Understanding Complex Biological Systems with Mathematics


Price:
Sale price$101.24

Description

This volume examines a variety of biological and medical problems using mathematical models to understand complex system dynamics. Featured topics include autism spectrum disorder, ectoparasites and allogrooming, argasid ticks dynamics, super-fast nematocyst firing, cancer-immune population dynamics, and the spread of disease through populations. Applications are investigated with mathematical models using a variety of techniques in ordinary and partial differential equations, difference equations, Markov-chain models, Monte-Carlo simulations, network theory, image analysis, and immersed boundary method. Each article offers a thorough explanation of the methodologies used and numerous tables and color illustrations to explain key results. This volume is suitable for graduate students and researchers interested in current applications of mathematical models in the biosciences.

The research featured in this volume began among newly-formed collaborative groups at the 2017 Women Advancing Mathematical Biology Workshop that took place at the Mathematical Biosciences Institute in Columbus, Ohio. The groups spent one intensive week working at MBI and continued their collaborations after the workshop, resulting in the work presented in this volume.




Author: Ami Radunskaya
Publisher: Springer
Published: 11/03/2018
Pages: 198
Binding Type: Hardcover
Weight: 1.00lbs
Size: 6.50h x 9.40w x 0.60d
ISBN13: 9783319980829
ISBN10: 3319980823
BISAC Categories:
- Mathematics | Applied
- Science | General

About the Author
Ami Radunskaya is a professor of mathematics at Pomona College, the President of the Association for Women in Mathematics (2017-2018), and a Fellow of the American Mathematical Society.
Rebecca Segal is an associate professor of mathematics at Virginia Commonwealth University.
Blerta Shtylla is an assistant professor of mathematics at Pomona College.