首页 /研究 /Kinematic control of redundant arms based on the virtual incision ports for robotic single-port access surgery
SURGICAL

Kinematic control of redundant arms based on the virtual incision ports for robotic single-port access surgery

Junwon Jang, Hyundo Choi, Hyungjoo Kim, Hoseong Kwak

发表年份
2014
引用次数
2

摘要

This paper presents a novel kinematic control scheme based on the Virtual Incision Ports (VIPs) for redundancy resolution of redundant robotic arms for single-port access (SPA) surgery. In general, manipulators have 6 DoFs except grippers to be able to reach the desired pose in 3D space. If a surgical robot for SPA surgery has only 6 DoFs, then its workspace could be restricted severely. Therefore most robots including our developed robot consist of more than 6 DoFs with an elbow to maintain triangulation. This means they have a redundancy resolution problem. One of the most popular methods for a redundancy resolution is a pseudo-inverse Jacobian method [1]. In case of robotic SPA surgery, however, this method intrinsically has a high possibility for hurting abdominal organs and muscles or conflicting with other instruments because of the unexpected elbow movements. Our control scheme can decrease the possibility of a collision with them and provide a more flexible working area for surgical tasks by reallocating the VIP. Results presented from simulation and experiment will demonstrate them.

关键词

Redundancy (engineering)Inverse kinematicsWorkspaceKinematicsRobotComputer scienceJacobian matrix and determinantRobotic armRobotic surgeryRobot kinematics

相关论文

查看 SURGICAL 分类全部论文