Building Information Modeling in the Architecture and Construction Industry (original) (raw)
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Building Information Modeling (BIM) approach is increasingly adopted in coordination of construction projects, with a number of parties providing BIM services and software solutions . However, the empirical impact of BIM on construction industry has yet to be investigated . This paper explores the interaction between BIM and the construction industry during its implementation, with a specific focus on the empirical impacts of BIM on the design and construction processes and professional roles during the process. Two cases were selected from recent construction projects coordinated with BIM systems: the Venetian Casino project in Macau and the Cathy Pacific Cargo Terminal project in Hong Kong. The former case illustrates how the conflicts emerged during the design process and procurement were addressed by adopting a BIM approach. The latter demonstrates how the adoption of BIM altered the roles of architect, contractor, and sub-contractors involved in the project. The impacts of BIM were critically reviewed and discussed.
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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...
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Exploring Barriers in Implementing Building Information Modeling: A Preliminary Study
Proceedings of International Structural Engineering and Construction, 2017
This study involves with Building Information Modeling (BIM) and exploring the reasons behind the slow speed of implementing this method in the construction industry in developing countries in general and Jordan in specific. The aim of the research was achieved through a survey which considered 15 barrier factors and 13 driving factors. The study revealed that the level of BIM implementation in construction projects is generally low. In addition, the significant barriers affecting the adoption of BIM are lack of qualified staff to operate the software, difficulty learning BIM, the existing system fulfils the need, resistance to change and uncertainties concerning return on investment of BIM. Also, the study pointed out the most important factors that could help implementing BIM in the Jordanian construction industry. These are providing BIM training program, introducing BIM in the university curriculum and providing the efforts by the government to push implementation of BIM in thei...
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This research assessed perceptions about the impact of the implementation of Building Information Modeling (BIM) on construction projects. Survey questions centered on impact with respect to six primary construction key performance indicators (KPIs) commonly used in the construction industry as accepted metrics for assessing job performance. These include: quality control (rework), on-time completion, cost, safety (lost man- hours), dollars/unit (square
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.
Journal of Civil Engineering and Construction, 2018
Construction industry is one of the largest economic sector in the world in 2017. And Building Information Modeling (BIM) is the powerful set of technology to design, construction and management has been strengthen the construction industry. BIM has significant benefits for the project lifecycle even after it’s lifecycle but this benefits can’t gain by the project because of failure to successful implementation of BIM technology to the construction industry. The main objectives of this study is to identify the most crucial barrier to implementation of BIM and develop a relative rank with their relative impact on this issue. The study was conducted by a comprehensive literature review and necessary data was collected by literature review also. A set of barrier was developed by the literature review containing 37 barrier which curb the implementation of BIM technology to the construction sector. Relative rank based on their frequency and relative impact was calculate for each barrier ...