Attentiveness training and evaluation device based on force tactile-sensation feedback and electroencephalic signal analysis

An EEG signal and tactile feedback technology, applied in the field of neurocognition, can solve the problems of low time resolution, large size, high cost, etc., and achieve the effect of improving the level of attention

Active Publication Date: 2018-01-12
BEIHANG UNIV
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Problems solved by technology

However, these studies are all based on functional magnetic resonance imaging, which is not suitable for popularization and application due to its high cost, large size, and low temporal resolution.

Method used

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  • Attentiveness training and evaluation device based on force tactile-sensation feedback and electroencephalic signal analysis
  • Attentiveness training and evaluation device based on force tactile-sensation feedback and electroencephalic signal analysis
  • Attentiveness training and evaluation device based on force tactile-sensation feedback and electroencephalic signal analysis

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Embodiment Construction

[0037] The present invention will be further described below in conjunction with the accompanying drawings and specific embodiments.

[0038] An attention training and evaluation device based on force-tactile feedback and EEG signal analysis, comprising a force-tactile training unit, an EEG recording unit and a control unit.

[0039] The force-tactile training unit is used to send the trainer's finger touch force data to the control unit.

[0040] The EEG recording unit is used to send the trainer's EEG signal to the control unit during the training process.

[0041] The control unit includes a training module, an evaluation module and a control module; the training module is used to store preset and self-designed training programs, and the training module includes two-finger, three-finger, and four-finger task types, and the training difficulty increases in turn. The control module invokes the training program and starts training. The evaluation module evaluates the data fed...

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Abstract

The invention discloses an attentiveness training and evaluation device based on force tactile-sensation feedback and electroencephalic signal analysis. The device includes a force tactile-sensation training unit, an electroencephalic recording unit and a control unit. The force tactile-sensation training unit is used to send finger touch force data of a trainee to the control unit. The electroencephalic recording unit is used to send electroencephalic signals of the trainee in a training process to the control unit. The control unit includes a training module, an evaluation module and a control module. The training module is used to store training modes. The evaluation module evaluates data fed back by the force tactile-sensation training unit and the electroencephalic recording unit. Thecontrol module adaptively adjusts training difficulty according to an evaluation result. A physiological index and a behavioral index which characterize an attentiveness level are obtained at the same time, the attentiveness level of the subject can be improved in a short term, an anastomosis degree between the obtained physiological index and behavioral index is very high, and the attentivenesslevel of the trainee can be reliably analyzed and evaluated.

Description

technical field [0001] The invention belongs to the field of neurocognition, and relates to a device for training attention through force-tactile feedback training and simultaneously collecting EEG signals to analyze the working nerve mechanism of the brain, specifically an attention training and evaluation based on force-tactile feedback and EEG signal analysis device. Background technique [0002] At present, the phenomenon of inattention among young people is becoming more and more serious. If this kind of phenomenon cannot be properly guided and trained, attention deficit syndrome (ADHD) will probably occur in the future. At present, there are many methods for attention training, such as video games, meditation training, cognitive experiments, neurofeedback, etc., but few involve tactile channels. At the same time, the traditional methods of measuring attention are mostly based on behavioral accuracy and reaction time, lacking the analysis of neurophysiological mechanis...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): G06F3/01
Inventor 张冀聪贾文笑
Owner BEIHANG UNIV
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