System and method for improving auditory steady-state response brain-computer interface performance

An auditory steady-state response, computer interface technology, applied in the field of brain-computer interface, can solve problems such as not involving transcranial direct current stimulation, and achieve the effect of improving the signal-to-noise ratio of auditory steady-state response and a wide range of applications

Active Publication Date: 2019-01-29
INST OF BIOMEDICAL ENG CHINESE ACAD OF MEDICAL SCI
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AI Technical Summary

Problems solved by technology

However, none of the above methods involve the modulation of the homeostatic response of transcranial direct current stimulation to the auditory state.

Method used

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  • System and method for improving auditory steady-state response brain-computer interface performance
  • System and method for improving auditory steady-state response brain-computer interface performance
  • System and method for improving auditory steady-state response brain-computer interface performance

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Embodiment Construction

[0030] Embodiments of the present invention will be described in further detail below in conjunction with the accompanying drawings.

[0031] A system for improving the performance of a brain-computer interface for auditory homeostatic responses, such as figure 1 As shown, including brain-computer interface system and transcranial electrical stimulation system. Among them, the brain-computer interface system uses three kinds of stimulation sounds of different frequencies to be output from the computer through the auditory stimulator and applied to the subjects through the air-conduction earphone, and collects the EEG signals generated by the auditory steady-state evoked potential, so as to realize a Three-target auditory homeostatic response to a brain-computer interface. The transcranial electrical stimulation system applies specific current transcranial electrical stimulation to the target area, thereby regulating the activity of the cerebral cortex to produce after effects...

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Abstract

The invention relates to a system and method for improving auditory steady-state response brain-computer interface performance. The system comprising a brain-Computer interface system and transcranialelectrical stimulation system; the brain-computer interface system comprises a computer, an auditory stimulator and an EEG signal acquisition module, Computers and Auditory Stimulators, EEG signal acquisition module is connected, the subjects received the stimulation sound from the auditory stimulator through the air-conductive headphones attached to both ears, EEG signal acquisition module is connected with that cerebral cortex of the subjects through EEG cap electrode. The auditory stimulator generates three different frequencies of stimulation, which are applied to the subjects through theair-conduction earphones. The transcranial electrical stimulation system applies specific electrical current to the target area of the subjects. The EEG signal acquisition module collects EEG signalsthrough the EEG cap electrode and transmits them to the computer for processing. The invention combines the transcranial electrical stimulation system into the brain-computer interface system, and improves the auditory steady-state response signal-to-noise ratio of the auditory steady-state response in the brain-computer interface, which brings convenience to practical applications.

Description

technical field [0001] The invention belongs to the technical field of brain-computer interface, in particular to a system and method for improving the performance of brain-computer interface in steady-state response of hearing. Background technique [0002] Brain-computer interface (brain-computer interface, BCI) provides users with a communication and control channel that does not depend on the normal output of the brain, and directly converts brain signals of brain activity into control commands for external devices such as computers. It is commonly used on communication media or transport aids for patients with severe neuromuscular disorders as well as severe movement disorders. [0003] At present, brain-computer interface has become a research hotspot. Eye movements in patients with locked-in syndrome will be affected to a certain extent, which in turn affects the application of visually evoked potential brain-computer interfaces. The brain-computer interface system ...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): G06F3/01A61N1/20
CPCA61N1/20G06F3/015
Inventor 陈小刚孟佳李坤
Owner INST OF BIOMEDICAL ENG CHINESE ACAD OF MEDICAL SCI
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