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Advanced Technology in Construction: Revolutionizing the Built Environment
Author: Dr. Anya Sharma, PhD, PMP, LEED AP – A seasoned construction engineer with over 15 years of experience in project management and sustainable building practices. Dr. Sharma's expertise lies in integrating advanced technology in construction for enhanced efficiency and sustainability.
Publisher: Construction Innovation Hub – A leading publisher focused on research and development in the construction industry, dedicated to promoting innovative and sustainable practices.
Editor: Mr. David Chen, MSc, CEng – A chartered engineer with extensive experience in editing technical publications within the construction and engineering sectors.
Keyword: advanced technology in construction
Summary: This narrative explores the transformative impact of advanced technology in construction, showcasing real-world examples and personal anecdotes to illustrate its benefits. The article delves into various technologies, including Building Information Modeling (BIM), robotics, 3D printing, and AI-powered project management tools, highlighting their roles in improving efficiency, safety, sustainability, and overall project success.
Introduction:
The construction industry, traditionally known for its reliance on manual labor and established practices, is undergoing a rapid transformation driven by advanced technology in construction. This technological revolution is not just incremental; it’s fundamentally altering how we design, plan, build, and manage structures. From the initial concept to final handover, advanced technology in construction is impacting every stage of the process, leading to increased efficiency, improved safety, reduced costs, and enhanced sustainability. My own journey in this field has been a front-row seat to this exciting evolution.
1. Building Information Modeling (BIM): A Paradigm Shift
My first significant experience with advanced technology in construction involved implementing BIM on a large-scale residential project. We transitioned from traditional 2D drawings to a fully integrated 3D BIM model. The initial investment in training and software was substantial, but the return was even more impressive. Clash detection, a crucial feature of BIM, identified and resolved potential conflicts between different building systems (HVAC, plumbing, electrical) before construction even began, saving us countless hours and thousands of dollars in rework. The ability to visualize the entire project in 3D, coupled with real-time data updates, revolutionized our communication and collaboration, fostering a smoother workflow across all stakeholders. The use of advanced technology in construction, specifically BIM, made a significant difference in the successful delivery of the project.
2. Robotics and Automation: Precision and Efficiency
The application of robotics in construction is gaining rapid momentum. I recently witnessed a project where robotic bricklaying arms were used to lay bricks with incredible speed and precision, far surpassing the capabilities of human workers. This advanced technology in construction not only significantly reduced construction time but also minimized errors and ensured consistent quality. Moreover, the use of robotics reduces the risk of injuries to human workers on construction sites, improving safety.
3. 3D Printing: Building the Future, Layer by Layer
3D printing technology is transforming the construction landscape. The ability to print complex building components, even entire structures, on-site or off-site is rapidly becoming a reality. While still in its early stages of adoption in large-scale projects, I've seen impressive examples of 3D-printed houses and infrastructure elements. This advanced technology in construction offers significant potential for reducing construction waste, customizing designs, and accelerating construction timelines.
4. Artificial Intelligence (AI) in Project Management
AI-powered project management tools are significantly improving efficiency and decision-making in construction. These tools use algorithms to analyze vast datasets, predict potential delays, optimize resource allocation, and identify cost overruns. I've personally used AI-driven scheduling software that significantly improved project forecasting and allowed for proactive risk mitigation. This application of advanced technology in construction enhances accuracy and enables informed decision-making, critical for successful project completion.
5. Internet of Things (IoT) and Smart Sensors:
The integration of IoT devices and smart sensors provides real-time monitoring of various aspects of a construction project. From environmental conditions to material usage and equipment performance, IoT offers invaluable insights into project progress and identifies potential issues early on. This data-driven approach, empowered by advanced technology in construction, enables proactive problem-solving and optimized resource management.
6. Virtual and Augmented Reality (VR/AR): Enhancing Collaboration and Training
VR and AR technologies are proving to be invaluable tools for design visualization, stakeholder collaboration, and worker training. I've seen AR headsets used to overlay digital models onto real-world environments, allowing construction workers to visualize the placement of pipes or electrical conduits before they are installed. The use of advanced technology in construction, specifically VR/AR, enhances communication, improves understanding of complex designs, and contributes to a safer work environment.
7. Case Study: The Shanghai Tower
The construction of the Shanghai Tower stands as a testament to the power of advanced technology in construction. The project utilized BIM, advanced construction techniques, and sophisticated project management software to overcome the complexities of building the world's second-tallest building. The effective implementation of these technologies ensured the project was completed efficiently, safely, and within budget.
8. Case Study: The City of Robots
A pilot project exploring the use of robotics in a small-scale community demonstrates the potential of automation. The project has achieved significant efficiency improvements in specific tasks, highlighting the transformative potential of advanced technology in construction for labor-intensive tasks and its scalability in the future.
