Tracking control has been a vital research topic in robotics. This paper presents a novel hybrid control strategy for an unmanned underwater vehicle (UUV) based on a bioinspired neural dynamics model. An enhanced backstepping kinematic control strategy is first developed to avoid sharp velocity jumps and provides smooth velocity commands relative to conventional methods. Then, a novel sliding mode control is proposed, which is capable of providing smooth and continuous torque commands free from chattering. In comparative studies, the proposed combined hybrid control strategy has ensured control signals smoothness, which is critical in real world applications, especially for an unmanned underwater vehicle that needs to operate in complex underwater environments.
翻译:跟踪控制一直是机器人的一个重要研究课题。 本文介绍了基于生物激励神经动态模型的无人潜水潜水器(UUV)新型混合控制战略。 首先开发了一个强化的后步运动控制战略,以避免急速跳跃,并提供与常规方法相对的平稳速度指令。 然后,提出了一个新的滑动模式控制,它能够提供顺利和连续的扭动指令,而不会进行抖动。 在比较研究中,拟议的混合控制战略确保了控制信号的平稳性,这对于现实世界的应用至关重要,特别是对于需要在复杂的水下环境中运行的无人潜水器而言。