Fuzzy Logic System-Based Robust Adaptive Control of AUV with Target Tracking

Xia Wang; Bin Xu; Yuyan Guo

doi:10.1007/s40815-022-01356-2

Fuzzy Logic System-Based Robust Adaptive Control of AUV with Target Tracking

Xia Wang, Bin Xu, Yuyan Guo

School of Automation

Research output: Contribution to journal › Article › peer-review

35 Scopus citations

Abstract

This article investigates the robust adaptive control for the longitudinal dynamics of autonomous underwater vehicle with target tracking based on fuzzy logic system. Through dynamic transformation, the target tracking command is converted to the pitch angle command. The tracking controller using switching mechanism is designed where the fuzzy logic system (FLS) cooperates with the robust design to deal with dynamics uncertainty. Considering the approximation ability of FLS, the modeling error is constructed and employed to design the fuzzy update law. The parameter adaptation law is further introduced for the unknown control gain function. The uniformly ultimate boundedness stability is proved through Lyapunov analysis. Simulation tests on the task of moving target tracking present higher tracking and learning performance.

Original language	English
Pages (from-to)	338-346
Number of pages	9
Journal	International Journal of Fuzzy Systems
Volume	25
Issue number	1
DOIs	https://doi.org/10.1007/s40815-022-01356-2
State	Published - Feb 2023

Keywords

Autonomous underwater vehicle
Fuzzy logic system
Modeling error
Switching mechanism
Target tracking

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title = "Fuzzy Logic System-Based Robust Adaptive Control of AUV with Target Tracking",

abstract = "This article investigates the robust adaptive control for the longitudinal dynamics of autonomous underwater vehicle with target tracking based on fuzzy logic system. Through dynamic transformation, the target tracking command is converted to the pitch angle command. The tracking controller using switching mechanism is designed where the fuzzy logic system (FLS) cooperates with the robust design to deal with dynamics uncertainty. Considering the approximation ability of FLS, the modeling error is constructed and employed to design the fuzzy update law. The parameter adaptation law is further introduced for the unknown control gain function. The uniformly ultimate boundedness stability is proved through Lyapunov analysis. Simulation tests on the task of moving target tracking present higher tracking and learning performance.",

keywords = "Autonomous underwater vehicle, Fuzzy logic system, Modeling error, Switching mechanism, Target tracking",

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AU - Xu, Bin

AU - Guo, Yuyan

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N2 - This article investigates the robust adaptive control for the longitudinal dynamics of autonomous underwater vehicle with target tracking based on fuzzy logic system. Through dynamic transformation, the target tracking command is converted to the pitch angle command. The tracking controller using switching mechanism is designed where the fuzzy logic system (FLS) cooperates with the robust design to deal with dynamics uncertainty. Considering the approximation ability of FLS, the modeling error is constructed and employed to design the fuzzy update law. The parameter adaptation law is further introduced for the unknown control gain function. The uniformly ultimate boundedness stability is proved through Lyapunov analysis. Simulation tests on the task of moving target tracking present higher tracking and learning performance.

AB - This article investigates the robust adaptive control for the longitudinal dynamics of autonomous underwater vehicle with target tracking based on fuzzy logic system. Through dynamic transformation, the target tracking command is converted to the pitch angle command. The tracking controller using switching mechanism is designed where the fuzzy logic system (FLS) cooperates with the robust design to deal with dynamics uncertainty. Considering the approximation ability of FLS, the modeling error is constructed and employed to design the fuzzy update law. The parameter adaptation law is further introduced for the unknown control gain function. The uniformly ultimate boundedness stability is proved through Lyapunov analysis. Simulation tests on the task of moving target tracking present higher tracking and learning performance.

KW - Autonomous underwater vehicle

KW - Fuzzy logic system

KW - Modeling error

KW - Switching mechanism

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JO - International Journal of Fuzzy Systems

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Fuzzy Logic System-Based Robust Adaptive Control of AUV with Target Tracking

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