Distributed Circumnavigation Using Bearing Based Control with Limited Target Information
Abstract
In this paper, we address the problem of circumnavigation of a stationary target by a heterogeneous group comprising of $\textbf{n}$ autonomous agents, having unicycle kinematics. The agents are assumed to have constant linear speeds, we control only the angular speeds. Assuming limited sensing capabilities of the agents, in the proposed framework, only a subset of agents, termed as \textit{leaders}, know the target location. The rest, termed as \textit{followers}, do not. We propose a distribut...
Description / Details
In this paper, we address the problem of circumnavigation of a stationary target by a heterogeneous group comprising of autonomous agents, having unicycle kinematics. The agents are assumed to have constant linear speeds, we control only the angular speeds. Assuming limited sensing capabilities of the agents, in the proposed framework, only a subset of agents, termed as \textit{leaders}, know the target location. The rest, termed as \textit{followers}, do not. We propose a distributed guidance law which drives all the agents towards the desired objective; global asymptotic stability (GAS) is ensured by using Zubov's theorem. The efficacy of the approach is demonstrated through both numerical simulations and hardware experiments on the TurtleBots utilising OptiTrack motion capture system.
Topic Context: AI systems that manage workflows end‑to‑end, not just assist with tasks.
Source: arXiv PDF: https://arxiv.org/pdf/2601.21300v1
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Feb 2, 2026
Artificial Intelligence
Artificial Intelligence
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