Conggai Li scite author profile

Epilepsy is a chronic non-communicable disorder of the brain that affects individuals of all ages. It is caused by a sudden abnormal discharge of brain neurons leading to temporary dysfunction. In this regard, if seizures could be predicted a reasonable period of time before their occurrence, epilepsy patients could take precautions against them and improve their safety and quality of life. However, the potential that permutation entropy(PE) can be applied in human epilepsy prediction from intracranial electroencephalogram (iEEG) recordings remains unclear. Here, we described the novel application of PE to track the dynamical changes of human brain activity from iEEG recordings for the epileptic seizure prediction. The iEEG signals of 19 patients were obtained from the Epilepsy Centre at the University Hospital of Freiburg. After preprocessing, PE was extracted in a sliding time window, and a support vector machine (SVM) was employed to discriminate cerebral state. Then a two-step post-processing method was applied for the purpose of prediction. The results showed that we obtained an average sensitivity (SS) of 94% and false prediction rates (FPR) with 0.111 h−1. The best results with SS of 100% and FPR of 0 h−1 were achieved for some patients. The average prediction horizon was 61.93 min, leaving sufficient treatment time before a seizure. These results indicated that applying PE as a feature to extract information and SVM for classification could predict seizures, and the presented method shows great potential in clinical seizure prediction for human.

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Robust Beamforming Design for Max–Min SINR in MIMO Interference Channels

Jiang

et al. 2016

IEEE Commun. Lett.

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DoF Achieving Propagation Delay Aligned Structure for $K \times 2$ X Channels

Liu

Jiang

et al. 2017

IEEE Commun. Lett.

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Conggai Li

The detection of epileptic seizure signals based on fuzzy entropy

Finding Critical Users in Social Communities: The Collapsed Core and Truss Problems

Epileptic Seizure Prediction Based on Permutation Entropy

Robust Beamforming Design for Max–Min SINR in MIMO Interference Channels

DoF Achieving Propagation Delay Aligned Structure for $K \times 2$ X Channels

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