Real-Time Distributed Motion Planning with Submodular Minimization

2018 IEEE Conference on Control Technology and Applications (CCTA) Pub Date : 2018-08-01 DOI:10.1109/CCTA.2018.8511426

H. Jaleel, Mohamed Abdelkader, J. Shamma

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引用次数: 4

Abstract

We present a real-time implementation of a distributed motion planning framework that is based on model predictive control with one step prediction horizon and submodular function minimization. In particular, our focus is to evaluate the real-time performance of this distributed motion coordination framework. For performance evaluation, we develop a realistic simulation environment for the challenging setup of capture the flag game, which is played between two teams. We consider a scenario in which each team has four quadcopters and the game is played in an arena with multiple obstacles. We develop the simulation setup primarily in Gazebo with software in the loop. The software in the loop is the autopilot software, which is used to stabilize and control the motion of each quadcopter. The motion plan for the defense team is computed by minimizing submodular potential functions using the distributed and online algorithm presented in our previous work. Based on extensive simulations under various conditions, we verify that the proposed approach can be used effectively for real-time distributed control of multiagent systems over discrete input space.

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实时分布式运动规划与子模块最小化

我们提出了一种基于模型预测控制的分布式运动规划框架的实时实现，该框架具有一步预测地平线和子模块函数最小化。特别是，我们的重点是评估这种分布式运动协调框架的实时性能。为了进行性能评估，我们开发了一个逼真的模拟环境，用于两队之间进行的夺旗游戏的挑战性设置。我们考虑一个场景，其中每支队伍有四架四轴飞行器，游戏在一个有多个障碍的舞台上进行。我们主要在Gazebo中开发仿真设置，并在循环中使用软件。回路中的软件是自动驾驶软件，用于稳定和控制每个四轴飞行器的运动。防御团队的运动计划是通过使用我们之前工作中提出的分布式和在线算法最小化子模块势函数来计算的。基于各种条件下的大量仿真，我们验证了所提出的方法可以有效地用于离散输入空间上的多智能体系统的实时分布式控制。

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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来源期刊

2018 IEEE Conference on Control Technology and Applications (CCTA)

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