Adaptive sensor fault tolerant control with prescribed performance for unmanned autonomous helicopter based on neural networks

Purpose This paper aims to study a neural network-based fault-tolerant controller to improve the tracking control performance of an unmanned autonomous helicopter with system uncertainty, external disturbances and sensor faults, using the prescribed performance method. Design/methodology/approach To...

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Published in	Aircraft engineering Vol. 96; no. 3; pp. 417 - 429
Main Authors	Wan, Min, Chen, Mou, Lungu, Mihai
Format	Journal Article
Language	English
Published	Bradford Emerald Publishing Limited 16.04.2024 Emerald Group Publishing Limited
Subjects	Adaptive control Altitude Closed loops Control algorithms Control methods Disturbance observers Fault tolerance Feedback control Helicopter control Helicopters Neural networks Sensors Tracking control Tracking errors Uncertainty Unmanned aerial vehicles Unmanned helicopters Velocity Disturbance observer Sensor fault Neural network Prescribed performance Unmanned autonomous helicopter Fault tolerant control
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ISSN	1748-8842 1758-4213 1748-8842
DOI	10.1108/AEAT-03-2023-0080

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Abstract	Purpose This paper aims to study a neural network-based fault-tolerant controller to improve the tracking control performance of an unmanned autonomous helicopter with system uncertainty, external disturbances and sensor faults, using the prescribed performance method. Design/methodology/approach To ensure that the tracking error satisfies the prescribed performance, the authors adopt an error transformation function method. A control scheme based on the neural network and high-order disturbance observer is designed to guarantee the boundedness of the closed-loop system. A simulation is performed to prove the validity of the control scheme. Findings The developed adaptive fault-tolerant control method makes the system with sensor fault realize tracking control. The error transformation function method can effectively handle the prescribed performance requirements. Sensor fault can be regarded as a type of system uncertainty. The uncertainty can be approximated accurately using neural networks. A high-order disturbance observer can effectively suppress compound disturbances. Originality/value The tracking performance requirements of unmanned autonomous helicopter system are considered in the design of sensor fault-tolerant control. The inequality constraint that the output tracking error must satisfy is transformed into an unconstrained problem by introducing an error transformation function. The fault state of the velocity sensor is considered as the system uncertainty, and a neural network is used to approach the total uncertainty. Neural network estimation errors and external disturbances are treated as compound disturbances, and a high-order disturbance observer is constructed to compensate for them.
AbstractList	PurposeThis paper aims to study a neural network-based fault-tolerant controller to improve the tracking control performance of an unmanned autonomous helicopter with system uncertainty, external disturbances and sensor faults, using the prescribed performance method.Design/methodology/approachTo ensure that the tracking error satisfies the prescribed performance, the authors adopt an error transformation function method. A control scheme based on the neural network and high-order disturbance observer is designed to guarantee the boundedness of the closed-loop system. A simulation is performed to prove the validity of the control scheme.FindingsThe developed adaptive fault-tolerant control method makes the system with sensor fault realize tracking control. The error transformation function method can effectively handle the prescribed performance requirements. Sensor fault can be regarded as a type of system uncertainty. The uncertainty can be approximated accurately using neural networks. A high-order disturbance observer can effectively suppress compound disturbances.Originality/valueThe tracking performance requirements of unmanned autonomous helicopter system are considered in the design of sensor fault-tolerant control. The inequality constraint that the output tracking error must satisfy is transformed into an unconstrained problem by introducing an error transformation function. The fault state of the velocity sensor is considered as the system uncertainty, and a neural network is used to approach the total uncertainty. Neural network estimation errors and external disturbances are treated as compound disturbances, and a high-order disturbance observer is constructed to compensate for them. Purpose This paper aims to study a neural network-based fault-tolerant controller to improve the tracking control performance of an unmanned autonomous helicopter with system uncertainty, external disturbances and sensor faults, using the prescribed performance method. Design/methodology/approach To ensure that the tracking error satisfies the prescribed performance, the authors adopt an error transformation function method. A control scheme based on the neural network and high-order disturbance observer is designed to guarantee the boundedness of the closed-loop system. A simulation is performed to prove the validity of the control scheme. Findings The developed adaptive fault-tolerant control method makes the system with sensor fault realize tracking control. The error transformation function method can effectively handle the prescribed performance requirements. Sensor fault can be regarded as a type of system uncertainty. The uncertainty can be approximated accurately using neural networks. A high-order disturbance observer can effectively suppress compound disturbances. Originality/value The tracking performance requirements of unmanned autonomous helicopter system are considered in the design of sensor fault-tolerant control. The inequality constraint that the output tracking error must satisfy is transformed into an unconstrained problem by introducing an error transformation function. The fault state of the velocity sensor is considered as the system uncertainty, and a neural network is used to approach the total uncertainty. Neural network estimation errors and external disturbances are treated as compound disturbances, and a high-order disturbance observer is constructed to compensate for them.
Author	Chen, Mou Wan, Min Lungu, Mihai
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Cites_doi	10.1016/S0005-1098(03)00168-7 10.1109/TAC.2010.2042508 10.1109/TNN.2010.2042611 10.1016/j.neucom.2021.09.060 10.1002/rnc.1425 10.1049/iet-cta.2015.0031 10.1016/j.neucom.2017.07.015 10.1109/ROBOT.2005.1570444 10.1109/JAS.2017.7510544 10.1016/j.ast.2020.105745 10.1080/00207179.2021.1984583 10.1016/j.automatica.2014.02.020 10.1109/TSMC.2016.2645942 10.1016/j.isatra.2014.10.001 10.1016/j.ast.2021.107062 10.1177/0954410018823364 10.1109/TAC.2008.929402 10.1016/j.ifacol.2015.09.556 10.1016/j.isatra.2017.09.006 10.1109/TCYB.2017.2667680 10.1016/j.automatica.2007.03.028 10.1177/0142331216645179 10.1109/ICUAS.2016.7502554 10.1002/asjc.1981 10.1109/72.977306 10.1002/rnc.931 10.1049/iet-cta.2018.5341 10.1080/00207721.2019.1703058 10.1002/rnc.3392 10.1109/TSMC.2015.2426140 10.1109/TNN.2004.839354
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Keywords	Disturbance observer Sensor fault Neural network Prescribed performance Unmanned autonomous helicopter Fault tolerant control
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Snippet	Purpose This paper aims to study a neural network-based fault-tolerant controller to improve the tracking control performance of an unmanned autonomous... PurposeThis paper aims to study a neural network-based fault-tolerant controller to improve the tracking control performance of an unmanned autonomous...
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SubjectTerms	Adaptive control Altitude Closed loops Control algorithms Control methods Disturbance observers Fault tolerance Feedback control Helicopter control Helicopters Neural networks Sensors Tracking control Tracking errors Uncertainty Unmanned aerial vehicles Unmanned helicopters Velocity
Title	Adaptive sensor fault tolerant control with prescribed performance for unmanned autonomous helicopter based on neural networks
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