When is heterogeneity in the composition of an autonomous robotic team beneficial and when is it detrimental? We investigate and answer this question in the context of a minimally viable model that examines the role of heterogeneous speeds in perimeter defense problems, where defenders share a total allocated speed budget. We consider two distinct problem settings and develop strategies based on dynamic programming and on local interaction rules. We present a theoretical analysis of both approaches and our results are extensively validated using simulations. Interestingly, our results demonstrate that the viability of heterogeneous teams depends on the amount of information available to the defenders. Moreover, our results suggest a universality property: across a wide range of problem parameters the optimal ratio of the speeds of the defenders remains nearly constant.
翻译:自主机器人团队的组成何时不同有利,何时有害?我们在一个最低可行模式的背景下调查和回答这一问题,该模式审查不同速度在周边防御问题中的作用,维权者分担总分配速度预算。我们考虑两个不同的问题设置,并根据动态方案和地方互动规则制定战略。我们对两种方法和结果进行理论分析,通过模拟进行广泛验证。有趣的是,我们的结果表明,各异团队的可行性取决于维权者可获得的信息数量。此外,我们的结果表明,普遍性属性:在一系列广泛的问题上,维权者的最佳速度比率几乎保持不变。
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