DocumentCode :
1096843
Title :
Force-Feedback Augmentation Modes in the Laparoscopic Minimally Invasive Telesurgical System
Author :
Mitsuishi, Mamoru ; Sugita, Naohiko ; Pitakwatchara, Phongsaen
Author_Institution :
Tokyo Univ., Tokyo
Volume :
12
Issue :
4
fYear :
2007
Firstpage :
447
Lastpage :
454
Abstract :
The proportional-integral (PI) gain-scheduling full-force-feedback control (three translational and one grasping degrees of freedom) on the dual-arm master/slave telesurgical manipulator system has been implemented. Gain scheduling algorithm provides the operator with maximum-allowable force perception, while retaining the stability of system manipulation with different environments. It is a way to cope with the instability caused by the motor saturation as well. Local force-feedback configuration naturally compensates for the inherent inertia of the master manipulator in addition to precise display of the interaction force. It has been observed that, during the operation, the surgeon often needs to concentrate on force in some directions than others. Also, the organs involved in the abdominal laparoscopic surgery tend to yield very small initial reaction force, which might be difficult to perceive. With the consideration of the performed task and tissue mechanical properties, the reaction force in those directions will be amplified while the others will be sent normally. Seven force-feedback augmentation modes have been prepared. A switching algorithm has been developed to automatically change the augmentation mode appropriately according to the position and force signals. The surgeon can, thus, focus more on the operation task.
Keywords :
PI control; force feedback; medical robotics; stability; abdominal laparoscopic surgery; dual-arm master/slave telesurgical manipulator system; force-feedback augmentation modes; force-feedback control; gain scheduling algorithm; laparoscopic minimally invasive telesurgical system; maximum-allowable force perception; proportional-integral gain-scheduling; Control systems; Displays; Laparoscopes; Master-slave; Minimally invasive surgery; Pi control; Proportional control; Scheduling algorithm; Stability; Surges; Automatic switching of the augmentation modes; force-feedback gain scheduling; master–slave teleoperation; minimally invasive surgical system;
fLanguage :
English
Journal_Title :
Mechatronics, IEEE/ASME Transactions on
Publisher :
ieee
ISSN :
1083-4435
Type :
jour
DOI :
10.1109/TMECH.2007.901968
Filename :
4291579
Link To Document :
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