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A Akanmu, C J. Anumba, J I. Messner

Mechanisms for Bi-directional Coordination between Virtual Design and the Physical Construction

Abstract: There is considerable growth in the use of virtual models in the construction industry. Many projects are now based on fairly sophisticated models but the use of these models is often limited to the design and tendering/bidding stage. Much more benefit can be derived from these models by extending their use to the construction, operation and maintenance phases of a facility’s lifecycle. A good way of achieving this will involve real-time bi-directional coordination between as-designed models and the physical construction. This will enable improvements in progress monitoring, construction process control, archiving as-built status and active control of building components and sub-assemblies. To maintain bi-directional coordination, computational resources are required to tightly integrate the virtual models and the physical construction. This is termed a Cyber-Physical systems approach. This paper focuses on describing the role of the Cyber-physical systems approach in enhancing bi-directional coordination. It highlights the mechanisms necessary to facilitate this and presents future deployment scenarios to illustrate the potential benefits to the construction industry.

Keywords: Bi-directional coordination, Building Information Models, Cyber-Physical Systems, Physical Construction

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Series: w78:2011 (browse)
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A Costin, J Teizer

Utilizing BIM for Real-Time Visualization and Indoor Localization of Resources

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Series: w78:2014 (browse)
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A Moum

A three level approach for exploring the ICT impact on the building design process applied to a real-life project

Abstract: An understanding of how ICT impact on the building design process and the architect's role and contribution within it can be crucial for the building project success. This paper introduces a possible approach of organizing and structuring design process actions and roles, and how ICT impact on them. This approach is based on the definition of three building project levels and could contribute to a better overview of how ICT impact on the building design process and on the architect's role and contribution. The aim of this paper is to illustrate how this approach can be used to explore the ICT impact on a real-life project.

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Full text: content.pdf (393,635 bytes) (available to registered users only)

Series: w78:2005 (browse)
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Permission to reproduce these papers has been graciously provided by the Technische Universität Dresden.


A Vasenev, F Bijleveld, T Hartmann, A Dorée

Visualization of asphalt paving process during operations on site

Abstract: Presently important changes are occurring in the road construction industry, resulting in changing roles of road agencies and contractors. Additionally, a lot of new asphalt mixes with new properties are introduced, such as warm or even cold asphalt mixes, thin surfaces, etc. Despite these changes, the current asphalt paving process still heavily relies on the skills and experiences craftsmanship. Instruments to monitor key process parameters are seldom applicable. To overcome these limitations, real-time visualizations of key indicators such as asphalt temperature could provide decisive information to working teams oriented to adjust their operations on site. To move towards real-time decision making support, this paper introduces a workflow to deliver information in meaningful way by providing close to real-time and easily understandable visualizations of asphalt temperatures to roller operators. Using modern technologies like DGPS, temperature linescanner, and wireless connection on site it is possible to deliver visual information about asphalt temperature to support roller operators’ decision making regarding working paths. To implement user-oriented visualization we outlined an overall workflow including equipment selection, infrastructure organization, data processing and visualization phases. We validated the feasibility of workflow implementation through visualization of asphalt temperature on a real-world asphalt paving project.

Keywords: Asphalt paving, construction, infrared thermography, visualization

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Series: w78:2011 (browse)
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A Y Chen, C-H Lin

Distributed Decision-Making for Real-Time In-Building Evacuation Guidance

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Series: w78:2014 (browse)
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A. Borrmann, Y. Ji, I.-C. Wu, M. Obergrießer, E. Rank, C. Klaubert & W. Günthner

ForBAU – The virtual construction site project

Abstract: The paper introduces the Bavarian research cluster ForBAU which has been launched in January 2008 with the aim of an improved planning and management of construction sites, especially in infrastructure projects. To realize this goal, the research cluster focuses on developing a virtual representation of the construction site which involves all essential aspects, including models of the buildings under construction, the environmental boundary conditions, the construction procedure, the logistics processes, and the required resources. The resulting virtual construction site forms one the one hand the basis for simulating the construction process, which allows to identify critical aspects of the construction project in advance and to adapt the resources and the scheduling accordingly. On the other hand, the holistic virtual representation of the real construction site is used during the execution phase to capture all available information about the project – enabling site managers, controllers and engineers to get a detailed overview on its progress and identify potential problems in an early stage.