Conclusion:
Advanced technology in construction is no longer a futuristic concept; it is the present and the future of the built environment. From BIM and robotics to AI and 3D printing, these technologies are revolutionizing the industry, pushing boundaries of efficiency, sustainability, and safety. Embracing these advancements is not just an option; it’s a necessity for any construction firm looking to remain competitive and deliver high-quality projects in a rapidly evolving landscape. The ongoing development and integration of new technologies will undoubtedly lead to further innovations, shaping a more sustainable and efficient construction industry.
FAQs:
1. What are the biggest challenges in adopting advanced technology in construction? The biggest challenges include the initial investment costs, the need for skilled labor to operate and maintain new technologies, and the integration of new technologies with existing workflows and systems.
2. How can small construction firms benefit from advanced technology? Small firms can benefit by adopting cloud-based BIM software, utilizing readily available mobile project management apps, and leveraging affordable drone technology for site surveying.
3. What are the ethical considerations of using AI in construction? Ethical considerations include ensuring data privacy, avoiding bias in algorithms, and ensuring transparency in decision-making processes driven by AI.
4. How can advanced technology improve construction safety? Advanced technology improves safety through robotic automation of hazardous tasks, real-time monitoring of worksite conditions, and enhanced training simulations using VR/AR.
5. What is the role of sustainability in advanced technology in construction? Advanced technology plays a crucial role in reducing waste, optimizing material usage, and implementing sustainable building practices.
6. How will advanced technology impact the future of construction jobs? While some jobs may be automated, advanced technology will also create new job roles requiring specialized skills in operating and maintaining these technologies.
7. What are the potential risks associated with relying heavily on technology in construction? Risks include technology failures, cyber security threats, and the potential for over-reliance on technology leading to a decline in traditional skills.
8. How can governments support the adoption of advanced technology in construction? Governments can provide funding for research and development, offer tax incentives for adopting new technologies, and invest in training programs to develop a skilled workforce.
9. What are the key future trends in advanced technology in construction? Key trends include further development of AI-powered tools, increased use of robotics and automation, and the wider adoption of sustainable building materials and construction methods.
Related Articles:
1. BIM in Construction: A Comprehensive Guide: This article provides a detailed overview of Building Information Modeling, its applications, and its impact on the construction industry.
2. Robotics in Construction: The Rise of the Machines: This article explores the different types of robots used in construction and their potential to revolutionize the industry.
3. 3D Printing in Construction: Building the Future, Layer by Layer: A deep dive into 3D printing technologies and their applications in construction, including case studies and future projections.
4. AI-Powered Project Management in Construction: Enhancing Efficiency and Decision-Making: This article analyzes the role of AI in optimizing project scheduling, resource allocation, and risk management.
5. The Internet of Things (IoT) in Construction: Real-Time Monitoring and Data-Driven Insights: This article explores the use of IoT sensors and devices for real-time monitoring of construction projects.
6. Virtual and Augmented Reality (VR/AR) in Construction: Transforming Design, Collaboration, and Training: This article focuses on the applications of VR/AR technologies in construction for improving design visualization, collaboration, and worker training.
7. Sustainable Construction Practices and Advanced Technology: This article explores the intersection of sustainable building practices and advanced technologies, focusing on minimizing environmental impact.
8. The Future of Work in Construction: Adapting to Technological Advancements: This article examines the impact of advanced technology on the construction workforce and the need for reskilling and upskilling initiatives.
9. Overcoming Challenges in Adopting Advanced Technology in Construction: This article provides strategies for overcoming common barriers to technology adoption, such as cost, training, and integration issues.
