Distributed prognosis of discrete event systems under bounded-delay communications

The task of failure prognosis requires the prediction of impending failures. This is possible if each failure trace possesses a nonfailure prefix for which at least one local prognoser is unambiguous that a failure in future is inevitable. This paper formulates and studies the problem of distributed prognosis of discrete event systems, where the local prognosers exchange their observations of the events executed by the plant for the sake of arriving at a prognostic decision. The observations are exchanged over communication channels that introduce bounded delays. A property of joint-prognosability is introduced to capture the condition under which any failure can be predicted by some local prognoser prior to its occurrence. We provide an algorithm to check the joint-prognosability property that uses the plant model extended to include the communication channel models.

[1]  Shengbing Jiang,et al.  Optimal sensor selection for discrete-event systems with partial observation , 2003, IEEE Trans. Autom. Control..

[2]  Shengbing Jiang,et al.  Failure diagnosis of discrete event systems with linear-time temporal logic fault specifications , 2002, Proceedings of the 2002 American Control Conference (IEEE Cat. No.CH37301).

[3]  Vijay K. Garg,et al.  Modeling and Control of Logical Discrete Event Systems , 1994 .

[4]  Ratnesh Kumar,et al.  Distributed diagnosis under bounded-delay communication of immediately forwarded local observations , 2005, Proceedings of the 2005, American Control Conference, 2005..

[5]  Stéphane Lafortune,et al.  Decentralized supervisory control with communicating controllers , 2000, IEEE Trans. Autom. Control..

[6]  Shigemasa Takai,et al.  Inference-Based Decentralized Prognosis in Discrete Event Systems , 2011, IEEE Trans. Autom. Control..

[7]  Sahika Genc,et al.  Predictability in Discrete-Event Systems Under Partial Observation1 , 2007 .

[8]  Shengbing Jiang,et al.  Failure diagnosis of discrete-event systems with linear-time temporal logic specifications , 2004, IEEE Transactions on Automatic Control.

[9]  Stéphane Lafortune,et al.  Predictability of event occurrences in partially-observed discrete-event systems , 2009, Autom..

[10]  Stéphane Lafortune,et al.  Minimal communication in a distributed discrete-event system , 2003, IEEE Trans. Autom. Control..

[11]  Lawrence E. Holloway,et al.  Using SPC and template monitoring method for fault detection and prediction in discrete event manufacturing systems , 1999, Proceedings of the 1999 IEEE International Symposium on Intelligent Control Intelligent Systems and Semiotics (Cat. No.99CH37014).