A, Salehi V, Ashjari B, Saberi M. Performance evaluation of integrated resilience engineering factors by data envelopment analysis: The case of a petrochemical plant. Proc Saf Environ Protec 2014;92:231-41.

7. Shirali G H A, Motamedzade M, Mohammadfam I, Ebrahimipour V, Moghimbeigi A. Challenges in building resilience engineering (RE) and adaptive capacity: A field study in a chemical plant. Process Saf Environ 2012;90:83-90.

8. Morel G, Amalberti R, Chauvin C. How good micro/macro ergonomics may improve resilience, but not necessarily safety. Saf Sci 2009;47:285-94.

9. In: Abech M P, Berg G A, Delis M G, Guimaraes L B M, Woods D D, editors. Analyzing Resilience of an Oil Distribution Plant. Proceedings of the 2006 IEEE Systems and Information Engineering Design Symposium Charlottesville, VA, USA. IEEE; 2007.

10. Hale A, Heijer T. Is resilience really necessary? The case of railways. In: Hollnagel E, Woods D, Leveson N, editors. Resilience engineering: Concepts and precepts, 1st ed. Aldershot: Ashgate; 2006. pp. 125-48.

11. Holling C S. Resilience and Stability of Ecological Systems. Annu Rev Ecol Syst 1973;4:1-23.

12. Folke C. Resilience: The emergence of a perspective for social–ecological systems analyses. Glob Environ Change 2006;16:253-67.

13. Werner E E, Bierman J M, French F E. The children of Kauai: A longitudinal study from the prenatal period to age ten. Honolulu: University of Hawaii Press; 1971.

14. In: Luthar S S, editor. Resilience and Vulnerability: Adaptation in the Context of Childhood Adversities. Cambridge: Cambridge University Press; 2003.

15. Francis R, Bekera B. A metric and frameworks for resilience analysis of engineered and infrastructure systems. Reliab Eng Syst Safe 2014;121:90-103.

16. In: Rieger C G, Gertman D I, McQueen M A, editors. Resilient control systems: Next generation design research. Proceedings of the 2009 2nd Conference on Human System Interactions Catania, Italy. IEEE; 2009.

17. McDonald N. Organisational resilience and industrial risk. In: Hollnagel E, Woods D, Leveson N, editors. Resilience engineering: Concepts and precepts, 1st ed. Aldershot: Ashgate; 2006. pp. 155-80.

18. Wreathall J. Properties of resilient organizations: an initial view. In: Hollnagel E, Woods D, Leveson N, editors. Resilience engineering: Concepts and precepts, 1st ed. Aldershot: Ashgate; 2006. pp. 275-85.

19. Mitchell S M, Mannan M S, O’Connor M K. Designing resilient engineered systems. Chem Eng Prog 2006;102:39-15.

20. Yang Y, Syndor R. Resilient control for critical infrastructures and systems. NRC 2014. Available from: https://www.researchgate.net/profile/Yaguang_Yang/publication/283091635_Resilient_control_for_critical_infrastructures_and_systems/links/562a9ec108ae518e347f74e1/Resilient-control-for-critical-infrastructures-and-systems. [Last accessed on 04-10-2020].

21. Sterbenz J P G, Hutchison D, Çetinkaya E K, et al. Resilience and survivability in communication networks: Strategies, principles, and survey of disciplines. Com Net 2010;54:1245-65.

22. Laprie J C. From dependability to resilience. Available from: https://www.ece.cmu.edu/~koopman/dsn08/fastabs/dsn08fastabs_laprie.pdf.. [Last accessed on 04-10-2020].

23. Avizienis A, Laprie J C, Randell B, Landwehr C. Basic concepts and taxonomy of dependable and secure computing. IEEE T Depend Secure 2004;1:11-33.

24. Clark A, Zonouz S. Cyber-Physical Resilience: Definition and Assessment Metric. IEEE T Smart Grid 2019;10:1671-84.

25. Arghandeh R, von Meier A, Mehrmanesh L, Mili L. On the definition of cyber-physical resilience in power systems. Renew Sust Energ Rev 2016;58:1060-9.

26. Vugrin E D, Warren D E, Ehlen M A. A resilience assessment framework for infrastructure and economic systems: Quantitative and qualitative resilience analysis of petrochemical supply chains to a hurricane. Proc Safety Prog 2011;30:280-90.

27. Ayyub B M. Systems Resilience for Multihazard Environments: Definition, Metrics, and Valuation for Decision Making. Risk Anal 2014;34:340-55.

