给出了机器人逆运动问题中六自由度局部闭链操作臂逆运动方程的一种新解法。
A new solution for inverse kinematics equation of 6 DOF robotic manipulator with local closed chain is presented.
提出了一种新的推导MOTOMAN型机器人逆运动学方程的方法,进而给出逆运动问题新的求解方法。
A new inferential method for inverse kinematics equation of MOTOMAN manipulators was presented, and efficient solutions of inverse kinematics problem were given.
提出了一种新的推导回转关节型多自由度气动机械手逆运动学方程的方法,进而给出逆运动问题新的求解方法。
A new inferential method for inverse kinematics equation of revolute joint pneumatic manipulators was presented, and efficient solution of inverse kinematics problem was also given.
结合电磁定律和机械运动方程,导出了用于逆分析的基本动态方程。
A fundamental dynamic equation used for converse analysis was derived from combined application of the electromagnetic laws and mechanical equations.
以机器人运动学方程为基础,基于变换矩阵中旋转子矩阵正交的特性,提出一种6r机器人运动学逆解算法。
Based on the kinematics equation and the orthogonal character of the rotation sub-matrix in a transformation matrix, an approach to the inverse kinematics problem of 6r robots is proposed.
首先运用偏微分扩散方程,只需少量的试验运动即可求解在有限作业空间上拥有同样拓扑关系的机器人逆运动学变换。
First a partial differential diffusion equation is applied to solve the inverse map of robots which can keep the topology conserving performance during mapping.
建立了机构的运动学正逆封闭解方程、作业空间解析解和速度传递方程。
Closedform solutions were developed for the inverse, the direct kinematics, the workspace limits and the velocity matrix.
介绍了一种由圆柱副、圆柱副和球面副组成的点、线约束的新型并联机构6-CCS,对其进行了结构分析,给出了运动学逆解方程。
A new parallel mechanism 6-CCS which is composed of cylinder and spherical joints is described in this paper. Configurable analysis and inverse kinematic equations are given.
该机床运动学逆解方程形式简单,计算量小,易于进行实时控制,在机械加工等领域具有很高的应用价值。
Its inverse kinematics is simple, computation quantity is small and it is easy to accomplish its real-time control. Its workspace is large. It has a high application value in manufacturing field.
文中对机床的平行约束机构进行了分析,求出了机床的运动学逆解方程。
Its restriction mechanisms has been analyzed. Solution of the inverse position problem has been obtained.
紧接着分析五自由度机械手的运动学特性,建立了正、逆运动学方程。
Next, the five freedom manipulator's kinematics characteristic is analyzed, establishing the direct and the inverse kinematic equations.
分析了一种三杆五自由度并联机床机器人运动学问题,给出了其运动学正逆解位置方程,并对并联机床的速度及加速度求解进行了定性分析。
The degree of a 3-legged in parallel kinematics machine tool is analyzed. Its positive and inverse kinematics is presented and its velocity and accelerate were qualitative analyzed.
分析了一种三杆五自由度并联机床机器人运动学问题,给出了其运动学正逆解位置方程,并对并联机床的速度及加速度求解进行了定性分析。
The degree of a 3-legged in parallel kinematics machine tool is analyzed. Its positive and inverse kinematics is presented and its velocity and accelerate were qualitative analyzed.
应用推荐