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Series: w78:2009 (browse)
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Alain Zarli, Abdul Samad (Sami) Kazi, Matti Hannus, Marc Bourdeau, Anders Ekholm, Ronny Andersson

A strategic and comprehensive vision for future R&D in construction ICT

Abstract: The tremendous development in the past ten last years of the Internet and ICT at large (whether it be in general technologies like semantic modeling, knowledge mining, RFID or mobile technologies, or domain-oriented ones like e-commerce, collaborative spaces, digital mock-ups, etc.) has opened a large spectrum of potential applica-tions of ICT in the Construction sector. The real adaptation and deployment of ICT in Construction has indeed just started, and there is a high need to organize and plan future R&D actions for Construction ICT, while at the same time to better evaluate the benefits and thereby convince Construction actors. This is the role of the Strat-CON and BICT projects, respectively, which are introduced in this article in terms of their aims and major results.

Keywords: strategic research agenda, construction processes & industrialisation, ICT

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Series: w78:2007 (browse)
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Alain Zarli, Eric Pascual, Daniel Cheung

Information and Communication Technology for Intelligent and Integrated Controls in Buildings: Current Developments and Future Research

Abstract: A common and acknowledged vision today is the one that, in the future, buildings, along with their components, equipments, and their environment will communicate and be able to provide information on their status ubiquitously. This real-time available information will be interoperable via common protocols for holistic automation & control. The whole building will be supervised by intelligent systems, able to combine information from all connected devices, from the Internet or from energy service providers in order to efficiently control HVAC (heating & cooling), lighting, and hot water systems along with energy production, storage and consumption devices inside the building, taking into account the users' needs and wishes. In such a context, ICT is recognised as key for empowering people in the (built) universe in which they live, with smart e-metering and new smart e-devices – as well as becoming fully pervasive in the future optimization of energy in the built environment - where “Energy-efficient smart buildings” are to be buildings which contain systems that manage information for an optimal operation of building energy flows over the whole building lifecycle.In such a context, CSTB has developed an open framework for data collection and processing, to be installed in any built environment. It supports networked heterogeneous sensors and actuators (with appropriate communication protocols technology), allows assembling various “business” functions (with easy evolution and extension capability thanks to a concept of service composition and event-driven management between modules), can accommodate any hardware platform constraint (memory, computing power), and can be executed in any environments supporting a Java SE implementation. The framework is itself based on an OSGi platform. The notion of “sensor” is to be considered in a comprehensive way: physical sensor (analogic or logic), complex sub-system or meta-sensor (e.g. Agilent data acquisition system or alike), or even external services (e.g. getting weather data via the Internet). Fields of applications are energy-efficiency in the built environment, but also Ambient-Assisted Living (AAL), internal air quality assessment, collection of data related to inhabitants behaviours, etc..The REEB coordination action (European strategic research roadmap to ICT enabled Energy-Efficiency in Buildings and construction), as a European R&D technology roadmap initiative (achieved in the context of an EC-funded Coordinated Action - http://www.ict-reeb.eu) has identified ICT contributions to the energy efficiency of buildings mainly via improvement (and corresponding RTD) in integrated design (and indeed ICT tools for Energy-Efficient design and production management), integrated and intelligent control, user awareness and decision support to various stakeholders throughout the whole life of buildings, energy management and trading, and integration technologies. As far as the integrated / intelligent control field is concerned, REEB has fundamentally identified the following areas for future investigation:• automation & control: system concepts, intelligent HVAC, smart lighting, ICT for micro-generation & storage systems, predictive control;• monitoring: instrumentation: smart metering;• quality of service: improved diagnostics, secure communications;• wireless sensor networks: hardware, operating systems, network design.The paper will first introduce to expectations, requirements and potential future scenarios for ICT to support integrated and optimised control in future so-called smart buildings. It will then introduce to the current trend of developments at CSTB in this area, and will present the CSTBox as a tool federating and/or complementing functions (potentially relying on already installed systems) in the built environment. After a short presentation of the REEB project, the paper will follow up with exhibiting the outcome of the REEB project in terms of roadmapping RTD activities in this technological field, also providing with a first insight of their potential impact in the future.Acknowledgement: the authors wish to thank the European Commission (DG INFSO) for its financial support to the REEB co-ordinated action. Moreover, the authors are also grateful to the REEB Consortium partners, namely ARUP, ACCIONA, CEA, LABEIN, TUD, UCC & VTT.

