机器人-物体非光滑欠驱动拉格朗日系统的建模、分析和控制:教程概述和展望

IF 7.3 2区 计算机科学 Q1 AUTOMATION & CONTROL SYSTEMS Annual Reviews in Control Pub Date : 2023-01-01 DOI:10.1016/j.arcontrol.2022.12.002
Bernard Brogliato
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引用次数: 1

摘要

所谓的机器人-物体拉格朗日系统由一类非光滑欠驱动互补拉格朗日系统组成,具有特定的结构:“物体”和“机器人”。只有机器人被启动。因此,物体动力学只能通过接触拉格朗日乘子的作用来控制,拉格朗日乘子表示机器人和物体之间的相互作用力。杂耍、行走、跑步、跳跃机、操纵物体的机器人系统、敲击、推动系统、具有关节间隙的运动链、爬行、攀爬机器人、一些电缆驱动的机械手以及一些具有集值非光滑组件的电路都属于这一类。本文旨在介绍它们的主要特征,然后介绍许多属于机器人-对象类的应用实例,然后回顾自动控制和机器人学文献中提出的主要工具和控制策略。一些评论和悬而未决的问题总结了这篇文章。
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Modeling, analysis and control of robot–object nonsmooth underactuated Lagrangian systems: A tutorial overview and perspectives

So-called robot–object Lagrangian systems consist of a class of nonsmooth underactuated complementarity Lagrangian systems, with a specific structure: an “object” and a “robot”. Only the robot is actuated. The object dynamics can thus be controlled only through the action of the contact Lagrange multipliers, which represent the interaction forces between the robot and the object. Juggling, walking, running, hopping machines, robotic systems that manipulate objects, tapping, pushing systems, kinematic chains with joint clearance, crawling, climbing robots, some cable-driven manipulators, and some circuits with set-valued nonsmooth components, belong this class. This article aims at presenting their main features, then many application examples which belong to the robot–object class, then reviewing the main tools and control strategies which have been proposed in the Automatic Control and in the Robotics literature. Some comments and open issues conclude the article.

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来源期刊
Annual Reviews in Control
Annual Reviews in Control 工程技术-自动化与控制系统
CiteScore
19.00
自引率
2.10%
发文量
53
审稿时长
36 days
期刊介绍: The field of Control is changing very fast now with technology-driven “societal grand challenges” and with the deployment of new digital technologies. The aim of Annual Reviews in Control is to provide comprehensive and visionary views of the field of Control, by publishing the following types of review articles: Survey Article: Review papers on main methodologies or technical advances adding considerable technical value to the state of the art. Note that papers which purely rely on mechanistic searches and lack comprehensive analysis providing a clear contribution to the field will be rejected. Vision Article: Cutting-edge and emerging topics with visionary perspective on the future of the field or how it will bridge multiple disciplines, and Tutorial research Article: Fundamental guides for future studies.
期刊最新文献
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