A sensor fusion approach to the fault tolerant control of linear parameter varying systems

McCloy, Ryan J.; Seron, María M.; De Doná, José A.

Title: A sensor fusion approach to the fault tolerant control of linear parameter varying systems
Creator: McCloy, Ryan J.; Seron, María M.; De Doná, José A.
Relation: 2015 Australasian Conference on Artificial Life and Computational Intelligence (ACALCI 2015). Proceedings of ACALCI 2015: Artificial Life and Computational Intelligence (Newcastle, Australia 05-07 February, 2015) p. 76-87
Publisher Link: http://dx.doi.org/10.1007/978-3-319-14803-8_6
Publisher: Springer International
Resource Type: conference paper
Date: 2015
Description: In this contribution we propose a fault tolerant control (FTC) scheme to compensate for sensor faults in multisensor fusion-based control of linear parameter varying systems. The scheme consists of a closedloop system with an estimator-based feedback tracking controller that combines healthy sensor-estimator pairings via a fusion algorithm. Faulty sensors are detected and discarded based on a set separation criterion, which considers both model uncertainty and system disturbances. We ensure the preservation of closed-loop system boundedness for a wide range of sensor fault situations and for the whole domain of plant model uncertainty. To illustrate the performance of the proposed FTC strategy, a flexible joint robotic arm example is presented.
Subject: invariant sets; sensor fusion; fault tolerant control; linear parameter varying systems; robotic applications
Identifier: http://hdl.handle.net/1959.13/1323057
Identifier: uon:24726
Identifier: ISBN:9783319148021
Language: eng
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