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This book summarizes work being undertaken within the School Activates Resources-stitching the lost heritage of the suburbs (ScAR) project, which addressed cultural heritage in a broad sense, as a system of values identified by the populations and in constant evolution. This tangible and intangible heritage fuels the promotion of intergenerational and intercultural dialogue and represents an opportunity for resilient social and territorial development. The book ponders the experience gained and the points of view of the different disciplines involved, examines issues such as children and youth participation in civil life or education in cultural heritage and landscape, and presents real-world experiences of heritage education in everyday landscape in difficult contexts and/or concerning poorly recognized and valued cultural heritage.
This book provides the opportunity to explore the variety of meanings, undertones and contextual connotations that currently pertain to the expressions of "virtual (or digital) restoration" and "reconstruction".The book focuses on the latest applications of virtual restoration and reconstruction in different areas of Cultural Heritage through the presentation and discussion of several case studies. The goal is to provide a broad perspective on the subject.The sample presented in this book has been indeed selected and evaluated referring to different disciplinary fields such as archaeology, architecture, and conservation while encompassing a variety of cultural and chronological contexts.
This book explores wind-adaptive architectural design blending the parametric design with digital simulations and suggests a novel approach for specific, even extreme conditions, as the first step in creating architecture that can act in response to the nature around. The chapters propose an urban and architectural design that emerges from the specific wind microclimate of the design site and responds to the changes in the ambient wind conditions. The book looks closely at A) the interdisciplinary wind-driven design method for architects, engineers, and urbanists employing open-source software for CFD analysis and B) the tensegrity-membrane adaptive building façades. The main questions the authors try to answer are: How does the wind-driven methodology enhance the wind comfort around buildings? How can it contribute to the reduction of wind surface loads acting on buildings?
This book proposes ways to make construction project incentive schemes effective. In this book, construction incentivization is used as a collective term that includes all forms of incentive arrangements aiming to engender extra effort of the contracting parties for the improvement of project performance. This book addresses two questions: i) why so many construction incentive schemes are not delivering the desired outcome? and ii) what will make incentive works under different circumstances? This book contributes to the body of knowledge in construction incentivization by offering conceptualization, showcases and practice suggestions including guidelines for the planning of construction incentive schemes.
This book provides an understanding of people's accessibility needs, and the barriers that may affect people with different identities and circumstances (e.g. different levels of mobility, age, etc.) to alleviate any act of disabling a person and thus offer equal quality of life in the design of stadia. A lack of knowledge exists for stadia concerning demographics, specific accessibility and inclusive design solutions, available movement and behavioural data, and how future growth in attending disabled populations may affect the overall safety of circulation and evacuation in stadia. To address these needs a data collection and modelling were performed and are described in this book. The book recognizes that stadia design is at a revolutionary stage of advancement. Automated data collection technologies and methodologies are described where the authors work towards presentation of big data which can be used for future refinement of modelling technologies and AI routines.
This book explores the latest advances in the field of building management. Several chapters use new technologies such as the BIM methodology for collecting life cycle information and managing the maintenance of existing buildings, sharing valid historical and architectural heritage data, energy analysis of building envelopes, and planning new buildings or sustainable building practices. In addition, other tools are presented that focus on improving access to BIM information, open-source governance, mobile applications to accelerate information transfer, the use of blockchain, lean design methods, and open-source software to solve critical path problems. Some contributions feature the assessment of occupational risks in construction, as it is necessary to plan preventive measures based on risk assessments integrated throughout the construction process, which is another important element for the management of this sector.
This book comprises the select proceedings of the 6th International Symposium on Formal Methods in Architecture (6FMA), A Coruña 2022. The contents focus on the use of methodologies, especially those that have witnessed recent developments stemming from mathematical and computer sciences and are developed in a collaborative way with architecture and related fields. This book constitutes a contribution to the debate and to the introduction of new methodologies and tools in the mentioned fields that derive from the application of formal methods in the creation of new explicit languages for problem-solving in architecture and urbanism. Some of the themes in the book are CAD and BIM, mixed realities, photogrammetry and 3D scan, architectural design automation, urban and building performance analysis, SCAVA-space configuration, accessibility and visibility analysis. This book proves a valuable resource for those in academia and industry.
This book provides a clear picture of how computational processes are gradually permeating and innovating the Architecture, Engineering, and Construction sector, contributing to sustainability and aesthetic evolution. It achieves that by gathering a collection of accounts shared by pioneering professionals involved in this innovation, drawing from recent academic studies, ongoing experimental processes conducted in cutting-edge architectural and engineering offices, as well as innovative industrial applications. The covered subjects span a wide range, including artificial intelligence and robotic manufacturing, the metaverse and 3D printing, strategies to counter CO2 consumption through plug-ins, as well as emerging materials and construction techniques. The chapters feature authors who are pioneers and embrace roles like software developers, architects, process engineers, academics, and forward-thinking entrepreneurs. They represent authoritative references within a broader interconnected cultural and technological system; an eclectic system that finds in computational processes the key to addressing the new challenges of contemporary architecture.
This book describes the most recent strategies for the digitalization of railway sector that bring new challenges for the construction, operation, and maintenance of railway infrastructures. These strategies involve the development and application of new technologies and methodologies to enhance the sustainability and resilience of railway infrastructures particularly under extreme climate and operational events. In particular, the digital transformation involves the use of digital twins, augmented and virtual reality, forecast capabilities, risk and life-cycle analysis, cybersecurity, unmanned technologies for monitoring and inspection, computer vision, AI, risk and disaster management, among others. Presently, the literature is lacking a contribution that provides general and foundational knowledge across these and other topics. Therefore, this book provides valuable information for researchers, students, and professionals in railway engineering that want to developtheir knowledge and skills in this field.
This book provides the latest research and technology advances in building fire safety and smart firefighting. Different experts systemically review the application of new technologies like Artificial Intelligence, Internet of Things, Virtual Reality, Digitalization, and Metaverse in fire safety areas. These multi-disciplinary research and technology fusion will significantly change the fire resilience design and firefighting practices in the next 20 years. Achieving urban fire safety and resilience also plays a key role in developing future smart buildings and cities. This book attracts more young researchers into the latest multi-disciplinary fire safety research and promotes the application of the new technologies in firefighting.
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