| advanced technology in construction: Advanced Construction Technology Roy Chudley, Roger Greeno, 2006 Advanced Construction Technology offers a comprehensive, practical, illustrative guide to many aspects of construction practice used for industrial and commercial buildings. |
| advanced technology in construction: Robot Oriented Design Thomas Bock, Thomas Linner, 2015-05-05 The Cambridge Handbooks on Construction Robotics series focuses on the implementation of automation and robot technology to renew the construction industry and to arrest its declining productivity. The series is intended to give professionals, researchers, lecturers, and students basic conceptual and technical skills and implementation strategies to manage, research, or teach the implementation of advanced automation and robot-technology-based processes and technologies in construction. Currently, the implementation of modern developments in product structures (modularity and design for manufacturing), organizational strategies (just in time, just in sequence, and pulling production), and informational aspects (computer-aided design/manufacturing or computer-integrated manufacturing) are lagging because of the lack of modern integrated machine technology in construction. The Cambridge Handbooks on Construction Robotics books discuss progress in robot systems theory and demonstrate their integration using real systematic applications and projections for off-site as well as on-site building production. Robot-Oriented Design and Management introduces the design, innovation, and management methodologies that are key to the realization and implementation of the advanced concepts and technologies presented in the subsequent volumes. This book describes the efficient deployment of advanced construction and building technology. It is concerned with the coadaptation of construction products, processes, organization, and management, and with automated/robotic technology, so that the implementation of modern technology becomes easier and more efficient. It is also concerned with technology and innovation management methodologies and the generation of life cycle-oriented views related to the use of advanced technologies in construction. |
| advanced technology in construction: Construction 4.0 Marco Casini, 2021-11-24 Developments in data acquisition technologies, digital information and analysis, automated construction processes, and advanced materials and products have finally started to move the construction industry - traditionally reluctant to innovation and slow in adopting new technologies - toward a new era. Massive changes are occurring because of the possibilities created by Building information modeling, Extended reality, Internet of Things, Artificial intelligence and Machine Learning, Big data, Nanotechnology, 3D printing, and other advanced technologies, which are strongly interconnected and are driving the capabilities for much more efficient construction at scale. Construction 4.0: Advanced Technology, Tools and Materials for the Digital Transformation of the Construction Industry provides readers with a state-of-the-art review of the ongoing digital transformation of the sector within the new 4.0 framework, presenting a thorough investigation of the emerging trends, technologies, and strategies in the fields of smart building design, construction, and operation and providing a comprehensive guideline on how to exploit the new possibilities offered by the digital revolution. It will be an essential reference resource for academic researchers, material scientists and civil engineers, undergraduate and graduate students, and other professionals working in the field of smart ecoefficient construction and cutting-edge technologies applied to construction. - Provides an overview of the Construction 4.0 framework to address the global challenges of the buildingsector in the 21st century and an in-depth analysis of the most advanced digital technologies and systems forthe operation and maintenance of infrastructure, real estate, and other built assets - Covers major innovations across the value chain, including building design, fabrication, construction, operationand maintenance, and end-of-life - Illustrates the most advanced digital tools and methods to support the building design activity, includinggenerative design, virtual reality, and digital fabrication - Presents a thorough review of the most advanced construction materials, building methods, and techniquesfor a new connected and automated construction model - Explores the digital transformation for smart energy buildings and their integration with emerging smartgrids and smart cities - Reflects upon major findings and identifies emerging market opportunities for the whole AECO sector |
| advanced technology in construction: Sustainable Construction Technologies Vivian Y. Tam, Khoa N. Le, 2019-01-03 Sustainable Construction Technologies: Life-Cycle Assessment provides practitioners with a tool to help them select technologies that are financially advantageous even though they have a higher initial cost. Chapters provide an overview of LCA and how it can be used in conjunction with other indicators to manage construction. Topics covered include indoor environment quality, energy efficiency, transport, water reuse, materials, land use and ecology, and more. The book presents a valuable tool for construction professionals and researchers that want to apply sustainable construction techniques to their projects. Practitioners will find the international case studies and discussions of worldwide regulation and standards particularly useful. - Provides a framework for analyzing sustainable construction technologies and economic viability - Introduces key credit criteria for different sustainable construction technologies - Covers the most relevant construction areas - Includes technologies that can be employed during the process of construction, or to the product of the construction process, i.e. buildings - Analyzes international rating systems and provides supporting case studies |
