Robotically generated force fields for stroke patient pelvic obliquity gait rehabilitation

Author

Pietrusinski, Maciej ; Cajigas, Iahn ; Goldsmith, Mary ; Bonato, Paolo ; Mavroidis, Constantinos

Author_Institution

Dept. of Mech. & Ind. Eng., Northeastern Univ., Boston, MA, USA

fYear

2010

fDate

3-7 May 2010

Firstpage

569

Lastpage

575

Abstract

The Robotic Gait Rehabilitation (RGR) Trainer, was designed and built to target secondary gait deviations in patients post - stroke. Using an impedance control strategy and a linear electromagnetic actuator, the device applies a force field to control pelvic obliquity through an orthopedic brace while the patient ambulates on treadmill. Healthy human subject testing confirmed efficacy of the method to impart significant gait restoration forces as a response to abnormal pelvic obliquity (hip hiking). This novel approach to application of force fields using endpoint impedance controlled linear actuators takes into account soft tissue compliance.

Keywords

electromagnetic actuators; gait analysis; mechanical variables control; medical robotics; patient rehabilitation; Healthy human subject testing; RGR trainer; impedance controlled linear actuators; linear electromagnetic actuator; orthopedic brace; patient post-stroke; pelvic obliquity gait rehabilitation; robotically generated force fields; secondary gait deviations; Electromagnetic devices; Electromagnetic fields; Electromagnetic forces; Force control; Humans; Hydraulic actuators; Impedance; Orthopedic surgery; Rehabilitation robotics; Testing;

fLanguage

English

Publisher

ieee

Conference_Titel

Robotics and Automation (ICRA), 2010 IEEE International Conference on

Conference_Location

Anchorage, AK

ISSN

1050-4729

Print_ISBN

978-1-4244-5038-1

Electronic_ISBN

1050-4729

Type

conf

DOI

10.1109/ROBOT.2010.5509872

Filename

5509872