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A Grilo,A Zutshi, R Jardim-Goncalves

BUSINESS INTEROPERABILITY IN THE CONTEXT OF BIM-BASED PROJECTS

Abstract: This paper proposes a model that closely captures the factors that are responsible for Business Interoperability in the context of collaborative business processes for the deployment of Building Information Modeling. The Business Interoperability Quotient Measurement Model (BIQMM), uses an interdisciplinary approach to capture the key elements responsible for collaboration performance and BIM platform configuration. Through the quantification of the relevance of each element to the particular collaboration scenario, and with the combination of the BIQMM with a multi-criteria decision making tool, the Analytical Network Process (ANP) approach, this model enables a quantitative analysis of Business Interoperability for BIM-based projects, so that an overall interoperability score can be calculated for enhanced performance measurements. An application scenario is presented and the application of the BIQMM and ANP, provides a comprehensive framework for interoperability measurement. The paper concludes by recognizing that relationships between business interoperability and true AEC performance improvements and subsequent economic benefits derived from BIM-based approaches needs to be further developed.

Keywords: Business Interoperability, BIM; Collaborative Working Environments

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Series: w78:2011 (browse)
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A Mediavilla, A Romero, J Pérez,F J Mata

Energy efficiency assessment in urban environments using GIS

Abstract: Energy simulation tools are commonly used in building design processes. Their calculation methods are comprehensive and widely accepted. However, the increasing requirements imposed to comply with low emission urban scenarios demand a wider scope analysis, taking into account not only the building, but also the interactions between urban elements (buildings, green areas, urban lighting…). GIS technology seems suitable for this purpose, but current solutions do not include deep energy demand calculations. On the other hand, building simulation tools do not consider the city environment and terrain influence. To evaluate a district by manually adding single building simulations results is an overwhelming process, prone to errors and very time-consuming.In this scenario, urban planners demand Decision Support Systems that go beyond traditional building-scope simulation engines and consider both building and urban-level variables in order to assess the energy efficiency of the urban design.Aware of this issue, the platform presented in this paper fills this gap between building and city approaches. It consists of an ArcGIS customisation, implementing energy simulation models for radiation, energy demands, consumption, energy costs and CO2 emissions. The results are simulated and visualized at different levels (façades, buildings and city). Thus, it is possible to benchmark the district against a reference scenario and certify the sustainability of a district. It has been validated with a new urban development scenario in northern Spain.The platform seamlessly integrates CAD cartography, GIS geoprocessing and the calculation strength of excel sheets, enhanced with 3D energy mapping outputs which can be seen in Google Earth. It does not require deep technical knowledge, being suited for multicriteria analysis. Its modularity allows extending it with future extensions.

Keywords: GIS, energy efficiency, low carbon cities, urban planning, simulation

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A. Hryshchenko, K. Menze

A Comprehensive Vision on Cartography of EU And International Research Initiatives with RTD Gap Analysis in the Area of ICT for Energy Efficiency in Buildings

Abstract: This paper analyses the status of current researches in the area of Information and Communication Technologies (ICT) for the improvement of Energy Efficiency (EE) design and operation of buildings.Currently, research and technology developers focus on different domains and sub-domains in the area of EE, such as the integration of renewable energy sources and related monitoring, simulation, and management software. In order to improve harmonisation between different research and technology developments (RTD) including International and European research projects and scientific programs these activities need to be categorised and analysed. As a result of RTD gap analysis, the challenges, commonalities, deficits, and potentials for collaboration are identified contributing to the development of a “Scientific Road Map”. This paper focuses on development of a comprehensive vision on Cartography of recently completed, ongoing, and recently announced research European projects and International research initiatives for further implementation of its results in global vision of the REEB project [cf. http://www.ict-reeb.eu/index.html], and proposes a systematic categorization approach to identify gaps in the current research agenda in the area of IT for Energy in Buildings.Our RTD gap analysis is based on a qualitative categorization specifying common classification criteria.At the present, there are more than 270 projects worldwide were analysed, five Main Classification Categories (MCC) were developed.The proposed methodology should allow the identification of deficits of the related research activities within the specified (in T3.1, D3.1) categories.

