The project benefits of Building Information Modelling (BIM) (original) (raw)
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Towards implementation of Building Information Modelling in the construction industry
The construction industry has been facing a paradigm shift to (i) increase; productivity, efficiency, infrastructure value, quality and sustainability, (ii) reduce; lifecycle costs, lead times and duplications. It is advocated that most of them can be obtained through BIM (Building Information Modelling). It can be defined as the use of the ICT technologies to streamline the building lifecycle processes of a building and its surroundings, to provide a safer and more productive environment for its occupants; and to assert the least possible environmental impact from its existence; and be more operationally efficient for its owners throughout the building lifecycle. A research study has been carried out to investigate how BIM solutions are implemented by construction stakeholders in the UK, and for this matter investigated on whether a variety of methods being implemented by other countries such as Finland. The study focused on determining key strengths and identifying the challenges ...
A critical analysis of Building Information Modelling systems used in construction projects
Advances in Engineering Software, 2015
Building Information Modelling (BIM) is now a global digital technology which is widely believed to have the potential to revolutionise the construction industry. This has been mainly a result of worldwide government initiatives promoting BIM uptake to improve efficiency and quality in delivering construction projects. This push has been accompanied by the release of a tremendous amount of BIM software systems which are now available in the market. Although this can be seen as a positive development, one cannot ignore how it has overwhelmed many professionals who cannot easily distinguish between the uses of these software systems. Previous studies about different BIM systems have generally been limited in scope focusing predominantly on operational issues. This study aims to conduct a comprehensive and critical appraisal of a wide range of BIM software systems currently being used in managing construction project information. To achieve this, five main methods are adopted. These include a systematic review of the literature, a structured questionnaire survey, action learning, focus group discussions and email surveys. It has to be noted that, although it is impossible to examine the totality of BIM systems, the study adopts a holistic approach looking at most of the major BIM system categories and 122 application examples which are common in the architecture, engineering and construction (AEC) industry.
Implementation of Building Information Modeling (BIM) in Construction: A Comparative Case Study
2010
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.
2009
Information Technology (IT) is an essential catalyst for effecting improvements in the construction industry. Despite the growth and acceptance of IT in the industry, construction remains slow to adapt the capacity of change proffered by Building Information Modelling (BIM) System as well as exploit the diverse range of opportunities this IT innovation promises. This study explores the trends, applications and opportunities of BIM in construction in the 21st century with projections to 2020. The implications of these opportunities are also reviewed and possible constraints and challenges are identified. Finally areas for further research are explored.
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.
Addressing Barriers to Implementation of Building Information Modelling
It is well accepted in the AEC industry that BIM is a powerful tool for design management and in the near future it will form an integral part of all Medium and Large Construction Projects. As with all new ideas, it raises key issues in implementation, other than the typical issues like resistance to change, educating the users, resource availability, etc. there are very realistic barriers like Legal Issues, Information Ownership and Insurance Requirements. These are inherent issues caused as more dimensions are layered on to the BIM model by multiple co-operators at different levels of the supply chain and nurture their individual interests in a project.
Fayoum University Journal of Engineering, 2020
Despite the tremendous development in the field of digital technology that produced the software and techniques influenced in the field of architecture and construction, and thus the production of architectural and urban, which is imperative that we keep up with this development, and employment and continuation of the same efficiency in all phases of the project will bridge the gap between design and implementation phase, and the most important of these techniques the use of Building Information Modeling (BIM), it is a Database, Not just 3D Drawings, it refers to a digital collection of software applications designed to facilitate coordination and project collaboration, BIM has the potential to provide more efficient operation, not only as part of design and construction but also in operations and maintenance. Accuracy is another main reason. BIM appears to offer greater accuracy than what our current practices produce. This paper aims to determine the benefits of integrating BIM technique in project management and recognize the role they play in The construction industry and practical feasibility of it compared to the previous systems, the practical study depended on two parts, the first by carrying out structured questionnaire survey from construction industry' experts. The second is a case study. The paper is concluded with some important results. It seeks to show that the BIM systems improve communication, collaboration, higher-quality project decision making, and more comprehensive planning and scheduling. In the end, we should see better quality, plus increases in productivity and profitability.
International Journal of Applied Arts Studies, 2024
The construction industry is one of the broad, decentralized and highly indigenous industries of any country and in many countries, it is considered an indicator for growth and development or economic stagnation. This industry in Iran is currently experiencing a lot of inefficiency, one of the main reasons for which is the lack of growth in the technical field. The use of traditional methods is known as one of the main factors inhibiting productivity in the construction industry in Iran, because most of the traditional methods and their nature lead to time delays and waste of resources. Therefore, it is necessary to use new technologies in this important and vital industry. The use of Building Information Modeling (BIM) technology in construction projects is very important, including the benefits of using BIM, improving coordination and communication, increasing productivity, reducing errors, improving construction quality, etc. Therefore, in this research, the benefits of using this useful technology in the life cycle of a construction project have been investigated.
Challenges of the expansive i use of Building Information Modeling (BIM) in Construction Projects
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Building information modeling (BIM) is an emerging modeling technology which challenges existing work procedures and practices in the construction industry. In this article we study the challenges, problems and potential expansions of BIM as a tool in the design, construction and operation of buildings. For this purpose the interfaces between different parties are examined in Finnish construction projects. The methodological approach of the study is cultural-historical activity theory, according to which a new artifact becomes a mediating instrument when the participatory subjects reconfigure the entire activity. The implementation of BIM is now spreading from the design activity to other phases of the construction projects, but its use is still limited in the projects' other three interfaces. BIM is an evolving set of software developed for various purposes which is locally 'combined' to fit the circumstances and capabilities of the stakeholders of the construction proc...
Building Information Modeling: Why? What? How?
Building Information Modeling - Technology Foundations and Industry Practice, 2018
Building Information Modeling is based on the idea of the continuous use of digital building models throughout the entire lifecycle of a built facility, starting from the early conceptual design and detailed design phases, to the construction phase, and the long phase of operation. BIM significantly improves information flow between stakeholders involved at all stages, resulting in an increase in efficiency by reducing the laborious and error-prone manual re-entering of information that dominates conventional paper-based workflows. Thanks to its many advantages, BIM is already practiced in many construction projects throughout the entire world. However, the fragmented nature of the construction industry still impedes its more widespread use. Government initiatives around the world play an important role in increasing BIM adoption: as the largest client of the construction industry in many countries, the state has the power to significantly change its work practices. This chapter discusses the motivation for applying BIM, offers a detailed definition of BIM along with an overview of typical use cases, describes the common BIM maturity grades and reports on BIM adoption levels in various countries around the globe.