Virtual sensing of wheel direction from redundant sensors in aircraft ground-steering systems
Virtual sensing of wheel direction from redundant sensors in aircraft ground-steering systems
Many safety-critical control systems use multiple redundant sensors to estimate the same controlled signal. If the sensors were to operate perfectly, only a subset of them would need to be used for the estimation. In practice, however, the sensors are subject to uncertainty, minor or major faults and their operation may be nonlinear. It is thus important to reliably estimate the controlled signal under these conditions, and also to assess the degree of confidence with which each sensor should be treated. An example of such a control system is the ground-steering control system of an aircraft nose landing gear. A virtual sensing technique is commonly employed, which estimates the steering angle using the measurements of multiple remote displacement sensors. The wheel position is then calculated as a nonlinear function of these sensor outputs. This paper describes how a digital twin of the ground-steering system, in which the effects of uncertainties and faults can be systematically analysed and studied, is used to assess the accuracy and integrity of the steering angle estimation for a number of different estimation algorithms. Two of these algorithms are based on a least-squares approach, while another is a soft-computing technique based on fuzzy logic. These methods are investigated for several scenarios where model uncertainty, measurement noise and sensor faults are included. It is shown that the soft-computing approach is more robust than the least squares based methods under these conditions.
Virtual sensor, Fault detection and isolation, Soft-computing, Digital twin, Redundant sensors
Dal Borgo, Mattia
7eeac32d-7dc9-4645-89cc-acee5a293867
Elliott, Stephen
721dc55c-8c3e-4895-b9c4-82f62abd3567
Ghandchi tehrani, Maryam
c2251e5b-a029-46e2-b585-422120a7bc44
Stothers, Ian M.
4e90ebe7-f459-435b-aa0b-7a349faad180
1 November 2021
Dal Borgo, Mattia
7eeac32d-7dc9-4645-89cc-acee5a293867
Elliott, Stephen
721dc55c-8c3e-4895-b9c4-82f62abd3567
Ghandchi tehrani, Maryam
c2251e5b-a029-46e2-b585-422120a7bc44
Stothers, Ian M.
4e90ebe7-f459-435b-aa0b-7a349faad180
Dal Borgo, Mattia, Elliott, Stephen, Ghandchi tehrani, Maryam and Stothers, Ian M.
(2021)
Virtual sensing of wheel direction from redundant sensors in aircraft ground-steering systems.
CEAS Aeronautical Journal.
(doi:10.1007/s13272-021-00557-z).
Abstract
Many safety-critical control systems use multiple redundant sensors to estimate the same controlled signal. If the sensors were to operate perfectly, only a subset of them would need to be used for the estimation. In practice, however, the sensors are subject to uncertainty, minor or major faults and their operation may be nonlinear. It is thus important to reliably estimate the controlled signal under these conditions, and also to assess the degree of confidence with which each sensor should be treated. An example of such a control system is the ground-steering control system of an aircraft nose landing gear. A virtual sensing technique is commonly employed, which estimates the steering angle using the measurements of multiple remote displacement sensors. The wheel position is then calculated as a nonlinear function of these sensor outputs. This paper describes how a digital twin of the ground-steering system, in which the effects of uncertainties and faults can be systematically analysed and studied, is used to assess the accuracy and integrity of the steering angle estimation for a number of different estimation algorithms. Two of these algorithms are based on a least-squares approach, while another is a soft-computing technique based on fuzzy logic. These methods are investigated for several scenarios where model uncertainty, measurement noise and sensor faults are included. It is shown that the soft-computing approach is more robust than the least squares based methods under these conditions.
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Accepted/In Press date: 1 October 2021
Published date: 1 November 2021
Keywords:
Virtual sensor, Fault detection and isolation, Soft-computing, Digital twin, Redundant sensors
Identifiers
Local EPrints ID: 455678
URI: http://eprints.soton.ac.uk/id/eprint/455678
ISSN: 1869-5582
PURE UUID: 714e106d-386f-4ae9-80d3-7ba4faa0ae75
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Date deposited: 30 Mar 2022 16:47
Last modified: 17 Mar 2024 07:10
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Author:
Mattia Dal Borgo
Author:
Ian M. Stothers
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