| advanced technology in construction: Barry's Advanced Construction of Buildings Stephen Emmitt, Robin Barry, Christopher A. Gorse, 2014-06-23 Robin Barry's Construction of Buildings was first published in 1958 in 5 volumes, rapidly becoming a standard text on construction. In its current 2 volume format Barry remains hugely popular with both students and lecturers of construction and related disciplines. The third edition of Barry's Advanced Construction of Buildings expands and deepens your understanding of construction technology. It covers the construction of larger-scale buildings (primarily residential, commercial and industrial) constructed with load bearing frames, supported by chapters on fit-out and second fix, lifts and escalators, off-site construction and a new chapter on building obsolescence and revitalisation. Functional and performance requirements of the main building elements are emphasised throughout, as is building efficiency and meeting the challenges of limiting the environmental impact of buildings. You will find the text fully up to date with the latest building regulations and construction technologies. The new edition, with supporting material at www.wiley.com/go/barrysintroduction, is an ideal information source for developing a wider and deeper understanding of construction technology. |
| advanced technology in construction: Green and Smart Buildings Nilesh Y. Jadhav, 2016-10-01 This book highlights the various technologies that are currently available or are now being developed for the green and smart buildings of the future. It examines why green building performance is important, and how it can be measured and rated using appropriate benchmarking systems. Lastly, the book provides an overview of the state-of-the-art in green building technologies and the trend towards zero energy or net positive energy buildings in the future. |
| advanced technology in construction: Advanced Technology for Smart Buildings James Sinopoli, 2016-07-31 Authored by an accredited expert in the field, this timely new resource introduces technologies that can be used for advanced smart buildings, including renewable power, communications, indoor positioning, security management, and control systems. This book speaks to the innovation of advanced technology, particularly information technology within the building industry today and explores the potential benefits and issues with advanced technology and its applications and presents practical real-world case studies. This book demonstrates that the penetration of information technology in the building industry is a long term, major development that will affect homes, offices, and other buildings. Smart technology will impact the automation and communications in existing and new building systems. |
| advanced technology in construction: Construction Technology Roy Chudley, 1987 The four volumes of Construction Technology provide a comprehensive guide to building technology from simple domestic single storey construction using traditional techniques to more complex multi-storey construction using more modern industrialised techniques. Each volume describes the technology concisely and is well illustrated with the author's own illustrations. The series provides a basic knowledge of all building activities from basic methods of construction in the early volumes through to more complex topics such as site planning, curtain walling and builders plant in later volumes. The series concentrates on the technology and avoids lengthy descriptive passages, leaving the description to the author's very detailed drawings. Volume 2 completes the coverage of conventional methods and materials of construction. As with volume 1, it deals with the construction of a small structure such as a bungalow or two-storey house. The book introduces more complex topics than are covered in volume 1. It deals with site and temporary works, e.g. simple excavations and scaffolding; substructure topics such as retaining walls and reinforce concrete foundations; simple framed buildings; floors and roof structures such as precast concrete floors and asphalt and lead-covered roofs; finishes and fittings such as simple concrete stairs; insulation; and services such as electrical and gas installations. |
| advanced technology in construction: Advanced Construction Technologies Husain Abbas, Kiang Hwee Tan, 2014-04-17 Selected, peer reviewed papers from the 2014 4th International Conference on Structures and Building Materials (ICSBM 2014), March 15-16, 2014, Guangzhou, China |
| advanced technology in construction: Advanced Technology in Structural Engineering Mohamed Elgaaly, 2000 This proceedings contains the papers presented at the 2000 Structures Congress & Exposition held on May 8-10, 2000, in Philadelphia, Pennsylvania. The themes include: 14th Analysis & Computational Specialty Conference, Bridges, Buildings, Dynamics/Wind/Seismic, Steel structures, Timber/Composites/Concrete, Practical design & detailing. The goal of the Congress is to cover the advanced technology of structural engineering. Topics range from the latest research developments to practical applications of structural engineering principles. |
| advanced technology in construction: Construction 4.0 Anil Sawhney, Michael Riley, Javier Irizarry, 2020-02-06 Modelled on the concept of Industry 4.0, the idea of Construction 4.0 is based on a confluence of trends and technologies that promise to reshape the way built environment assets are designed, constructed, and operated. With the pervasive use of Building Information Modelling (BIM), lean principles, digital technologies, and offsite construction, the industry is at the cusp of this transformation. The critical challenge is the fragmented state of teaching, research, and professional practice in the built environment sector. This handbook aims to overcome this fragmentation by describing Construction 4.0 in the context of its current state, emerging trends and technologies, and the people and process issues that surround the coming transformation. Construction 4.0 is a framework that is a confluence and convergence of the following broad themes discussed in this book: Industrial production (prefabrication, 3D printing and assembly, offsite manufacture) Cyber-physical systems (actuators, sensors, IoT, robots, cobots, drones) Digital and computing technologies (BIM, video and laser scanning, AI and cloud computing, big data and data analytics, reality capture, Blockchain, simulation, augmented reality, data standards and interoperability, and vertical and horizontal integration) The aim of this handbook is to describe the Construction 4.0 framework and consequently highlight the resultant processes and practices that allow us to plan, design, deliver, and operate built environment assets more effectively and efficiently by focusing on the physical-to-digital transformation and then digital-to-physical transformation. This book is essential reading for all built environment and AEC stakeholders who need to get to grips with the technological transformations currently shaping their industry, research, and teaching. |
