DocumentCode
139785
Title
Design of a knee joint mechanism that adapts to individual physiology
Author
Jiun-Yih Kuan ; Pasch, Kenneth A. ; Herr, Hugh M.
Author_Institution
Media Lab., Massachusetts Inst. of Technol., Cambridge, MA, USA
fYear
2014
fDate
26-30 Aug. 2014
Firstpage
2061
Lastpage
2064
Abstract
This paper describes the design of a new knee joint mechanism, called the Adaptive Coupling Joint (ACJ). The new mechanism has an adaptive trajectory of the center of rotations (COR) that automatically matches those of the attached biological joint. The detailed design is presented as well as characterization results of the ACJ. Conventional exoskeleton and assistive devices usually consider limb joints as a one to three degrees of freedom (DOFs) joint synthesized by multiple one-DOF hinge joints in a single plane. However, the biological joints are complex and usually rotate with respect to a changing COR. As a result, the mismatch between limb joint motion and mechanical interface motion can lead to forces that cause undesired ligament and muscle length changes and internal mechanical changes. These undesired changes contribute to discomfort, as well as to the slippage and sluggish interaction between humans and devices. It is shown that the ACJ can transmit planetary torques from either active or passive devices to the limbs without altering the normal biological joint motion.
Keywords
biomechanics; muscle; COR adaptive trajectory; adaptive coupling joint; assistive devices; center-of-rotations; exoskeleton devices; internal mechanical changes; knee joint mechanism design; ligament length changes; limb joint motion; mechanical interface motion; multiple one-degree-of-freedom hinge joints; muscle length changes; physiology; planetary torque transmission; slippage interaction; sluggish interaction; Couplings; Exoskeletons; Joints; Knee; Torque; Trajectory;
fLanguage
English
Publisher
ieee
Conference_Titel
Engineering in Medicine and Biology Society (EMBC), 2014 36th Annual International Conference of the IEEE
Conference_Location
Chicago, IL
ISSN
1557-170X
Type
conf
DOI
10.1109/EMBC.2014.6944021
Filename
6944021
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