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Functional neuroscience
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ISBN: 9780444529312 0444529314 9780444516978 0444516972 Year: 2006 Publisher: Amsterdam Elsevier

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An introduction to the event-related potential technique
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ISBN: 0262122774 0262621967 9780262122771 9780262621960 0262316242 Year: 2005 Publisher: Cambridge, Massachusetts : MIT Press,

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An introduction to the event-related potential technique
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ISBN: 0262324059 9780262324052 9780262525855 0262525852 0262324067 Year: 2014 Publisher: Cambridge : The MIT Press,

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Outside back cover : "The event-related potential (ERP) technique, in which neural responses to specific events are extracted from the EEG, provides a powerful noninvasive tool for exploring the human brain. This volume describes practical methods for ERP research along with the underlying theoretical rationale. It offers researchers and students an essential guide to designing, conducting, and analyzing ERP experiments. This second edition has been completely updated, with additional material, new chapters, and more accessible explanations. Freely available supplementary material, including several online-only chapters, offer expanded or advanced treatment of selected topics. The first half of the book presents essential background information, describing the origins of ERPs, the nature of ERP components, and the design of ERP experiments. The second half of the book offers a detailed treatment of the main steps involved in conducting ERP experiments, covering such topics as recording the EEG, filtering the EEG and ERP waveforms, and quantifying amplitudes and latencies. Throughout, the emphasis is on rigorous experimental design and relatively simple analyses. New material in the second edition includes entire chapters devoted to components, artifacts, measuring amplitudes and latencies, and statistical analysis; updated coverage of recording technologies; concrete examples of experimental design; and many more figures. Online chapters cover such topics as overlap, localization, writing and reviewing ERP papers, and setting up and running an ERP lab."


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Computational Modeling of Neural Activities for Statistical Inference
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ISBN: 3319322842 3319322850 Year: 2016 Publisher: Cham : Springer International Publishing : Imprint: Springer,

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This authored monograph supplies empirical evidence for the Bayesian brain hypothesis by modeling event-related potentials (ERP) of the human electroencephalogram (EEG) during successive trials in cognitive tasks. The employed observer models are useful to compute probability distributions over observable events and hidden states, depending on which are present in the respective tasks. Bayesian model selection is then used to choose the model which best explains the ERP amplitude fluctuations. Thus, this book constitutes a decisive step towards a better understanding of the neural coding and computing of probabilities following Bayesian rules. The target audience primarily comprises research experts in the field of computational neurosciences, but the book may also be beneficial for graduate students who want to specialize in this field. .


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Intraoperative neurophysiological monitoring
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ISBN: 1441974350 9786613087003 1441974369 1283087006 Year: 2010 Publisher: New York : Springer Science,

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The third edition of this classic text again provides practical, comprehensive coverage of the anatomical and physiological basis for intraoperative neurophysiological monitoring. Written by a leading authority in the field, Dr. Aage Moller has updated this important title to again offer all the leading-edge knowledge needed to perform electrophysiological recordings in the operating room, to interpret the results, and to present the results to the surgeon. The field known as "intraoperative monitoring" has expanded rapidly to cover other uses of neurophysiology and electrophysiologic recordings during surgical operations that affect the brain, spinal cord, and other parts of the nervous system. These new areas are covered in this new edition. To better represent the content of the book and the field as it now stands, many of the chapters have been revised and new material has been added. While the general organization of the book is maintained, chapters such as monitoring of motor systems have been revised and extended with new material, including more detailed description of the anatomy and physiology of motor systems and new information about intraoperative monitoring.

Keywords

Evoked potentials (Electrophysiology). --- Evoked Potentials. --- Monitoring, Intraoperative. --- Neurophysiologic monitoring. --- Neurophysiology. --- Neurophysiologic monitoring --- Evoked potentials (Electrophysiology) --- Surgical Procedures, Operative --- Physiology --- Neurosciences --- Diagnostic Techniques and Procedures --- Electrophysiological Phenomena --- Monitoring, Physiologic --- Nervous System Physiological Phenomena --- Diagnosis --- Biological Science Disciplines --- Musculoskeletal and Neural Physiological Phenomena --- Analytical, Diagnostic and Therapeutic Techniques and Equipment --- Physiological Phenomena --- Natural Science Disciplines --- Phenomena and Processes --- Disciplines and Occupations --- Evoked Potentials --- Monitoring, Intraoperative --- Neurophysiology --- Diagnostic Techniques, Neurological --- Neurosurgical Procedures --- Surgery & Anesthesiology --- Health & Biological Sciences --- Surgery - General and By Type --- Cortical evoked potentials --- Event-related brain potentials --- Event-related potentials (Electrophysiology) --- Evoked cortical potentials --- Intraoperative neurophysiologic monitoring --- Monitoring, Intraoperative neurophysiologic --- Monitoring, Neurophysiologic --- Monitoring, Neurophysiologic intraoperative --- Neurophysiologic intraoperative monitoring --- Medicine. --- Neurosurgery. --- Medicine & Public Health. --- Electroencephalography --- Electrophysiology --- Intraoperative monitoring --- Nerves --- Neurosurgery --- Surgery


