A Disjunctive Programming Approach for Motion Planning of Mobile Router Networks

Int. J. Robotics Autom. Pub Date : 1900-01-01 DOI:10.2316/Journal.206.2011.1.206-3405

N. Bezzo, R. Fierro, Ashleigh Swingler, S. Ferrari

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引用次数: 21

Abstract

In this paper we develop a framework based on disjunctive programming for motion planning of robotic networks. Although the methodology presented in this paper can be applied to general motion planning problems we focus on coordinating a team of mobile routers to maintain connectivity between a fixed base station and a mobile user within a walled environment. This connectivity management problem is decomposed into three steps: (i) a feasible line-of-sight path between the base station and the mobile user is computed; (ii) the number of required routers and their goal locations are determined; and (iii) the motion planning with obstacle and inter-vehicle collision avoidance problem is solved. To illustrate the flexibility of the proposed approach we also formulate a novel motion planning algorithm for a team of mobile robots as a disjunctive program. Cell decomposition is used to take into account the size and orientation of the robots. In both cases, connectivity and motion planning, the mixed-integer optimization problems are solve using CPLEX. Moreover, the proposed approach can easily accommodate input and other constraints and mission objectives. Simulation results show the applicability of the proposed strategy.

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移动路由器网络运动规划的析取规划方法

本文提出了一个基于析取规划的机器人网络运动规划框架。虽然本文提出的方法可以应用于一般运动规划问题，但我们的重点是协调一组移动路由器，以保持固定基站和有围墙的环境中的移动用户之间的连接。将该连通性管理问题分解为三个步骤:(i)计算基站与移动用户之间可行的视距路径;(ii)确定所需路由器的数量及其目标位置;(3)解决了带障碍物的运动规划和车辆间避碰问题。为了说明所提出方法的灵活性，我们还为一组移动机器人制定了一种新的运动规划算法作为析取程序。单元分解用于考虑机器人的大小和方向。在连通性和运动规划两种情况下，混合整数优化问题都是用CPLEX来解决的。此外，提议的方法可以很容易地适应投入和其他限制以及任务目标。仿真结果表明了该策略的适用性。

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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Int. J. Robotics Autom.

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