Real-time brain machine interaction via social robot gesture control

Reza Abiri; Soheil Borhani; Xiaopeng Zhao; Yang Jiang

doi:10.1115/DSCC2017-5128

Real-time brain machine interaction via social robot gesture control

Reza Abiri, Soheil Borhani, Xiaopeng Zhao, Yang Jiang

Producción científica: Conference contribution › revisión exhaustiva

8 Citas (Scopus)

Resumen

Brain-Machine Interaction (BMI) system motivates interesting and promising results in forward/feedback control consistent with human intention. It holds great promise for advancements in patient care and applications to neurorehabilitation. Here, we propose a novel neurofeedbackbased BCI robotic platform using a personalized social robot in order to assist patients having cognitive deficits through bilateral rehabilitation and mental training. For initial testing of the platform, electroencephalography (EEG) brainwaves of a human user were collected in real time during tasks of imaginary movements. First, the brainwaves associated with imagined body kinematics parameters were decoded to control a cursor on a computer screen in training protocol. Then, the experienced subject was able to interact with a social robot via our real-time BMI robotic platform. Corresponding to subject's imagery performance, he/she received specific gesture movements and eye color changes as neural-based feedback from the robot. This hands-free neurofeedback interaction not only can be used for mind control of a social robot's movements, but also sets the stage for application to enhancing and recovering mental abilities such as attention via training in humans by providing real-time neurofeedback from a social robot.

Idioma original	English
Título de la publicación alojada	Aerospace Applications; Advances in Control Design Methods; Bio Engineering Applications; Advances in Non-Linear Control; Adaptive and Intelligent Systems Control; Advances in Wind Energy Systems; Advances in Robotics; Assistive and Rehabilitation Robotics; Biomedical and Neural Systems Modeling, Diagnostics, and Control; Bio-Mechatronics and Physical Human Robot; Advanced Driver Assistance Systems and Autonomous Vehicles; Automotive Systems
ISBN (versión digital)	9780791858271
DOI	https://doi.org/10.1115/DSCC2017-5128
Estado	Published - 2017
Evento	ASME 2017 Dynamic Systems and Control Conference, DSCC 2017 - Tysons, United States Duración: oct 11 2017 → oct 13 2017

Serie de la publicación

Nombre	ASME 2017 Dynamic Systems and Control Conference, DSCC 2017
Volumen	1

Conference

Conference	ASME 2017 Dynamic Systems and Control Conference, DSCC 2017
País/Territorio	United States
Ciudad	Tysons
Período	10/11/17 → 10/13/17

Nota bibliográfica

Publisher Copyright:
Copyright © 2017 ASME.

Financiación

This work was in part supported by a NeuroNET seed grant to XZ; and in part by the NIH under grants NIH P30 AG028383 to the UK Sanders-Brown Center on Aging, and NIH NCRR UL1TR000117 to the UK Center for Clinical and Translational Science. The authors are grateful for useful discussions of Dr. Nancy Munro.

Financiadores	Número del financiador
NIH/NCRR	UL1TR000117
UK Sanders-Brown Center on Aging
National Institutes of Health (NIH)	P30 AG028383
National Institutes of Health (NIH)

ASJC Scopus subject areas

Control and Systems Engineering
Industrial and Manufacturing Engineering
Mechanical Engineering

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10.1115/DSCC2017-5128

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Abiri, R., Borhani, S., Zhao, X., & Jiang, Y. (2017). Real-time brain machine interaction via social robot gesture control. En Aerospace Applications; Advances in Control Design Methods; Bio Engineering Applications; Advances in Non-Linear Control; Adaptive and Intelligent Systems Control; Advances in Wind Energy Systems; Advances in Robotics; Assistive and Rehabilitation Robotics; Biomedical and Neural Systems Modeling, Diagnostics, and Control; Bio-Mechatronics and Physical Human Robot; Advanced Driver Assistance Systems and Autonomous Vehicles; Automotive Systems (ASME 2017 Dynamic Systems and Control Conference, DSCC 2017; Vol. 1). https://doi.org/10.1115/DSCC2017-5128

