Biosimulation: Simulation of Living Systems (Cambridge Texts in Biomedical Engineering)
Cambridge University Press
Edition: Illustrated, 4/12/2012
EAN 9780521768238, ISBN10: 0521768233
Hardcover, 320 pages, 24.6 x 18.8 x 1.8 cm
Language: English
Originally published in English
This practical guide to biosimulation provides the hands-on experience needed to devise, design and analyze simulations of biophysical processes for applications in biological and biomedical sciences. Through real-world case studies and worked examples, students will develop and apply basic operations through to advanced concepts, covering a wide range of biophysical topics including chemical kinetics and thermodynamics, transport phenomena, and cellular electrophysiology. Each chapter is built around case studies in a given application area, with simulations of real biological systems developed to analyze and interpret data. Open-ended project-based exercises are provided at the end of each chapter, and with all data and computer codes available online (www.cambridge.org/biosim) students can quickly and easily run, manipulate, explore and expand on the examples inside. This hands-on guide is ideal for use on senior undergraduate/graduate courses and also as a self-study guide for anyone who needs to develop computational models of biological systems.
1. Introduction to simulation of biological systems
2. Transport and reaction of solutes in biological systems
3. Physiologically-based pharmacokinetic modeling
4. Cardiovascular systems simulation
5. Chemical reaction systems
thermodynamics
6. Chemical reaction systems
kinetics
7. Chemical reaction systems
large-scale systems simulation
8. Cellular electrophysiology
9. Appendices
mathematical and computational techniques.
"concise, very readable textbook..overall, this is a nicely written text that focuses on the more practical aspect of biosimulation, and avoids bogging down the reader with esoteric mathematical theorems and proofs. Recommended." - M.R. King, CHOICE, December 2012
"...this publication does justice to its central aim of providing practical guidance in the development of mathematical models of biological systems. It would likely serve well as a textbook for a course addressing the main subject areas, and as a reference for researchers working in those areas who wish to build such models or better understand their construction." - Christopher R. Myers, Cornell University, Quarterly Review of Biology, June 2013