Optimized kinematical positioning and guidance of a serial robot for motion simulation.

Described in this paper is an approach for generating control inputs for a serial robot motion simulator such that prescribed linear acceleration at the end-effector are accomplished as close as possible. The method takes into account the workspace limits, and uses the internal interpolation cycle of the robot controller to generate the corresponding trajectories. The PI parameters of the internal interpolation are identied from test measurements. The path planning algorithm uses the damped least squares method together with a renement based on optimization for navigating the robot along the user-prescribed accelerations under avoidance of singularities. The approach is demonstrated for the Kuka robot roboCoaster. It is shown that the desired accelerations can be generated accurately and with high repeatability, making the approach suitable for generic simulation tasks.