Author:
Guo Kai,Liu Yongfeng,Yang Hongbo,Zhao Shasha,Zhang Yingying,Wang Zhisen,Liu Bin
Abstract
Abstract
Minimally invasive surgery is performed by using a slender rod-shaped surgical tool to penetrate into the body through a tiny incision on the surface of the human body. Compared with traditional open surgery, minimally invasive surgery can reduce surgical incisions and surgical scars, shorten recovery time, reduce bleeding volume and complications. At present, minimally invasive puncture surgery is basically performed by experienced physicians. The puncture procedure lasts for a long time and the physician’s energy is limited. Therefore, the development of automated minimally invasive puncture robots is of great significance. This paper studies the structure and control of remote motion centers in minimally invasive surgical robotics.
Subject
General Physics and Astronomy
Reference13 articles.
1. Development of a medical robot system for minimally invasive surgery.[J];Feng;International Journal of Medical Robotics + Computer Assisted Surgery Mrcas,2012
2. Design and fabrication of an insect-scale flying robot for control autonomy[C];Ma,2015
3. Vision-Based Calibration of Dual RCM-Based Robot Arms in Human-Robot Collaborative Minimally Invasive Surgery[J];Wang;IEEE Robotics Automation Letters,2017
4. A master manipulator with a remote-center-of-motion kinematic structure for a minimally invasive robotic surgical system[J];Lee;Int J Med Robot,2017
5. Improving backdrivability in preoperative manual manipulability of minimally invasive surgery robot[J];Zou;Industrial Robot,2017
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