Abiri, Reza ; Borhani, Soheil ; Zhao, Xiaopeng et al. / Real-time brain machine interaction via social robot gesture control. Aerospace Applications; Advances in Control Design Methods; Bio Engineering Applications; Advances in Non-Linear Control; Adaptive and Intelligent Systems Control; Advances in Wind Energy Systems; Advances in Robotics; Assistive and Rehabilitation Robotics; Biomedical and Neural Systems Modeling, Diagnostics, and Control; Bio-Mechatronics and Physical Human Robot; Advanced Driver Assistance Systems and Autonomous Vehicles; Automotive Systems. 2017. (ASME 2017 Dynamic Systems and Control Conference, DSCC 2017).

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abstract = "Brain-Machine Interaction (BMI) system motivates interesting and promising results in forward/feedback control consistent with human intention. It holds great promise for advancements in patient care and applications to neurorehabilitation. Here, we propose a novel neurofeedbackbased BCI robotic platform using a personalized social robot in order to assist patients having cognitive deficits through bilateral rehabilitation and mental training. For initial testing of the platform, electroencephalography (EEG) brainwaves of a human user were collected in real time during tasks of imaginary movements. First, the brainwaves associated with imagined body kinematics parameters were decoded to control a cursor on a computer screen in training protocol. Then, the experienced subject was able to interact with a social robot via our real-time BMI robotic platform. Corresponding to subject's imagery performance, he/she received specific gesture movements and eye color changes as neural-based feedback from the robot. This hands-free neurofeedback interaction not only can be used for mind control of a social robot's movements, but also sets the stage for application to enhancing and recovering mental abilities such as attention via training in humans by providing real-time neurofeedback from a social robot.",

keywords = "Brain Computer Interface, Human-robot interaction, Motor imagery, Neurofeedback, Robot control, Social robot",

author = "Reza Abiri and Soheil Borhani and Xiaopeng Zhao and Yang Jiang",

note = "Publisher Copyright: Copyright {\textcopyright} 2017 ASME.; ASME 2017 Dynamic Systems and Control Conference, DSCC 2017 ; Conference date: 11-10-2017 Through 13-10-2017",

year = "2017",

doi = "10.1115/DSCC2017-5128",

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booktitle = "Aerospace Applications; Advances in Control Design Methods; Bio Engineering Applications; Advances in Non-Linear Control; Adaptive and Intelligent Systems Control; Advances in Wind Energy Systems; Advances in Robotics; Assistive and Rehabilitation Robotics; Biomedical and Neural Systems Modeling, Diagnostics, and Control; Bio-Mechatronics and Physical Human Robot; Advanced Driver Assistance Systems and Autonomous Vehicles; Automotive Systems",

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Abiri, R, Borhani, S, Zhao, X & Jiang, Y 2017, Real-time brain machine interaction via social robot gesture control. En Aerospace Applications; Advances in Control Design Methods; Bio Engineering Applications; Advances in Non-Linear Control; Adaptive and Intelligent Systems Control; Advances in Wind Energy Systems; Advances in Robotics; Assistive and Rehabilitation Robotics; Biomedical and Neural Systems Modeling, Diagnostics, and Control; Bio-Mechatronics and Physical Human Robot; Advanced Driver Assistance Systems and Autonomous Vehicles; Automotive Systems. ASME 2017 Dynamic Systems and Control Conference, DSCC 2017, vol. 1, ASME 2017 Dynamic Systems and Control Conference, DSCC 2017, Tysons, United States, 10/11/17. https://doi.org/10.1115/DSCC2017-5128

Real-time brain machine interaction via social robot gesture control. / Abiri, Reza; Borhani, Soheil; Zhao, Xiaopeng et al.
Aerospace Applications; Advances in Control Design Methods; Bio Engineering Applications; Advances in Non-Linear Control; Adaptive and Intelligent Systems Control; Advances in Wind Energy Systems; Advances in Robotics; Assistive and Rehabilitation Robotics; Biomedical and Neural Systems Modeling, Diagnostics, and Control; Bio-Mechatronics and Physical Human Robot; Advanced Driver Assistance Systems and Autonomous Vehicles; Automotive Systems. 2017. (ASME 2017 Dynamic Systems and Control Conference, DSCC 2017; Vol. 1).

