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Nonautonomous dynamical systems in the life sciences Peter E. Kloeden, Christian Pötzsche, editors

Math/Physics/Astronomy Library QA3 .L28 v.1-999 470,523,830,849:2nd ed. v.1000-1722,1762,1781,1799-2099,2100-2218 2219-2223-2258,2260-2271,2273-2274-2277,2279-2281,2283-2289,2291,2293-2294,2296,2298-2299,2300-2311,2313-2379,2380-2384 2385-2389,2392
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Format:
Book
Contributor:
Kloeden, Peter E.
Pötzsche, Christian
Series:
Lecture notes in mathematics (Springer-Verlag) ; 0075-8434 2102
Lecture notes in mathematics (Springer-Verlag). Mathematical biosciences subseries
Lecture notes in mathematics 1617-9692 2102. Mathematical biosciences subseries
Language:
English
Subjects (All):
Dynamics.
Life sciences--Mathematical models.
Life sciences.
Random dynamical systems.
Mathematics.
Dynamical Systems and Ergodic Theory.
Mathematical and Computational Biology.
Genetics and Population Dynamics.
Local Subjects:
Mathematics.
Dynamical Systems and Ergodic Theory.
Mathematical and Computational Biology.
Genetics and Population Dynamics.
Physical Description:
1 online resource
Place of Publication:
Cham [Switzerland] New York Springer [2013]
Language Note:
English
System Details:
text file PDF
Summary:
Nonautonomous dynamics describes the qualitative behavior of evolutionary differential and difference equations, whose right-hand side is explicitly time dependent. Over recent years, the theory of such systems has developed into a highly active field related to, yet recognizably distinct from that of classical autonomous dynamical systems. This development was motivated by problems of applied mathematics, in particular in the life sciences where genuinely nonautonomous systems abound. The purpose of this monograph is to indicate through selected, representative examples how often nonautonomous systems occur in the life sciences and to outline the new concepts and tools from the theory of nonautonomous dynamical systems that are now available for their investigation
Contents:
Theoretical Basics. Nonautonomous Dynamical Systems in the Life Sciences Peter E. Kloeden and Christian Pötzsche Random Dynamical Systems with Inputs Michael Marcondes de Freitas and Eduardo D. Sontag Canard Theory and Excitability Martin Wechselberger, John Mitry and John Rinzel Applications. Stimulus-Response Reliability of Biological Networks Kevin K. Lin Coupled Nonautonomous Oscillators Philip T. Clemson, Spase Petkoski, Tomislav Stankovski and Aneta Stefanovska Multisite Mechanisms for Ultrasensitivity in Signal Transduction Germán A. Enciso Mathematical Concepts in Pharmacokinetics and Pharmacodynamics with Application to Tumor Growth Gilbert Koch and Johannes Schropp Viral Kinetic Modeling of Chronic Hepatitis C and B Infection Eva Herrmann and Yusuke Asai Some Classes of Stochastic Differential Equations as an Alternative Modeling Approach to Biomedical Problems Christina Surulescu and Nicolae Surulescu
Notes:
Based on a workshop of the same title, held in Inzell, Germany, August 1-5, 2011
Includes bibliographical references and index
Online resource; title from PDF title page (SpringerLink, viewed Feb. 25, 2014)
Other Format:
Print version Nonautonomous dynamical systems in the life sciences
ISBN:
9783319030807
3319030809
OCLC:
870998083
Access Restriction:
Restricted for use by site license

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