Principles of Computational Modelling in Neuroscience

By:

Sterratt, David

By:

Publication details: Cambridge: Cambridge University Press, 2024Edition: 2Description: 535ISBN:

9781108716420

Subject(s):

Computational Neuroscience

DDC classification:

612.8233 STE

Summary: Taking a step-by-step approach to modelling neurons and neural circuitry, this textbook teaches students how to use computational techniques to understand the nervous system at all levels, using case studies throughout to illustrate fundamental principles. Starting with a simple model of a neuron, the authors gradually introduce neuronal morphology, synapses, ion channels and intracellular signalling. This fully updated new edition contains additional examples and case studies on specific modelling techniques, suggestions on different ways to use this book, and new chapters covering plasticity, modelling extracellular influences on brain circuits, modelling experimental measurement processes, and choosing appropriate model structures and their parameters. The online resources offer exercises and simulation code that recreate many of the book's figures, allowing students to practice as they learn. Requiring an elementary background in neuroscience and high-school mathematics, this is an ideal resource for a course on computational neuroscience.

List(s) this item appears in: New Arrivals September 2025-Liberal Arts and Humanities

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Holdings
Item type	Current library	Call number	Copy number	Status	Date due	Barcode	Item holds
Book	Alliance School of Liberal Arts and Humanities	612.8233 STE (Browse shelf(Opens below))	2	Available		LA06104
Reference Book	Alliance School of Liberal Arts and Humanities	612.8233 STE (Browse shelf(Opens below))	1	Not for loan		LA06103

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Taking a step-by-step approach to modelling neurons and neural circuitry, this textbook teaches students how to use computational techniques to understand the nervous system at all levels, using case studies throughout to illustrate fundamental principles. Starting with a simple model of a neuron, the authors gradually introduce neuronal morphology, synapses, ion channels and intracellular signalling. This fully updated new edition contains additional examples and case studies on specific modelling techniques, suggestions on different ways to use this book, and new chapters covering plasticity, modelling extracellular influences on brain circuits, modelling experimental measurement processes, and choosing appropriate model structures and their parameters. The online resources offer exercises and simulation code that recreate many of the book's figures, allowing students to practice as they learn. Requiring an elementary background in neuroscience and high-school mathematics, this is an ideal resource for a course on computational neuroscience.

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