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, Jagbeck A, Karstila K

Concurrent engineering in the tendering process of building and construction

Abstract: CONCUR (Concurrent Design and Engineering in Building and Civil Engineering) is a four year initiative in the European Union Brite-EuRam workprogramme involving industry partners Skanska (Se), IVO Power Engineering (Fi) and Taylor Woodrow (UK), the specification body STABU (Nl), R and D institutions VTT (Fi) and TNO (Nl), and universities DUT (Nl) and KTH (Se). The project will develop, implement and industrially deploy an integrated CAx environment for concurrent construction tendering. CONCUR is addressing the integration of information in the stages which lead to submission of tenders. The goal is to reduce tendering cost by 30 - 50% using integrated information systems and applications. The tendering process is a complex process involving many disciplines each of which uses different types of information. . In essence it is an information refinement process, in each refinement cycle addressing the high risk aspects of the moment. In CONCUR we are addressing the integrated use of information and applications, using Project (Product and Process) Data Technology Using the major informational items the refinement process will come to information specifications. The specifications being derived are not re-invented but use is made of existing and emerging standards such as STEP and IAI. Results of the CONCUR efforts can be fed back to STEP and IAI.

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Series: w78:1998 (browse)
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Class: class.represent (0.023671) class.environment (0.015688) class.impact (0.011018)
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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.


_. Jarský

Modelling of buildings and projects with utility assessment

Abstract: The paper describes the methodology of computer modelling of the building process of facilities and projects with utility assessment and the main principles of the integrated cost estimation, project management and quality assurance microcomputer based system developed recently. This expert system is based on quick modeling of the building process by use of typical construction technology network diagrams, which can be prepared in advance. The typical network diagrams can be modified according to the spatial conditions of a certain building and to the amount of construction works and materials. For utility assessment a vector of 10 main aspects (criteria) was created with a common measure unit and certain level of importance each. A database of construction processes was created including the aspects for utility assessment. Thanks to these features the model of the building process can be made about 50 times quicker than current project management systems and it can be used for bidding, project planning and management and utility assessment.

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Series: w78:2009 (browse)
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A Hore, F Cullen, R Montague, K Thomas

ADVANCING THE USE OF BIM THROUGH A GOVERNMENT FUNDED CONSTRUCTION INDUSTRY COMPETENCY CENTRE IN IRELAND

Abstract: The main aim of this paper is to develop the early case for a new Competence Centre dedicated to industry led research in the Irish construction industry. It incorporates the results of a survey carried out by the Construction IT Aliance (CITA) and also identifies similiar centres carrying out industry led research around the world. Results from the survey show a clear support for the establishment of such a centre in Ireland and, in particular, a strong interest in Building Information Modelling (BIM) as a immediate priority research area. BIM is having a profound effect worldwide on the construction industry. The development and adoption of BIM technologies is in parallel with other major changes relating to project procurement approaches, such as Integrated Project Delivery (IPD), and the general sustainability agenda. Although slow to take off in Ireland to-date, BIM is becoming extremely relevant in other countries, with over 50% adoption in the United States and an average of 36% in Europe. The authors argue that a government funded Competence Centre will facilitate the Irish construction industry in re-establishing itself, domestically and internationally as a competitive entity.

Keywords: Building Information Modelling, Industry, Competence Centre, Collaboration, Integrated Project Delivery, Sustainable Construction

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Series: w78:2011 (browse)
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A Kiviniemi & J Haymaker

Integration of Multiple Product Models

Abstract: The development of the Industry Foundation Classes (IFC) started from the vision that an integrated building product model would cover all necessary information for a buildings’ entire lifecycle: from requirements management, through different design processes to construction and maintenance processes. Although the IFC model specification covers a substantial part of the required information, AEC projects still have encountered many problems putting this model into practice. AEC professionals still find it difficult to have dynamic, lossless, truly effective data flow amongst the different participants and applications. It is obvious that file based data exchange alone is not a feasible solution - some other solution for integrating project information is necessary. This workshop discusses some viewpoints and potential solutions to the above issues and problems.

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


A Kiviniemi, M Fischer & V Bazjanac

Multi-model Environment: Links between Objects in Different Building Models

Abstract: The current IFC specifications include relations between objects and enable representation of complex structures in a building product model. However, several research projects have addressed the problem of one integrated model by pointing out the different content and structure of different design domains. The existing software products cannot support all features of the IFC specifications, and because of the structure of AEC industry there are no potential customers for applications which would cover all different information needs. We believe that there will be several instantiated models representing a building project, and these models share some parts of the information which must be linked between the models. However, IFC specifications do not enable links between objects in separate instantiated models. This paper will (1) discuss the reasons for the separation of instantiated models, (2) present the necessary extensions of the IFC specifications, (3) include examples of the links between the requirements model and architectural design model, and (4) discuss some possibilities how to implement this link in a model server environment.

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A Kiviniemi, M Fischer & V Bazjanac

Integration of Multiple Product Models: IFC Model Servers as a Potential Solution

Abstract: The development of the Industry Foundation Classes (IFC) started from the vision of an integrated building product model which would cover all necessary information for buildings' whole lifecycle: requirements management, different design activities and construction and maintenance processes. Although the IFC model specification covers a substantial part of the required information its implementations into practical applications have shown several serious problems. One of the main problems is that the internal structures of the different software products do not support the information needs for the whole process. Thus, the idea of lossless, incremental data flow through the different applications used by the project participants has not come true. It is obvious that file based data exchange is not feasible solution, and some other solution for integrated project data model is necessary for the AEC industry. This paper discusses some viewpoints and potential solutions to the above problem.

