This paper studies a novel planning problem for multiple agents that cannot share holding resources, named OTIMAPP (Offline Time-Independent Multi-Agent Path Planning). Given a graph and a set of start-goal pairs, the problem consists in assigning a path to each agent such that every agent eventually reaches their goal without blocking each other, regardless of how the agents are being scheduled at runtime. The motivation stems from the nature of distributed environments that agents take actions fully asynchronous and have no knowledge about those exact timings of other actors. We present solution conditions, computational complexity, solvers, and robotic applications.
翻译:本文研究了无法共享持有资源的多个代理商的新的规划问题,名为OTIMAPP(脱线时间独立多机构路径规划 ) 。 根据图表和一套启动目标对子,问题在于给每个代理商分配一条路径,让每个代理商最终在不相互阻拦的情况下达到其目标,而不管代理商在运行时如何排期。其动机来自分布式环境的性质,即代理商完全不同步地采取行动,对其它行为者的准确时间不知情。我们提出了解决方案条件、计算复杂性、解决方案和机器人应用。
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