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.
分层策略可以求解复杂的机器人规划生成问题。
Hierarchical strategy can be used in solving the complicated robot plan-generating problem.
机器人通过奇异位形时的可行运动求解及如何准确地跟踪和实现给定的运动轨迹是机器人技术中急待解决的关键技术问题。
Resolution of the feasible motions of manipulators at singular configurations and accurately tracking the specified trajectory is one of the important technical problems in robotics.
研究了求解六自由度并联机器人的活动空间时所涉及的干涉问题。
The interference problem which will be involved in calculating six DOF parallel robot's workspace is studied.
对6 -DOF并联机器人的位置正解进行了研究和分析,通过位置反解的求解思路来解位置正解的问题。
This paper studies and analyzes the 6-dof parallel robot position forward solution, solves the forward solution problem through the inverse solution method.
仿真结果表明:这种方法对于求解仿人型跑步机器人的正向运动学和逆向运动学问题,具有求解速度快、精度高等优点。
Simulation results show that this method has an advantage of high speed and high-precision for the forward kinematics and the inverse kinematics of the running robot.
提出了一种求解群集机器人协作任务规划问题的均分点蚁群算法(EDPACA)。
An equal division point ant colony algorithm (EDPACA) was proposed to solve the swarm-robot mission planning problem.
针对空间冗余机器人运动学控制中正、逆运动学求解的复杂性,采用神经网络从两方面解决这一问题。
Neural network is used in this paper to solve the problem of kinematics and inverse kinematics in kinematical control of spatial redundant robots.
结合位置正解模型,利用BP网络求解了机器人逆运动学问题(ikp)。
In this paper, IKP of the robot manipulator is solved by using BP neural network and the forward kinematic model.
讨论了一种四自由度机器人运动学模型的建立问题,在此基础上给出了该机器人运动学正解和运动学逆解的简化求解方法,简化了求解过程,大大减少了计算量。
The paper introduces kinematics modeling for a kind of four degrees of freedom robot and gains the robots forward kinematics and inverse kinematics by using a simplified method based on this.
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.
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