Design and Kinematic Modeling of Constant Curvature Continuum Robots: A Review

常曲率 运动学 三维旋转形式 机器人 机器人学 分段 人工智能 雅可比矩阵与行列式 计算机科学 机器人运动学 数学 曲率 物理 经典力学 几何学 数学分析 应用数学 移动机器人
作者
Robert J. Webster,Bryan A. Jones
出处
期刊:The International Journal of Robotics Research [SAGE Publishing]
卷期号:29 (13): 1661-1683 被引量:2183
标识
DOI:10.1177/0278364910368147
摘要

Continuum robotics has rapidly become a rich and diverse area of research, with many designs and applications demonstrated. Despite this diversity in form and purpose, there exists remarkable similarity in the fundamental simplified kinematic models that have been applied to continuum robots. However, this can easily be obscured, especially to a newcomer to the field, by the different applications, coordinate frame choices, and analytical formalisms employed. In this paper we review several modeling approaches in a common frame and notational convention, illustrating that for piecewise constant curvature, they produce identical results. This discussion elucidates what has been articulated in different ways by a number of researchers in the past several years, namely that constant-curvature kinematics can be considered as consisting of two separate submappings: one that is general and applies to all continuum robots, and another that is robot-specific. These mappings are then developed both for the single-section and for the multi-section case. Similarly, we discuss the decomposition of differential kinematics (the robot’s Jacobian) into robot-specific and robot-independent portions. The paper concludes with a perspective on several of the themes of current research that are shaping the future of continuum robotics.
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