There inevitably exist the parametric uncertainty and unstructured uncertainty due to the complex dynamics of flexible-link manipulators.
由于柔性机械手具有复杂的动力学模型,因此不可避免存在参数不确定性和未建模动态。
The model of a spatial flexible rotor beam element is presented, and the dynamic equations of spatial manipulators considering joint and link flexibility is derived.
提出了空间柔性转子梁单元模型,建立了考虑关节及杆柔性的空间机器人动力学方程。
The optimal results show the significant influence of initial configuration on dynamics of redundant flexible link and joint robot manipulators.
优化结果表明,在规划机器人的运动时,初始位形的优劣对柔性机器人的动力学性能有很大影响。
In this paper the governing equations of flexible manipulators are derived, which are nonlinear simultaneous differential equations of joint variables and link elastic modal coordinates.
本文给出了一般开链弹性机器人机构动力学方程。该方程是由关节广义坐标和杆件模态坐标联立的非线性微分方程组。
Tip position control of flexible multi link manipulators is discussed.
讨论了多连杆柔性机械手末端位置的控制问题。
Tip position control of flexible multi link manipulators is discussed.
讨论了多连杆柔性机械手末端位置的控制问题。
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