Master-Slave Control for a Tele-Operation System of Construction Robot

This study deals with a master-slave system of a tele-operated construction robot . The system consists of an excavator as the construction robot, and two joysticks for operating the robot from a remote place . A fork glove is equipped with the front end of the excavator as a hand for grasping task objects . The master and the slave in this system correspond to, respectively, the fork glove and the joysticks controlled by an operator . In such a remote control system, the operator needs to feel a realistic sense of task force which is brought about from a feedback force of the fork glove . In order to attain an effective feedback of the task force , in the previous report of this study, a control method called a variable-gain symmetric-position was proposed. After that , however, a weak point was found in this method. Namely, the operator was not able to feel a realistic sense of the task force when he was grasping a soft object in comparatively a slow velocity. In the present report, therefore, for overcoming this problem , an improved method of control in comparison with the previous method is proposed.