Overview

Modeling is a key component to sciences from mathematics to life science, including environmental and ecological studies. By looking at the underlying concepts of the software, we can make sure that we build mathematically feasible models and that we get the most out of the data and information that we have. Systems Science and Modeling for Ecological Economics shows how models can be analyzed using simple math and software to generate meaningful qualitative descriptions of system dynamics. This book shows that even without a full analytical, mathematically rigorous analysis of the equations, there may be ways to derive some qualitative understanding of the general behavior of a system. By relating some of the modeling approaches and systems theory to real-world examples the book illustrates how these approaches can help understand concepts such as sustainability, peak oil, adaptive management, optimal harvest and other practical applications.

Full Product Details

Author:   Alexey A. Voinov (Johns Hopkins University and Fellow at Gund Institute for Ecological Economics, USA<br>3)
Publisher:   Elsevier Science Publishing Co Inc
Imprint:   Academic Press Inc
Dimensions:   Width: 18.40cm , Height: 2.80cm , Length: 26.00cm
Weight:   1.240kg
ISBN:  

9780123725837

ISBN 10:   0123725836
Pages:   432
Publication Date:   04 July 2008
Audience:   Professional and scholarly ,  Professional & Vocational
Format:   Hardback
Publisher's Status:   Active
Availability:   In Print  
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Table of Contents

Preface Acknowledgments 1 Models and Systems 1.1 Model 1.2 System 1.3 Hierarchy 1.4 The Modeling Process 1.5 Model Classifications 1.6 Systems Thinking 2 The Art of Modeling 2.1 Conceptual Model 2.2 Modeling Software 2.3 Model Formalization 3 Essential Math 3.1 Time 3.2 Space 3.3 Structure 3.4 Building Blocks 4 Model Analysis 4.1 Sensitivity Analysis 4.2 Model Calibration 4.3 Model Testing 4.4 Conclusions 5 Simple Model, Complex Behavior 5.1 Classic Predator–Prey Model 5.2 Modifications of The Classic Model 5.3 Trophic Chains 5.4 Spatial Model of a Predator–Prey System 5.5 Conclusions 6 Water 6.1 Modeling as a Hydrology Primer 6.2 Unit Model 6.3 Spatial Model 6.4 Conclusions 7 Adding Socio-Economics 7.1 Demographics 7.2 Dynamics on the Market 7.3 Corporate Rule 7.4 Sustainability 7.5 The End of Cheap Oil 7.6 The World 8 Optimization 8.1 Introduction 8.2 Resource Management 8.3 Fishpond 8.4 Landscape Optimization 8.5 Optimality Principles 9 The Practice of Modeling 9.1 Why Models Don’t Work 9.2 Participatory and Adaptive Modeling 9.3 Open-Source, Web Technologies and Decision Support 9.4 Conclusions To Conclude Index

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