Home /Research /Design of a new haptic device and experiments in minimally invasive surgical robot
SURGICAL

Design of a new haptic device and experiments in minimally invasive surgical robot

Tao Wang, Bo Pan, Yili Fu, Shuguo Wang, Yue Ai

Year
2017
Citations
24
Access
Open access

Abstract

In this paper, we designed a 8 degrees of freedom (DOFs) haptic device for applications in minimally invasive surgical robot. The device can provide three translational, three rotational and a grasping motion and force feedback capability. It is composed of three parts, including an arm mechanism, a redundant wrist mechanism and a grasper mechanism. The kinematics and gravity compensation algorithms are also detailed in the paper. In addition, the haptic device and a slave surgical robot for minimally invasive surgery (MIS) developed by our lab are integrated as a master-slave surgical robotic system in this paper. In the master-slave robotic system, a new control system is designed to realize real-time mater-slave control based on EtherCAT bus technology. Experiments show that the haptic device can effectively compensate gravity at any position in its workspace and successfully realize master-slave operation by the control method, which prove the haptic device designed in this paper can be used as a master manipulator to control the surgical robot.

Keywords

Haptic technologyWorkspaceMechanism (biology)KinematicsSimulationRobotInvasive surgeryCompensation (psychology)Master/slaveSurgical robot

Related papers

Browse all SURGICAL papers