Paper ID: 2409.10047

Bearing-Distance Based Flocking with Zone-Based Interactions

Hossein B. Jond

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. We also introduce a simplified flocking model where agents interact with their neighbors within a single perception zone, without dividing it into separate interaction zones. Simulation results validate the effectiveness of the models in creating flexible, adaptable, and scalable flocking behavior.

Submitted: Sep 16, 2024