We study a novel graph path planning problem for multiple agents that may crash at runtime, and block part of the workspace. In our setting, agents can detect neighboring crashed agents, and change followed paths at runtime. The objective is then to prepare a set of paths and switching rules for each agent, ensuring that all correct agents reach their destinations without collisions or deadlocks, despite unforeseen crashes of other agents. Such planning is attractive to build reliable multi-robot systems. We present problem formalization, theoretical analysis such as computational complexities, and how to solve this offline planning problem.
翻译:我们研究一个新颖的图表路径规划问题,针对在运行时可能崩溃的多个代理商,并阻断部分工作空间。 在我们的设置中,代理商可以探测到相邻的崩溃代理商,在运行时可以改变路径。 目标是为每个代理商准备一套路径和转换规则,确保所有正确的代理商都能在不发生意外事故或僵局的情况下到达目的地。 这种规划对于建立可靠的多机器人系统很有吸引力。 我们提出了问题正规化、理论分析(如计算复杂性 ), 以及如何解决这一离线规划问题。
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