Proprioceptive Sensors’ Fault Tolerant Control Strategy for an Autonomous Vehicle

Proprioceptive Sensors’ Fault Tolerant Control Strategy for an Autonomous Vehicle

In this contribution, a fault-tolerant control strategy for the longitudinal dynamics of an autonomous vehicle is presented. The aim is to be able to detect potential failures of the vehicle’s speed sensor and then to keep the vehicle in a safe state. For this purpose, the separation principle, comp...

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Bibliographic Details
Main Authors: Mohamed Riad Boukhari, Ahmed Chaibet, Moussa Boukhnifer, Sébastien Glaser
Format: Article
Language:English
Published: MDPI AG 2018-06-01
Series:Sensors
Subjects:
sensor fault
fault tolerant control
autonomous vehicle
separation principle
Lipschitz model
LMI approach
Online Access:http://www.mdpi.com/1424-8220/18/6/1893
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spelling doaj-a579ba59974e40a883a5d334795b36962020-11-25T00:55:59ZengMDPI AGSensors1424-82202018-06-01186189310.3390/s18061893s18061893Proprioceptive Sensors’ Fault Tolerant Control Strategy for an Autonomous VehicleMohamed Riad Boukhari0Ahmed Chaibet1Moussa Boukhnifer2Sébastien Glaser3Institut VEDECOM, 77 Rue des Chantiers, Versailles 78000, FranceESTACA, 12 Rue Paul Delouvrier, Montigny-le-Bretonneux 78180, FranceESTACA, 12 Rue Paul Delouvrier, Montigny-le-Bretonneux 78180, FranceCentre for Accident Research and Road Safety (CARRS-Q), Queensland University of Technology (QUT), Brisbane City, QLD 4000, AustraliaIn this contribution, a fault-tolerant control strategy for the longitudinal dynamics of an autonomous vehicle is presented. The aim is to be able to detect potential failures of the vehicle’s speed sensor and then to keep the vehicle in a safe state. For this purpose, the separation principle, composed of a static output feedback controller and fault estimation observers, is designed. Indeed, two observer techniques were proposed: the proportional and integral observer and the descriptor observer. The effectiveness of the proposed scheme is validated by means of the experimental demonstrator of the VEDECOM (Véhicle Décarboné et Communinicant) Institut.http://www.mdpi.com/1424-8220/18/6/1893sensor faultfault tolerant controlautonomous vehicleseparation principleLipschitz modelLMI approach
collection DOAJ
language English
format Article
sources DOAJ
author Mohamed Riad Boukhari
Ahmed Chaibet
Moussa Boukhnifer
Sébastien Glaser
spellingShingle Mohamed Riad Boukhari
Ahmed Chaibet
Moussa Boukhnifer
Sébastien Glaser
Proprioceptive Sensors’ Fault Tolerant Control Strategy for an Autonomous Vehicle
Sensors
sensor fault
fault tolerant control
autonomous vehicle
separation principle
Lipschitz model
LMI approach
author_facet Mohamed Riad Boukhari
Ahmed Chaibet
Moussa Boukhnifer
Sébastien Glaser
author_sort Mohamed Riad Boukhari
title Proprioceptive Sensors’ Fault Tolerant Control Strategy for an Autonomous Vehicle
title_short Proprioceptive Sensors’ Fault Tolerant Control Strategy for an Autonomous Vehicle
title_full Proprioceptive Sensors’ Fault Tolerant Control Strategy for an Autonomous Vehicle
title_fullStr Proprioceptive Sensors’ Fault Tolerant Control Strategy for an Autonomous Vehicle
title_full_unstemmed Proprioceptive Sensors’ Fault Tolerant Control Strategy for an Autonomous Vehicle
title_sort proprioceptive sensors’ fault tolerant control strategy for an autonomous vehicle
publisher MDPI AG
series Sensors
issn 1424-8220
publishDate 2018-06-01
description In this contribution, a fault-tolerant control strategy for the longitudinal dynamics of an autonomous vehicle is presented. The aim is to be able to detect potential failures of the vehicle’s speed sensor and then to keep the vehicle in a safe state. For this purpose, the separation principle, composed of a static output feedback controller and fault estimation observers, is designed. Indeed, two observer techniques were proposed: the proportional and integral observer and the descriptor observer. The effectiveness of the proposed scheme is validated by means of the experimental demonstrator of the VEDECOM (Véhicle Décarboné et Communinicant) Institut.
topic sensor fault
fault tolerant control
autonomous vehicle
separation principle
Lipschitz model
LMI approach
url http://www.mdpi.com/1424-8220/18/6/1893
work_keys_str_mv AT mohamedriadboukhari proprioceptivesensorsfaulttolerantcontrolstrategyforanautonomousvehicle
AT ahmedchaibet proprioceptivesensorsfaulttolerantcontrolstrategyforanautonomousvehicle
AT moussaboukhnifer proprioceptivesensorsfaulttolerantcontrolstrategyforanautonomousvehicle
AT sebastienglaser proprioceptivesensorsfaulttolerantcontrolstrategyforanautonomousvehicle
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