Chapter 1: Sustainable and Green Building Design Chapter 2: Smartening Our Cities: Applications of IoT for Urban Development Chapter 3: Shaping the Skyline: The Rise of 3D-Printed Buildings and Biocompatible Materials
Chapters Chapter 1: Transforming Natural Language Processing and Understanding Chapter 2: Unleashing the Power of Artificial Intelligence and Machine Learning Chapter 3: Networking and the Internet of Things: Building Secure and Connected Infrastructures Chapter 4: Information Technology: Enabling Digital Transformation Chapter 5: Unraveling the Potentials of Artificial Intelligent and Machine Learning to Diagnosis and treatment of Substance Use and Co-Occurring Mental Disorders Chapter 6: Redefining Hardware for AI: From Neuromorphic Chips to Quantum Computing
Chapters Chapter 1: Future of Energy: Renewable Sources, Storage, and Efficient Systems Chapter 2: Circular Economy Principles for Effective Plastic Waste Management Chapter 3: Nanotechnology and Mental Health: unanimously high-quality Evidence for Frontopolar Cortex (FPC) for Neuromodulation in Addictive behaviors and substance use disorder (SUD) Assessment Chapter 4: Revolutionizing Polymer Synthesis with AI-Enabled Approaches Chapter 5: Artificial Intelligence in Chemical Process Operations: Optimizing Efficiency and Safety Chapter 6: Analysis of High-Frequency Seismic Wave Effects on Complex Structures with Asymmetric Geometry
Chapters Chapter 1: Efficient Thermal and Fluid Systems: Designing for Heat Transfer and Fluid Dynamics Chapter 2: Biomechanics and Medical Innovations: Engineering for Human Health
Chapters Chapter 1: International Law and Global Governance Chapter 2: Criminal Law and Procedure Chapter 3: Civil Law and Litigation Chapter 4: Decentralized Finance (DeFi) and Regulatory Challenges Chapter 5: History and Development of the USA National Mental health act: Legalism and Medicalism of the Mental Health Act and the Civil Mental Health Law in US Chapter 6: Business and Commercial Law
Chapters Chapter 1: Streamlining Industrial Operations: Efficiency and Innovation Chapter 2: Harnessing the Power and Velocity of Artificial Intelligence in Rehabilitation and Promotion of Mental Health of students with Severe Mental Disorders Chapter 3: Effective Project Management: From Planning to Execution Chapter 4: Strategic Business Management: Leading for Success
Chapters Chapter 1: Reimagining Integrated Circuits: Designing for Tomorrow's Demands Chapter 2: Advancements in Communication Systems: Connecting the Unconnected Chapter 3: The Rise of Artificial Intelligence: From Hardware to Intelligent Systems
This book is the first comprehensive overview of the pioneering works, events, and people that contributed to the paradigm shift defined by computation in architecture. Only recently has computation fostered profound new ways of designing, fabricating, constructing, and thinking about architecture. While the profession sits at the end of the beginning of this historically transformative shift, it is now possible to look back upon the rapidly maturing landscape of projects, influencers, and tools that have finally begun to catch up with the visionary thinking of the past. Readers are guided through the fascinating and fast-paced historical timeline of the development of computation in architecture. Beginning with an account of the pioneering futuristic thinkers, the authors then guide the reader through the birth of computation, the appropriation of tools and the impact of experimentation on the profession, leading into the legitimacy of research and how paradigms have been expanded. The examples and influences are presented in a way that they can be understood and built upon. This book is a must-read for students of computation in architecture as well as researchers and practicing architects thinking about how the tools we use and the ways we design our buildings and environments with them can truly impact our lives.
D_TEX presents itself as a starting point at a crossroads of ideas and debates around the complex universe of Textile Design in all its forms, manifestations and dimensions. The textile universe, allied to mankind since its beginnings, is increasingly far from being an area of exhausted possibilities, each moment proposing important innovations that need a presentation, discussion and maturation space that is comprehensive and above all inter- and transdisciplinary. Presently, the disciplinary areas where the textile area is present are increasing and important, such as fashion, home textiles, technical clothing and accessories, but also construction and health, among others, and can provide new possibilities and different disciplinary areas and allowing the production of new knowledge. D_TEX proposes to join the thinking of design, with technologies, tradition, techniques, and related areas, in a single space where ideas are combined with the technique and with the projectual and research capacity, thus providing for the creation of concepts, opinions, associations of ideas, links and connections that allow the conception of ideas, products and services. The interdisciplinary nature of design is a reality that fully reaches the textile material in its essence and its practical application, through the synergy and contamination by the different interventions that make up the multidisciplinary teams of research. The generic theme of D_TEX Textile Design Conference 2017, held at Lisbon School of Architecture of the University of Lisbon, Portugal on November 2-4, 2017, is Design the Future, starting from the crossroads of ideas and debates, a new starting point for the exploration of textile materials, their identities and innovations in all their dimensions.