Asynchronous Communication Aware Multi-Agent Task Allocation

Adaptive Agents and Multi-Agent Systems Pub Date : 2023-08-01 DOI:10.5555/3545946.3598927

Ben Rachmut, Sofia Amador Nelke, R. Zivan

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Abstract

Multi-agent task allocation in physical environments with spatial and temporal constraints, are hard problems that are relevant in many realistic applications. A task allocation algorithm based on Fisher market clearing (FMC_TA), that can be performed either centrally or distributively, has been shown to produce high quality allocations in comparison to both centralized and distributed state of the art incomplete optimization algorithms. However, the algorithm is synchronous and therefore depends on perfect communication between agents. We propose FMC_ATA, an asynchronous version of FMC_TA, which is robust to message latency and message loss. In contrast to the former version of the algorithm, FMC_ATA allows agents to identify dynamic events and initiate the generation of an updated allocation. Thus, it is more compatible for dynamic environments. We further investigate the conditions in which the distributed version of the algorithm is preferred over the centralized version. Our results indicate that the proposed asynchronous distributed algorithm produces consistent results even when the communication level is extremely poor.

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异步通信感知多代理任务分配

在具有空间和时间约束的物理环境中，多智能体任务分配是许多现实应用中的难题。基于费雪市场清算(FMC_TA)的任务分配算法，可以集中或分散地执行，与集中式和分布式的不完全优化算法相比，已被证明可以产生高质量的分配。然而，该算法是同步的，因此依赖于代理之间的完美通信。我们提出了FMC_ATA，这是FMC_TA的异步版本，它对消息延迟和消息丢失具有鲁棒性。与前一版本的算法相比，FMC_ATA允许代理识别动态事件并发起更新分配的生成。因此，它更适合动态环境。我们进一步研究了算法的分布式版本优于集中式版本的条件。结果表明，即使在通信水平极差的情况下，所提出的异步分布式算法也能产生一致的结果。

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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Adaptive Agents and Multi-Agent Systems

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