Energy-Efficient Waypoint Tracking for Underwater Gliders: Theory and Experimental Results
提出一种水下滑翔机节能航点跟踪方法,包含规划层和控制层,通过稳态/非稳态滑翔深度区间航位推算和事件触发观测器实现低能耗跟踪,仿真与海试验证了节能效果。
In this article, a novel energy-efficient control method for waypoint tracking of underwater gliders is designed. The method can be divided into a planning layer and a control layer. In the planning layer, a novel steady/unsteady gliding depth intervals-based dead-reckoning is proposed to predict depth-averaged current velocity with lower consumption. Also a novel heading and depth modification strategy based on line-of-sight is proposed to implement waypoint tracking planning. In the control layer, heading control is implemented by two event-triggered extended state observers (ET-ESOs) and an event-triggered backstepping heading controller (ET-BHC). The ET-ESOs intermittently estimate the real states input to the ET-BHC, and the ET-BHC intermittently outputs the control signal. Simulation and sea trial results show that the UG achieves tracking waypoints, and in addition, energy efficiency is significantly improved.