摘要
航天器与非合作目标进行交会对接时,要求控制器能保证二者不发生碰撞.然而,针对航天器非合作交会对接中的避碰问题,还没有成熟的控制策略.本文以服务航天器体坐标系为参考坐标系建立航天器相对姿态轨道耦合运动模型,利用滑模控制设计了一种姿态轨道耦合控制器实现交会对接.通过利用人工势函数理论和基于蔓叶线的虚拟障碍物模型,控制器可以严格地保证服务航天器运行在安全区域内部,避免与目标航天器碰撞.通过李雅普诺夫理论可以证明系统在控制器的作用下是渐近稳定的.数值仿真进一步说明了所提出的控制器的有效性.
The controller that can avoid collision is needed for the service spacecraft rendezvous and docking with the non-cooperative target spacecraft. However, there is not service spacecraft and non-cooperative target spacecraft. a sophisticated control strategy to avoid collision between the The coupling motion model of attitude and orbit is established on the service spacecraft body coordinate system in this paper. A controller with coupled attitude and orbit dynamics is developed to realize the rendezvous and docking with the non-cooperative target spacecraft by using sliding mode control. The coupled controller can ensure that the service spacecraft is strictly in the safety area to avoid collision with the non- cooperative target spacecraft by using artificial potential function and virtual obstacles model established based on cissoid. The system under the coupled controller is asymptotically stable by Lyapunov theory. Numerical simulation is performed on the coupled model. Experimental results demonstrate the effectiveness of the proposed control scheme.
出处
《控制理论与应用》
EI
CAS
CSCD
北大核心
2016年第5期638-644,共7页
Control Theory & Applications
基金
国家自然科学基金面上项目(61174037)
国家自然科学基金重点研究项目(NSFC-61333003)资助~~
关键词
滑模控制
非合作交会对接
避免碰撞
人工势函数
sliding mode control
non-cooperative rendezvous and docking
avoid collision
artificial potential function
作者简介
郭永(1985-),男,博士研究生,目前研究方向为航天器姿态控制、航天器避障控制、非线性控制等,E-mail:guoyonghit@126.com;
通信作者.E-mail:songshenmin@hit.edu.cn;Tel.:+86451-8642224-8241.宋申民(1968-),男,博士研究生导师,目前研究方向为航天器姿态控制、航天器避障控制、非线性控制等.
李学辉(1988-),男,博士研究生,目前研宄方向为航天器避障控制,E-mail:lxh-hit@126.com.