28. Haimes Y Y. On the Definition of Resilience in Systems. Risk Anal 2009;29:498-501.

29. Dinh L T, Pasman H, Gao X, Mannan M S. Resilience engineering of industrial processes: Principles and contributing factors. J Loss Prevent Proce Indus 2012;25:233-41.

30. Hale A, Heijer T. Defining resilience. In: Hollnagel E, Woods D, Leveson N, editors. Resilience engineering: Concepts and precepts, 1st ed. Aldershot: Ashgate; 2006. pp. 35-40.

31. Leveson N, Dulac N, Zipkin D, Cutcher-Gershenfeld J, Carroll J, Barrett B. Engineering resilience into safety-critical systems. In: Hollnagel E, Woods D, Leveson N, editors. Resilience engineering: Concepts and precepts, 1st ed. Aldershot: Ashgate; 2006. pp. 95-123.

32. Sundström G, Hollnagel E. Learning how to create resilience in business systems. In: Hollnagel E, Woods D, Leveson N, editors. Resilience engineering: Concepts and precepts, 1st ed. Aldershot: Ashgate; 2006. pp. 235-52.

33. Thompson M A, Ryan M J, McLucas A C, editors. A proposed resilience framework. Proceedings of the Systems Engineering and Test and Evaluation (SETE) Conference; 2014 April; Canberra, AS. 2002. Available from: https://www.researchgate.net/profile/Mike_Ryan7/publication/274660820_A_Proposed_Resilience_Framework/links/5524ff4c0cf22e181e73b971.pdf. [Last accessed on 04-10-2020].

34. In: Wei D, Ji K, editors. Resilient industrial control system (RICS): Concepts, formulation, metrics, and insights. Proceedings of the 2010 3rd International Symposium on Resilient Control Systems Idaho Falls, ID, USA. IEEE; 2010.

35. Woods D D. Essential characteristics of resilience. In: Hollnagel E, Woods D, Leveson N, editors. Resilience engineering: Concepts and precepts, 1st ed. Aldershot: Ashgate; 2006. pp. 21-34.

36. In: Laprie J-C, editor. Resilience for the Scalability of Dependability. Proceedings of the 4th IEEE International Symposium on Network Computing and Applications Cambridge, MA, USA. IEEE; 2006.

37. de Lafontaine J, Côté J, Kron A, Vuilleumier P, Santandrea S, van den Braembussche P, editors. Validation of innovative state estimation and control techniques on PROBA-2. Proceedings of the 6th International ESA Conference on Guidance, Navigation and Control Systems. 2005 Oct 17-20; Loutraki, Greece. ESA SP-606; 2006. Available from: http://adsabs.harvard.edu/full/2006ESASP.606E..23D. [Last accessed on 04-10-2020].

38. Cai B, Xie M, Liu Y, Liu Y, Feng Q. Availability-based engineering resilience metric and its corresponding evaluation methodology. Reliability Engineering & System Safety 2018;172:216-24.

39. In: Rieger C G, editor. Resilient control systems Practical metrics basis for defining mission impact. Proceedings of the 2014 7th International Symposium onResilient Control Systems (ISRCS) Denver, CO, USA. IEEE; 2014.

40. Gholami A, Shekari T, Amirioun MH, Aminifar F, Amini MH, Sargolzaei A. Toward a Consensus on the Definition and Taxonomy of Power System Resilience. IEEE Access 2018;6:32035-53.

41. Babiceanu R F, Seker R. Cyber resilience protection for industrial internet of things: A software-defined networking approach. Computers in Industry 2019;104:47-58.

42. In: Sterbenz J P G, Çetinkaya E K, Hameed M A, Jabbar A, Rohrer J P, editors. Modelling and analysis of network resilience. Proceedings of the 2011 Third International Conference on Communication Systems and Networks (COMSNETS 2011) Bangalore, India. IEEE; 2011.

43. Shirali G A, Mohammadfam I, Ebrahimipour V. A new method for quantitative assessment of resilience engineering by PCA and NT approach: A case study in a process industry. Reliability Engineering & System Safety 2013;119:88-94.

44. Haimes Y Y. On the Complex Definition of Risk: A Systems-Based Approach. Risk Anal 2009;29:1647-54.

45. Thompson M A, Ryan M J, Slay J, McLucas A C. A New Resilience Taxonomy. INCOSE International Symposium 2016;26:1318-30.

46. Abimbola M, Khan F. Resilience modeling of engineering systems using dynamic object-oriented Bayesian network approach. Computers & Industrial Engineering 2019;130:108-18.

47. Zadeh L A. Fuzzy Sets. Information and Control 1965;8:338-53.

48. Muller G. Fuzzy Architecture Assessment for Critical Infrastructure Resilience. Procedia Computer Science 2012;12:367-72.

