A practical, comprehensive textbook that uses active learning techniques to teach about the challenges and opportunities associated with urban sustainability. While the problem of urban sustainability has long been a subject of great scholarly interest, there has, until now, been no single source providing a multi-disciplinary, exhaustive view of how it can be effectively taught. Filling this gap, Our Urban Future uses active learning techniques to comprehensively relate the theory of urban sustainability and the what, why, and how of sustainable cities. This practical, pedagogically rich textbook concisely covers all the key subjects of the field, including ecosystem services and transects, the internal design and patterning of urban elements, how cities mitigate and adapt to climate change, and questions of environmental justice. It functions as both an illuminating roadmap and active reference to which any student of sustainability can turn to find essential resources and perspectives in pursuit of creating sustainable cities. Approachable, discrete exercises introduce students to key sustainability subjects Learn-by-doing approach encourages critically engaging from multiple angles Ideal for students across environmental sustainability, urban planning, urban design, urban studies, sociology architecture, landscape architecture, and geography Robust suite of ancillaries includes links and downloadable data to support activities, and additional readings and resources
A practical, comprehensive textbook that uses active learning techniques to teach about the challenges and opportunities associated with urban sustainability. While the problem of urban sustainability has long been a subject of great scholarly interest, there has, until now, been no single source providing a multi-disciplinary, exhaustive view of how it can be effectively taught. Filling this gap, Our Urban Future uses active learning techniques to comprehensively relate the theory of urban sustainability and the what, why, and how of sustainable cities. This practical, pedagogically rich textbook concisely covers all the key subjects of the field, including ecosystem services and transects, the internal design and patterning of urban elements, how cities mitigate and adapt to climate change, and questions of environmental justice. It functions as both an illuminating roadmap and active reference to which any student of sustainability can turn to find essential resources and perspectives in pursuit of creating sustainable cities. Approachable, discrete exercises introduce students to key sustainability subjects Learn-by-doing approach encourages critically engaging from multiple angles Ideal for students across environmental sustainability, urban planning, urban design, urban studies, sociology architecture, landscape architecture, and geography Robust suite of ancillaries includes links and downloadable data to support activities, and additional readings and resources
Provides the foundations and principles needed for addressing the various challenges of developing smart cities Smart cities are emerging as a priority for research and development across the world. They open up significant opportunities in several areas, such as economic growth, health, wellness, energy efficiency, and transportation, to promote the sustainable development of cities. This book provides the basics of smart cities, and it examines the possible future trends of this technology. Smart Cities: Foundations, Principles, and Applications provides a systems science perspective in presenting the foundations and principles that span multiple disciplines for the development of smart cities. Divided into three parts—foundations, principles, and applications—Smart Cities addresses the various challenges and opportunities of creating smart cities and all that they have to offer. It also covers smart city theory modeling and simulation, and examines case studies of existing smart cities from all around the world. In addition, the book: Addresses how to develop a smart city and how to present the state of the art and practice of them all over the world Focuses on the foundations and principles needed for advancing the science, engineering, and technology of smart cities—including system design, system verification, real-time control and adaptation, Internet of Things, and test beds Covers applications of smart cities as they relate to smart transportation/connected vehicle (CV) and Intelligent Transportation Systems (ITS) for improved mobility, safety, and environmental protection Smart Cities: Foundations, Principles, and Applications is a welcome reference for the many researchers and professionals working on the development of smart cities and smart city-related industries.
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