- BCI GAME-BASED REHABILITATION SYSTEM COMBINE FUNCTIONAL ELECTRICAL STIMULATION AND BRAIN-COMPUTER INTERFACE TECHNIQUE TO MAXIMIZE ACTIVATION OF MIRROR NERVE CELL AND ITS CONTROL METHOD
INDUSTRY ACADEMIC COOPERATION FOUNDATION KEIMYUNG UNIVERSITY;계명대학교 산학협력단
发明人:
구정훈,KU JEONGHUN
申请号:
KR1020180052154
公开号:
KR1020190127489A
申请日:
2018.05.04
申请国别(地区):
KR
年份:
2019
代理人:
摘要:
The present invention relates to a game-type rehabilitation system that combines functional electrical stimulation to maximize activation of mirror nerve cells and brain-computer interface (BCI) technology, and more specifically, to a rehabilitation system, a display device for displaying a game image, EEG acquisition device for acquiring the EEG of the user corresponding to the game image displayed on the display device, EEG analysis device for analyzing the EEG of the user acquired by the EEG acquisition device, Electricity to give a functional electrical stimulation to the user rehabilitation needs site And a control device for controlling the game image displayed on the display device and the electric stimulation device according to a stimulation device and a result corresponding to the brain waves analyzed by the EEG analysis device, wherein the control device is configured to control the game image. You can control one or more body parts of the displayed objects to blink at specific frequencies. When the user observes the corresponding body part of the object displayed on the game image, the electronic device acquires the functional information to the rehabilitation necessity site of the user according to a result obtained by the EEG acquisition device and the EEG analysis device and corresponding to the analyzed EEG. It can be controlled to move by giving a stimulus, it characterized in that the configuration can be controlled to move the corresponding body part of the object displayed on the game image in a predetermined manner. In addition, the present invention relates to a control method of a game-type rehabilitation system that combines functional electrical stimulation and brain-computer interface (BCI) technology to maximize the activation of mirror nerve cells, and more specifically, as a control method of the rehabilitation system, (1) displaying, by the display device, a game image; (2) acquiring an EEG of the user corresponding to the game image di
