首页 /研究 /Online kinematic Jacobian uncertainty compensation for robot manipulators using neural network
MANIPULATION

Online kinematic Jacobian uncertainty compensation for robot manipulators using neural network

Seul Jung, Bahram Ravani

发表年份
2002
引用次数
5

摘要

For the Cartesian position controlled robot it is required to have an accurate mapping from the Cartesian space to the joint space in order to command the desired joint trajectories to achieve desired movements in the Cartesian space. That requires the correct kinematic Jacobian information. Since the actual mapping from the Cartesian space to the joint space is obtained at the joint coordinate not at the actuator coordinate, uncertainty in the Jacobian can be present. In the paper two feasible neural network schemes are proposed to compensate for the kinematic Jacobian uncertainty. Uncertainty in the Jacobian can be compensated by identifying either the actuator Jacobian matrix off-line or the inverse of that in online fashion. The case study of a stencilling robot is examined.

关键词

Jacobian matrix and determinantCartesian coordinate systemKinematicsInverse kinematicsControl theory (sociology)Robot kinematicsComputer scienceActuatorRobotPosition (finance)

相关论文

查看 MANIPULATION 分类全部论文