Keywords: Energy-efficient buildings, Intelligent and Integrated Control, REEB project, CSTBox framework, Data collection and storage

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Series: w78:2010 (browse)
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Alonso J M, Alvarruiz F, Hernandez V, Vidal A M

HPC in the building construction sector

Abstract: In the context of the HIPERCOSME project (1) (ESPRIT project 20059), the Universidad Politecnica de Valencia (UPV) in collaboration with Spanish partners, developed a new High Performance Computing (HPC) demonstrator to calculate Reinforced Concrete Building Structures. Starting from a sequential software package, the objective of that project was to develop a portable parallel software package, able to cope with large scale problems and more realistic models (more information could be obtained in http://wwwcopa.dsic.upv.es/copa_eng.html). The performance of the prototype was analysed by means of a test battery composed of 4 real buildings. The performance of the prototype was compared to that of the original sequential package, showing that the former was from 20 up to 60 times faster than the latter. Besides, since a trial and error process must be carried out, the best and cheapest structural solution can be obtained. This leads to a reduction of the cost of the constructive elements and an increase in safety. On the other hand, and as a consequence of the code performance, a 3D approach to the problem of computing the building structure can be performed. Hardware and software requirements for this prototype are very common.The parallel platform can be a cluster of Ethernet linked PC's running under an easily available operating system such as LINUX (public domain) and the PVM passing message environment (public domain also). Moreover, the application is portable and can be run on other computers and parallel systems. Thus, in the context of the project, five Workshops were organised to promote the results in the European regions where the project partners belonged to. In these Workshops, Demonstration Actions were carried out with the presence of different small and medium size construction enterprises of each region. Co-operation among the partners led to contacts with new construction companies interested in the HPCN framework. As a consequence, six Assessment Studies were developed with European construction companies from Spain, Portugal, France and Greece, in order to understand the needs of the European market. UPV is the Valencian Community node of HIPERTTN. This technological Transfer Node is part of the METIER action in the HPCN PST activities of the IV ESPRIT Programme. TTN's try to stimulate the technology transfer and dissemination of the results of the HPCN projects in Europe. As a consequence, a Construction Sector Group has been recently created in this TTN Network. In the full paper, we will describe the technical work developed in the project, both from the point of view of the computational tools and the experience of transference of technology to the Construction Sector.

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Full text: content.pdf (51,870 bytes) (available to registered users only)

Series: w78:1998 (browse)
Cluster: papers of the same cluster (result of machine made clusters)
Class: class.social (0.030939) class.bestPractise (0.026703) class.communication (0.025338)
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Permission to reproduce these papers has been graciously provided by Royal Institute of Technology, Stockholm, Sweden. The assistance of the editors, Prof. Bo-Christer Björk and Dr. Adina Jägbeck, is gratefully appreciated.


Anders Vennstrom, Thomas Olofsson, William Fawcett, Attila Dikbas, Esin Ergen

Determination and Costing of Sutainiable Construction Projects: Option Based Decision Support

Abstract: The building stock in Europe accounts for over 40% of the final energy consumption in the European Union. Moreover, the construction sector is one of the largest producers of industrial waste contributing 40-50% of landfill in some EU countries. A common way of creating a forward planning for optimal resource efficiency in construction project is to apply Life cycle cost (LCC) and Life Cycle Assessment (LCA) in the decision process. There are, however, difficulties in assessment of the impact of the whole project on the environment and estimating its sustainability. The EU funded 7th framework project CILECCTA sets out to develop a LCCA (Life Cycle Cost and Analysis) tool supporting the determination and costing of sustainable project strategies.Current LCC software can assist the decision making process in simulating different alternatives for the design, build, maintenance and demolition of assets – allowing both client and builder to determine the favoured alternative for them. Through linking LCC and LCA methodologies, the CILECCTA project will go one stage further by enabling an assessment of the impact of the whole project on the environment and estimating its sustainability. It will also include the recently developed new generation of Whole Life Costing (WLC) methodology including a probabilistic approach to the development of sustainable WLC strategies, using a real options approach. This paper sets out the framework of current LCCA tools and the challenges in developing a modular LCCA engine integrating asset-related data in price banks and life cycle inventories across Europe. The research leading to these results has received funding from the European Community's Program FP7/2007-2013 under grant agreement no 229061.

Keywords: Decision support, Life Cycle Cost, Life Cycle Assessment, real option analysis

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