Data-driven robust distributed MPC for collision avoidance formation navigation of constrained nonholonomic multi-robot systems

2022 4th International Conference on Data-driven Optimization of Complex Systems (DOCS) Pub Date : 2022-10-28 DOI:10.1109/DOCS55193.2022.9967769

Junjie Fu, G. Wen

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Abstract

In this work, we consider the robust collision avoidance formation navigation problem for multiple constrained nonholonomic robots with uncertain dynamics. Distributed model predictive control (MPC) based method is proposed in view of its ability to handle the input and state constraints of the robots explicitly. A synchronous non-iterative distributed algorithm is employed which reduces the communication requirement of the system. Furthermore, to enable the state trajectory prediction under uncertain robot dynamics, a data-driven online learning method is proposed to generate an accurate model of the nonholonomic robots adaptively. Based on the proposed control strategy, it is shown that robust collision avoidance formation navigation is successfully achieved while the input and state constraints of the robots are satisfied. Simulation examples are given to demonstrate the performance of the data-driven learning method and the distributed MPC based formation navigation controller.

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约束非完整多机器人系统避碰编队导航的数据驱动鲁棒分布MPC

本文研究了具有不确定动力学的多约束非完整机器人的鲁棒避碰编队导航问题。基于分布式模型预测控制(MPC)方法能够明确地处理机器人的输入约束和状态约束。采用同步非迭代分布式算法，降低了系统的通信需求。此外，为了实现不确定机器人动力学下的状态轨迹预测，提出了一种数据驱动的在线学习方法，自适应生成精确的非完整机器人模型。基于所提出的控制策略，在满足机器人输入约束和状态约束的前提下，成功实现了鲁棒避碰编队导航。仿真实例验证了数据驱动学习方法和基于分布式MPC的地层导航控制器的性能。

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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2022 4th International Conference on Data-driven Optimization of Complex Systems (DOCS)

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