Buch, Englisch, 524 Seiten, Format (B × H): 156 mm x 234 mm, Gewicht: 1130 g
Deep, Hybrid, and Foundation Models for Environmental Planning, Computational Design, and Climate Resilience
Buch, Englisch, 524 Seiten, Format (B × H): 156 mm x 234 mm, Gewicht: 1130 g
ISBN: 978-1-041-09448-7
Verlag: CRC Press
The rapid rise of generative artificial intelligence (GenAI) is reshaping urban computing and intelligence, marking the next frontier of sustainable smart cities. This book explores the transformative potential of deep generative models (DGMs), hybrid architectures, and foundation models (FMs) in redefining the urban landscape. These technologies enhance environmental sustainability, climate resilience, infrastructure performance, operational efficiency, spatial organization, and livability through innovative approaches to urban planning, design, and management—often via digital twins and other emerging technologies.
DGMs enable synthetic data generation, data augmentation, data imputation, scenario simulation, and predictive modeling, offering deeper insights into complex urban and environmental systems. Hybrid architectures integrate generative and conventional models to improve robustness, scalability, adaptability, and flexibility across diverse urban operational and planning tasks. FMs extend these capabilities by enabling multi-modal knowledge generalization, cross-domain integration, large-scale simulation, advanced reasoning, and adaptive decision-making under uncertainty. Strengthened by integrative frameworks and cross-disciplinary insights, these technologies offer powerful tools for developing sophisticated urban and environmental solutions. They advance how urban ecosystems are environmentally and strategically planned, efficiently and dynamically managed, aesthetically and functionally designed, and spatially and contextually organized.
Rich in conceptual frameworks, theoretical insights, operational models, applied innovations, practical case studies, and policy guidance, this book equips researchers, planners, designers, technologists, and policymakers to harness generative intelligence in shaping adaptive, context-aware, and continuously refined urban environments that are ecologically responsible, climate-resilient, and future-ready. Essential for anyone exploring the frontier of GenAI-driven sustainable urban development, it offers actionable insights to guide the next generation of sustainable smart cities.
Zielgruppe
Professional Practice & Development, Professional Reference, and Undergraduate Advanced
Autoren/Hrsg.
Fachgebiete
Weitere Infos & Material
1. The Rise of Deep Generative, Hybrid, and Foundation Models for Sustainable Smart City Intelligence: Theoretical Frameworks, Transformative Innovations, and Advanced Applications. 2. Empowering Sustainable Smart City Digital Twins with Deep Generative and Foundation Models: A Pioneering Framework for Environmental Planning and Computational Design. 3. Deep Generative and Hybrid Models for Advancing Environmental Sustainability in Smart Cities: Emerging Solutions for Climate Change Mitigation and Adaptation Challenges. 4. Deep Generative and Hybrid Models for Sustainable Smart Cities: Infrastructure Management, Strategic Planning, and Climate Resilience. 5. Deep Generative and Foundation Models for Sustainable Smart City Digital Twins: Operational, Infrastructural, and Practical Advancements for Environmental Planning. 6. Augmenting Computational Urban and Architectural Design with Deep Generative, Hybrid, and Multimodal Models: Innovative Applications and a Cross-Scalar Disciplinary Framework for Sustainable Smart Cities. 7. The Next Frontier in Sustainable Smart City Development: Urban, Flow, Environmental, Climate, and Geospatial Foundation Models for Multimodal Intelligence and Systemic Innovation.
