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Analyzing and Modeling Spatial and Temporal Dynamics of Infectious Diseases

Analyzing and Modeling Spatial and Temporal Dynamics of Infectious Diseases
Author: Dongmei Chen
Publisher: John Wiley & Sons
Total Pages: 496
Release: 2014-12-31
Genre: Medical
ISBN: 1118629930
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Features modern research and methodology on the spread of infectious diseases and showcases a broad range of multi-disciplinary and state-of-the-art techniques on geo-simulation, geo-visualization, remote sensing, metapopulation modeling, cloud computing, and pattern analysis Given the ongoing risk of infectious diseases worldwide, it is crucial to develop appropriate analysis methods, models, and tools to assess and predict the spread of disease and evaluate the risk. Analyzing and Modeling Spatial and Temporal Dynamics of Infectious Diseases features mathematical and spatial modeling approaches that integrate applications from various fields such as geo-computation and simulation, spatial analytics, mathematics, statistics, epidemiology, and health policy. In addition, the book captures the latest advances in the use of geographic information system (GIS), global positioning system (GPS), and other location-based technologies in the spatial and temporal study of infectious diseases. Highlighting the current practices and methodology via various infectious disease studies, Analyzing and Modeling Spatial and Temporal Dynamics of Infectious Diseases features: Approaches to better use infectious disease data collected from various sources for analysis and modeling purposes Examples of disease spreading dynamics, including West Nile virus, bird flu, Lyme disease, pandemic influenza (H1N1), and schistosomiasis Modern techniques such as Smartphone use in spatio-temporal usage data, cloud computing-enabled cluster detection, and communicable disease geo-simulation based on human mobility An overview of different mathematical, statistical, spatial modeling, and geo-simulation techniques Analyzing and Modeling Spatial and Temporal Dynamics of Infectious Diseases is an excellent resource for researchers and scientists who use, manage, or analyze infectious disease data, need to learn various traditional and advanced analytical methods and modeling techniques, and become aware of different issues and challenges related to infectious disease modeling and simulation. The book is also a useful textbook and/or supplement for upper-undergraduate and graduate-level courses in bioinformatics, biostatistics, public health and policy, and epidemiology.

Epidemics

Epidemics
Author: Ottar N. Bjørnstad
Publisher: Springer
Total Pages: 312
Release: 2018-10-30
Genre: Medical
ISBN: 3319974874
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This book is designed to be a practical study in infectious disease dynamics. The book offers an easy to follow implementation and analysis of mathematical epidemiology. The book focuses on recent case studies in order to explore various conceptual, mathematical, and statistical issues. The dynamics of infectious diseases shows a wide diversity of pattern. Some have locally persistent chains-of-transmission, others persist spatially in ‘consumer-resource metapopulations’. Some infections are prevalent among the young, some among the old and some are age-invariant. Temporally, some diseases have little variation in prevalence, some have predictable seasonal shifts and others exhibit violent epidemics that may be regular or irregular in their timing. Models and ‘models-with-data’ have proved invaluable for understanding and predicting this diversity, and thence help improve intervention and control. Using mathematical models to understand infectious disease dynamics has a very rich history in epidemiology. The field has seen broad expansions of theories as well as a surge in real-life application of mathematics to dynamics and control of infectious disease. The chapters of Epidemics: Models and Data using R have been organized in a reasonably logical way: Chapters 1-10 is a mix and match of models, data and statistics pertaining to local disease dynamics; Chapters 11-13 pertains to spatial and spatiotemporal dynamics; Chapter 14 highlights similarities between the dynamics of infectious disease and parasitoid-host dynamics; Finally, Chapters 15 and 16 overview additional statistical methodology useful in studies of infectious disease dynamics. This book can be used as a guide for working with data, models and ‘models-and-data’ to understand epidemics and infectious disease dynamics in space and time.

Dynamical Modeling and Analysis of Epidemics

Dynamical Modeling and Analysis of Epidemics
Author: Zhien Ma
Publisher: World Scientific
Total Pages: 513
Release: 2009
Genre: Mathematics
ISBN: 9812797491
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This timely book covers the basic concepts of the dynamics of epidemic disease, presenting various kinds of models as well as typical research methods and results. It introduces the latest results in the current literature, especially those obtained by highly rated Chinese scholars. A lot of attention is paid to the qualitative analysis of models, the sheer variety of models, and the frontiers of mathematical epidemiology. The process and key steps in epidemiological modeling and prediction are highlighted, using transmission models of HIV/AIDS, SARS, and tuberculosis as application examples.

