Since 1994, the European Conferences of Product and Process Modelling (www.ecppm.org) have provided a review of research, development and industrial implementation of product and process model technology in the Architecture, Engineering, Construction and Facilities Management (AEC/FM) industry. Product/Building Information Modelling has matured sig
Meet the challenge of integrating Building Information Modeling and sustainability with this in-depth guide, which pairs these two revolutionary movements to create environmentally friendly design through a streamlined process. Written by an award-winning team that has gone beyond theory to lead the implementation of Green BIM projects, this comprehensive reference features practical strategies, techniques, and real-world expertise so that you can create sustainable BIM projects, no matter what their scale.
This book gathers papers from the 12th Construction Industry Development Board (CIDB) Postgraduate Research Conference, which was held at the International Convention Centre, East London, Eastern Cape, South Africa, from July 10 to 12, 2022. The conference directly addresses the objectives of SDG9: “Building resilient infrastructure, promoting inclusive and sustainable industrialization and fostering innovation”. Moreover, the conference is designed to promote capacity development and transformation within the built-environment space by providing an all-inclusive platform to established and emerging researchers to discuss the recent advancements needed to move the industry forward.
Building Information Modeling (BIM) refers to the consistent and continuous use of digital information throughout the entire lifecycle of a built facility, including its design, construction and operation. In order to exploit BIM methods to their full potential, a fundamental grasp of their key principles and applications is essential. Accordingly, this book combines discussions of theoretical foundations with reports from the industry on currently applied best practices. The book’s content is divided into six parts: Part I discusses the technological basics of BIM and addresses computational methods for the geometric and semantic modeling of buildings, as well as methods for process modeling. Next, Part II covers the important aspect of the interoperability of BIM software products and describes in detail the standardized data format Industry Foundation Classes. It presents the different classification systems, discusses the data format CityGML for describing 3D city models and COBie for handing over data to clients, and also provides an overview of BIM programming tools and interfaces. Part III is dedicated to the philosophy, organization and technical implementation of BIM-based collaboration, and discusses the impact on legal issues including construction contracts. In turn, Part IV covers a wide range of BIM use cases in the different lifecycle phases of a built facility, including the use of BIM for design coordination, structural analysis, energy analysis, code compliance checking, quantity take-off, prefabrication, progress monitoring and operation. In Part V, a number of design and construction companies report on the current state of BIM adoption in connection with actual BIM projects, and discuss the approach pursued for the shift toward BIM, including the hurdles taken. Lastly, Part VI summarizes the book’s content and provides an outlook on future developments. The book was written both for professionals using or programming such tools, and for students in Architecture and Construction Engineering programs.
"Modular Homes: The Types, Materials, Models, Processes, and Implementation" is a comprehensive guide to the world of modular construction, exploring every aspect of this rapidly evolving industry. With modular homes emerging as a sustainable, affordable, and high-quality alternative to traditional housing, this book delves deep into the types of modular homes, the materials used, the manufacturing process, and the implementation strategies that make modular construction a vital solution for the future of housing. Written by Ron Legarski, a leading expert in telecommunications and modular home connectivity, this book offers readers detailed insights into how modular homes are constructed and why they are gaining popularity across urban and rural landscapes. From the intricacies of customization and energy-efficient design to the practical aspects of zoning, land development, and investment opportunities, this book provides a step-by-step roadmap for understanding and executing modular home projects. Key topics include: Types of modular homes: Single-family, multi-family, tiny homes, and commercial modular buildings. Materials and sustainability: Exploring eco-friendly, energy-efficient materials that enhance durability and reduce costs. The modular homebuilding process: Planning, design, manufacturing, and on-site assembly. Smart technologies and connectivity: Integrating modern telecommunications, smart home systems, and energy-efficient solutions to create future-ready modular homes. Business and investment opportunities: Navigating the financial landscape, market trends, and ROI strategies for investors and developers. Whether you're a homeowner, builder, investor, or an industry professional, "Modular Homes: The Types, Materials, Models, Processes, and Implementation" is an essential resource that combines technical knowledge with practical advice. Discover how modular homes can deliver speed, cost-efficiency, and sustainability without compromising quality—paving the way for the future of housing. About the Author Ron Legarski is the President and CEO of SolveForce, a telecommunications company specializing in internet connectivity and smart technology solutions for modern homes and businesses. With over two decades of experience in the fields of telecommunications and modular construction, Ron is a thought leader in aligning cutting-edge technology with the modular home industry, making him uniquely positioned to provide authoritative insights on the future of housing.
