Fault Detection Architecture for Proprioceptive Sensors based on a Multi Model Approach and Fuzzy Logic Decisions

Nicolas Pous, Dominique Gruyer, Denis Gingras

2015

Abstract

In this paper a new fault detection architecture will be presented. Inspired by multi-model data fusion algorithms and fuzzy logic decisions, it consists in the comparison between the estimation of a dynamic mode using each sensor independently. This method is used to deal with important non-linearity and strong interaction with the environment usually encountered in the domain of the intelligent vehicles localization. The concept of analytic redundancy is also used to ignore model uncertainties.

References

1. Andreas Riener; 2009; Sensor-Actuator Supported Implicit Interaction in Driver Assistance Systems; Chapter 9; vieweg-teubner.
2. Cai Bai-gen; Wang Jian ; Yin Qin ; Liu Jiang, 2009, A GNSS Based Slide and Slip Detection Method for Train Positioning, Asia-Pacific Conference on Information Processing, APCIP 2009.
3. Kim, S.-B.; Bazin, J.-C.; Lee, H.-K.; Choi, K.-H.; Park, S.- Y.; 2011; Ground vehicle navigation in harsh urban conditions by integrating inertial navigation system, global positioning system, odometer and vision data; Radar, Sonar & Navigation; Vol.5; pp 814 - 823.
4. Adrien Bak; Dominique Gruyer; Samia Bouchafa; Didier Aubert; 2012; Multi-Sensor Localization - Visual Odometry as a Low Cost Proprioceptive Sensor; ITSC.
5. Rohani, M.; Gingras, D.; Vigneron, V.; Gruyer, D., 2013; A New Decentralized Bayesian Approach for Cooperative Vehicle Localization based on fusion of GPS and Inter-vehicle Distance Measurements; ICCVE.
6. M. Rohani; D. Gingras; D. Gruyer, 2014; Vehicular Cooperative Map Matching; International Conference on Connected Vehicles and Expo (ICCVE).
7. Patton, R.J; Frank, P.; Clark, R.; 1989; Fault Diagnosis in Dynamic Systems, Theory and Application; prentice hall.
8. Xin Qi; Didier Theilliol; Juntong Qi; Youmin Zhang; Jianda Han, 2013; A Literature Review on Fault Diagnosis Methods for Manned and Unmanned Helicopters; International Conference on Unmanned Aircraft Systems; May 28-31.
9. Gruyer, D.; Pechberti, S.; Gingras, D.; Dupin, F.; 2010, Robust positioning in safety applications for the CVIS project; IEEE Intelligent Vehicles Symposium; pp 262 - 268.
10. Mr. Huangqi Sun; Dr. M. Elizabeth Cannon, 1998; Relibaility analysis of an ITS navigation system; Department of Geomatics Engineering; The University of Calgary; Calgary, Alberta, Canada.

Paper Citation

in Harvard Style

Pous N., Gruyer D. and Gingras D. (2015). Fault Detection Architecture for Proprioceptive Sensors based on a Multi Model Approach and Fuzzy Logic Decisions . In Proceedings of the 1st International Conference on Vehicle Technology and Intelligent Transport Systems - Volume 1: VEHITS, ISBN 978-989-758-109-0, pages 25-32. DOI: 10.5220/0005459700250032

in Bibtex Style

@conference{vehits15,
author={Nicolas Pous and Dominique Gruyer and Denis Gingras},
title={Fault Detection Architecture for Proprioceptive Sensors based on a Multi Model Approach and Fuzzy Logic Decisions},
booktitle={Proceedings of the 1st International Conference on Vehicle Technology and Intelligent Transport Systems - Volume 1: VEHITS,},
year={2015},
pages={25-32},
publisher={SciTePress},
organization={INSTICC},
doi={10.5220/0005459700250032},
isbn={978-989-758-109-0},
}

in EndNote Style

TY - CONF
JO - Proceedings of the 1st International Conference on Vehicle Technology and Intelligent Transport Systems - Volume 1: VEHITS,
TI - Fault Detection Architecture for Proprioceptive Sensors based on a Multi Model Approach and Fuzzy Logic Decisions
SN - 978-989-758-109-0
AU - Pous N.
AU - Gruyer D.
AU - Gingras D.
PY - 2015
SP - 25
EP - 32
DO - 10.5220/0005459700250032