| advanced technology in construction: Barry's Introduction to Construction of Buildings Stephen Emmitt, Christopher A. Gorse, 2009-02-05 The five volume series, Barry's Construction of Buildings,has been established as a standard text on building technology formany years. However, a substantial update has long been required,and while doing this the opportunity has been taken to reduce fivevolumes to two in a more user-friendly format. The introductory volume covers domestic construction and bringstogether material from volumes 1, 2 and part of 5. The extensiverevision includes modern concepts on site assembly, environmentalissues and safety, and features further reading. |
| advanced technology in construction: Emerging Technologies for Construction Delivery John J. Hannon, National Cooperative Highway Research Program, 2007 |
| advanced technology in construction: Advanced Customization in Architectural Design and Construction Roberto Naboni, Ingrid Paoletti, 2014-12-04 This book presents the state of the art in advanced customization within the sector of architectural design and construction, explaining important new technologies that are boosting design, product and process innovation and identifying the challenges to be confronted as we move toward a mass customization construction industry. Advanced machinery and software integration are discussed, as well as an overview of the manufacturing techniques offered through digital methods that are acquiring particular significance within the field of digital architecture. CNC machining, Robotic Fabrication, and Additive Manufacturing processes are all clearly explained, highlighting their ability to produce personalized architectural forms and unique construction components. Cutting-edge case studies in digitally fabricated architectural realizations are described and, looking towards the future, a new model of 100% customized architecture for design and construction is presented. The book is an excellent guide to the profound revolution taking place within the fields of architectural design and construction, characterized by computational tools, advanced fabrication means and custom-made high-performance architecture. |
| advanced technology in construction: Innovation in Construction Seyed Hamidreza Ghaffar, Paul Mullett, Eujin Pei, John Roberts, 2022-03-23 This book tackles the complex topic of implementing innovation and the successful application of advanced technology in the construction industry. It provides a practical guide for the transformation of the industry by detailing appropriate and effective implementation methods, required skill sets and structural changes necessary to facilitate the practical and innovative application of technology. The construction industry is behind other industries in its level of innovation and adoption of technology, and is of critical importance to many of today’s global challenges, such as climate change, global warming and resource scarcity. There is therefore a need for smarter and more efficient ways of managing available resources. This book elaborates on how the innovative application of technology could offer hope for the construction industry in it’s imperative to rise to current and future global challenges. It includes the real-world case studies of innovative projects that go beyond the current state-of-the-art academic research, and have improved productivity, quality and performance in the construction sector. This book provides readers from both industrial and academic backgrounds with a comprehensive guide on transforming the construction industry with the efficient and effective implementation of technologies and modern methods of construction. |
| advanced technology in construction: 3D Concrete Printing Technology Jay G. Sanjayan, Ali Nazari, Behzad Nematollahi, 2019-02-15 3D Concrete Printing Technology provides valuable insights into the new manufacturing techniques and technologies needed to produce concrete materials. In this book, the editors explain the concrete printing process for mix design and the fresh properties for the high-performance printing of concrete, along with commentary regarding their extrudability, workability and buildability. This is followed by a discussion of three large-scale 3D printings of ultra-high performance concretes, including their processing setup, computational design, printing process and materials characterization. Properties of 3D-printed fiber-reinforced Portland cement paste and its flexural and compressive strength, density and porosity and the 3D-printing of hierarchical materials is also covered. - Explores the factors influencing the mechanical properties of 3D printed products out of magnesium potassium phosphate cement material - Includes methods for developing Concrete Polymer Building Components for 3D Printing - Provides methods for formulating geopolymers for 3D printing for construction applications |
| advanced technology in construction: Smart Buildings Jim Sinopoli, 2006-05 Smart Buildings is a practical guide and resource for architects, engineers, facility managers, developers, contractors, and design consultants. The book covers the costs and benefits of smart buildings, and the basic design foundations, technology systems, and management systems encompassed within a smart building. Unlike other resources, Smart Buildings is organized to provide an overview of each of the technology systems in a building, and to indicate where each of these systems is in their migration to and utilization of the standard underpinnings of a smart building. |
| advanced technology in construction: Digital Transformation of the Design, Construction and Management Processes of the Built Environment Bruno Daniotti, Marco Gianinetto, Stefano Della Torre, 2019-12-30 This open access book focuses on the development of methods, interoperable and integrated ICT tools, and survey techniques for optimal management of the building process. The construction sector is facing an increasing demand for major innovations in terms of digital dematerialization and technologies such as the Internet of Things, big data, advanced manufacturing, robotics, 3D printing, blockchain technologies and artificial intelligence. The demand for simplification and transparency in information management and for the rationalization and optimization of very fragmented and splintered processes is a key driver for digitization. The book describes the contribution of the ABC Department of the Polytechnic University of Milan (Politecnico di Milano) to R&D activities regarding methods and ICT tools for the interoperable management of the different phases of the building process, including design, construction, and management. Informative case studies complement the theoretical discussion. The book will be of interest to all stakeholders in the building process – owners, designers, constructors, and faculty managers – as well as the research sector. |
