TY - GEN
T1 - Communication-Loss Tolerant Fault Diagnosis Approach for Large Scale Systems
AU - Sánchez-Zurita, Victor
AU - Pérez-Zuñiga, Gustavo
AU - Sotomayor-Moriano, Javier
N1 - Publisher Copyright:
© 2021 IEEE.
PY - 2021/9/29
Y1 - 2021/9/29
N2 - Currently, the operation of modern industrial processes depends on many different components (systems and plant devices) all of which are tied together through communication systems. In large-scale systems, due to the difficulty of monitoring the communication infrastructure, the latter is vulnerable to external physical intervention, which could have, as a consequence, the loss of communication among process components. In some cases, to avoid loss of communication, redundancies or alternative paths are implemented, but this is not necessarily the most efficient solution. In this paper, a fault diagnosis approach based on structural analysis that makes effective use of its infrastructure in a communication-loss condition is proposed. This is accomplished by considering the communication structure in the proposed approach to apply optimization methods guaranteeing optimal use of the available communication structure. For this, diagnosers choose the best communication paths or, if necessary, change their design. The proposed approach is applied to a power distribution system achieving diagnosis goals in a communication-loss condition.
AB - Currently, the operation of modern industrial processes depends on many different components (systems and plant devices) all of which are tied together through communication systems. In large-scale systems, due to the difficulty of monitoring the communication infrastructure, the latter is vulnerable to external physical intervention, which could have, as a consequence, the loss of communication among process components. In some cases, to avoid loss of communication, redundancies or alternative paths are implemented, but this is not necessarily the most efficient solution. In this paper, a fault diagnosis approach based on structural analysis that makes effective use of its infrastructure in a communication-loss condition is proposed. This is accomplished by considering the communication structure in the proposed approach to apply optimization methods guaranteeing optimal use of the available communication structure. For this, diagnosers choose the best communication paths or, if necessary, change their design. The proposed approach is applied to a power distribution system achieving diagnosis goals in a communication-loss condition.
UR - http://www.scopus.com/inward/record.url?scp=85119499241&partnerID=8YFLogxK
U2 - 10.1109/SysTol52990.2021.9594924
DO - 10.1109/SysTol52990.2021.9594924
M3 - Conference contribution
AN - SCOPUS:85119499241
T3 - Conference on Control and Fault-Tolerant Systems, SysTol
SP - 13
EP - 18
BT - 5th Conference on Control and Fault-Tolerant Systems, SysTol 2021
PB - IEEE Computer Society
T2 - 5th International Conference on Control and Fault-Tolerant Systems, SysTol 2021
Y2 - 29 September 2021 through 1 October 2021
ER -