Learning Diagnoser and Supervision Pattern in Discrete Event System: Application to Crisis Management

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Published Oct 14, 2013
Moussa Traore Moamar Sayed-Mouchaweh Patrice Billaudel

Abstract

The increase of natural, industrial disasters and diverse crisis has stimulated more research interest in the world. A crisis can be industrial accident, train accident, earthquake, and etc. However, the crisis management is currently an important challenge for medical service and research, to develop new technical of decision support system to guide the decision makers. Crisis management is a special type of collaboration, therefore several aspects must be considered. The more important aspect or problem in a crisis management, is the coordination (and communication) between different ac- tors and groups involved in the management. In this paper the focus is how to handle the coordination and interaction between these different actors and groups involved in crisis management by using a finite state automaton. The representation of the crisis management as a set of couple of states and events allows to optimize the crisis management by having real time the evolution of the situation and the prediction of their evolution at their earliest.

How to Cite

Traore , M. ., Sayed-Mouchaweh, M. ., & Billaudel , P. . (2013). Learning Diagnoser and Supervision Pattern in Discrete Event System: Application to Crisis Management. Annual Conference of the PHM Society, 5(1). https://doi.org/10.36001/phmconf.2013.v5i1.2199
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Keywords

prediction, discrete event system, Learning Dagnosis, Supervision Pattern, Crisis Management

References
Benkhelifa, I., Moussaoui, S., & N-Taboudjemat, N. (2013). Locating emergency responders using mobile wireless sensor networks. In proceedings of IEEE, ACM, Proceeding ISCRAM, 10th Internationa Conference on Information Systems for Crisis Response and Management. Baden-Baden, Germany.

Cabasino, M. P., Giua, A., & Seatzu, C. (2010). Fault detection for discrete event systems using petri nets with unobservable transition. Automatica, Vol. 46, Issue 9, 1531-1539.

Genc, S., & Lafortune, S. (2009). Predictability of event occurrences in partially-observed discrete-event systems. Automatica, Vol. 45, Issue 2, pp. 301 - 311.

Kwong, R., & Yonge-Mallo, D. (2011). Fault diagnosis in discrete-event systems: Incomplete models and learn- ing. IEEE Transactions on Systems, Man, and Cybernetics, Part B: Cybernetics, Volume 41 Issue : 1, pp. 118-130.

Reuter, C., Heger, O., & Pipek, V. (2013). Combining real and virtual volunteers through social media. In pro- ceedings of IEEE, ACM, Proceeding ISCRAM, 10th Internationa Conference on Information Systems for Crisis Response and Management. Baden-Baden, Ger- many.

Sampath, M., Sengupta, R., Lafortune, S., Sinnamohideen, K., & Teneketzis, D. (1995). Diagnosability of dis- crete event systems. IEEE Transaction On Automatic Contol, vol. 40, No. 9, 1555-1575.

Sayed-Mouchaweh, M., & Billaudel, P. (2012). Abrupt and drift-like fault diagnosis of concurent discrete event systems. Machine Learning and Applications (ICMLA), vol. 2, 434 - 439.

Takai, S., & Kumar, R. (2012). Distributed failure progno- sis of discrete event systems with bounded-delay com- munications. IEEE Tansactions On Automatic Control, vol. 57, No. 5, pp. 1259 - 1265.

Xi-Rien, C. (1989). The predictability of discrete event systems. IEEE Transaction Automatic Contol, vol. 34 (11), pp. 1168-1171.

Ye, L., & Dague, P. (2012). A general algorithm for pattern diagnosability of distributed discrete event systems. International Conference on Tools with Artificial Intelligence.

Yunxia, X. (2003). Integrated fault diagnosis scheme using finite state automaton (Unpublished master’s the- sis). National University of Singapore.

Zad, S. H., Kwong, R. H., & Wonham, W. M. (2003). Fault diagnosis in discrete-event systems: framework and model reduction. IEEE Transaction, on Automatic Contol, vol. 48, No. 7, pp. 1199-1212.
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Poster Presentations