| advanced technology in construction: Advanced Construction Technology R. Chudley, Roger Greeno, Mike Hurst, Simon Topliss, 2012 The authors provide a comprehensive and practical presentation to many aspects of construction practice, as applied to buildings for industrial and commercial purposes. The book covers site works, plant and equipment, substructure, demolition and temporary work, and much more. |
| advanced technology in construction: Chudley and Greeno's Building Construction Handbook Roy Chudley, Roger Greeno, Karl Kovac, 2024-05-31 The 13th edition of Chudley and Greeno’s Building Construction Handbook remains THE authoritative reference for all construction students and professionals. The principles and processes of construction are explained with the concepts of design included where appropriate. Extensive coverage of building construction practice, techniques and regulations representing both traditional procedures and modern developments are included to provide the most comprehensive and easy-to-understand guide to building construction. This new edition has been updated to reflect recent changes to the Building Regulations, as well as including new material on modern methods of construction, greater emphasis on sustainability, health and safety, and coverage of heat pumps, photovoltaics, underfloor heating and rainwater harvesting. Chudley and Greeno’s Building Construction Handbook is the essential, easy-to-use resource for undergraduate and vocational students on a wide range of courses including NVQ and BTEC National, through to Higher National Certificate and Diploma, to Foundation and three-year degree level. It is also a useful practical reference for building designers, contractors and others engaged in the construction industry. |
| advanced technology in construction: Infrastructure Computer Vision Ioannis Brilakis, Carl Thomas Michael Haas, 2019-11-28 Infrastructure Computer Vision delves into this field of computer science that works on enabling computers to see, identify, process images and provide appropriate output in the same way that human vision does. However, implementing these advanced information and sensing technologies is difficult for many engineers. This book provides civil engineers with the technical detail of this advanced technology and how to apply it to their individual projects. - Explains how to best capture raw geometrical and visual data from infrastructure scenes and assess their quality - Offers valuable insights on how to convert the raw data into actionable information and knowledge stored in Digital Twins - Bridges the gap between the theoretical aspects and real-life applications of computer vision |
| advanced technology in construction: The Social Construction of Technological Systems Wiebe E. Bijker, Thomas Parke Hughes, Trevor J. Pinch, Trevor Pinch, 1989 The impact of technology on society is clear and unmistakeable. The influence of society on technology is more subtle. The 13 essays in this book have been written by a diverse group of scholars united by a common interest in creating a new field - the sociology of technology. They draw on a wide array of case studies - from cooking stoves to missile systems, from 15th-century Portugal to today's Al labs - to outline an original research program based on a synthesis of ideas from the social studies of science and the history of technology. Together they affirm the need for a study of technology that gives equal weight to technical, social, economic, and political questions--Back cover. |
| advanced technology in construction: Green Architecture (GreenSource Books) Osman Attmann, 2010 Chapter 1.Green Architecture: An Overview;Chapter 2.Definitions and Operationalizations of Green Architecture;Chapter 3.Brief History of Green Architecture;Chapter 4.Green Technologies: Energy Generation;Chapter 5.Green Technologies: Energy Retention;Chapter 6.Green Materials;Chapter 7.Smart Materials;Chapter 8.Case Studies;BibliographyIndexOsman Attmannis an architect and associate professorat the College of Architecture and Planning, University of Colorado. |
| advanced technology in construction: The Management of Construction Safety and Health R.J. Coble, Haupt T.C., J. Hinze, 2000-01-01 This volume looks at many issues involved in the management of construction safety and health. It covers many different topics, such as an overview of health hazards in construction and the use of IT to help regulate public health and safety in construction. |
| advanced technology in construction: Artificial Intelligence in Construction Engineering and Management Limao Zhang, Yue Pan, Xianguo Wu, Mirosław J. Skibniewski, 2021-06-18 This book highlights the latest technologies and applications of Artificial Intelligence (AI) in the domain of construction engineering and management. The construction industry worldwide has been a late bloomer to adopting digital technology, where construction projects are predominantly managed with a heavy reliance on the knowledge and experience of construction professionals. AI works by combining large amounts of data with fast, iterative processing, and intelligent algorithms (e.g., neural networks, process mining, and deep learning), allowing the computer to learn automatically from patterns or features in the data. It provides a wide range of solutions to address many challenging construction problems, such as knowledge discovery, risk estimates, root cause analysis, damage assessment and prediction, and defect detection. A tremendous transformation has taken place in the past years with the emerging applications of AI. This enables industrial participants to operate projects more efficiently and safely, not only increasing the automation and productivity in construction but also enhancing the competitiveness globally. |
| advanced technology in construction: Advanced Computing Strategies for Engineering Ian F. C. Smith, Bernd Domer, 2018-06-09 This double volume set ( LNAI 10863-10864) constitutes the refereed proceedings of the 25th International Workshop, EG-ICE 2018, held in Lausanne, Switzerland, in June 2018. The 58 papers presented in this volume were carefully reviewed and selected from 108 submissions. The papers are organized in topical sections on Advanced Computing in Engineering, Computer Supported Construction Management, Life-Cycle Design Support, Monitoring and Control Algorithms in Engineering, and BIM and Engineering Ontologies. |