The optimal approach to design, build, operate, and maintainbuildings With this strategic guide to building information modeling(BIM), you’ll learn how to implement this new technology aspart of a comprehensive systems approach to the design,construction, management, operation, maintenance, and use ofbuildings. The authors, among the leading experts andpioneers in BIM, show you how BIM supports more streamlined,integrated, and efficient business processes throughout the lifecycle of buildings, from their initial conception through theireventual retirement or reuse. The result is better qualitybuildings, lower construction and operating costs, shorter projectturnaround times, and a higher quality of building information tosupport better business decisions. Moreover, they set forth aplan for incorporating BIM into every organization’s existingworkflows, enabling you to take full advantage of all the benefitsthat BIM offers. Everything you need to implement a BIM approach is setforth in detail, including: The business case for BIM, demonstrating how it can improvecollaboration, facilitate better design and construction, optimizeworkflow, and help reduce risk Guidance for meeting the challenges of BIM such as anentrenched business culture, the proliferation of BIM tools, andthe uneven rates of BIM adoption The “big picture” view showing how yourorganization can work with business partners and fit into thebuilding life cycle in a BIM-enabled industry Throughout the book, sample documents and figures help youbetter understand the principles of BIM and how it works inpractice. In addition, first-hand accounts show you exactlyhow adopters of BIM have gained a competitive edge. Architects, engineers, constructors, building owners, andfacility managers can turn to this book to realize the fullpotential of BIM and radically improve the way buildings aredesigned, built, operated, and maintained.
Global pandemics, smart technologies, demographics and climate change are just some of the external disruptors that may impact the home’s evolution over the next ten years. Future Home provides a comprehensive ‘horizon scan’ of what our homes may be like approximately ten years from now, by looking for early signs of potentially important developments through a systematic examination of trends, innovations and disruptors. The authors consider what aspects of the home are likely to remain constant and what aspects may change beyond all recognition and if changes are predicted, what form they may take and, most importantly, what this means for design professionals. Exploring areas of buildings and technology, people and delivery, each chapter addresses the catalysts, natures and responses to these changes. This book provides an overview of the future home that will be essential reading for designers, policy-makers and homeowners alike.
This book offers ideas and practices on contemporary design concepts and illustrates them with plans and photographs of outstanding examples. Current planning and design modes of dwellings and neighborhoods are facing challenges of philosophy and form. Past approaches no longer sustain new demands and require innovative thinking. The need for a new outlook is propelled by fundamental changes that touch upon environmental, economic and social aspects. The depletion of non-renewable natural resources and climate change are a few of the environmental challenges. Increasing costs of material, labor, land and infrastructure have posed economic challenges with affordability being paramount among them. Social challenges are also drawing the attention of designers, builders and homeowners. Walkable communities, aging in place and multigenerational living are some of the concepts considered. In addition, live-work environments have become part of the economic reality for those who wish to work from home—which has become possible through digital advances. The text would be of interest to scholars working in: architecture, urban planning, and construction.
This book provides in-depth results and case studies in innovation from actual work undertaken in collaboration with industry partners in Architecture, Engineering, and Construction (AEC). Scientific advances and innovative technologies in the sector are key to shaping the changes emerging as a result of Industry 4.0. Mainstream Building Information Management (BIM) is seen as a vehicle for addressing issues such as industry fragmentation, value-driven solutions, decision-making, client engagement, and design/process flow; however, advanced simulation, computer vision, Internet of Things (IoT), blockchain, machine learning, deep learning, and linked data all provide immense opportunities for dealing with these challenges and can provide evidenced-based innovative solutions not seen before. These technologies are perceived as the “true” enablers of future practice, but only recently has the AEC sector recognised terms such as “golden key” and “golden thread” as part of BIM processes and workflows. This book builds on the success of a number of initiatives and projects by the authors, which include seminal findings from the literature, research and development, and practice-based solutions produced for industry. It presents these findings through real projects and case studies developed by the authors and reports on how these technologies made a real-world impact. The chapters and cases in the book are developed around these overarching themes: • BIM and AEC Design and Optimisation: Application of Artificial Intelligence in Design • BIM and XR as Advanced Visualisation and Simulation Tools • Design Informatics and Advancements in BIM Authoring • Green Building Assessment: Emerging Design Support Tools • Computer Vision and Image Processing for Expediting Project Management and Operations • Blockchain, Big Data, and IoT for Facilitated Project Management • BIM Strategies and Leveraged Solutions This book is a timely and relevant synthesis of a number of cogent subjects underpinning the paradigm shift needed for the AEC industry and is essential reading for all involved in the sector. It is particularly suited for use in Masters-level programs in Architecture, Engineering, and Construction.
