This newly published book is an organized collection of papers dealing with changes in the quality of water as it moves through the world's hydrologic cycle-from the sea, lakes, and rivers-to its hydrosphere and then back to earth as precipitation, where the water again percolates through the soil or falls on the ocean, rivers, or lakes.
The Science of AI in Water Management offers a comprehensive exploration of how artificial intelligence is transforming the management of one of Earth's most vital resources.
This newly published book is an organized collection of papers dealing with changes in the quality of water as it moves through the world's hydrologic cycle-from the sea, lakes, and rivers-to its hydrosphere and then back to earth as precipitation, where the water again percolates through the soil or falls on the ocean, rivers, or lakes.
In this work, several modelling approaches are explored to represent spatial pattern dynamics of aquatic populations in aquatic ecosystems by the combination of models, knowledge and data in different scales.
The Science of AI in Water Management offers a comprehensive exploration of how artificial intelligence is transforming the management of one of Earth's most vital resources.
Integration of Advanced Systems in Environmental Science and Water Desalination explores cutting-edge technologies revolutionizing environmental monitoring and desalination processes.
Integration of Advanced Systems in Environmental Science and Water Desalination explores cutting-edge technologies revolutionizing environmental monitoring and desalination processes.
The Handbook of Artificial Intelligence in Water Management explores the intersection of artificial intelligence (AI) technologies and water management strategies aimed at achieving net zero emissions.
Where Water Meets Air: The Science of Surface Phenomena presents the current understanding of the water surface layer, integrating both experimental insights and theoretical developments.
Adsorption: Theoretical Aspects and Environmental Applications offers an in-depth yet accessible exploration of adsorption processes, from fundamental theories to practical applications in environmental management and pollution control.
Where Water Meets Air: The Science of Surface Phenomena presents the current understanding of the water surface layer, integrating both experimental insights and theoretical developments.
Adsorption: Theoretical Aspects and Environmental Applications offers an in-depth yet accessible exploration of adsorption processes, from fundamental theories to practical applications in environmental management and pollution control.
The Handbook of Artificial Intelligence in Water Management explores the intersection of artificial intelligence (AI) technologies and water management strategies aimed at achieving net zero emissions.
Environmental Monitoring with AI and IoT: Smart Systems for a Sustainable Future aims to provide a comprehensive understanding of how modern technologies like Artificial Intelligence (AI) and the Internet of Things (IoT) revolutionize environmental monitoring.
Environmental Monitoring with AI and IoT: Smart Systems for a Sustainable Future aims to provide a comprehensive understanding of how modern technologies like Artificial Intelligence (AI) and the Internet of Things (IoT) revolutionize environmental monitoring.
In Oceans as Archives, the ocean forms a generative site to develop practices of reading, writing, thinking, and imagining a long era of climate catastrophe.
In Oceans as Archives, the ocean forms a generative site to develop practices of reading, writing, thinking, and imagining a long era of climate catastrophe.