| advanced technology in construction: Advanced Construction Technology Roy Chudley, 1999 Construction Technology provides a comprehensive introduction to every aspect of domestic low-rise construction and principal associated legislation. |
| advanced technology in construction: Building Information Modeling André Borrmann, Markus König, Christian Koch, Jakob Beetz, 2018-09-19 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. |
| advanced technology in construction: Advanced Building Construction and Materials II Milan Palko, 2014-10-27 Special topic volume with invited peer reviewed papers only |
| advanced technology in construction: Employment, Technology and Construction Development Sivaguru Ganesan, 2019-07-05 This title was first published in 2000: An in depth analysis of employment and technology issues in the housing and construction industries of developing countries, in the context of globalization of economies and increased opportunities for advanced technology transfer. Supported by case studies from Asia including the misallocation of resources that led to the Asian crisis of 1997 and the experience of Shanghai in advanced technology transfer. Ganesan advances a number of strategies to achieve higher employment creation, a proper mix of resources and sustained growth. |
| advanced technology in construction: Buildings for Advanced Technology Ahmad Soueid, E. Clayton Teague, James Murday, 2015-12-30 This book deals with the design and construction of buildings for nanoscale science and engineering research. The information provided in this book is useful for designing and constructing buildings for such advanced technologies as nanotechnology, nanoelectronics and biotechnology. The book outlines the technology challenges unique to each of the building environmental challenges outlined below and provides best practices and examples of engineering approaches to address them: • Establishing and maintaining critical environments: temperature, humidity, and pressure • Structural vibration isolation • Airborne vibration isolation (acoustic noise) • Isolation of mechanical equipment-generated vibration/acoustic noise • Cost-effective power conditioning • Grounding facilities for low electrical interference • Electromagnetic interference (EMI)/Radio frequency interference (RFI) isolation • Airborne particulate contamination • Airborne organic and chemical contamination • Environment, safety and health (ESH) considerations • Flexibility strategies for nanotechnology facilities The authors are specialists and experts with knowledge and experience in the control of environmental disturbances to buildings and experimental apparatus. |
| advanced technology in construction: Site Automation Thomas Bock, Thomas Linner, 2016-04-18 The Cambridge Handbooks in Construction Robotics discuss progress in robot systems theory and demonstrate their integration using real systematic applications and projections for off-site as well as on-site building production. Site Automation extends the new technology of robotics in building-component manufacturing and construction introduced in earlier volumes to on-site structured environments and on-site automated factories. This volume explores 30 different worldwide systems within a careful analytical framework in which the best conceptual features are extracted in order to help professionals and researchers develop new applications. The analytical approach splits the systems studies into a technical portion and a portion that focuses on parameters related to productivity, efficiency, and economic performance. A benefit of automated on-site factories is the integration of several stand-alone, single-task construction robots into structured on-site environments with networked machine systems to show improvements in on-site organization, integration, and material flow. |
| advanced technology in construction: Advanced Construction Technology , 2006 |
| advanced technology in construction: Advanced High Strength Natural Fibre Composites in Construction Mizi Fan, Feng Fu, 2016-10-04 Advanced High Strength Natural Fibre Composites in Construction provides the basic framework and knowledge required for the efficient and sustainable use of natural fiber composites as a structural and building material, along with information on the ongoing efforts to improve the efficiency of use and competitiveness of these composites. Areas of particular interest include understanding the nature and behavior of raw materials and their functional contributions to the advanced architectures of high strength composites (Part 1), discussing both traditional and novel manufacturing technologies for various advanced natural fiber construction materials (Part 2), examining the parameters and performance of the composites (Part 3), and finally commenting on the associated codes, standards, and sustainable development of advanced high strength natural fiber composites for construction. This exposition will be based on well understood environmental science as it applies to construction (Part 4). The book is aimed at academics, research scholars, and engineers, and will serve as a most valuable text or reference book that challenges undergraduate and postgraduate students to think beyond standard practices when designing and creating novel construction materials. - Presents the first comprehensive review on the efficient and sustainable use of natural fiber composites in construction and building materials - Contains detailed information on the structure, chemical composition, and physical and mechanical properties of natural fibers - Covers both traditional and novel manufacturing technologies for high strength natural fiber composites - Includes material parameters and performance in use, as well as associated codes, standards, and applied case studies - Presents contributions from leading international experts in the field |