49. Aleksić Al, Stefanović M, Arsovski S, Tadić D. An assessment of organizational resilience potential in SMEs of the process industry, a fuzzy approach. J Loss Prevent Proce Industr 2013;26:1238-45.

50. Azadeh A, Salehi V, Arvan M, Dolatkhah M. Assessment of resilience engineering factors in high-risk environments by fuzzy cognitive maps: A petrochemical plant. Saf Sci 2014;68:99-107.

51. Clédel T, Foley S N, Cuppens N, Cuppens F, Kermarrec Y, et al. Towards the Evaluation of End-to-End Resilience Through External Consistency. , 2018 Oct 29-31;.

52. Clark DD, Wilson D R. A Comparison of Commercial and Military Computer Security Policies. Proceedings of the 1987 IEEE Symposium on Security and Privacy Oakland, CA, USA. IEEE; 2014.

53. Williams J G, Padula L J L. Automated support for external consistency. Proceedings of the [1993] Proceedings Computer Security Foundations Workshop VI Franconia, NH, USA. IEEE; 2002.

54. Wisner B, Blaikie P M, Cannon T, Davis I. At Risk: Natural Hazards, People’s Vulnerability and Disasters. 2nd ed. London: Routledge; 2004. Available from: https://books.google.fr/books?id=566bdm7T5VEC. [Last accessed on 04-10-2020].

55. Linkov I, Eisenberg DA, Bates ME, et al. Measurable Resilience for Actionable Policy. Environ Sci Technol 2013;47:10108-10110.

56. Linkov I, Eisenberg DA, Plourde K, Seager TP, Allen J, Kott A. Resilience metrics for cyber systems. Environ Syst Decis 2013;33:471-6.

57. Stoller S D, Liu Y A. Algorithm Diversity for Resilient Systems In: Foley SN, editor. Proceedings of the IFIP Annual Conference on Data and Applications Security and Privacy Charleston, SC, USA. Springer; 2019. pp. 359-378.

58. Andersen D, Balakrishnan H, Kaashoek F, Morris R. Resilient Overlay Networks. Sigcomm Comput Commun Rev 2002;32:66-66.

59. Costa da Fontoura L. Reinforcing the resilience of complex networks. Phys Rev E 2004;69:066127.

60. In: Sousa P, Neves N F, Verissimo P, editors. How resilient are distributed f fault/intrusion-tolerant systems?. Proceedings of the 2005 International Conference on Dependable Systems and Networks (DSN’05) Yokohama, Japan. IEEE; 2005.

61. In: Lucia W, Sinopoli B, Franze G, editors. A set-theoretic approach for secure and resilient control of Cyber-Physical Systems subject to false data injection attacks. Proceedings of the 2016 Science of Security for Cyber-Physical Systems Workshop (SOSCYPS) Vienna, Austria. IEEE; 2016.

62. In: Kanoun W, Cuppens-Boulahia N, Cuppens F, Dubus S, editors. Risk-aware Framework for Activating and Deactivating Policy-based Response Risk-aware framework for activating and deactivating policy-based response. Proceedings of the 2010 Fourth International Conference on Network and System Security Melbourne, VIC, Australia. IEEE; 2010.

63. Aven T. On Some Recent Definitions and Analysis Frameworks for Risk, Vulnerability, and Resilience. Risk Anal 2011;31:515-522.

64. Van Mieghem P, Doerr C, Wang H, Hernandez J M, Hutchison D, et al. A framework for computing topological network robustness. Delft University of Technology, Report 20101218, 2010.

65. Baheti R, Gill H. Cyber-physical systems. The Impact of Control Technology 2011;12:161-166.

66. In: Lee E A, editor. Cyber-physical systems-are computing foundations adequate. Proceedings of the Position paper for NSF Workshop on Cyber-physical Systems: Research Motivation, Techniques and Roadmap Austin, TX, USA; .

67. De Florio V. Antifragility = Elasticity + Resilience + Machine Learning: Models and Algorithms for Open System Fidelity. Procedia Comput Sci 2014;32:834-41.

68. Cardenas AA, Amin S, Sinopoli B, et al. Challenges for Securing Cyber Physical Systems. 1st Workshop CyberPhys. Syst Security 2009;5:1.

69. In: Hayel Y, Quanyan Z, editors. Resilient and secure network design for cyber attack-induced cascading link failures in critical infrastructures. Proceedings of the 2015 49th Annual Conference on Information Sciences and Systems (CISS) Baltimore, MD, USA. IEEE; 2015.