Computational Intelligent Data Analysis for Sustainable Development

Computational Intelligent Data Analysis for Sustainable Development

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Features

  • Presents powerful techniques from mathematical optimization, data mining, machine learning, knowledge discovery, and other areas
  • Explains how these methods collect and analyze large quantities of environmental, economic, and social data, leading to better decision making for sustainable development
  • Focuses on spatiotemporal analysis for sustainable development applications
  • Explores the challenges involved with vast amounts of complex data
  • Includes real case studies on climate change, greenhouse gas emissions, renewable energy, smart grids, policy making, and more

Summary

Going beyond performing simple analyses, researchers involved in the highly dynamic field of computational intelligent data analysis design algorithms that solve increasingly complex data problems in changing environments, including economic, environmental, and social data. Computational Intelligent Data Analysis for Sustainable Development presents novel methodologies for automatically processing these types of data to support rational decision making for sustainable development. Through numerous case studies and applications, it illustrates important data analysis methods, including mathematical optimization, machine learning, signal processing, and temporal and spatial analysis, for quantifying and describing sustainable development problems.

With a focus on integrated sustainability analysis, the book presents a large-scale quadratic programming algorithm to expand high-resolution input-output tables from the national scale to the multinational scale to measure the carbon footprint of the entire trade supply chain. It also quantifies the error or dispersion between different reclassification and aggregation schemas, revealing that aggregation errors have a high concentration over specific regions and sectors.

The book summarizes the latest contributions of the data analysis community to climate change research. A profuse amount of climate data of various types is available, providing a rich and fertile playground for future data mining and machine learning research. The book also pays special attention to several critical challenges in the science of climate extremes that are not handled by the current generation of climate models. It discusses potential conceptual and methodological directions to build a close integration between physical understanding, or physics-based modeling, and data-driven insights.

The book then covers the conservation of species and ecologically valuable land. A case study on the Pennsylvania Dirt and Gravel Roads Program demonstrates that multiple-objective linear programming is a more versatile and efficient approach than the widely used benefit targeting selection process.

Moving on to renewable energy and the need for smart grids, the book explores how the ongoing transformation to a sustainable energy system of renewable sources leads to a paradigm shift from demand-driven generation to generation-driven demand. It shows how to maximize renewable energy as electricity by building a supergrid or mixing renewable sources with demand management and storage. It also presents intelligent data analysis for real-time detection of disruptive events from power system frequency data collected using an existing Internet-based frequency monitoring network as well as evaluates a set of computationally intelligent techniques for long-term wind resource assessment.

In addition, the book gives an example of how temporal and spatial data analysis tools are used to gather knowledge about behavioral data and address important social problems such as criminal offenses. It also applies constraint logic programming to a planning problem: the environmental and social impact assessment of the regional energy plan of the Emilia-Romagna region of Italy.

Sustainable development problems, such as global warming, resource shortages, global species loss, and pollution, push researchers to create powerful data analysis approaches that analysts can then use to gain insight into these issues to support rational decision making. This volume shows both the data analysis and sustainable development communities how to use intelligent data analysis tools to address practical problems and encourages researchers to develop better methods.

Table of Contents

Computational Intelligent Data Analysis for Sustainable Development: An Introduction and Overview
Ting Yu, Nitesh Chawla, and Simeon Simoff

Integrated Sustainability Analysis
Tracing Embodied CO2 in Trade Using High-Resolution Input-Output Tables
Daniel Moran and Arne Geschke

Aggregation Effects in Carbon Footprint Accounting Using Multi-Region Input-Output Analysis
Xin Zhou, Hiroaki Shirakawa, and Manfred Lenzen

Computational Intelligent Data Analysis for Climate Change
Climate Informatics
Claire Monteleoni, Gavin A. Schmidt, Francis Alexander, Alexandru Niculescu-Mizil, Karsten Steinhaeuser, Michael Tippett, Arindam Banerjee, M. Benno Blumenthal, Auroop R. Ganguly, Jason E. Smerdon, and Marco Tedesco

Computational Data Sciences for Actionable Insights on Climate Extremes and Uncertainty
Auroop R. Ganguly, Evan Kodra, Snigdhansu Chatterjee, Arindam Banerjee, and Habib N. Najm

Computational Intelligent Data Analysis for Biodiversity and Species Conservation
Mathematical Programming Applications to Land Conservation and Environmental Quality
Jacob R. Fooks and Kent D. Messer

Computational Intelligent Data Analysis for Smart Grid and Renewable Energy
Data Analysis Challenges in the Future Energy Domain
Frank Eichinger, Daniel Pathmaperuma, Harald Vogt, and Emmanuel Müller

Electricity Supply without Fossil Fuels
John Boland, Peter Pudney, and Jerzy Filar

Data Analysis for Real-Time Identification of Grid Disruptions
Varun Chandola, Olufemi Omitaomu, and Steven J. Fernandez

Statistical Approaches for Wind Resource Assessment
Kalyan Veeramachaneni, Xiang Ye, and Una-May O’Reilly

Computational Intelligent Data Analysis for Sociopolitical Sustainability
Spatio-Temporal Correlations in Criminal Offense Records
Jameson L. Toole, Nathan Eagle, and Joshua B. Plotkin

Constraint and Optimization Techniques for Supporting Policy Making
Marco Gavanelli, Fabrizio Riguzzi, Michela Milano, and Paolo Cagnoli

Index

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