Details
Identifiability and Observability in Epidemiological Models
A PrimerSpringerBriefs on PDEs and Data Science
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CHF 53.50 |
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| Verlag: | Springer |
| Format: | |
| Veröffentl.: | 02.07.2024 |
| ISBN/EAN: | 9789819725397 |
| Sprache: | englisch |
| Anzahl Seiten: | 110 |
Dieses eBook enthält ein Wasserzeichen.
Beschreibungen
<p>This book introduces the concepts of identifiability and observability in mathematical epidemiology, as well as those of observers’ constructions. It first exposes and illustrates on several examples the mathematical definitions and properties of observability and identifiability. A chapter is dedicated to the well-known Kermack McKendrick model, for which the complete analysis of identifiability and observability is not available in the literature. Then, several techniques of observer constructions, in view of online estimation of state and parameters, are presented and deployed on several models. New developments relevant for applications in epidemiology are also given. Finally, practical considerations are discussed with data and numerical simulations related to models previously analysed in the book.</p>
<p>The book will be appealing to epidemiological modellers and mathematicians working on models in epidemiology.<em>This book contributes to Sustainable Development Goal 3 (SDG3): Good Health and Well Being.</em></p>
<p>The book will be appealing to epidemiological modellers and mathematicians working on models in epidemiology.<em>This book contributes to Sustainable Development Goal 3 (SDG3): Good Health and Well Being.</em></p>
<p>Chapter 1 Introduction.- Chapter 2 Mathematical foundations.- Chapter 3 Analysis of the Kermack.- Chapter 4 McKendrick model.- Chapter 5 Observers synthesis.- Chapter 6 Practical and numerical considerations.- Chapter 7 Appendix.- Chapter 8 References.</p>
<p><strong>Nik Cunniffe</strong> is the head of Theoretical and Computational Epidemiology Group, Department of Plant Sciences, University of Cambridge (UK). His research focuses on modelling the spread, detection, evolution and control of plant pests and pathogens. His theoretical work uses deterministic, stochastic and spatial models to improve strategic understanding, while his applied work concentrates on using models to understand how detection and control can be optimized.</p>
<p><strong>Frédéric Hamelin</strong> is Associate Professor in Quantitative Plant Disease Epidemiology at L’Institut Agro, Rennes, France. He is a member of the DEMECOLOGY (Dynamics, Evolution, Modelling, Ecology) Research Group of the Institute of Genetics, Environment and Plant Protection (IGEPP). His work is at the interface between mathematical ecology and plant disease epidemiology.</p>
<p><strong>Abderrahman Iggidr</strong> is a full-time INRIA researcher at IECL (Institut Elie Cartan de Lorraine), France. His research interests include the control theory (stabilization of nonlinear systems, observability, and construction of observers), the mathematical epidemiology (modelling and model validation using data, qualitative and quantitative properties of epidemics models, design of software sensors for biological systems, dynamical estimation of unmeasured state variables and unknown parameters, etc.), and the modelling and control of renewable resources.</p>
<p><strong>Alain Rapaport</strong> is a senior INRAE researcher at MISTEA (Mathematics, Informatics and Statistics for Environmental and Agronomics) Research Lab, Montpellier, France. His research interests include the modelling, control and optimization for microbial ecology; the management of renewable natural resources; and the theory of control and observation of dynamical systems and optimal control.</p>
<p><strong>Gauthier Sallet</strong> is Emeritus Professor at IECL (Institut Elie Cartan de Lorraine), France. His main research activity is about the application of control theory to epidemiological models. He has been the team leader of the MASAIE (Tools and models of nonlinear control theory for epidemiology and immunology) INRIA Research Group from 2008 to 2014.</p>
<p><strong>Frédéric Hamelin</strong> is Associate Professor in Quantitative Plant Disease Epidemiology at L’Institut Agro, Rennes, France. He is a member of the DEMECOLOGY (Dynamics, Evolution, Modelling, Ecology) Research Group of the Institute of Genetics, Environment and Plant Protection (IGEPP). His work is at the interface between mathematical ecology and plant disease epidemiology.</p>
<p><strong>Abderrahman Iggidr</strong> is a full-time INRIA researcher at IECL (Institut Elie Cartan de Lorraine), France. His research interests include the control theory (stabilization of nonlinear systems, observability, and construction of observers), the mathematical epidemiology (modelling and model validation using data, qualitative and quantitative properties of epidemics models, design of software sensors for biological systems, dynamical estimation of unmeasured state variables and unknown parameters, etc.), and the modelling and control of renewable resources.</p>
<p><strong>Alain Rapaport</strong> is a senior INRAE researcher at MISTEA (Mathematics, Informatics and Statistics for Environmental and Agronomics) Research Lab, Montpellier, France. His research interests include the modelling, control and optimization for microbial ecology; the management of renewable natural resources; and the theory of control and observation of dynamical systems and optimal control.</p>
<p><strong>Gauthier Sallet</strong> is Emeritus Professor at IECL (Institut Elie Cartan de Lorraine), France. His main research activity is about the application of control theory to epidemiological models. He has been the team leader of the MASAIE (Tools and models of nonlinear control theory for epidemiology and immunology) INRIA Research Group from 2008 to 2014.</p>
<p>This book introduces the concepts of identifiability and observability in mathematical epidemiology, as well as those of observers’ constructions. It first exposes and illustrates on several examples the mathematical definitions and properties of observability and identifiability. A chapter is dedicated to the well-known Kermack McKendrick model, for which the complete analysis of identifiability and observability is not available in the literature. Then, several techniques of observer constructions, in view of online estimation of state and parameters, are presented and deployed on several models. New developments relevant for applications in epidemiology are also given. Finally, practical considerations are discussed with data and numerical simulations related to models previously analysed in the book.</p>
<p>The book will be appealing to epidemiological modellers and mathematicians working on models in epidemiology.<em>This book contributes to Sustainable Development Goal 3 (SDG3): Good Health and Well Being.</em></p>
<p>The book will be appealing to epidemiological modellers and mathematicians working on models in epidemiology.<em>This book contributes to Sustainable Development Goal 3 (SDG3): Good Health and Well Being.</em></p>
demonstrates how the concepts of observation and identification apply on epidemiological models balances between rigorous mathematical developments and practical considerations on concrete examples presents several new developments relevant to applications in epidemiology
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