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The Oxford handbook of event-related potential components
Authors: ---
ISBN: 9780195374148 0195374142 9780199328048 Year: 2013 Publisher: Oxford ; New York, NY : Oxford University Press,

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Evoked potentials (Electrophysiology) --- Potentiels évoqués (Electrophysiologie) --- Evoked Potentials. --- Cortical evoked potentials --- Event-related brain potentials --- Event-related potentials (Electrophysiology) --- Evoked cortical potentials --- Electroencephalography --- Electrophysiology --- N1 Wave --- N100 Evoked Potentials --- N2 Wave --- N200 Evoked Potentials --- N3 Wave --- N300 Evoked Potentials --- N4 Wave --- N400 Evoked Potentials --- P2 Wave --- P200 Evoked Potentials --- P50 Evoked Potentials --- P50 Wave --- P600 Evoked Potentials --- Potentials, Event-Related --- Event-Related Potentials --- Event Related Potentials --- Event-Related Potential --- Evoked Potential --- Evoked Potential, N100 --- Evoked Potential, N200 --- Evoked Potential, N300 --- Evoked Potential, N400 --- Evoked Potential, P200 --- Evoked Potential, P50 --- Evoked Potential, P600 --- Evoked Potentials, N100 --- Evoked Potentials, N200 --- Evoked Potentials, N300 --- Evoked Potentials, N400 --- Evoked Potentials, P200 --- Evoked Potentials, P50 --- Evoked Potentials, P600 --- N1 Waves --- N100 Evoked Potential --- N2 Waves --- N200 Evoked Potential --- N3 Waves --- N300 Evoked Potential --- N4 Waves --- N400 Evoked Potential --- P2 Waves --- P200 Evoked Potential --- P50 Evoked Potential --- P50 Waves --- P600 Evoked Potential --- Potential, Event-Related --- Potential, Evoked --- Potentials, Event Related --- Potentials, Evoked --- Potentials, N400 Evoked --- Wave, N1 --- Wave, N2 --- Wave, N3 --- Wave, N4 --- Wave, P2 --- Wave, P50 --- Waves, N1 --- Waves, N2 --- Waves, N3 --- Waves, N4 --- Waves, P2 --- Waves, P50 --- Cortical Synchronization --- Electroencephalography Phase Synchronization --- Evoked potentials (Electrophysiology). --- Potentiels évoqués (Electrophysiologie) --- Potentiels évoqués (électrophysiologie)

EEG signal processing
Authors: ---
ISBN: 9780470025819 0470025816 Year: 2007 Publisher: Chichester, England Hoboken, NJ : John Wiley & Sons,

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The book begins with an introductory chapter discussing the significance of EEG signal analysis and processing and provides some simple examples. A useful theoretical and mathematical background for analysis and processing of the EEG signals is developed within the next chapter and the mathematical tools to be applied in the rest of the book are covered. Impressions from the EEG are next discussed, including normal and abnormal EEGs and the neurological symptoms diagnosed. The representations of the EEGs are illustrated, showing EEGs in various domains together with two-dimensional maps of the brain. Theoretical approaches in EEG modeling are reviewed, such as restoration, enhancement, segmentation, and the removal of different internal and external artifacts from the EEG and ERP signals. The following chapters review seizure detection and prediction, including chaotic behavior of the EEG sources. Symptoms for a number of well-known illnesses such as dementia, schizophrenia, and Alzheimers diseases found from the EEG and ERPs are explained. The concluding chapters review the monitoring and diagnosis of stages of psychiatric disorders using noninvasive techniques such as from the EEG/ERP, and a number of high potential future topics for research in the area of EEG signal processing are discussed. (Publisher).

