A Temporal Logic-Based Hierarchical Network Connectivity Controller

2021 Proceedings of the Conference on Control and its Applications Pub Date : 2020-09-01 DOI:10.1137/1.9781611976847.3

Hans Riess, Y. Kantaros, G. Pappas, R. Ghrist

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引用次数: 2

Abstract

In this paper, we consider networks of static sensors with integrated sensing and communication capabilities. The goal of the sensors is to propagate their collected information to every other agent in the network and possibly a human operator. Such a task requires constant communication among all agents which may result in collisions and congestion in wireless communication. To mitigate this issue, we impose locally non-interfering connectivity constraints that must be respected by every agent. We show that these constraints along with the requirement of propagating information in the network can be captured by a Linear Temporal Logic (LTL) framework. Existing temporal logic control synthesis algorithms can be used to design correct-by-construction communication schedules that satisfy the considered LTL formula. Nevertheless, such approaches are centralized and scale poorly with the size of the network. We propose a hierarchical LTL-based algorithm that designs communication schedules that determine which agents should communicate while maximizing network usage. We show that the proposed algorithm is complete and demonstrate its efﬁciency and scalability through analysis and numerical experiments.

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一种基于时序逻辑的分层网络连接控制器

在本文中，我们考虑具有集成传感和通信能力的静态传感器网络。传感器的目标是将它们收集到的信息传播给网络中的每一个其他代理，甚至可能是一个人类操作员。这样的任务需要所有代理之间的持续通信，这可能会导致无线通信中的冲突和拥塞。为了缓解这个问题，我们施加了每个代理都必须遵守的本地非干扰连接约束。我们表明，这些约束以及在网络中传播信息的要求可以通过线性时序逻辑(LTL)框架来捕获。现有的时序逻辑控制综合算法可用于设计满足所考虑的LTL公式的按结构正确的通信调度。然而，这些方法是集中式的，并且随着网络的规模而难以扩展。我们提出了一种分层的基于ltl的算法，该算法设计通信调度，确定哪些代理应该在最大化网络使用的同时进行通信。通过分析和数值实验，证明了该算法的完备性和可扩展性。

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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2021 Proceedings of the Conference on Control and its Applications

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