Producción científica: Conference contribution › revisión exhaustiva

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AU - Abiri, Reza

AU - Borhani, Soheil

AU - Zhao, Xiaopeng

AU - Jiang, Yang

PY - 2017

Y1 - 2017

N2 - Brain-Machine Interaction (BMI) system motivates interesting and promising results in forward/feedback control consistent with human intention. It holds great promise for advancements in patient care and applications to neurorehabilitation. Here, we propose a novel neurofeedbackbased BCI robotic platform using a personalized social robot in order to assist patients having cognitive deficits through bilateral rehabilitation and mental training. For initial testing of the platform, electroencephalography (EEG) brainwaves of a human user were collected in real time during tasks of imaginary movements. First, the brainwaves associated with imagined body kinematics parameters were decoded to control a cursor on a computer screen in training protocol. Then, the experienced subject was able to interact with a social robot via our real-time BMI robotic platform. Corresponding to subject's imagery performance, he/she received specific gesture movements and eye color changes as neural-based feedback from the robot. This hands-free neurofeedback interaction not only can be used for mind control of a social robot's movements, but also sets the stage for application to enhancing and recovering mental abilities such as attention via training in humans by providing real-time neurofeedback from a social robot.

AB - Brain-Machine Interaction (BMI) system motivates interesting and promising results in forward/feedback control consistent with human intention. It holds great promise for advancements in patient care and applications to neurorehabilitation. Here, we propose a novel neurofeedbackbased BCI robotic platform using a personalized social robot in order to assist patients having cognitive deficits through bilateral rehabilitation and mental training. For initial testing of the platform, electroencephalography (EEG) brainwaves of a human user were collected in real time during tasks of imaginary movements. First, the brainwaves associated with imagined body kinematics parameters were decoded to control a cursor on a computer screen in training protocol. Then, the experienced subject was able to interact with a social robot via our real-time BMI robotic platform. Corresponding to subject's imagery performance, he/she received specific gesture movements and eye color changes as neural-based feedback from the robot. This hands-free neurofeedback interaction not only can be used for mind control of a social robot's movements, but also sets the stage for application to enhancing and recovering mental abilities such as attention via training in humans by providing real-time neurofeedback from a social robot.

KW - Brain Computer Interface

KW - Human-robot interaction

KW - Motor imagery

KW - Neurofeedback

KW - Robot control

KW - Social robot

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BT - Aerospace Applications; Advances in Control Design Methods; Bio Engineering Applications; Advances in Non-Linear Control; Adaptive and Intelligent Systems Control; Advances in Wind Energy Systems; Advances in Robotics; Assistive and Rehabilitation Robotics; Biomedical and Neural Systems Modeling, Diagnostics, and Control; Bio-Mechatronics and Physical Human Robot; Advanced Driver Assistance Systems and Autonomous Vehicles; Automotive Systems

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Abiri R, Borhani S, Zhao X, Jiang Y. Real-time brain machine interaction via social robot gesture control. En Aerospace Applications; Advances in Control Design Methods; Bio Engineering Applications; Advances in Non-Linear Control; Adaptive and Intelligent Systems Control; Advances in Wind Energy Systems; Advances in Robotics; Assistive and Rehabilitation Robotics; Biomedical and Neural Systems Modeling, Diagnostics, and Control; Bio-Mechatronics and Physical Human Robot; Advanced Driver Assistance Systems and Autonomous Vehicles; Automotive Systems. 2017. (ASME 2017 Dynamic Systems and Control Conference, DSCC 2017). doi: 10.1115/DSCC2017-5128

Real-time brain machine interaction via social robot gesture control

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Serie de la publicación

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Nota bibliográfica

Financiación

ASJC Scopus subject areas

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