Robust Human Machine Interface Based on Head Movements Applied to Assistive Robotics-Reference-Cited by-同舟云学术

Robust Human Machine Interface Based on Head Movements Applied to Assistive Robotics

Published:2013 Issue: Volume:2013 Page:1-11
ISSN:1537-744X
Container-title:The Scientific World Journal
language:en
Short-container-title:The Scientific World Journal

Author:

Perez Elisa¹^ORCID,López Natalia¹^ORCID,Orosco Eugenio²^ORCID,Soria Carlos²,Mut Vicente²^ORCID,Freire-Bastos Teodiano³

Affiliation:

1. Gabinete de Tecnología Médica, Facultad de Ingeniería, Universidad Nacional de San Juan, 5400 San Juan, Argentina

2. Instituto de Automática, Facultad de Ingeniería, Universidad Nacional de San Juan, 5400 San Juan, Argentina

3. Departamento de Engenharia Elétrica, Universidade Federal do Espírito Santo, 29075910 Vitoria, ES, Brazil

Abstract

This paper presents an interface that uses two different sensing techniques and combines both results through a fusion process to obtain the minimum-variance estimator of the orientation of the user’s head. Sensing techniques of the interface are based on an inertial sensor and artificial vision. The orientation of the user’s head is used to steer the navigation of a robotic wheelchair. Also, a control algorithm for assistive technology system is presented. The system is evaluated by four individuals with severe motors disability and a quantitative index was developed, in order to objectively evaluate the performance. The results obtained are promising since most users could perform the proposed tasks with the robotic wheelchair.

Publisher

Hindawi Limited

Subject

General Environmental Science,General Biochemistry, Genetics and Molecular Biology,General Medicine

Link

http://downloads.hindawi.com/journals/tswj/2013/589636.pdf

Reference18 articles.

1. Shared Understanding for Collaborative Control

2. Control Architecture for Human–Robot Integration: Application to a Robotic Wheelchair

3. Robotic wheelchair controlled through a vision-based interface

4. Human-machine interfaces based on EMG and EEG applied to robotic systems

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