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A Löfgren

Socio-technical management of collaborative mobile computing in construction

Abstract: The constant changes of plan and unanticipated events in the production process at construction sites result in communication patterns that are dynamic, spontaneous and informal. Most of the existing ICT tools do not sufficiently support informal communication for powerful collaborative problem-solving, management of site resources, handling of parallel process activities and do not correspond to the basic needs and work patterns at the construction sites. Mobile computing technologies have the potential to provide an inclusive wireless mobile ICT platform (voice and data) that can enable improved support for informal communication and on-demand data at construction sites, which can result in improved project collaboration leading to increased efficiency and productivity in the construction process. Still, an implementation strategy for collaborative mobile computing at construction sites is complex and must consider numerous issues regarding system capabilities, mobility, applications, services, integration of existing ICT systems, user interface and user devices to meet the requirements and behaviors of site workers in the mobile distributed heterogeneous construction environment. A mobile computing platform needs to be designed, implemented and managed with a socio-technical bottom-up approach realizing end user and group needs, understanding the separate issues of adoption on different organizational levels, and recognizing mobile computing as a process integrated enabling technology for improving collaboration and project communication throughout the whole construction process.

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A Redmond, A Hore, R West, J Underwood, M Alshawi

Developing a Horizontal Integrated Life Cycle Costing Analysis Model through BIM

Abstract: Advancing interoperability between design team applications has been a major challenge for advocates of open standards. The buildingSmart alliance and Open Geospatial Consortium Inc in the U.S. have developed and implemented an Architecture, Engineering, Construction, Owner Operator, Phase 1 Testbed that streamlines communications between parties at the conceptual design phase to establish an early understanding of the tradeoffs between construction cost and energy efficiency. The results of this Testbed combined with an on-going collaborative R&D project ‘Inpro’ co-funded by the European Commission to identify business and legal issues of Building Information Modeling in construction were used as theoretical propositions underlying a 2010 Delphi survey. This paper presents the results of one questionnaire of that overall study. It is anticipated that these results will contribute to (i) identifying the most appropriate applications for advancing interoperability at the early design stage, (ii) detecting the most severe barriers of BIM implementation from a business and legal viewpoint, (iii) examining the need for standards to address information exchange between design team, (iv) exploring the use of the most common interfaces for exchanging information, and (v) investigating the industry’s perception on whether the development of a Cloud based BIM Life Cycle Costing would be of significant use to the Irish and UK construction industry. The rationale for this research is to refine the results of the initial questionnaire, AECOO-1, and Inpro R&D projects in order to determine if a prototype based on developing a cloud integrated LCC model through BIM could be generated in the UK and, Ireland and if so, what would be the legalities of implementing such a project.

Keywords: Cloud, BIM, Information Exchange, Interoperability, LCC

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Series: w78:2011 (browse)
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A. Al-Bazi, N. Dawood & Z. Khan

Development of Hybrid Simulation and Genetic Algorithms System for Solving Complex Crew Allocation Problems

Abstract: This paper presents an innovative approach to solving complex crew allocation problems in any labour-intensive industry. This has been achieved by combining simulation with Genetic Algorithm (GA). The integrated system determines the least costly and most productive crews to be allocated on any produc-tion processes. Discrete Event Simulation methodology is used to simulate a manufacturing system. A special PROCESS module is developed to overcome limitation of the used simulation software that appears when us-ing normal PROCESS module. A concept of multi-layer chromosome is proposed to store different data sets in multi-layers structure. GA operators were developed to suit such chromosome structure. As a case study, a sleeper precast manufacturing system is chosen to prove the concept of the proposed allocation system. The results showed that adopting Manipulating a number of multi-skilled workers to be allocated among different production processes had a substantial impact on reducing total allocation cost, process-waiting time, and op-timising resource utilisation. 3D visualisation is presented.

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A. Dikbas, P. Ercoskun & K. Ercoskun

Enabling Sustainability through SOA within the AEC/FM Domain

Abstract: Sustainability is one of the most important research topics for the Architecture/Engineering/Construction & Facility Management (AEC/FM) domain. Two basic factors which enable sustainability are the technology background and the acquisition capability of this technology to the end users – society. Sustainability requires state of the art technologies which reduce the negative impact of population and affiliation. Key aspects of such technology are; it should depend on renewable resources, without waste, cyclical, based on resource productivity rather than labor productivity, and should even be restorative in its effects on the biosphere. Theproblem is, today establishing such technology is not affordable for the average end user. Development, implication, and acquisition of such technologies takes reasonable time though signs from our earth warns usthat we have no more time. The problem itself contains a lot of interoperability challenges in Information Technology (IT), Process and Organizational levels. Although many governments deploy incentives to promote investments on sustainable technologies, money is not the only measure for the market penetration of a technology. A user oriented approach is developed and a proposal is made to elaborate on the problem as a whole within a reference process model. The model determines the key functions, mechanisms and controls, to enable the design and development of sustainable technologies and facilitate the acquisition of those technologies to the society. The process model basically focuses on the Facility Management processes and addresses many aspects of the problem including financial, legal, and ethical issues. The model benefits from Customer Relationship Management (CRM) solutions for construction sector from a previous research and promotes a Service Oriented Architecture (SOA) for tracking the lifetime of sustainable technologies. The model includes decision support functions for the design phase, marketing and competency functions for the implication and acquisition phase, and measurement and evaluation functions for the use phase. The preliminary solution includes business processes rather then IT solutions but interoperability solutions on the IT layer also have been discussed for sustainable development. The model is under development within the joint efforts of a EU funded FP6 project I3CON (Industrialised, Integrated, Intelligent Construction) and a PhD research. It is believed that the model would facilitate the widespread recognition of the requirement of a radical switch to the sustainable technologies.

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