Quantifying anti-gravity torques in the design of a powered exoskeleton

Author

Ragonesi, Daniel ; Agrawal, Sunil ; Sample, Whitney ; Rahman, Tariq

Author_Institution

Dept. of Mech. Eng., Univ. of Delaware, Newark, DE, USA

fYear

2011

fDate

Aug. 30 2011-Sept. 3 2011

Firstpage

7458

Lastpage

7461

Abstract

Designing an upper extremity exoskeleton for people with arm weakness requires knowledge of the passive and active residual force capabilities of users. This paper experimentally measures the passive gravitational torques of 3 groups of subjects: able-bodied adults, able bodied children, and children with neurological disabilities. The experiment involves moving the arm to various positions in the sagittal plane and measuring the gravitational force at the wrist. This force is then converted to static gravitational torques at the elbow and shoulder. Data are compared between look-up table data based on anthropometry and empirical data. Results show that the look-up torques deviate from experimentally measured torques as the arm reaches up and down. This experiment informs designers of Upper Limb orthoses on the contribution of passive human joint torques.

Keywords

neuromuscular stimulation; orthotics; torque; Upper Limb orthoses; active residual force; antigravity torque; arm weakness; gravitational force; neurological disability; passive residua force; powered exoskeleton design; sagittal plane; upper extremity exoskeleton; Elbow; Humans; Joints; Pediatrics; Shoulder; Torque; Torque measurement; Adolescent; Adult; Child; Elbow; Gravitation; Humans; Middle Aged; Models, Anatomic; Orthotic Devices; Prosthesis Design; Shoulder; Torque; Young Adult;

fLanguage

English

Publisher

ieee

Conference_Titel

Engineering in Medicine and Biology Society, EMBC, 2011 Annual International Conference of the IEEE

Conference_Location

Boston, MA

ISSN

1557-170X

Print_ISBN

978-1-4244-4121-1

Electronic_ISBN

1557-170X

Type

conf

DOI

10.1109/IEMBS.2011.6091749

Filename

6091749