DocumentCode
1761525
Title
Four-fingered lightweight exoskeleton robotic device accommodating different hand sizes
Author
Iqbal, J. ; Tsagarakis, N.G. ; Caldwell, D.G.
Author_Institution
Adv. Robot. Dept., Ist. Italiano di Tecnol. (IIT), Genoa, Italy
Volume
51
Issue
12
fYear
2015
fDate
6 11 2015
Firstpage
888
Lastpage
890
Abstract
A wearable hand exoskeleton (EXO) device that permits exertion of bidirectional forces on finger phalanges throughout the human finger workspace is proposed. The novelty of the proposed device lies in its direct-driven, portable and optimised mechanism with the ability to adjust variable hand sizes in addition to other distinguishing features. The adjustable link lengths and structure of the device have emerged from kinematic-based optimisation criterion, which targets the natural finger workspace. The selection of actuators for the EXO is backed by the results of experiments conducted using appropriate sensory instrumentation to measure the force exertion levels of a human hand. A four-fingered prototype of the EXO is designed and fabricated. The device is then subjected to various test inputs to characterise the tracking performance. Preliminary results demonstrate that the proposed device can flex and extend the fingers following accurate trajectories.
Keywords
human-robot interaction; manipulator kinematics; optimisation; EXO; adjustable link lengths; bidirectional forces exertion; finger phalanges; four-fingered lightweight exoskeleton robotic device; four-fingered prototype; hand sizes; human FIN workspace; human hand; kinematic-based optimisation criterion; wearable hand exoskeleton device;
fLanguage
English
Journal_Title
Electronics Letters
Publisher
iet
ISSN
0013-5194
Type
jour
DOI
10.1049/el.2015.0850
Filename
7122461
Link To Document