A Novel Layer Jamming Mechanism With Tunable Stiffness Capability for Minimally Invasive Surgery

Author

Yong-Jae Kim ; Shanbao Cheng ; Sangbae Kim ; Iagnemma, K.

Author_Institution

Samsung Adv. Inst. of Technol., Yongin, South Korea

Volume

29

Issue

4

fYear

2013

fDate

Aug. 2013

Firstpage

1031

Lastpage

1042

Abstract

This paper presents a novel “layer jamming” mechanism that can achieve variable stiffness. The layer jamming mechanism exploits the friction present between layers of thin material, which can be controlled by a confining pressure. Due to the mechanism´s hollow geometry, compact size, and light weight, it is well suited for various minimally invasive surgery applications, where stiffness change is required. This paper describes the concept, the mathematical model, and a tubular snake-like manipulator prototype. Various characteristics of layer jamming, such as stiffness and yield strength, are studied both theoretically and experimentally.

Keywords

friction; manipulators; medical robotics; surgery; yield strength; layer jamming mechanism; mathematical model; minimally invasive surgery; tubular layer jamming manipulator; tubular snake-like manipulator prototype; tunable stiffness capability; yield strength; Layer jamming; minimally invasive surgery (MIS); snake-like manipulator; tunable stiffness;

fLanguage

English

Journal_Title

Robotics, IEEE Transactions on

Publisher

ieee

ISSN

1552-3098

Type

jour

DOI

10.1109/TRO.2013.2256313

Filename

6502257