Heterogeneous Swarm Formation Control Using Bivariate Normal Functions to Generate Potential Fields

IEEE Workshop on Distributed Intelligent Systems: Collective Intelligence and Its Applications (DIS'06) Pub Date : 2006-06-15 DOI:10.1109/DIS.2006.33

L. Barnes, W. Alvis, M. Fields, K. Valavanis, W. Moreno

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引用次数: 34

Abstract

A novel method is presented for dynamic heterogeneous swarm formation control with potential fields generated from bivariate normal probability density functions (pdfs) used to construct the surface which swarm members move on, controlling swarm geometry, individual member spacing, and managing obstacle avoidance. Limiting functions are defined to provide tighter swarm control by modifying and adjusting a set of control variables forcing the swarm to behave according to set constraints. Bivariate normal functions and limiting functions are combined to guarantee obstacle avoidance and control swarm member orientation and swarm movement as a whole. This approach compared to others, is simple, computationally efficient, scales well to different swarm sizes, to heterogeneous systems, and to both centralized and decentralized swarm models. The method is applied to a simple vehicle model and simulation results are presented for a heterogeneous swarm of ten robot vehicles following line and ellipse formations

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利用二元正态函数生成势场的异质群形成控制

提出了一种基于二元正态概率密度函数生成势场的动态异构群体控制方法，该势场用于构造群体成员移动的表面，控制群体几何形状、个体成员间距和管理避障。定义了限制函数，通过修改和调整一组控制变量，迫使群体按照设定的约束行事，从而提供更严格的群体控制。将二元正态函数和极限函数相结合，保证了群体避障，并从整体上控制了群体成员的方向和运动。与其他方法相比，这种方法简单，计算效率高，可以很好地扩展到不同的群体规模，异构系统以及集中式和分散式群体模型。将该方法应用于一个简单的车辆模型，并给出了由10辆机器人车辆组成的异质群沿直线和椭圆编队的仿真结果

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

IEEE Workshop on Distributed Intelligent Systems: Collective Intelligence and Its Applications (DIS'06)

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