As many industrial systems become complex, it is very difficult to identify the cause of failures. This paper presents a new failure diagnosis approach based on discrete-event systems (DES) framework. In particular, the approach is a hybrid of event-based and state-based ones leading to a simpler failure diagnoser with supervisory control capability. In our approach, we include the failure recovery events for failures in the system model in order to derive a diagnoser we refer to as a recoverable diagnoser. Further, in order to reduce the state size of the recoverable diagnoser, a procedure to construct a high-level diagnoser is presented
Failure diagnosis in large and complex systems is a critical and challenging task. In the realm of m...
grantor: University of TorontoA framework for on-line passive fault diagnosis in discrete-...
Reliable supervisory control of engineering systems requires failure diagnosis algorithms for discre...
As many industrial systems become complex, it is very difficult to identify the cause of failures. T...
Failure diagnosis in industrial systems is a crucial and challenging task. Accurate and timely diagn...
As many industrial systems become more complex, it becomes extremely difficult to diagnose the cause...
The basic motivation for the research presented in this article is the fact that things go wrong. Wi...
The basic motivation for this thesis is the fact that things go wrong. With the grow-ing complexity ...
Fault recovery is a challenging task that is crucial in achieving stringent reliability and safety g...
Failure diagnosis in large and complex systems is a critical task. In the realm of discrete event sy...
In this paper, we study the fault-recovery and repair of discrete event systems (DES). To this end, ...
Discrete Event Systems: Diagnosis and Diagnosability addresses the problem of fault diagnosis of Dis...
Discrete Event Systems (DES) are used for modeling systems such as manufacturing systems, telecommun...
Failure diagnosability has been widely studied using discrete event sys-tem (DES) models. It is, how...
Abstract: The modern technology advances to a point where it is possible and extensively desirable t...
Failure diagnosis in large and complex systems is a critical and challenging task. In the realm of m...
grantor: University of TorontoA framework for on-line passive fault diagnosis in discrete-...
Reliable supervisory control of engineering systems requires failure diagnosis algorithms for discre...
As many industrial systems become complex, it is very difficult to identify the cause of failures. T...
Failure diagnosis in industrial systems is a crucial and challenging task. Accurate and timely diagn...
As many industrial systems become more complex, it becomes extremely difficult to diagnose the cause...
The basic motivation for the research presented in this article is the fact that things go wrong. Wi...
The basic motivation for this thesis is the fact that things go wrong. With the grow-ing complexity ...
Fault recovery is a challenging task that is crucial in achieving stringent reliability and safety g...
Failure diagnosis in large and complex systems is a critical task. In the realm of discrete event sy...
In this paper, we study the fault-recovery and repair of discrete event systems (DES). To this end, ...
Discrete Event Systems: Diagnosis and Diagnosability addresses the problem of fault diagnosis of Dis...
Discrete Event Systems (DES) are used for modeling systems such as manufacturing systems, telecommun...
Failure diagnosability has been widely studied using discrete event sys-tem (DES) models. It is, how...
Abstract: The modern technology advances to a point where it is possible and extensively desirable t...
Failure diagnosis in large and complex systems is a critical and challenging task. In the realm of m...
grantor: University of TorontoA framework for on-line passive fault diagnosis in discrete-...
Reliable supervisory control of engineering systems requires failure diagnosis algorithms for discre...