Affiliation:
1. Mechatronics and Field Robotics Laboratory, Department of Mechanical Engineering, Korea University, Seoul 02841, Korea
Abstract
Abstract
Tendon sheath mechanism (TSM) is an effective power transmission system to access remote locations through tortuous channels, and it is widely used in endoscopic surgical robots. However, owing to deformation of TSM during power transmission, the input–output hysteresis is expressed in the form of backlash-like hysteresis. This paper is premised on the idea that sheath deformation can occur if the sheath is fixed only at certain points rather than being fully fixed at all points. Based on our hypothesis, a new TSM-pair backlash-like hysteresis model was derived, which considers the deformation property of the sheath. Experimental setups were designed to validate the new model, and its mechanical parameters were identified. The experimental results revealed that the sheath significantly deforms and that such deformation produces backlash-like hysteresis together with the tendon deformation. This model can be used to provide accurate prediction and control of TSM.
Funder
National Research Foundation of Korea
Reference28 articles.
1. Design and Prototyping of an Active Hand Prosthetic Device;Yang;Ind. Rob.: Int. J. Rob.,2005
2. High-Power, Flexible, Robust Hand: Development of Musculoskeletal Hand Using Machined Springs and Realization of Self-Weight Supporting Motion With Humanoid;Makino,2017
3. A New Consideration on Tendon-Tension Control System of Robot Hands;Kaneko,1991
4. The ANUBISCOPE Flexible Platform Ready for Prime Time: Description of the First Clinical Case;Perretta;Surg. Endosc.,2013
5. Robotic System for no-Scar Gastrointestinal Surgery;Phee;Int. J. Med. Rob. Comput. Assisted Surg.,2008
Cited by
9 articles.
订阅此论文施引文献
订阅此论文施引文献,注册后可以免费订阅5篇论文的施引文献,订阅后可以查看论文全部施引文献