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作 者:Raghavendra M.Shet Girish V.Lakhekar Nalini C.Iyer Laxman M.Waghmare
机构地区:[1]School of Electronics and Communication,KLE Technological University,Hubballi 580031,Karnataka,India [2]Department of Instrumentation and Control Engineering,COEP Technological University,Pune 411005,Maharashtra,India [3]Central University of Rajasthan,Bandarsindhri 305817,Krishnagar,Ajmer,India
出 处:《哈尔滨工程大学学报(英文版)》2024年第4期947-959,共13页Journal of Marine Science and Application
摘 要:The path-following control design for an autonomous underwater vehicle(AUV)requires prior full or partial knowledge about the mathematical model defined through Newton’s second law based on a geometrical investigation.AUV dynamics are highly nonlinear and time-varying,facing unpredictable disturbances due to AUVs operating in deep,hazardous oceanic environments.Consequently,navigation guidance and control systems for AUVs must learn and adapt to the time-varying dynamics of the nonlinear fully coupled vehicle model in the presence of highly unstructured underwater operating conditions.Many control engineers focus on the application of robust model-free adaptive control techniques in AUV maneuvers.Hence,the main goal is to design a novel salp swarm optimization of super twisting algorithm-based secondorder sliding mode controller for the planar path-following control of an AUV through regulation of the heading angle parameter.The finite time for tracking error convergence in the horizontal plane is provided through the control structure architecture,particularly for lateral deviations from the desired path.The proposed control law is designed such that it steers a robotic vehicle to track a predefined planar path at a constant speed determined by an end-user,without any temporal specification.Finally,the efficacy and tracking accuracy are evaluated through comparative analysis based on simulation and experimental hardware-in-loop assessment without violating the input constraints.Moreover,the proposed control law can handle parametric uncertainties and unpredictable disturbances such as ocean currents,wind,and measurement noise.
关 键 词:Autonomous underwater vehicle Super twisting second-order sliding mode control Salp Swarm optimization Planar path following control and hardware-in-loop
分 类 号:TP2[自动化与计算机技术—检测技术与自动化装置]
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