试验型水下滑翔机的动力学分析及实验

水下滑翔机是一种新型的无推进装置的水下运载器,它是由净浮力来驱动的,同时通过内部的直线驱动器来改变重心的位置以实现姿态的调节。对于大多数水下滑翔机,浮力机构是通过改变自身排水体积来实现的,文中介绍了一种变重量的水下滑翔机的设计、动力学分析以及实验过程,该浮力调节机构主要由单向水泵和三位五通电磁阀组成,最大下潜深度为30米。文中介绍了水下滑翔机的运动方程和动力学特性,并且给出了在稳定时刻的解,并且通过计算流体力学的方法对水下滑翔机的水动力特性进行了分析。仿真和实验结果证明了该水下滑翔机的可靠性及实用性。     

Nonlinear pitch control of an underwater glider based on adaptive backstepping approach

Underwater gliders are highly efficient and long-ranged autonomous underwater vehicles. The typical dynamic modeling in the vertical plane is of multi-input multi-output(MIMO), which is underactuated while easily affected by the ambient environment. To resolve the problems of MIMO, the dynamic model is transformed into a single-input single-output(SISO) system with two dubious parameters, and an adaptive backstepping controller is designed and applied in this paper. A Lyapunov function has been established with the total energy of the system converged in the controller. Contrast result of simulation has demonstrated that the derived nonlinear controller has higher tracking precision and faster response than the proportional-integral-derivative(PID) control method,which indicates its excellent capability to deal with the controlling problems of underwater gliders.     

基于模糊PID方法的ROV操纵控制仿真

为应对复杂的作业工况和海洋环境,研究了水下中型作业遥控机器人(ROV)的操纵控制运动.文章分析了作业型ROV的操纵特性,根据其基本的定向、定高和定深的航行能力需求,基于模糊PID方法的控制原理,为其配置了精度高、响应快的控制系统,建立了4自由度操纵控制运动模型,对定向、定高等运动性能的操纵进行仿真研究,通过水池实验验证了该控制方法的有效性.