Title :
Design and Coordination Kinematics of an Insertable Robotic Effectors Platform for Single-Port Access Surgery
Author :
Jienan Ding ; Goldman, Roger E. ; Kai Xu ; Allen, Peter K. ; Fowler, Dennis L. ; Simaan, Nabil
Author_Institution :
Adv. Robot. & Mechanism Applic. Lab., Columbia Univ., New York, NY, USA
Abstract :
Single port access surgery (SPAS) presents surgeons with added challenges that require new surgical tools and surgical assistance systems with unique capabilities. To address these challenges, we designed and constructed a new insertable robotic end-effectors platform (IREP) for SPAS. The IREP can be inserted through a Ø15 mm trocar into the abdomen and it uses 21 actuated joints for controlling two dexterous arms and a stereo-vision module. Each dexterous arm has a hybrid mechanical architecture comprised of a two-segment continuum robot, a parallelogram mechanism for improved dual-arm triangulation, and a distal wrist for improved dexterity during suturing. The IREP is unique because of the combination of continuum arms with active and passive segments with rigid parallel kinematics mechanisms. This paper presents the clinical motivation, design considerations, kinematics, statics, and mechanical design of the IREP. The kinematics of coordination between the parallelogram mechanisms and the continuum arms is presented using the pseudo-rigid-body model of the beam representing the passive segment of each snake arm. Kinematic and static simulations and preliminary experiment results are presented in support of our design choices.
Keywords :
design engineering; dexterous manipulators; end effectors; manipulator kinematics; medical image processing; medical robotics; robot vision; stereo image processing; surgery; IREP; SPAS; abdomen; clinical motivation; continuum arm; coordination kinematics; design consideration; dexterity; dexterous arm; distal wrist; dual-arm triangulation; hybrid mechanical architecture; insertable robotic end-effectors platform; kinematic simulation; mechanical design; parallelogram mechanism; pseudorigid-body model; rigid parallel kinematics mechanism; robot design; single-port access surgery; snake arm; static simulation; stereo-vision module; surgeon; surgical assistance system; surgical tool; suturing; two-segment continuum robot; Educational institutions; Instruments; Joints; Kinematics; Robot kinematics; Surgery; Continuum robots; kinematics; medical robotics; parallel mechanisms; single-port access surgery (SPAS);
Journal_Title :
Mechatronics, IEEE/ASME Transactions on
DOI :
10.1109/TMECH.2012.2209671