Keywords: information and communication technologies, energy efficiency, research and developments, RTD, categorization, gap analysis

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Series: w78:2010 (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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Amor R

A UK survey of integrated project databases

Abstract: The UK network of experts in objects and integration for construction has now been in existence for a year. In this time it has built up to over a hundred members drawn in almost equal parts from industry and research. The initial meetings of this network have strived to identify areas of concern in the domain as well as to provide feedback to the supporting government agency in terms of policy issues, and to inform its members of the range of issues in the domain. The first published output of this network is to be a survey of integrated project databases (IPDB) in February 1998. This initial survey, analysed and described in this paper, looks at IPDB development and use in the UK. Preliminary work of the network determined a set of criteria to be used to measure the development and impact of various IPDB. These criteria were then used to survey a range of EC supported, UK developed, and commercial implementations of IPDB. Though not comprehensive in terms of the total number of IPDB developments in the world, it gives an initial benchmarking of the state of this domain. The results of this survey, and the ongoing surveys of IPDB developments, are being used to inform the network and government of the state of play in this area. It provides a point to determine: what work has previously been done; which data models might be re-used; where tools reside that could be re-used; where commercial developments have taken place which implement portions of the surveyed projects; what the problems of commercialisation have been; where there are gaps in research; and what life-cycle stages are poorly addressed by IPDB development.

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Series: w78:1998 (browse)
Cluster: papers of the same cluster (result of machine made clusters)
Class: class.impact (0.035336) class.environment (0.032167) class.strategies (0.031179)
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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.


Aygun M, Cetiner I, Gocer C

A product model for the generation and evaluation of building element alternatives

Abstract: Thus a comprehensive yet versatile representation of all the entities involved in the building system is required, may these be notional or physical entities. The intention here is to provide a parametric conceptual model for generating and evaluating alternatives of functional building elements for ascertaining the best overall performer. The proposal enshrines three interrelated subsystems. The first two are concerned with constraints and performance requirements respectively as notional entities and the third with physical objects related to buildings. The discrete performance requirements for a descendant are interpreted as functions of ancestors in the context of the physical model. Hence element requirements are designated to discrete components as their functions. Each component contained within an element serves one or more primary functions. Conversely each of the latter is served by one or more components.

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Full text: content.pdf (179,189 bytes) (available to registered users only)

Series: w78:2000 (browse)
Cluster: papers of the same cluster (result of machine made clusters)
Class: class.analysis (0.013328) class.represent (0.009876)
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Permission to reproduce these documents have been graciously provided by Icelandic Building Research Institute. The assistance of the editor, Mr. Gudni Gudnason, is gratefully appreciated


Bjork, Bo-Christer

Requirements and information structures for building product data models

Abstract: The term computer-integrated construction (CIC) is often used to describe a future type of construction process characterised by the extensive use of information technology. The key to successful CIC is the comprehensive integration of currently isolated computing applications in different phases of the construction process. Among the several types of data exchange standards needed to support such integration, the standards for structuring the information describing buildings (building product data models) are particularly important. No fully operational building product data models have as yet been formally standardised either on the national or international level, but the topic has been a subject of intensive research during the last few years. Building product data model proposals are usually defined using object-oriented information modelling techniques. The research which is presented in this summarising thesis was carried out primarily during the years 1988-92 at the Technical Research Centre of Finland. The report begins with a brief introduction to the general background of research concerning CIC and building product data models. Fundamental concepts of object orientation and product modelling are explained in a separate chapter. In order to position the author's research results, the "state of the art" in this research field is briefly reviewed. The research results are presented against the background of a kernel-aspect model framework, in line with current thinking among several leading researchers in this field. The results can loosely be classified into three distinctive groups: a number of requirements which building product data models should fulfil; specific information structures in building product data models; and the integration of product models with other types of information used in the construction process. The specific information structures which were studied include the abstraction hierarchies used in building product data models, the type object mechanism and information structures needed for modelling spaces and enclosing objects. The report ends with a discussion of the results, comparing them with the proposals and results of other researchers. Some directions for further research are also outlined.

