Abstract
We have developed a master interface that uses an isometric velocity control technique for translation and an anisometric position control technique for rotation. Using the developed interface, the operator can concentrate on the slave side and control the robot without repositioning required in conventional master arm due to the workspace limitation. However, it cannot display haptic to the operator for the translation directions with the manipulator. In this article, we propose a method to feedback the external force on the slave side to the master manipulator without using actuators or link mechanism but using a pseudo haptic effect. A flexible wrist joint with a spring is used at the tip of the slave forceps to enhance visual effect. The spring stiffness is pneumatically controlled. At the same time, we change the reference velocity of the slave according to the external force applied to the slave manipulator. The changed velocity caused by the external force restrains the slave motion. Using both the visual feedback and the motion restrain, the master–slave system is able to display force to the operator as pseudo haptic feedback without actuators. Experiments of pulling suture threads are executed using the developed master–slave surgical robot. It is confirmed that the master–slave system with pseudo haptic feedback can decrease the variance of force.
Highlights
Researches and developments of master–slave type surgical robots are actively performed.[1,2,3,4,5] These systems require enough dexterity to perform complicated tasks with high precision in motion control
Through the task of pulling a suture thread using the master–slave system, we evaluated the characteristics of the proposed system with pseudo haptic feedback (HF)
We have developed a master–slave system with pseudo force feedback
Summary
Researches and developments of master–slave type surgical robots are actively performed.[1,2,3,4,5] These systems require enough dexterity to perform complicated tasks with high precision in motion control. Force display to the surgeon is important, since the surgeon must perceive the stiffness of organs and the tension of the suture threads for safe operation.[6,7,8] Implementation of haptic to a surgical teleoperation system requires a slave manipulator to measure the external force and a master console to display the force. Positions of the surgeon’s hands are measured by the master interfaces with link mechanisms. In order to operate with high precision on the slave side, the translational movement
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