Browse > Article
http://dx.doi.org/10.22937/IJCSNS.2021.21.11.22

Fault Diagnosis with Adaptive Control for Discrete Event Systems  

El Touati, Yamen (Department of Computer Sciences, Faculty of Computing and Information Technology, Northern Border University)
Ayari, Mohamed (Department of Information Technology Faculty of Computing and Information Technology, Northern Border University)
Publication Information
International Journal of Computer Science & Network Security / v.21, no.11, 2021 , pp. 165-170 More about this Journal
Abstract
Discrete event systems interact with the external environment to decide which action plan is adequate. Some of these interactions are not predictable in the modelling phase and require consequently an adaptation of the system to the metamorphosed behavior of the environment. One of the challenging issues is to guarantee safety behavior when failures tend to derive the system from normal status. In this paper we propose a framework to combine diagnose technique with adaptive control to avoid unsafe sate an maintain the normal behavior as long as possible.
Keywords
Diagnose; Discrete event systems; Control; Finite State Machines;
Citations & Related Records
연도 인용수 순위
  • Reference
1 D. A. Pearce, The induction of fault diagnosis systems from qualitative reasoning, Proceedings of the AAAi National Conference on Artificial Intelligence, pp. 353-357, St Paul, Etats-Unis, 1988.
2 Sasi, Yazeed, and Feng Lin. "Detectability of networked discrete event systems." Discrete Event Dynamic Systems 28.3 (2018): 449-470.   DOI
3 Takai, Shigemasa. "A Generalized Diagnosability Condition for Diagnosis of Discrete Event Systems Subject to Sensor Failures." IFAC-PapersOnLine 53.4 (2020): 344-349.   DOI
4 Tan, Jianxin, et al. "Fault diagnosis of discrete-event systems under a general architecture." Journal of Ambient Intelligence and Humanized Computing (2021): 1-19.
5 Wonham, W. M., Kai Cai, and Karen Rudie. "Supervisory control of discrete-event systems: A brief history." Annual Reviews in Control 45 (2018): 250-256.   DOI
6 Alzalab, Ebrahim Ali, et al. "Fault-Recovery and Repair Modeling of Discrete Event Systems Using Petri Nets." IEEE Access 8 (2020): 170237-170247.   DOI
7 Alves, Marcos VS, et al. "Robust supervisory control of discrete event systems against intermittent loss of observations." International Journal of Control 94.7 (2021): 2008-2020.   DOI
8 Passino, K. M., and P. J. Antsaklis. "On the optimal control of discrete event systems." Proceedings of the 28th IEEE Conference on Decision and Control,. IEEE, 1989.
9 Kumar, Ratnesh, and Vijay K. Garg. Modeling and control of logical discrete event systems. Vol. 300. Springer Science & Business Media, 2012.
10 M. Sampath, R. Sengupta, S. Lafortune, K. Sinnamohideen, D. Teneketzis, Failure diagnosis using discrete-event models, IEEE Transactions Automat. Contr., vol. 40, no. 2, pp. 105-124, 1996.
11 F. Lin, Diagnosability of discrete-event systems and its applications, J. DEDS, vol. 4, no. 2, pp. 197-212, 1994.
12 Debouk, Rami, Stephane Lafortune, and Demosthenis Teneketzis. "Coordinated decentralized protocols for failure diagnosis of discrete event systems." Discrete Event Dynamic Systems 10.1 (2000): 33-86.   DOI
13 Lafortune, Stephane, Feng Lin, and Christoforos N. Hadjicostis. "On the history of diagnosability and opacity in discrete event systems." Annual Reviews in Control 45 (2018): 257-266.   DOI
14 Viana, Gustavo S., and Joao C. Basilio. "Codiagnosability of discrete event systems revisited: A new necessary and sufficient condition and its applications." Automatica 101 (2019): 354-364.   DOI
15 Keroglou, Christoforos, and Christoforos N. Hadjicostis. "Distributed fault diagnosis in discrete event systems via set intersection refinements." IEEE Transactions on Automatic Control 63.10 (2018): 3601-3607.   DOI
16 Yin, Xiang, and Zhaojian Li. "Decentralized fault prognosis of discrete-event systems using state-estimate-based protocols." IEEE transactions on cybernetics 49.4 (2018): 1302-1313.   DOI
17 Boussif, Abderraouf, Mohamed Ghazel, and Joao Carlos Basilio. "Intermittent fault diagnosability of discrete event systems: an overview of automaton-based approaches." Discrete Event Dynamic Systems 31.1 (2021): 59-102.   DOI
18 Takai, Shigemasa. "A general framework for diagnosis of discrete event systems subject to sensor failures." Automatica 129 (2021): 109669.   DOI
19 Ramadge, Peter JG, and W. Murray Wonham. "The control of discrete event systems." Proceedings of the IEEE 77.1 (1989): 81-98.   DOI
20 Seatzu, Carla, Manuel Silva, and Jan H. Van Schuppen. Control of discrete-event systems. Vol. 433. Springer, 2013.
21 Wonham, W. Murray, and Kai Cai. "Supervisory control of discrete-event systems." (2019): 2005-06.
22 Lamperti, Gianfranco, Marina Zanella, and Xiangfu Zhao. "Diagnosis of Deep Discrete-Event Systems." Journal of Artificial Intelligence Research 69 (2020): 1473-1532.   DOI
23 Wang, Deguang, Xi Wang, and Zhiwu Li. "State-based fault diagnosis of discrete-event systems with partially observable outputs." Information Sciences 529 (2020): 87-100.   DOI
24 Thistle, John G. "Supervisory control of discrete event systems." Mathematical and Computer Modelling 23.11-12 (1996): 25-53.   DOI
25 M. Sampath, R. Sengupta, S. Lafortune, K. Sinnamohideen, D.Teneketzis, Diagnosability of discrete event systems, IEEE Transactions Automat. Contr.,vol. 40, no. 9,pp. 1555-1575, 1995.   DOI