首页 /研究 /On the Kinematics of Robotic-assisted Minimally Invasive Surgery
SURGICAL

On the Kinematics of Robotic-assisted Minimally Invasive Surgery

Pål Johan From

发表年份
2013
引用次数
26
访问权限
开放获取

摘要

Minimally invasive surgery is characterized by the insertion of the surgical instruments into the human body through small insertion points called trocars, as opposed to open surgery which requires substantial cutting of skin and tissue to give the surgeon direct access to the operating area. To avoid damage to the skin and tissue, zero lateral velocity at the insertion point is crucial. Entering the human body through trocars in this way thus adds constraints to the robot kinematics and the end-effector velocities cannot be found from the joint velocities using the simple relation given by the standard Jacobian matrix. We therefore derive a new Jacobian matrix which gives the relation between the joint variables and the endeffector velocities and at the same time guarantees that the velocity constraints at the insertion point are always satisfied. We denote this new Jacobian the Remote Center of Motion Jacobian Matrix (RCM Jacobian). The main contribution of this paper is that we address the problem at a kinematic level and that we through the RCM Jacobian can guarantee that the insertion point constraints are satisfied which again allows for the controller to be implemented in the end-effector workspace. By eliminating the kinematic constraints from the control loop we can derive the control law in the end-effector space and we are therefore able to apply Cartesian control schemes such as compliant or hybrid control.

关键词

Jacobian matrix and determinantKinematicsWorkspaceCartesian coordinate systemControl theory (sociology)Robot end effectorInverse kinematicsRobotic surgeryComputer scienceMathematics

相关论文

查看 SURGICAL 分类全部论文