Keywords: Building Product model, computer-integrated construction

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Bouchlaghem D, Rezgui Y, Hassanen M, Cooper G, Rose D

IT tools and support for improved briefing

Abstract: "The briefing stage is critical to the success of construction projects, however it is widely recognised that improvements are needed in this process in order to reduce the cost and optimise quality of buildings. Briefing involves understanding the client's needs and expressing them in a way that will ensure compatibility between the client's vision of the project and the resulting product. There are problems encountered in construction briefing which involve both clients and designers. There is little guidance and support for clients, whilst designers have difficulties both in capturing clients’ needs and conveying conceptual design options to them. There is a central difficulty, associated with language, communication and the exchange of information between clients and design teams, which is now gaining widespread acknowledgement. The CoBrITe (LINK/IDAC UK funded) project argues that the construction industry has yet to exploit the potential of IT systems to assist both parties during this critical phase. This is in contrast to later stages of design and construction where computer-based techniques and systems are commonplace. The overall aim of the CoBrITe project is to improve the briefing process through more efficient and effective use of existing and emerging information technologies that can support client and design teams. The project builds on the recent IDAC 88 project: Managing the Brief as a Process of Innovation, and its five key action areas for improvement: empowering the client, managing the project dynamics, appropriate team building, appropriate visualisation techniques, and appropriate user involvement. It is driven by the needs of solving challenges within the briefing and related design process, with IT a means to an end. The project brings together a group of companies from across the construction supply chain to work together towards the above aim. The methodology comprises: -An extensive literature review on construction briefing focusing on the process of briefing, human and cultural issues, and IT applications and their role within the process. ·The integration of the recent and current projects on briefing through interviews, establishing an electronic network and holding workshops. ·The formulation of a framework of enabling technologies and their potential role in facilitating the briefing process and overcoming human and organisational constraints. ·The development of a model which will facilitate the integration of activities and information sharing in the briefing process. The proposed paper will give a comprehensive overview of the CoBrITe project, including an analysis of the briefing practices and information requirement, an initial CoBrITe Briefing Process Model, the CoBrITe system architecture, and the description of the proposed framework that integrates a set of proprietary and commercial software applications aimed at supporting the briefing process."

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Full text: content.pdf (319,634 bytes) (available to registered users only)

Series: w78:2000 (browse)
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Class: class.roadmaps (0.015409) class.processing (0.014768) class.economic (0.012134)
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Permission to reproduce these documents have been graciously provided by Icelandic Building Research Institute. The assistance of the editor, Mr. Gudni Gudnason, is gratefully appreciated


C Gouy-Pailler, H Najmeddine, A Mouraud, F Suard, C Spitz, A Jay, P Maréchal

DISTANCE AND SIMILARITY MEASURES FOR SENSORSSELECTION IN HEAVILY INSTRUMENTED BUILDINGS:APPLICATION TO THE INCAS PLATFORM

Abstract: Energy management in residential buildings is taking an increasing role in the construction workflows.It entails understanding thermal processes at stake in the buildings and quantifying energyconsumption, which meets inhabitants comfort requirements. Experimental platforms such as INCASaim at providing experts with a practical way to study such problems in real conditions. These heavilyequipped buildings yield huge amounts of real-time data (sampling rates, number and types of sensors)for which new automatic approaches could be useful to thermal experts. Generic similarity measuresfrom data-mining could therefore provide comprehensive analysis tools to thermal experts. This paper focuses on the ability of some distance and similarity measures to organize millions ofdata from homogeneous and heterogeneous sensors into coherent clusters. Simplifying datainterpretations to thermal experts in highly equipped buildings, this approach could also stand as abasis for studying smart grids of less equipped domestic houses studies. Two types of similarity measures are explored. The first one consists of a set of three distances,and accounts for differences in terms of amplitude scaling and shifting between pairs ofmeasurements. It relies on the comparison of homogeneous sensors by quantifying the relativeproximity of their amplitude in terms of mean value, variance and time shift. The second type ofsimilarity measure employs a pre-processing step transforming continuous signals into binary events.The resulting spike trains are then compared by quantifying the amount of unitary transformations(events moves or events deletions/additions) needed to align pairs of events sequences. These proximity measures are computed on real data from experimental buildings of the INCASplatform. It comprises three experimental buildings (with different construction types) dedicated totesting various approaches regarding systems, control and energy-saving policies. These geometricallyidentical buildings are equipped with hundreds of sensors measuring temperature, humidity,differential pressure, and others data at various positions of the structures with sampling rates of onemeasurement per minute. Simulation-based temperatures are integrated in the sensors set providing acomparison between real and simulated data. Results illustrate the contribution of the applied methods when dealing with large amounts ofmeasurements related to instrumented buildings behaviors. Actually results show that coherent clustersregarding distinct signal properties are automatically generated. These clusters can be used fordimensionality reduction (clusters of sensors could be summarized by a single virtual measurement),or relative comparisons between sensors or between real and simulated datasets.

Keywords: INCAS, low-energy consumption, sensor selection, multivariate data mining

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