Abstract
Nowadays, manipulator is widely used in industrial applications. The trajectories of manipulator are more and more complicated. In order to do good tracking performance, the end effector position and orientation have to be determined. This paper describes a method to determine position and orientation of manipulator’s end effector base on a reference path. This method will be applied for manipulator 6 DOF to glue shoe sole. Firstly, assume the reference path is arbitrary curve, the path was then discrete to become multi-point. Secondly, the roll – pitch – yaw vectors of the end effector will be determined at each point. Finally, Euler angles and interpolation method in 3D space will be applied to determine inverse kinematics matrix of manipulator for each point on the reference path. In addition, this paper also gives an example of reference path of shoe sole to apply the presented method. To verify the tracking performance of manipulator and reference path, a PID controller was designed for simulation. The result of simulation proved the correction of the algorithm.
Highlights
Most of manipulators were controlled by using teach pendant
This paper proposes a method to obtain inverse kinematics matrix from 3D curve based on Euler angles and interpolation method
This paper clearly solved inverse kinematics problem and to show a method to take the orientation of manipulator when the orientation continuously changes during tracking process
Summary
Most of manipulators were controlled by using teach pendant. Controller of manipulator is integrated available programs. The end effector’s orientation continuously changes during tracking process It is a cause cannot use teach pendant to control manipulator’s trajectory. The mentioned papers either give the solution for general inverse kinematics of manipulator or interpolate to get the position of manipulator’s working path They do not clearly mention how to take orientation of manipulator when the orientation continuously changes during tracking process. This paper clearly solved inverse kinematics problem and to show a method to take the orientation of manipulator when the orientation continuously changes during tracking process. This method will be applied for manipulator 6 DOF to glue shoe sole
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