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An overview of deep learning techniques for epileptic seizures detection and prediction based on neuroimaging modalities: Methods, challenges, and future works
journal contributionposted on 2023-02-13, 05:27 authored by A Shoeibi, P Moridian, M Khodatars, N Ghassemi, M Jafari, Roohallah AlizadehsaniRoohallah Alizadehsani, Y Kong, JM Gorriz, J Ramírez, Abbas KhosraviAbbas Khosravi, Saeid Nahavandi, UR Acharya
Epilepsy is a disorder of the brain denoted by frequent seizures. The symptoms of seizure include confusion, abnormal staring, and rapid, sudden, and uncontrollable hand movements. Epileptic seizure detection methods involve neurological exams, blood tests, neuropsychological tests, and neuroimaging modalities. Among these, neuroimaging modalities have received considerable attention from specialist physicians. One method to facilitate the accurate and fast diagnosis of epileptic seizures is to employ computer-aided diagnosis systems (CADS) based on deep learning (DL) and neuroimaging modalities. This paper has studied a comprehensive overview of DL methods employed for epileptic seizures detection and prediction using neuroimaging modalities. First, DL-based CADS for epileptic seizures detection and prediction using neuroimaging modalities are discussed. Also, descriptions of various datasets, preprocessing algorithms, and DL models which have been used for epileptic seizures detection and prediction have been included. Then, research on rehabilitation tools has been presented, which contains brain-computer interface (BCI), cloud computing, internet of things (IoT), hardware implementation of DL techniques on field-programmable gate array (FPGA), etc. In the discussion section, a comparison has been carried out between research on epileptic seizure detection and prediction. The challenges in epileptic seizures detection and prediction using neuroimaging modalities and DL models have been described. In addition, possible directions for future works in this field, specifically for solving challenges in datasets, DL, rehabilitation, and hardware models, have been proposed. The final section is dedicated to the conclusion which summarizes the significant findings of the paper.
JournalComputers in Biology and Medicine
Article numberARTN 106053
PublisherPERGAMON-ELSEVIER SCIENCE LTD
Science & TechnologyLife Sciences & BiomedicineTechnologyBiologyComputer Science, Interdisciplinary ApplicationsEngineering, BiomedicalMathematical & Computational BiologyLife Sciences & Biomedicine - Other TopicsComputer ScienceEngineeringEpileptic seizuresNeuroimagingDeep learningDetectionPredictionRehabilitationCloud-computingCONVOLUTIONAL NEURAL-NETWORKSTEMPORAL-LOBE EPILEPSYEEG SIGNALSSCALP ELECTROENCEPHALOGRAMGENERALIZED EPILEPSYSTATISTICAL-ANALYSISTHERAPEUTIC DEVICESFEATURE-EXTRACTIONWAVELET TRANSFORMTIME-SERIESAlgorithmsDeep LearningElectroencephalographyEpilepsyHumansSeizuresNeurosciencesBrain DisordersNeurodegenerativeBioengineeringNeurologicalInformation and Computing SciencesMedical and Health Sciences