Synopsis
This book is designed as an introduction to neural dynamics through an intuitive exploration of fundamental "dynamic motifs"― the recurring dynamical concepts essential for understanding computational neuroscience. This concise, hands-on guide bridges the gap between mathematics and neuroscience, providing clear explanations of the key dynamical systems concepts that appear repeatedly in the computational/mathematical neuroscience literature.
Key Features:
• Geometric and intuitive descriptions that minimize mathematical formality while preserving clarity Interactive "Explorations" that reinforce concepts through computer-based exercises Complete solutions to all Explorations, allowing for self-guided learning
• Accessible approach suitable for both experimental neuroscientists and mathematicians
• Focused coverage of essential concepts that serve as building blocks for understanding complex neural models
This book serves as an ideal entry point into computational neuroscience for two distinct audiences: experimental neuroscientists seeking to understand computational techniques for collaboration and mathematicians or mathematics students looking to apply their knowledge to neuroscience. Through its unique combination of concise text and hands-on exploration, readers will quickly develop the knowledge and skills needed to navigate the computational neuroscience literature with confidence.
Les informations fournies dans la section « Synopsis » peuvent faire référence à une autre édition de ce titre.
À propos de l?auteur
Richard Bertram is a Distinguished Research Professor at Florida State University. He is the director of Biomathematics in the Mathematics department, and is a member of the interdisciplinary programs in Molecular Biophysics and Neuroscience. His research is in neuroscience and endocrinology, where he and his lab use mathematics and computer simulations to understand experimental data and design new experiments. He is on the editorial boards of Biophysical Journal, the Bulletin of Mathematical Biology, and the SIAM Journal on Life Sciences and he serves on the board of directors of the Society for Mathematical Biology.
Les informations fournies dans la section « A propos du livre » peuvent faire référence à une autre édition de ce titre.
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Paperback. Etat : new. Paperback. This book is designed as an introduction to neural dynamics through an intuitive exploration of fundamental "dynamic motifs" the recurring dynamical concepts essential for understanding computational neuroscience. This concise, hands-on guide bridges the gap between mathematics and neuroscience, providing clear explanations of the key dynamical systems concepts that appear repeatedly in the computational/mathematical neuroscience literature.Key Features: Geometric and intuitive descriptions that minimize mathematical formality while preserving clarity Interactive "Explorations" that reinforce concepts through computer-based exercises Complete solutions to all Explorations, allowing for self-guided learning Accessible approach suitable for both experimental neuroscientists and mathematicians Focused coverage of essential concepts that serve as building blocks for understanding complex neural modelsThis book serves as an ideal entry point into computational neuroscience for two distinct audiences: experimental neuroscientists seeking to understand computational techniques for collaboration and mathematicians or mathematics students looking to apply their knowledge to neuroscience. Through its unique combination of concise text and hands-on exploration, readers will quickly develop the knowledge and skills needed to navigate the computational neuroscience literature with confidence. Hands-on guide bridges the gap between mathematics and neuroscience, providing clear explanations of the key dynamical systems concepts that appear repeatedly in the computational/mathematical neuroscience literature. This item is printed on demand. Shipping may be from multiple locations in the US or from the UK, depending on stock availability. N° de réf. du vendeur 9781041238171
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Paperback. Etat : New. This book is designed as an introduction to neural dynamics through an intuitive exploration of fundamental "dynamic motifs"- the recurring dynamical concepts essential for understanding computational neuroscience. This concise, hands-on guide bridges the gap between mathematics and neuroscience, providing clear explanations of the key dynamical systems concepts that appear repeatedly in the computational/mathematical neuroscience literature.Key Features:. Geometric and intuitive descriptions that minimize mathematical formality while preserving clarity Interactive "Explorations" that reinforce concepts through computer-based exercises Complete solutions to all Explorations, allowing for self-guided learning. Accessible approach suitable for both experimental neuroscientists and mathematicians. Focused coverage of essential concepts that serve as building blocks for understanding complex neural modelsThis book serves as an ideal entry point into computational neuroscience for two distinct audiences: experimental neuroscientists seeking to understand computational techniques for collaboration and mathematicians or mathematics students looking to apply their knowledge to neuroscience. Through its unique combination of concise text and hands-on exploration, readers will quickly develop the knowledge and skills needed to navigate the computational neuroscience literature with confidence. N° de réf. du vendeur LU-9781041238171
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Mathematical Concepts in Single-Neuron Dynamics
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Paperback. Etat : New. This book is designed as an introduction to neural dynamics through an intuitive exploration of fundamental "dynamic motifs"- the recurring dynamical concepts essential for understanding computational neuroscience. This concise, hands-on guide bridges the gap between mathematics and neuroscience, providing clear explanations of the key dynamical systems concepts that appear repeatedly in the computational/mathematical neuroscience literature.Key Features:. Geometric and intuitive descriptions that minimize mathematical formality while preserving clarity Interactive "Explorations" that reinforce concepts through computer-based exercises Complete solutions to all Explorations, allowing for self-guided learning. Accessible approach suitable for both experimental neuroscientists and mathematicians. Focused coverage of essential concepts that serve as building blocks for understanding complex neural modelsThis book serves as an ideal entry point into computational neuroscience for two distinct audiences: experimental neuroscientists seeking to understand computational techniques for collaboration and mathematicians or mathematics students looking to apply their knowledge to neuroscience. Through its unique combination of concise text and hands-on exploration, readers will quickly develop the knowledge and skills needed to navigate the computational neuroscience literature with confidence. N° de réf. du vendeur LU-9781041238171
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