Keywords

Electroencephalography --- Evoked Potentials --- Signal Processing, Computer-Assisted --- Signal processing --- Electroencéphalographie --- Traitement du signal --- methods --- Electroencephalography. --- Signal processing. --- Evoked Potentials. --- Signal Processing, Computer-Assisted. --- methods. --- Methods. --- Electroencéphalographie --- Evoked potentials (Electrophysiology) --- Electroencephalogram --- EEG --- Electroencephalograms --- Cerebral Cortex --- N1 Wave --- N100 Evoked Potentials --- N2 Wave --- N200 Evoked Potentials --- N3 Wave --- N300 Evoked Potentials --- N4 Wave --- N400 Evoked Potentials --- P2 Wave --- P200 Evoked Potentials --- P50 Evoked Potentials --- P50 Wave --- P600 Evoked Potentials --- Potentials, Event-Related --- Event Related Potential --- Event-Related Potentials --- Evoked Potential --- N100 Evoked Potential --- P50 Evoked Potential --- Event Related Potentials --- Event-Related Potential --- Evoked Potential, N100 --- Evoked Potential, N200 --- Evoked Potential, N300 --- Evoked Potential, N400 --- Evoked Potential, P200 --- Evoked Potential, P50 --- Evoked Potential, P600 --- Evoked Potentials, N100 --- Evoked Potentials, N200 --- Evoked Potentials, N300 --- Evoked Potentials, N400 --- Evoked Potentials, P200 --- Evoked Potentials, P50 --- Evoked Potentials, P600 --- N1 Waves --- N2 Waves --- N200 Evoked Potential --- N3 Waves --- N300 Evoked Potential --- N4 Waves --- N400 Evoked Potential --- P2 Waves --- P200 Evoked Potential --- P50 Waves --- P600 Evoked Potential --- Potential, Event Related --- Potential, Event-Related --- Potential, Evoked --- Potentials, Event Related --- Potentials, Evoked --- Potentials, N400 Evoked --- Related Potential, Event --- Related Potentials, Event --- Wave, N1 --- Wave, N2 --- Wave, N3 --- Wave, N4 --- Wave, P2 --- Wave, P50 --- Waves, N1 --- Waves, N2 --- Waves, N3 --- Waves, N4 --- Waves, P2 --- Waves, P50 --- Cortical Synchronization --- Electroencephalography Phase Synchronization --- Digital Signal Processing --- Signal Interpretation, Computer-Assisted --- Signal Processing, Digital --- Computer-Assisted Signal Interpretation --- Computer-Assisted Signal Interpretations --- Computer-Assisted Signal Processing --- Interpretation, Computer-Assisted Signal --- Interpretations, Computer-Assisted Signal --- Signal Interpretation, Computer Assisted --- Signal Interpretations, Computer-Assisted --- Signal Processing, Computer Assisted --- Fetal Monitoring --- Monitoring, Physiologic --- Data Compression --- Cortical evoked potentials --- Event-related brain potentials --- Event-related potentials (Electrophysiology) --- Evoked cortical potentials --- Electrophysiology --- Processing, Signal --- Information measurement --- Signal theory (Telecommunication) --- Encephalography --- Brain --- Electrodiagnosis --- Visual evoked response --- Diseases --- Diagnosis

Event-related potentials: a methods handbook
Author:
ISBN: 0262083337 9780262083331 Year: 2005 Publisher: Cambridge (Mass.) MIT Press

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Evoked Potentials. --- Data Collection --- Electrophysiology --- Research Design. --- Evoked potentials (Electrophysiology) --- Potentiels évoqués (Electrophysiologie) --- methods. --- Handbooks, manuals, etc. --- Guides, manuels, etc. --- Data Adjustment --- Data Reporting --- Design, Experimental --- Designs, Experimental --- Error Sources --- Experimental Designs --- Matched Groups --- Methodology, Research --- Problem Formulation --- Research Methodology --- Research Proposal --- Research Technics --- Research Techniques --- Scoring Methods --- Experimental Design --- Adjustment, Data --- Adjustments, Data --- Data Adjustments --- Design, Research --- Designs, Research --- Error Source --- Formulation, Problem --- Formulations, Problem --- Group, Matched --- Groups, Matched --- Matched Group --- Method, Scoring --- Methods, Scoring --- Problem Formulations --- Proposal, Research --- Proposals, Research --- Reporting, Data --- Research Designs --- Research Proposals --- Research Technic --- Research Technique --- Scoring Method --- Source, Error --- Sources, Error --- Technic, Research --- Technics, Research --- Technique, Research --- Techniques, Research --- Research --- Clinical Trials Data Monitoring Committees --- Cortical evoked potentials --- Event-related brain potentials --- Event-related potentials (Electrophysiology) --- Evoked cortical potentials --- Electroencephalography --- N1 Wave --- N100 Evoked Potentials --- N2 Wave --- N200 Evoked Potentials --- N3 Wave --- N300 Evoked Potentials --- N4 Wave --- N400 Evoked Potentials --- P2 Wave --- P200 Evoked Potentials --- P50 Evoked Potentials --- P50 Wave --- P600 Evoked Potentials --- Potentials, Event-Related --- Event-Related Potentials --- Event Related Potentials --- Event-Related Potential --- Evoked Potential --- Evoked Potential, N100 --- Evoked Potential, N200 --- Evoked Potential, N300 --- Evoked Potential, N400 --- Evoked Potential, P200 --- Evoked Potential, P50 --- Evoked Potential, P600 --- Evoked Potentials, N100 --- Evoked Potentials, N200 --- Evoked Potentials, N300 --- Evoked Potentials, N400 --- Evoked Potentials, P200 --- Evoked Potentials, P50 --- Evoked Potentials, P600 --- N1 Waves --- N100 Evoked Potential --- N2 Waves --- N200 Evoked Potential --- N3 Waves --- N300 Evoked Potential --- N4 Waves --- N400 Evoked Potential --- P2 Waves --- P200 Evoked Potential --- P50 Evoked Potential --- P50 Waves --- P600 Evoked Potential --- Potential, Event-Related --- Potential, Evoked --- Potentials, Event Related --- Potentials, Evoked --- Potentials, N400 Evoked --- Wave, N1 --- Wave, N2 --- Wave, N3 --- Wave, N4 --- Wave, P2 --- Wave, P50 --- Waves, N1 --- Waves, N2 --- Waves, N3 --- Waves, N4 --- Waves, P2 --- Waves, P50 --- Cortical Synchronization --- Electroencephalography Phase Synchronization --- methods --- Potentiels évoqués (Electrophysiologie)

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