A dynamic simulation model for mixed-loop planar robots with flexible joint
drive and servo-motor control is developed. The motion of the links is cou
pled with the deflection of the drive shaft at the joints. The virtual work
method is used for the derivation of the mathematical model. The drive sig
nal at the motor is based on the error between the desired and actual motio
ns using proper position and velocity gains. Different motion programs are
considered in the simulation for the time histories of the angular displace
ments and velocities of the links and motors. The driving torques and the t
otal error produced at the end-effector are computed. The simulation result
s for a five-link, three degrees of freedom manipulator show that the model
presented is capable of simulating the coupling effect of joint flexibilit
y and rigid body motion for planar robots. (C) 2001 Elsevier Science Ltd. A
ll rights reserved.