Differential Equations for Studies in Computational Electrophysiology by Karoline Horgmo Jæger and Aslak Tveito focuses on the essential mathematical foundations required to understand and analyze electrophysiological phenomena through computational methods. The book emphasizes the role of differential equations in modeling complex biological processes, particularly in the context of cellular electrical activity and cardiac electrophysiology. It is ideal for students, researchers, and professionals in computational physiology, biomedical engineering, and applied mathematics.
Key Features:
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Comprehensive introduction to differential equations applied in electrophysiology.
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Focus on mathematical modeling of cardiac and neuronal electrical activity.
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Detailed explanations with real-world biomedical applications.
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Includes exercises and examples for practical understanding.
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Part of the Reports on Computational Physiology series, highlighting advanced research topics.