Modeling the Heterogeneous Temporal Dynamics of Epidemics on Networks

Modeling the Heterogeneous Temporal Dynamics of Epidemics on Networks
Author: Andrea Joan Allen
Publisher:
Total Pages: 0
Release: 2022
Genre: Communicable diseases
ISBN:
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Mathematical models of infectious disease are important tools for understanding large-scale patterns of how a disease spreads through a population. Predictions of trends from disease models help guide public health prevention and mitigation measures. Most simple disease models assume that the population is randomly mixed, but real-world populations exhibit heterogeneous patterns in the way people interact. These differences in population structure can be represented by networks. Networks can then be incorporated into disease models by using various interdisciplinary concepts and tools. Yet even network disease models often overlook that populations change over time. In this thesis, two models of infectious disease are presented, for the purpose of analyzing how the spread of the disease evolves over time, particularly when the population is also changing.To model a changing population, a sequence of different networks can each be associated with a length of time each is active for. Although, how to construct these networks from real contact data, from things like wearable sensors, is a nontrivial problem. We present a method to ascertain if temporal data can be aggregated into a single network, or not. This method underlies an algorithm for compressing real data into a time-varying sequence of networks, creating a system still tractable enough to use existing network analysis tools. We show how fine-grained temporal contact data can be compressed into just a handful of ordered, static networks while preserving the most significant temporal trends of the dynamic population. Not only do populations change over time, but there is also inherent randomness involved in the spread of disease between individuals. To account for this, the underlying random process can be used as the basis for the disease model. Here, one particular model is presented that uses a random, or stochastic, framework to predict the temporal evolution of the spread of disease by tracking generations of infected individuals over time. We show that often the distribution of cumulative infections is heavy tailed, implying that deterministic models of spread, which present average point estimates, do not account for underlying uncertainty. The two models presented in this thesis address the heterogeneity of the temporal dynamics of infectious disease spread through a population. These models also contribute to a body of work focused on designing models that can leverage real data about population structure and contact patterns to produce more accurate predictions and insights.

Mathematics for Life Science and Medicine

Mathematics for Life Science and Medicine
Author: Yasuhiro Takeuchi
Publisher: Springer Science & Business Media
Total Pages: 232
Release: 2007-01-25
Genre: Mathematics
ISBN: 3540344268
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The purpose of this volume is to present and discuss the many rich properties of the dynamical systems that appear in life science and medicine. It provides a fascinating survey of the theory of dynamical systems in biology and medicine. Each chapter will serve to introduce students and scholars to the state-of-the-art in an exciting area, to present new results, and to inspire future contributions to mathematical modeling in life science and medicine.

Handbook of Infectious Disease Data Analysis

Handbook of Infectious Disease Data Analysis
Author: Leonhard Held
Publisher: CRC Press
Total Pages: 472
Release: 2019-11-07
Genre: Medical
ISBN: 1351839314
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Recent years have seen an explosion in new kinds of data on infectious diseases, including data on social contacts, whole genome sequences of pathogens, biomarkers for susceptibility to infection, serological panel data, and surveillance data. The Handbook of Infectious Disease Data Analysis provides an overview of many key statistical methods that have been developed in response to such new data streams and the associated ability to address key scientific and epidemiological questions. A unique feature of the Handbook is the wide range of topics covered. Key features Contributors include many leading researchers in the field Divided into four main sections: Basic concepts, Analysis of Outbreak Data, Analysis of Seroprevalence Data, Analysis of Surveillance Data Numerous case studies and examples throughout Provides both introductory material and key reference material

Modeling and Dynamics of Infectious Diseases

Modeling and Dynamics of Infectious Diseases
Author: Zhien Ma
Publisher: World Scientific
Total Pages: 355
Release: 2009
Genre: Medical
ISBN: 9814261254
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This book provides a systematic introduction to the fundamental methods and techniques and the frontiers of ? along with many new ideas and results on ? infectious disease modeling, parameter estimation and transmission dynamics. It provides complementary approaches, from deterministic to statistical to network modeling; and it seeks viewpoints of the same issues from different angles, from mathematical modeling to statistical analysis to computer simulations and finally to concrete applications.

Mathematical Population Dynamics and Epidemiology in Temporal and Spatio-Temporal Domains

Mathematical Population Dynamics and Epidemiology in Temporal and Spatio-Temporal Domains
Author: Harkaran Singh
Publisher: CRC Press
Total Pages: 338
Release: 2018-12-07
Genre: Mathematics
ISBN: 1351251686
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Mankind now faces even more challenging environment- and health-related problems than ever before. Readily available transportation systems facilitate the swift spread of diseases as large populations migrate from one part of the world to another. Studies on the spread of the communicable diseases are very important. This book, Mathematical Population Dynamics and Epidemiology in Temporal and Spatio-Temporal Domains, provides a useful experimental tool for making practical predictions, building and testing theories, answering specific questions, determining sensitivities of the parameters, forming control strategies, and much more. This volume focuses on the study of population dynamics with special emphasis on the migration of populations and the spreading of epidemics among human and animal populations. It also provides the background needed to interpret, construct, and analyze a wide variety of mathematical models. Most of the techniques presented in the book can be readily applied to model other phenomena, in biology as well as in other disciplines.

Mathematical Epidemiology

Mathematical Epidemiology
Author: Fred Brauer
Publisher: Springer Science & Business Media
Total Pages: 415
Release: 2008-04-30
Genre: Medical
ISBN: 3540789103
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Based on lecture notes of two summer schools with a mixed audience from mathematical sciences, epidemiology and public health, this volume offers a comprehensive introduction to basic ideas and techniques in modeling infectious diseases, for the comparison of strategies to plan for an anticipated epidemic or pandemic, and to deal with a disease outbreak in real time. It covers detailed case studies for diseases including pandemic influenza, West Nile virus, and childhood diseases. Models for other diseases including Severe Acute Respiratory Syndrome, fox rabies, and sexually transmitted infections are included as applications. Its chapters are coherent and complementary independent units. In order to accustom students to look at the current literature and to experience different perspectives, no attempt has been made to achieve united writing style or unified notation. Notes on some mathematical background (calculus, matrix algebra, differential equations, and probability) have been prepared and may be downloaded at the web site of the Centre for Disease Modeling (www.cdm.yorku.ca).