Singularities, Normal Forms, and Motion Planning for Non-holonmic Robotic Systems

Proceedings of the 5th International Conference of Control, Dynamic Systems, and Robotics (CDSR'19) Pub Date : 2019-06-01 DOI:10.11159/CDSR19.127

K. Tchoń, J. Ratajczak

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引用次数: 1

Abstract

We address the motion planning problem in non-holonomic robotic systems using the tools of control theory. To this objective we associate with the robotic system a control-affine system. The derivative of the end-point map of this control system defines the Jacobian of the robotic system. Control functions at which the Jacobian is not surjective are referred to as singular configurations of the robotic system. As a description of these singularities we propose normal forms under feedback of the associated control system. On the basis of the Jacobian we introduce Jacobian motion planning algorithms. Special attention is paid to Lagrangian Jacobian algorithms. As an illustration of theoretical concepts we analyse normal forms, singularities, and motion planning for a free-floating space manipulator. A motion planning problem is solved by a Lagrangian Jacobian motion planning algorithm and, alternatively, by a sinusoidal control applied to the normal form. Results of computations show the performance of the two algorithms.

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非完整机器人系统的奇点、范式和运动规划

我们利用控制理论的工具来解决非完整机器人系统的运动规划问题。为此，我们将机器人系统与控制仿射系统联系起来。该控制系统的端点映射的导数定义了机器人系统的雅可比矩阵。当雅可比矩阵不是满射时，控制函数称为机器人系统的奇异位形。作为对这些奇异点的描述，我们提出了关联控制系统在反馈下的正规形式。在雅可比矩阵的基础上，引入了雅可比运动规划算法。特别关注拉格朗日雅可比算法。作为理论概念的例证，我们分析了自由浮动空间机械臂的标准形式、奇点和运动规划。运动规划问题由拉格朗日雅可比运动规划算法解决，或者由应用于范式的正弦控制解决。计算结果表明了两种算法的性能。

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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Proceedings of the 5th International Conference of Control, Dynamic Systems, and Robotics (CDSR'19)

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