Bearing-Distance Based Flocking with Zone-Based Interactions

Hossein B. Jond
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Abstract

This paper presents a novel zone-based flocking control approach suitable for dynamic multi-agent systems (MAS). Inspired by Reynolds behavioral rules for $boids$, flocking behavioral rules with the zones of repulsion, conflict, attraction, and surveillance are introduced. For each agent, using only bearing and distance measurements, behavioral deviation vectors quantify the deviations from the local separation, local and global flock velocity alignment, local cohesion, obstacle avoidance and boundary conditions, and strategic separation for avoiding alien agents. The control strategy uses the local perception-based behavioral deviation vectors to guide each agent's motion. Additionally, the control strategy incorporates a directionally-aware obstacle avoidance mechanism that prioritizes obstacles in the agent's forward path. Simulation results validate the effectiveness of this approach in creating flexible, adaptable, and scalable flocking behavior.
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基于方位距离的成群与基于区域的互动
本文提出了一种适用于动态多代理系统(MAS)的基于区域的新型成群控制方法。受雷诺兹boids行为规则的启发,本文引入了具有排斥区、冲突区、吸引区和监视区的成群行为规则。对于每个代理,仅使用方位和距离测量,行为偏差矢量量化了与局部分离、局部和全局羊群速度一致性、局部凝聚力、障碍物规避和边界条件以及规避外来代理的战略分离的偏差。控制策略使用基于本地感知的行为偏差向量来指导每个代理的运动。此外,该控制策略还包含一个方向感知障碍物规避机制,可优先处理代理前进路径上的障碍物。仿真结果验证了这种方法在创建灵活、适应性强和可扩展的植群行为方面的有效性。
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