TY - BOOK ID - 67121056 TI - Information processing by neuronal populations AU - HoĢlscher, Christian AU - Munk, Matthias PY - 2009 SN - 9780521873031 0521873037 9781107411296 9780511541650 051143782X 9780511437823 9780511438493 0511438494 0511541651 1107197872 9781107197879 1281903744 9781281903747 9786611903749 6611903747 0511436378 9780511436376 0511435576 9780511435577 0511437153 9780511437151 1107411297 PB - Cambridge : Cambridge University Press, DB - UniCat KW - Neural networks (Neurobiology) KW - Neural circuitry KW - Neurons KW - Brain KW - physiology KW - Physiology KW - Neural circuitry. KW - Circuitry, Neural KW - Circuits, Neural KW - Nerve net KW - Nerve network KW - Neural circuits KW - Neurocircuitry KW - Neuronal circuitry KW - Electrophysiology KW - Nervous system KW - Reflexes KW - Biological neural networks KW - Nets, Neural (Neurobiology) KW - Networks, Neural (Neurobiology) KW - Neural nets (Neurobiology) KW - Cognitive neuroscience KW - Neurobiology KW - Neurons - physiology KW - Brain - Physiology UR - https://www.unicat.be/uniCat?func=search&query=sysid:67121056 AB - Models and concepts of brain function have always been guided and limited by the available techniques and data. This book brings together a multitude of data from different backgrounds. It addresses questions such as: how do different brain areas interact in the process of channelling information? How do neuronal populations encode the information? How are networks formed and separated or associated with other networks? The authors present data at the single cell level both in vitro and in vivo, at the neuronal population level in vivo comparing field potentials (EEGs) in different brain areas, and also present data from spike recordings from identified neuronal populations during the performance of different tasks. Written for academic researchers and graduate students, the book strives to cover the range of single cell activity analysis to the observation of network activity, and finally to brain area activity and cognitive processes of the brain. ER -