Force-contouring process using uncalibrated vision and impedance control
Conference Paper
Overview
Research
Identity
Additional Document Info
View All
Overview
abstract
This paper presents an interaction control strategy for industrial robot manipulators which consists of the combination of a calibration-free, vision-based control method with an impedance control approach. The vision-based, robot control method known as camera-space manipulation is used to map a given, previously-defined trajectory over an arbitrary surface. Then, a kinematic posture-based impedance controller is implemented in order to regulate the interaction forces and torques generated by the contact between the robot end-effector and the work surface where the trajectory is defined. The paper presents experimental evidence on how the vision-force sensory fusion is useful to implement a force contouring task in a machining process, by using a Fanuc M16-iB industrial robot equipped with a wrist force/torque sensor.