Electroencephalography : From Basic Research to Clinical Applications
Nakano, Hideki
Electroencephalography : From Basic Research to Clinical Applications - IntechOpen 2021 - 1 electronic resource (164 p.)
Open Access
The development of non-invasive brain function measurement has enabled the knowledge that brain activity is the basis of human behavior and mental activity. Electroencephalography (EEG) is a method that measures the electrical nerve activity (primary signal) in the brain. EEG characteristics include high time resolution and low spatial resolution, but recently it has become possible to estimate the source of EEG signals due to advances in analysis and measurement techniques. Moreover, in the medical field, EEG is usually used as examination equipment, but it has been used as a rehabilitation tool to control human behavior and mental activity in recent years. This book outlines basic research and clinical applications of EEG.
Creative Commons
English
intechopen.87425 9781839682896 9781839682889 9781839682902
10.5772/intechopen.87425 doi
Physiology
Electroencephalography : From Basic Research to Clinical Applications - IntechOpen 2021 - 1 electronic resource (164 p.)
Open Access
The development of non-invasive brain function measurement has enabled the knowledge that brain activity is the basis of human behavior and mental activity. Electroencephalography (EEG) is a method that measures the electrical nerve activity (primary signal) in the brain. EEG characteristics include high time resolution and low spatial resolution, but recently it has become possible to estimate the source of EEG signals due to advances in analysis and measurement techniques. Moreover, in the medical field, EEG is usually used as examination equipment, but it has been used as a rehabilitation tool to control human behavior and mental activity in recent years. This book outlines basic research and clinical applications of EEG.
Creative Commons
English
intechopen.87425 9781839682896 9781839682889 9781839682902
10.5772/intechopen.87425 doi
Physiology