Handbook of Electroencephalography and Clinical Neurophysiology: Methods of Analysis of Brain Electrical and Magnetic Signals v. 1

This book presents a comprehensive, up-to-date discussion of the theoretical and practical aspects of all major types of computerized analysis of the mass electrical and magnetic signals of the brain. Its 19 chapters are authored by 17 of the world's leading authorities on these topics. Topics include introductions to computers and computer analysis, frequency analysis, epileptic spike detection, evoked potentials, stationary and nonstationary modeling, spatial analysis, source localization, magnetoencephalographic analysis, normative data bases, multivariate statistics, statistical pattern recognition, and analytical techniques used in the search for the physiological basis of the EEG. Each topic is self-contained and contains an extensive bibliography, intended to introduce neurologists, psychiatrists, neurophysiologists and other researchers to the issues involved in quantitative analysis, and the engineer and statistician to the practical problems of applying standard analytic methods to brain electrical and magnetic signals. The most advanced topics are covered in detail for the specialist. This is the first comprehensive, integrated handbook on this topic in over a decade.
 
This book presents a comprehensive, up-to-date discussion of the theoretical and practical aspects of all major types of computerized analysis of the mass electrical and magnetic signals of the brain. Its 19 chapters are authored by 17 of the world's leading authorities on these topics. Topics include introductions to computers and computer analysis, frequency analysis, epileptic spike detection, evoked potentials, stationary and nonstationary modeling, spatial analysis, source localization, magnetoencephalographic analysis, normative data bases, multivariate statistics, statistical pattern recognition, and analytical techniques used in the search for the physiological basis of the EEG. Each topic is self-contained and contains an extensive bibliography, intended to introduce neurologists, psychiatrists, neurophysiologists and other researchers to the issues involved in quantitative analysis, and the engineer and statistician to the practical problems of applying standard analytic methods to brain electrical and magnetic signals. The most advanced topics are covered in detail for the specialist. This is the first comprehensive, integrated handbook on this topic in over a decade.