Mathematical Modeling of Biological Systems
Epidemiology, Evolution and Ecology, Immunology, Neural Systems and the Brain, and Innovative Mathematical Methods
(Sprache: Englisch)
Volume II of this two-volume, interdisciplinary work is a unified presentation of a broad range of state-of-the-art topics in the rapidly growing field of mathematical modeling in the biological sciences. Highlighted throughout are mathematical and...
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Klappentext zu „Mathematical Modeling of Biological Systems “
Volume II of this two-volume, interdisciplinary work is a unified presentation of a broad range of state-of-the-art topics in the rapidly growing field of mathematical modeling in the biological sciences. Highlighted throughout are mathematical and computational apporaches to examine central problems in the life sciences, ranging from the organization principles of individual cells to the dynamics of large populations. The chapters are thematically organized into the following main areas: epidemiology, evolution and ecology, immunology, neural systems and the brain, and innovative mathematical methods and education.
The work will be an excellent reference text for a broad audience of researchers, practitioners, and advanced students in this rapidly growing field at the intersection of applied mathematics, experimental biology and medicine, computational biology, biochemistry, computer science, and physics.
Inhaltsverzeichnis zu „Mathematical Modeling of Biological Systems “
- PrefacePart I. Epidemiology
- Could Low-Efficacy Malaria Vaccines Increase Secondary Infections in Endemic Areas?
- Modeling of the Invasion of a Fungal Disease Over a Vineyard
- Algorithm for Parameter Estimation in Nosocomial Infections
Part II. Evolution and Ecology
- Evolutionarily Stable Investment in Anti-predatory Defences and Aposematic Signalling
- The Tangled Nature Model of Evolutionary Ecology: An Overview
- Relative Advantage and Fundamental Theorems of Natural Selection
- Competitive Exclusion Between Year-Classes in a Semelparous Biennial Population
- On the Impact of Winter Conditions on the Dynamics of an Isolated Population
- Planning for Biodiversity Conservation Using Stochastic Programming
- A Diffusion-Reaction Model of a Mixed Culture Biofilm Arising in Food Safety Studies
- The Periodical Population Dynamics of Lottery Models with Undeveloped Seeds
Part III. Immune System
- An Automata-Based Microscopic Model Inspired by the Clonal Expansion
- Th1--Th2 Regulation and Allergy: Bifurcation Analysis of the Nonautonomous System
- Architechture of Randomly Evolving Idiotypic Networks
- Analysis of Infection Mortality by Means of the Individualized Risk Model
Part IV. Neural Systems and the Brain
- Neuromorphological Phenotyping in Transgenic Mice: A Multiscale Fractal Analysis
- A Quantitative Model of ATP-Mediated Calcium Wave Propagation in Astrocyte Networks
- Dynamics of Neural Fields with Distributed Transmission Speeds
- Estimation of Differential Entropy for Positive Random Variables and Its Application in Computational Neuroscience
- Dynamics of Integrate and Fire Models
- A Monte Carlo Method Used for the Identification of the Muscle Spindle
- Mechanisms of Coincidence Detection in the Auditory Brainstem: Examples
- Basic Principle of Organization of Human Medium Brain and Thinking Processes in Their Conceptual Presentation
- Multi-Scale Analysis of
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Brain Surface Data
- The Spike Generation Processes: A Case for Low Level Computation
Part V. Innovative Mathematical Methods and Education
- Offdiagonal Complexity: A Computationally Quick Network Complexity Measure. Application to Protein Networks and Cell Division
- Analytically Solvable Asymptotic Model of Atrial Excitability
- A Bayesian Approach of Quantitative Polymerase Chain Reaction
- A Model of Poplar (Populus sp.) Physiology and Morphology Based on Relational Growth Grammars
- Asymptotic Behavior of a Two-Dimensional Keller--Segel Model with and without Density Control
- Saturation Effects in Population Dynamics: Use Branching Processes or Dynamical Systems?
- Modelling and Simulation by Stochastic Interacting Particle Systems
- Teaching Mathematical Biology in a Summer School for Undergraduates
- Index
- The Spike Generation Processes: A Case for Low Level Computation
Part V. Innovative Mathematical Methods and Education
- Offdiagonal Complexity: A Computationally Quick Network Complexity Measure. Application to Protein Networks and Cell Division
- Analytically Solvable Asymptotic Model of Atrial Excitability
- A Bayesian Approach of Quantitative Polymerase Chain Reaction
- A Model of Poplar (Populus sp.) Physiology and Morphology Based on Relational Growth Grammars
- Asymptotic Behavior of a Two-Dimensional Keller--Segel Model with and without Density Control
- Saturation Effects in Population Dynamics: Use Branching Processes or Dynamical Systems?
- Modelling and Simulation by Stochastic Interacting Particle Systems
- Teaching Mathematical Biology in a Summer School for Undergraduates
- Index
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Bibliographische Angaben
- 2007, 2008, 386 Seiten, Maße: 16 x 24,1 cm, Gebunden, Englisch
- Herausgegeben:Deutsch, Andreas; Bravo de la Parra, Rafael; de Boer, Rob J.; Diekmann, Odo; Jagers, Peter; Kisdi, Eva; Kretzschmar, Mirjam; Lansky, Petr; Metz, Hans
- Herausgegeben: Andreas Deutsch, Rafael Bravo de la Parra, Rob J. de Boer, Odo Diekmann, Hans Metz, Eva Kisdi, Mirjam Kretzschmar, Petr Lansky, Peter Jagers
- Verlag: Springer
- ISBN-10: 0817645551
- ISBN-13: 9780817645557
- Erscheinungsdatum: 07.11.2007
Sprache:
Englisch
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