基于分散导航函数的多智能体编队稳定

H. Tanner, Amit Kumar
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引用次数: 125

摘要

我们开发了分散的协作控制器,该控制器基于局部导航函数,使一组移动代理(几乎)全局渐近稳定到期望的队形并同时避免碰撞。这种形成可以在自由空间的任何地方实现;没有预先指定代理的最终位置,并且在形状和方向方面都呈现稳定。形状和方向的稳定是可能的,因为代理调节相对于它们的网络邻居的相对位置而不是距离。只要根据环境的几何形状和网络的互联程度对局部导航函数中的参数进行调整,就可以证明并保证系统的渐近稳定性。反馈控制器利用感知邻域内的信息以及与网络邻域的通信,引导智能体远离固定点障碍,进入期望的队形。该方法在模拟中进行了测试,其中三组和四组移动代理组成三角形和菱形队形,在障碍物之间导航。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Formation Stabilization of Multiple Agents Using Decentralized Navigation Functions
We develop decentralized cooperative controllers, which are based on local navigation functions and yield (almost) global asymptotic stability of a group of mobile agents to a desired formation and simultaneous collision avoidance. The formation could be achieved anywhere in the free space; there are no pre-specified final positions for the agents and is rendered stable both in terms of shape and in terms of orientation. Shape and orientation stabilization is possible because the agents regulate relative positions rather than distances with respect to their network neighbors. Asymptotic stability is provable and guaranteed, once the parameters in the local navigation functions are tuned based on the geometry of the environment and the degree of the interconnection network. Feedback controllers steer the agents away from stationary point-obstacles and into the desired formation using information that can be obtained within their sensing neighborhood and through communication with their network neighbors. The methodology is tested in simulation where groups of three and four mobile agents come into formations of triangles and diamonds, navigating amongst obstacles.
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CiteScore
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