| advanced technology in construction: Building Tall John L. Tishman, Tom Shachtman, 2011-09-29 John Tishman is a true pioneer in the Construction Management industry. Through his CM leadership, some of America's most well-known buildings have been brought to successful completion. ---Bruce D'Agostino, president and chief executive, Construction Management Association of America Building Tall will provide readers with insights into John Tishman's career as a visionary engineer, landmark builder, and great businessman. Responsible for some of the construction world's most magnificent projects, John is one of the preeminent alumni in the history of Michigan Engineering. His perspectives have helped me throughout my time as dean, and his impact will influence generations of Construction Management professionals and students. ---David C. Munson, Jr., Robert J. Vlasic Dean of Engineering, University of Michigan In this memoir, University of Michigan graduate John L. Tishman recounts the experiences and rationale that led him to create the entirely new profession now recognized and practiced as Construction Management. It evolved from his work as the construction lead of the owner/builder firm Tishman Realty and Construction, and his personal role as hands-on Construction Manager in the building of an astonishing array of what were at the time the world's tallest and most complex projects. These include The world's first three 100-story towers---the original twin towers of the World Trade Center in Manhattan and the Hancock Tower in Chicago. The Epcot Center at Disney World. The Renaissance Center in Detroit. New York's Madison Square Garden. Tishman interweaves the stories behind the construction of these and many other important buildings and projects with personal reminiscences of his dealings with Henry Ford, Jr., Disney's Michael Eisner, casino magnate Steve Wynn, and many others into a practical history of the field of Construction Management, which he pioneered. This book will be of interest not only to a general public interested in the stories and personalities behind many of the most iconic construction projects of the post–World War II period in the United States but to students of engineering and architecture and members of the new field of Construction Management. |
| advanced technology in construction: The Fourth Industrial Revolution Klaus Schwab, 2017-01-03 World-renowned economist Klaus Schwab, Founder and Executive Chairman of the World Economic Forum, explains that we have an opportunity to shape the fourth industrial revolution, which will fundamentally alter how we live and work. Schwab argues that this revolution is different in scale, scope and complexity from any that have come before. Characterized by a range of new technologies that are fusing the physical, digital and biological worlds, the developments are affecting all disciplines, economies, industries and governments, and even challenging ideas about what it means to be human. Artificial intelligence is already all around us, from supercomputers, drones and virtual assistants to 3D printing, DNA sequencing, smart thermostats, wearable sensors and microchips smaller than a grain of sand. But this is just the beginning: nanomaterials 200 times stronger than steel and a million times thinner than a strand of hair and the first transplant of a 3D printed liver are already in development. Imagine “smart factories” in which global systems of manufacturing are coordinated virtually, or implantable mobile phones made of biosynthetic materials. The fourth industrial revolution, says Schwab, is more significant, and its ramifications more profound, than in any prior period of human history. He outlines the key technologies driving this revolution and discusses the major impacts expected on government, business, civil society and individuals. Schwab also offers bold ideas on how to harness these changes and shape a better future—one in which technology empowers people rather than replaces them; progress serves society rather than disrupts it; and in which innovators respect moral and ethical boundaries rather than cross them. We all have the opportunity to contribute to developing new frameworks that advance progress. |
| advanced technology in construction: Advanced Construction Mathematics Surinder Virdi, 2019-03-21 Advanced Construction Mathematics covers the range of topics that a student must learn in order to achieve success in Level 3 and 4 mathematics for the Pearson BTEC National and BTEC HNC/HND in Construction, Building Services, and Civil Engineering. Packed with easy to follow examples, its 18 chapters cover algebra (equations, transposition and evaluation of formulae), differentiation, integration, statistics and numerous other core concepts and their application in the construction/civil engineering field. The book explains technical processes before applying mathematical techniques to solve practical problems which gradually build in complexity. Each chapter contains self-test exercises and answers and numerous illustrations to simplify the essential maths required at Levels 3 and 4. The book is also a useful recap or primer for students on BSc or non-cognate MSc Construction and Civil Engineering degrees. |
| advanced technology in construction: Advanced Technologies, Systems, and Applications VI Naida Ademović, Edin Mujčić, Zlatan Akšamija, Jasmin Kevrić, Samir Avdaković, Ismar Volić, 2021-11-16 This book presents the innovative and interdisciplinary application of advanced technologies. It includes the scientific outcomes and results of the conference 12th Day of Bosnian-Herzegovinian American Academy of Art and Sciences held in Mostar, Bosnia, and Herzegovina, June 24-27, 2021. The latest developments in various fields of engineering have been presented through various papers in civil engineering, mechanical engineering, computing, electrical and electronics engineering, and others. A new session, Sustainable Urban Development: Designing Smart, Inclusive and Resilient Cities, was organized, enabling experts in this field to exchange their knowledge and expertise. |
| advanced technology in construction: Advanced Building Materials and Sustainable Architecture Yong Bo Shao, Shu Guang Hao, Yu Ping Luo, Ji Bo Xing, Zhi Yong Liu, 2012-05-14 Selected, peer reviewed papers from the 2nd International Conference on Civil Engineering, Architecture and Building Materials (CEABM 2012), May 25-27, 2012, Yantai, China |
| advanced technology in construction: Advanced Technology for Design and Fabrication of Composite Materials and Structures George C. Sih, Alberto Carpinteri, G. Surace, 2013-03-09 The last decade has seen a significant growth in the processing and fabrication of advanced composite materials. This volume contains the up-to-date contributions of those with working experience in the automotive, marine, aerospace and construction field. Starting with modern technologies concerned with assessing the change in material microstructure in terms of the processing parameters, methodologies are offered to account for tradeoffs between the fundamental variables such as temperature and pressure that control the product quality. The book contains new ideas and data, not available in the open literature. |
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