基于三个末端执行器点的新型齐次雅可比矩阵优化设计

Sung-Gaun Kim, J. Ryu
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引用次数: 164

摘要

并联机械臂优化设计方法的发展对于获得最优的结构或姿态以获得最佳的动静态性能具有重要意义。然而,使用性能指标,如由非齐次物理单元组成的传统雅可比矩阵的条件数,可能缺乏物理意义。为了避免传统雅可比矩阵中存在的单元不一致问题,利用与移动平台关节共面的三个末端执行器点,提出了具有平面移动平台的并联机器人雅可比矩阵的齐次新表达式。然后利用新雅可比矩阵的条件数来设计并联机器人的最优结构或姿态,以获得最佳的灵巧性。以一个六自由度Gough-Stewart平台并联机械臂为例进行了说明设计,结果表明,采用该公式可得到与其他齐次雅可比矩阵方法相同的最优构型。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
New dimensionally homogeneous Jacobian matrix formulation by three end-effector points for optimal design of parallel manipulators
Development of optimal design methods for parallel manipulators is important in obtaining an optimal architecture or pose for the best kinetostatic performance. The use of performance indexes such as the condition number of the conventional Jacobian matrix that is composed of nonhomogeneous physical units, however, may lack in physical significance. In order to avoid the unit inconsistency problem in the conventional Jacobian matrix, we present a new formulation of a dimensionally homogeneous Jacobian matrix for parallel manipulators with a planar mobile platform by using three end-effector points that are coplanar with the mobile platform joints. The condition number of the new Jacobian matrix is then used to design an optimal architecture or pose of parallel manipulators for the best dexterity. An illustrative design example with a six-degree-of-freedom Gough-Stewart platform parallel manipulator by using the proposed formulation is shown to generate the same optimal configurations as those from using the other existing dimensionally homogenous Jacobian formulation methods.
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