The paper presents an Adaptive Integral Sliding Mode Control (AISMC) approach for the attitude tracking control of underwater robots operating in confined spaces with large pitch angle variations.
The key highlights are:
Underwater robots require the ability to flexibly adjust their attitudes, especially pitch angles, to effectively navigate and accomplish tasks in confined environments. However, the highly coupled six degrees of freedom dynamics and complex turbulent flows in limited spaces present significant challenges.
The proposed AISMC integrates an integral module into traditional sliding mode control (SMC) and adaptively adjusts the switching gain. This enables improved tracking accuracy, reduced chattering, and enhanced robustness against unknown system disturbances.
The stability of the AISMC closed-loop control system is rigorously established through Lyapunov analysis.
Extensive experiments using a commercial underwater robot, BlueROV2 Heavy, are conducted to validate the AISMC performance. The results demonstrate that AISMC significantly outperforms both PID and conventional SMC in attitude tracking control, especially during large-range pitch variations in confined spaces.
The AISMC controller exhibits satisfactory performance in maintaining zero pitch and roll angles, as well as effectively tracking step and sinusoidal pitch angle reference trajectories, while simultaneously controlling the roll and yaw angles.
Overall, the AISMC provides a comprehensive solution to the challenging problem of attitude control for underwater robots operating in confined and dynamic environments.
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by Xiaorui Wang... pada arxiv.org 05-02-2024
https://arxiv.org/pdf/2405.00269.pdfPertanyaan yang Lebih Dalam