Paper Info
Title
A master-slave robot system for minimally invasive laryngeal surgery
Abstract
To solve the troubles existing in laryngeal surgical operation and extend surgeon's ability, a master-slave robot system with the name ¿Microhand-III¿ was designed. The novel slave robot employs hybrid mechanism and enables the 7 DOF end effector complex surgical manipulation ability. Mechanical details of the slave robot were described and an experiment prototype was established. The kinematics of master device and slave robot were studied followed by the master-slave mapping arithmetic. Redundancy control solution for the slave manipulator trajectory planning was also investigated. The experiment results approved both the design of the system and the master-slave mapping arithmetic. Suturing experiment further validated the potential of the system to enhance the laryngeal surgical operation.
Year
DOI
Venue
2009
10.1109/ROBIO.2009.5420573
ROBIO
Keywords
Field
DocType
medical robotics,surgeon ability,7 dof end effector complex surgical manipulation,slave robot,complex surgical manipulation ability,experiment result,end effectors,laryngeal surgical operation,microhand-iii,redundancy control,slave manipulator trajectory planning,slave robot kinematics,master-slave robot system,manipulator kinematics,position control,experiment prototype,novel slave robot,minimally invasive laryngeal surgery,suturing experiment,master-slave mapping arithmetic,surgery,robot kinematics,master slave
Robotic systems,Kinematics,Simulation,Control theory,Manipulator,Robot kinematics,Robot end effector,Control engineering,Redundancy (engineering),Engineering,Robot,Master/slave
Conference
ISBN
Citations 
PageRank 
978-1-4244-4775-6
1
0.39
References 
Authors
3
3
Name
Order
Citations
PageRank
Haifeng Luo1272.44
Jienan Ding29010.07
Shuxin Wang34411.24