03333nam 2200433 450 991047712970332120230326083602.0(CKB)5470000000568645(NjHacI)995470000000568645(EXLCZ)99547000000056864520230326h20102011 uy 0engur|||||||||||txtrdacontentcrdamediacrrdacarrierEpileptic Seizures and the EEG Measurement, models, detection and prediction /Andrea Varsavsky, Iven Mareels and Mark CookBoca Raton, Florida :Taylor & Francis,2010.©20111 online resource (xxi, 337) illustrationsEEG generation and measurement -- Signal processing in EEG analysis -- Classifying the EEG -- Seizure detection -- Modeling for epilepsy -- On the predictability of seizures.Analysis of medical data using engineering tools is a rapidly growing area, both in research and in industry, yet few texts exist that address the problem from an interdisciplinary perspective. Epileptic Seizures and the EEG: Measurement, Models, Detection and Prediction brings together biology and engineering practices and identifies the aspects of the field that are most important to the analysis of epilepsy. Analysis of EEG records The book begins by summarizing the physiology and the fundamental ideas behind the measurement, analysis and modeling of the epileptic brain. It introduces the EEG as a measured signal and explains its use in the study of epilepsy. Next, it provides an explanation of the type of brain activity likely to register in EEG measurements, offering quantitative analysis of the populations of neurons that contribute to both scalp and cortical EEG and discussing the limitations and effects that choices made in the recording process have on the data. The book provides an overview of how these EEG records are and have been analyzed in the past, concentrating on the mathematics relevant to the problem of classification of EEG. The authors use these extracted features to differentiate between or classify inter-seizure, pre-seizure and seizure EEG. The challenge of seizure prediction The book focuses on the problem of seizure detection and surveys the physiologically based dynamic models of brain activity. Finally, the book addresses the fundamental question: can seizures be predicted? Through analysis of epileptic activity spanning from 3 hours to 25 years, it is proposed that seizures may be predictable, but the amount of data required is greater than previously thought. Based on the authors' extensive research, the book concludes by exploring a range of future possibilities in seizure prediction.Epileptic Seizures and the EEG EpilepsyDiagnosisBiomedical engineeringElectroencephalographyEpilepsyDiagnosis.Biomedical engineering.Electroencephalography.616.853075Varsavsky Andrea1347834Cook MarkMareels IvenNjHacINjHaclBOOK9910477129703321Epileptic Seizures and the EEG3084627UNINA