Computational Modeling Applications for Climate Crisis

By Utku Kose, Deepak Gupta PhD & Jose Antonio Marmolejo Saucedo

Computational Modeling Applications for Climate Crisis - Utku Kose, Deepak Gupta PhD & Jose Antonio Marmolejo Saucedo
  • Release Date: 2024-10-07
  • Genre: Computers & Internet

Description

Computational Modeling Applications for Climate Crisis provides readers with innovative research on the applications of computational modeling to moderate climate change. The book begins with an overview and history of climate change, followed by several chapters covering the concepts of computational modeling and simulation, including parameters of climate change, modeling the effects of human activities, visualization tools, and data fusion for advanced modeling applications. It then proceeds to cover decision support systems, modeling of technological solutions for climate change, modeling of greenhouse gas emissions, tracking of climate factors, and modeling of earth resources. In the final chapters of the book, the authors cover nation-based outcomes, big data, and optimization solutions with real-world data and case studies. Climate change is one of the most pressing existential issues for humans and the planet, and this book covers leading-edge applications of computational modeling to the vast array of interdisciplinary factors and challenges posed by climate change. As life itself is a mixture of occurrences that can be mathematically modelled, it is important to work with specific parameters, which are critical for monitoring and controlling the dynamics of the earth, natural resources, technological factors, and human activities.Illustrates how computational modeling techniques can be used for dealing with the climate crisis, including simulations, multi-mode-data, usage, and visualization-based researchProvides case studies demonstrating innovative solutions to moderate climate change, including mathematical, visual, and multi-data-based findings of applied researchAuthored by leading researchers in computational modeling