A Review of Building Information Modelling Techniques (original) (raw)
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2016
In 21st century, Building Information Modelling (BIM) is one of the most eminent advancement that has taken place in architecture, engineering and construction (AEC) industry. BIM provides a digital platform for managing the functional and physical characteristics of a building throughout its lifecycle. It offers a collaborative approach for design, planning, construction and operation of the facility. BIM has served to satisfy the objectives of AEC industry to improve productivity and quality of project delivered, curtail the project delivery time and cost. BIM enables architects and engineers to visualize any design, construction, managerial or operational barrier which may arise during the actual construction activities. Also, BIM finds the application of cloud computing which enables all the stakeholders to access data related to construction project. As the visualization and hardware technology is improving, the framework approach is moving from “client based” to “host based” w...
Building Information Modeling in the Architecture and Construction Industry
Advances in Technology Innovation, 2023
This study aims to investigate the benefits, risks, barriers, and approaches of building information modeling (BIM) implementation in the architecture, engineering and construction (AEC) industries. Descriptive research methods such as surveys and key informant interviews are used to gather data. Respondents in the survey come from different AEC companies and are selected with a purposive sampling method. Descriptive statistics and one-way analysis of variance (ANOVA) are utilized to analyze the data. The narrative analysis method is also performed to validate the research findings through a desk review of secondary data. The result shows that the major benefit of BIM is earlier and more accurate design visualization, while the main risk is accountability and control of data entry into the model. Moreover, the major barrier to BIM implementation is the high acquisition cost, and the most recommended approach is to increase the availability of BIM technology.
Journal of Professional Issues in Engineering Education and Practice, 2010
Currently, the architecture, engineering, and construction industry is facing enormous technological and institutional changes and challenges including the proliferation of information technology and appropriate application of sustainable practices. The 21st century engineer and architect must be able to deal with a rapid pace of technological change, a highly interconnected world, and complex problems that require multidisciplinary solutions. This paper focuses on research directions and trends around building information modeling ͑BIM͒ through interdisciplinary endeavors: how BIM research topics could be explored; their relevancy; and their potential future impact. It identifies BIM research topics that are considered to be important to a wide range of practitioners and future practitioners, both architecture and engineering students. It also assesses the relevance of current research projects to the industry and categorizes future BIM research topics. It aims to formulate research ideas and methodologies to pursue them and to explore how an industry/academic partnership for exploring exciting research opportunities could be established.
Huge potential of building information modeling
Journal Biuletyn of Polish Society for Geometry and Engineering Graphics, 2008
Information systems capable of managing large parameter objects are being improved and their potential is quickly growing. Parameter modeling was offered as an efficient means of building models expertise. The more powerful the system, the better it understands specific features of designed objects, and it facilitates comprehension of the semantics of that field and information management. The article analyses peculiarities and needs of building design applying modern automated design systems. The compared information is obtained in software while modeling buildings by means of BIM (Building Information Modeling) and CAD (Computer Aided Design). The system potentialities are demonstrated by creating spatial views for building design customers.
A Research Review on Building Information Modeling in Construction―An Area Ripe for IS Research
Communications of the Association for Information Systems
This article presents a review of the research on Building Information Modeling (BIM) in construction, with the aim of identifying areas in this domain where IS research can contribute. The concept of BIM comprises an infrastructure of IT tools supporting collaborative and integrated design, assembly, and operation of buildings. This integrated construction approach, with all stakeholders editing or retrieving information from commonly shared models, requires major changes to well-established processes, organizational roles, contractual practices, and collaborative arrangements in the construction industry. Through a review of 264 research articles on BIM, we found that this research spans a wide area of technological and organizational topics, of which many have a clear resonance to focal areas in IS research. Our analysis shows that IS, to some extent, serves as a reference discipline and that theories used in IS research are also informing contemporary BIM research. The following areas in need of further IS research were identified: studies on the relationship between BIM's functional affordance and human agency, adoption and use of BIM for inter-organizational collaboration, the influence of organizational culture on BIM practices, the capabilities of BIM for transforming industry practice, and identifying the business value of BIM. Considering that a well-established knowledge base in IS research can be drawn upon for studying these issues, combined with the exciting potential of BIM for transforming a major industry such as building construction, we conclude that BIM is an area ripe for IS research.
Benefits and Barriers of Building Information Modelling
Building Information Modelling (BIM) as a powerful set of design management's tool has been highlighted by the Architecture, Engineering, and Construction (AEC) industry. BIM has significant advantages over the entire building lifecycle, particularly design but also construction and facility management.
Building Information Modeling (BIM): Trends, Benefits, Risks, and Challenges for the AEC Industry
Building information modeling (BIM) is one of the most promising recent developments in the architecture, engineering, and construction (AEC) industry. With BIM technology, an accurate virtual model of a building is digitally constructed. This model, known as a building information model, can be used for planning, design, construction, and operation of the facility. It helps architects, engineers, and constructors visualize what is to be built in a simulated environment to identify any potential design, construction, or operational issues. BIM represents a new paradigm within AEC, one that encourages integration of the roles of all stakeholders on a project. In this paper, current trends, benefits, possible risks, and future challenges of BIM for the AEC industry are discussed. The findings of this study provide useful information for AEC industry practitioners considering implementing BIM technology in their projects.
The Creative Process of Architecture and Building Information Modeling
2012 UBT International Conference, 2012
Building Information Modeling and architecture, more commonly known as BIM is the subject of many discussions in the architectural communities lately. The architectural design is a complex set of transactions where the knowledge of many disciplines meets the professionalism of people involved, however most of the interaction is done on paper-based communication. Building Information Modeling, the subject of this paper, is a design strategy which aspires to be much more than a mere information exchange tool: it is rather a coordinated and holistic approach aimed to assist designer, engineers, developers, decision makers, contractors and owners. A digital model derived from B.I.M. (acronym for Building Information Modeling) software allows, among other features, the integration of the necessary data to all the participants of the project. It maintains and shares up to date information, facilitates the changes of the building components in real time and describes the project in a coherent way. Aggregating the information is the very essence of B.I.M., where sorting and the semantics of the building components are combined into a multidisciplinary interactive archive. The NIBS (National Institute of Building Science) defines B.I.M as "a representation of digital physical characteristics and functional properties of an object‖. At the same time B.I.M serves to share resources and information that will accompany the object in its project life cycle. The aim of this paper is to clear some concepts that are often ambiguous and confusing.