Recent accomplishments and visions for the future in the practical applications of construction robots and automated systems are reviewed in the 71 papers in this volume. The experience of specialists is brought together on a wide range of activities that employ common analytical and experimental methods in their estimation of automated construction planning. The results of the meeting are of world-wide interest, and will help to stimulate future research and analysis in this field.
Sourced from international experts, this book presents papers dealing with a wide range of soft and hard research issues at various stages of development in the field. Some cover entirely new ground, whilst others reflect progress on the sometimes frustrating path to truly robust technology. Of particular interest are contributions discussing issues of exploitation and commercialisation, the integration of end products within the design and construction processes incorporating information technology (IT) and the impact of the emerging technology on the culture and organisation of the construction industry. A mark of growing maturity is apparent in the coverage of health and safety and related social issues. This is complemented by a clear commitment to the consideration of human factors and the environment. It is hoped that by promoting a wider debate on the matters of future technology and its horizons, on the identification of what industry needs from the research and development community and on building effective partnerships between academia, industry and government, the publication not only addresses the practical commercial obligation to seek robust solutions for today's problems, but will stimulate research for the years to come.
The use of robots in architecture is already commonplace: robots automate processes that were previously done manually. Complex shapes are created with the help of 3D printing while autonomous swarms of robots construct complex buildings. How does the use of robots affect the resulting structures; how does it affect the thinking of architects who work with robots? Robotic Building answers these questions with several practical examples. A final chapter explores the idea of architect as robot, the fully-automated home and similar concepts in which the robot merges with its environment and becomes part of our experience.
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.
Although highly ambitious and sophisticated, most attempts at using robotic processes in architecture remain the exception; little more than prototypes or even failures at a larger scale. This is because the general approach is either to automate existing manual processes or the complete construction process. However, the real potential of robots remains unexploited if used merely for the execution of highly repetitive mass-fabrication processes: their capability for serial production of non-standard elements as well as for varied construction processes is mostly wasted. In order to scale up and advance the application of robotics, for both prefabrication and on-site construction, there needs to be an understanding of the different capabilities, and these should be considered right from the start of the design and planning process. This issue of AD showcases the findings of the Architecture and Digital Fabrication research module at the ETH Zurich Future Cities Laboratory in Singapore, directed by Fabio Gramazio and Matthias Kohler, which explores the possibilities of robotic construction processes for architecture and their large-scale application to the design and construction of high-rise buildings. Together with other contributors, they also look at the far-reaching transformations starting to occur within automated fabrication: in terms of liberation of labour, entrepreneurship, the changing shape of building sites, in-situ fabrication and, most significantly, design. Contributors: Thomas Bock, Jelle Feringa, Philippe Morel, Neri Oxman, Antoine Picon and François Roche. ETH Zurich contributors: Michael Budig, Norman Hack, Willi Lauer and Jason Lim and Raffael Petrovic (Future Cities Laboratory), Volker Helm, Silke Langenberg and Jan Willmann. Featured entrepreneurs: Greyshed, Machineous, Odico Formwork Robotics, RoboFold and ROB Technologies.
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.
This book addresses information technologies recently applied in the field of construction safety. Combining case studies, literature reviews and interviews to study the issue, it presents cutting-edge applications of various information technologies (ITs) in construction in different parts of the world, together with a wealth of figures, tables and examples. Though primarily intended for researchers and experts in the field, the book will also benefit graduate students.
Automation and Robotics in the Architecture, Engineering, and Construction Industry provides distinct and unified insight into current and future construction robotics, offering readers a comprehensive perspective for constructing a road map and illuminating improvements for a successful transition towards construction robotization. The book covers the fundamentals and applications of robotics, autonomous vehicles, and human-perceptive machines at construction sites. Through theoretical and experimental analyses, it examines the potential of robotics and automated systems for current and future fieldwork operations and identifies the factors that determine their implementation pace, adoption scale, and ubiquity throughout the industry. The book evaluates the technical, societal, and economic aspects of adopting robots in construction, both as standalone and collaborative systems, which in return can afford the opportunity to investigate these AI-enabled machines more systematically.
Gathering presentations to the First International Conference on Cable-Driven Parallel Robots, this book covers classification and definition, kinematics, workspace analysis, cable modeling, hardware/prototype development, control and calibration and more.
Automation, a mixture of algorithms, robots, software, and avatars, is transforming all types of jobs and industries. This book responds to one critical question for the design and construction industry: “how are architects, engineers, and contractors using information technology to further automate their practices?” Addressing the use of new digital technologies, particularly parametric automation for design and construction in the building industry, this book looks at how technologically advanced architectural and engineering practices are semi-automating their design processes by using sophisticated algorithms to transform their workflows. The book also documents a set of firms that are further advancing automation by using pre-fabrication, modularization, and custom designs via robotics.
