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An Efficient Sleep Spindle Detection Algorithm Based on MP and LSBoost

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摘要 Sleep spindles are an electroencephalogram(EEG)biomarker of non-rapid eye movement(NREM)sleep and have important implications for clinical diagnosis and prognosis.However,it is challenging to accurately detect sleep spindles due to the complexity of the human brain and the uncertainty of neural mechanisms.To improve the reliability and objectivity of sleep spindle detection and to compensate for the limitations of manual annotation,this study proposes a new automatic detection algorithm based on Matching Pursuit(MP)and Least Squares Boosting(LSBoost),where the automatic sleep spindle detection algorithm can help reduce the visual annotation workload of sleep clinicians.Specifically,MP is a time-frequency analysis method suitable for extracting spindle wave characteristics,which can accurately locate spindle waves on a time-frequency plane.LSBoost is an ensemble learning classification method to deal with unbalanced data.Initially,theMP method is used to search for EEG segments that are possible spindle waves from the filtered raw EEG data.Then,the designed feature segments are thrown into the LSBoost classifier to further identify the real spindles from all candidates and output the final results.The proposed method is verified on the common public dataset DREAMS.The experiment results showthat the sensitivity and F1-scores based on the sample-based assessments achieve 68.2% and 55.4%,respectively.Furthermore,the Recall and F1-score based on the event assessments are 83.8% and 70.8%,respectively.These results show that the proposed algorithm is robust to the subject changes in the DREAMS dataset.In addition,it improves the quality of sleep spindle detection,which is expected to assist the manual marking of experts.
出处 《Computers, Materials & Continua》 SCIE EI 2023年第8期2301-2316,共16页 计算机、材料和连续体(英文)
基金 funded by the Guangdong Basic and Applied Basic Research Foundation(Grant Nos.2021A1515011853 and 2020A1515110294) the National Natural Science Foundation of China(Grant Nos.61906019 and 62076103) STI 2030-Major Projects 2022ZD0208900 Guangzhou Science and Technology Plan Project(Grant No.202102020877) the Guangzhou Science and Technology Plan Project Key Field R&D Project(202007030005).
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