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Driving fatigue detecting method based on phase-locked value established brain function network

A brain function network, phase locking technology, applied in diagnostic recording/measurement, medical science, sensors, etc., can solve problems such as insufficient accuracy, forged signals, easy to generate false alarms, etc., to achieve high reliability and accuracy.

Inactive Publication Date: 2019-05-21
WUYI UNIV
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Problems solved by technology

[0008] However, the above-mentioned driving fatigue detection method has the following deficiencies: the fatigue detection method based on facial features is easily affected by the environment, brightness, angle and other uncontrollable factors still limit the performance of the algorithm to a certain extent, facial features based on computer vision The extraction method is very easy to accept and be deceived by artificially forged signals; the driving behavior method is powerless to non-standard roads, the accuracy is not enough, and it is easy to generate false positives; in the detection method based on physiological information, EEG can directly reflect For information such as human physical activity and mental state, the brain realizes information interaction through the interconnection and cluster work of different regions. The regional cooperation is completed, but the driving fatigue detection method based on power spectrum and entropy does not involve the regional information of the brain, so it is impossible to comprehensively and systematically study the mechanism of driving fatigue

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  • Driving fatigue detecting method based on phase-locked value established brain function network
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  • Driving fatigue detecting method based on phase-locked value established brain function network

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Embodiment

[0047] The present embodiment provides a method for detecting driving fatigue based on a phase-locked value to construct a brain function network, which is characterized in that it comprises the following steps:

[0048] S1. Use the EEG signal acquisition equipment to collect the EEG signals of the subjects when driving during the awake time and the test time; the position of each electrode in the EEG signal acquisition equipment is used as a brain function network node, and the number of electrodes is The number of nodes N;

[0049] S2. Denoising the EEG signal to improve the signal-to-noise ratio of the EEG signal;

[0050] S3. Decompose and reconstruct the EEG signal after denoising processing, and reconstruct three sub-band waveforms according to the frequency range, in which theta wave frequency is 4-8Hz, the alpha wave frequency is 8-13Hz, and the beta wave frequency is 13- 30Hz;

[0051] S4. Each brain function network node in the reconstructed signal is regarded as a...

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Abstract

The invention relates to the field of driving fatigue detection, in particular to a driving fatigue detecting method based on a phase-locked value established brain function network. The method includes the steps of collecting EEG signals during driving within the wake time and test time, denoising, decomposing and reestablishing the EEG signals, calculating the phase-locked value (PLV) in the sequence of the wake time and test time for every two channels, forming a functional connection matrix of the channels in the sequence of the wake time and test time according to the PLV, setting a connecting strength threshold, comparing the connecting strength threshold with each element value in the functional connection matrix to obtain the connection relation between the channels in the sequenceof the wake time and test time and form a brain function network of a testee in the sequence of the wake time and test time, and analyzing the difference of the brain functional network topological structure in the sequence of the wake time and test time on three sub-bands through comparison to judge whether the driving fatigue state is realized in the sequence of the test time or not. The detection reliability and accuracy are high.

Description

technical field [0001] The present invention relates to the field of driving fatigue detection, more specifically, to a driving fatigue detection method for constructing a brain function network based on phase locking values. Background technique [0002] Many countries have attached great importance to the research on detection methods related to driving fatigue. The initial research mainly started from the medical aspect, using medical equipment to study people's mental state. At the beginning of the nineteenth century, the United States was the first to investigate the rationality of the regulation on the service time of motor vehicle drivers. Afterwards, studies on driving fatigue have been carried out one after another. After years of development, the research on driving fatigue detection methods can be roughly divided into three categories: detection methods based on facial features, detection methods based on driving behavior, and detection methods based on physiolog...

Claims

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Application Information

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IPC IPC(8): A61B5/18A61B5/0476A61B5/0478
CPCA61B5/18A61B5/291A61B5/369
Inventor 王洪涛刘旭程吴聪唐聪裴子安岳洪伟陈鹏李俊华
Owner WUYI UNIV
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