Dynamics of Neural Networks: A Mathematical and Clinical Approach
Autor Michel J.A.M. van Puttenen Limba Engleză Hardback – 19 dec 2020
The book is based on a graduate course taught by clinicians and mathematicians at the Institute of Technical Medicine at the University of Twente. Throughout the text, the author presents examples of neurological disorders in relation to applied mathematics to assist in disclosing various fundamental properties of the clinical reality at hand. Exercises are provided at the end of each chapter; answers are included.
Basic knowledge of calculus, linear algebra, differential equations and familiarity with MATLAB or Python is assumed. Also, students should have some understanding of essentials of (clinical) neurophysiology, although most concepts are summarized in the first chapters. The audience includes advanced undergraduate or graduate students in Biomedical Engineering, Technical Medicine and Biology. Applied mathematicians may find pleasure in learning about the neurophysiology and clinic essentials applications. In addition, clinicians with an interest in dynamics of neural networks may find this book useful, too.
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Specificații
ISBN-13: 9783662611821
ISBN-10: 3662611821
Pagini: 259
Ilustrații: XVII, 259 p. 138 illus., 40 illus. in color.
Dimensiuni: 155 x 235 x 23 mm
Greutate: 0.57 kg
Ediția:1st ed. 2020
Editura: Springer Berlin, Heidelberg
Colecția Springer
Locul publicării:Berlin, Heidelberg, Germany
ISBN-10: 3662611821
Pagini: 259
Ilustrații: XVII, 259 p. 138 illus., 40 illus. in color.
Dimensiuni: 155 x 235 x 23 mm
Greutate: 0.57 kg
Ediția:1st ed. 2020
Editura: Springer Berlin, Heidelberg
Colecția Springer
Locul publicării:Berlin, Heidelberg, Germany
Cuprins
Part I Physiology of neurons and synapses: Electrophysiology of the Neuron.- Synapses.- Part II Dynamics: Dynamics in one-dimension.- Dynamics in two-dimensional systems.- Part III Networks: Prototype neural networks.- Part IV The electroencephalogram: Basics of the EEG.- Neural mass modeling of the EEG.- Part V Pathology: Hypoxia and neuronal function.- Seizures and Epilepsy.- Part VI Neurostimulation: Neurostimulation.- Epilogue.
Recenzii
“The book is for sure a valuable contribution to make understandable the concepts of neurophysiology, it’s connection to applied mathematics and the benefits of theoretical achievements for application to clinical problems.” (Claudia simionescu-Badea, zbMATH 1482.92005, 2022)
Notă biografică
Michel van Putten studied Medicine in Leiden and Applied Physics in Delft. In 2000, he got his Ph.D. in Applied Physics from Delft, and registered as a neurologist/clinical neurophysiologist.
Michel van Putten is heading the Department of Clinical Neurophysiology of the Medisch Spectrum Twente, a large teaching hospital, and he chairs the Clinical Neurophysiology (CNPH) group at the University of Twente (utwente.nl).He is co-Founder of Clinical Science Systems, a company that develops clinical EEG software. His research involves the pathophysiology of epilepsy, ischaemia, brain monitoring in the ICU and fundamentals of EEG generation.
Michel van Putten is heading the Department of Clinical Neurophysiology of the Medisch Spectrum Twente, a large teaching hospital, and he chairs the Clinical Neurophysiology (CNPH) group at the University of Twente (utwente.nl).He is co-Founder of Clinical Science Systems, a company that develops clinical EEG software. His research involves the pathophysiology of epilepsy, ischaemia, brain monitoring in the ICU and fundamentals of EEG generation.
Textul de pe ultima copertă
This book treats essentials from neurophysiology (Hodgkin–Huxley equations, synaptic transmission, prototype networks of neurons) and related mathematical concepts (dimensionality reductions, equilibria, bifurcations, limit cycles and phase plane analysis). This is subsequently applied in a clinical context, focusing on EEG generation, ischaemia, epilepsy and neurostimulation.
The book is based on a graduate course taught by clinicians and mathematicians at the Institute of Technical Medicine at the University of Twente. Throughout the text, the author presents examples of neurological disorders in relation to applied mathematics to assist in disclosing various fundamental properties of the clinical reality at hand. Exercises are provided at the end of each chapter; answers are included.
Basic knowledge of calculus, linear algebra, differential equations and familiarity with MATLAB or Python is assumed. Also, students should have some understanding of essentials of (clinical) neurophysiology, although most concepts are summarized in the first chapters. The audience includes advanced undergraduate or graduate students in Biomedical Engineering, Technical Medicine and Biology. Applied mathematicians may find pleasure in learning about the neurophysiology and clinic essentials applications. In addition, clinicians with an interest in dynamics of neural networks may find this book useful, too.
The book is based on a graduate course taught by clinicians and mathematicians at the Institute of Technical Medicine at the University of Twente. Throughout the text, the author presents examples of neurological disorders in relation to applied mathematics to assist in disclosing various fundamental properties of the clinical reality at hand. Exercises are provided at the end of each chapter; answers are included.
Basic knowledge of calculus, linear algebra, differential equations and familiarity with MATLAB or Python is assumed. Also, students should have some understanding of essentials of (clinical) neurophysiology, although most concepts are summarized in the first chapters. The audience includes advanced undergraduate or graduate students in Biomedical Engineering, Technical Medicine and Biology. Applied mathematicians may find pleasure in learning about the neurophysiology and clinic essentials applications. In addition, clinicians with an interest in dynamics of neural networks may find this book useful, too.
Caracteristici
Treats essentials of neurophysiology and related mathematical concepts Offers the mathematics of physiology in a clinical context Focusses on EEG generation, ischaemia, epilepsy, and neurostimulation Provides exercises at the end of each chapter and includes answers