Title :
Detection of multiple sensor faults using neural networks- demonstrated on a unmanned air vehicle (UAV) model
Author :
Samy, I. ; Postlethwaite, I. ; Gu, D.-W. ; Fan, I.S.
Author_Institution :
Sch. ofApplied Sci., Cranfield Univ., Cranfield, UK
Abstract :
Model-based sensor fault detection, isolation and accommodation (SFDIA) is a direction of development in particular with small UAVs where sensor redundancy may not be an option due to weight, cost and space implications. SFDIA via neural networks (NNs) have been proposed over the years due to their nonlinear structures and online learning capabilities. However few applications have considered multiple sensor faults in fixed-wing UAVs where full autonomy is most needed. In this paper an Extended Minimum Resource Allocating Network (EMRAN) Radial Basis Function (RBF) NN is chosen for modelling purposes due to its ability to adapt well to nonlinear environments while maintaining high computational speeds. After 30 separate SFDIA tests implemented on a 1.6 GHz Pentium processor, the NN-SFDIA scheme detected all but 2 faults and the NN processing time was 97% lower than the flight data sampling time.
Keywords :
aerospace control; autonomous aerial vehicles; fault diagnosis; neurocontrollers; radial basis function networks; EMRAN; SFDIA; UAV model; extended minimum resource allocating network; model-based sensor fault accommodation; model-based sensor fault detection; model-based sensor fault isolation; multiple sensor fault detection; neural networks; radial basis function; sensor redundancy; unmanned air vehicle; Sensor analytical redundancy; fault detection; neural networks; unmanned air vehicle;
Conference_Titel :
Control 2010, UKACC International Conference on
Conference_Location :
Coventry
Electronic_ISBN :
978-1-84600-038-6
DOI :
10.1049/ic.2010.0403
