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Running head: Building Information Modeling 1

Building Information Modeling 3

Building Information Modeling

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Definition

Building information modeling is a management design that involves the generation and management of data on structures in the live cycle. On a broader spectrum, it's one of the most promising and recent developments in the world of architecture, engineering, and construction. It has incorporated technology and modern designs. The modern designs give it the credibility and assurance qualification of carrying out architects engineers.

Summary

The development of this design in the field of engineering can be traced back to the 70s. This development research and framework is supported by Charles M. Eastman (a professor at Georgia Institute of Technology). He identifies the model as a significant design which provided sanity and designs as well construction. However, its development was gradual and did not reach its peak until the last decade. It gained more insight and support from the significant transactions and its registration as part of the EU law. One of the most significant necessities which was realized in this model was empowering public works contracts and design contests to work in the line of professionalism. It encouraged the use of building based software as well as building information electronic modeling tools to improve work processes (Salman Azhar, Ph.D., A.M.ASCE, 2011). On the same note, contracting authorities were influenced to give alternative means of access and utilizing the new technology more effectively.

Discussion

The building information model is applied in several processes in the working field. Importantly, it helps in planning, design, construction, modern and practical as well as quality structure. In addition, it also helps in carrying out architects, engineering work which is concise, valuable made of a simulated design. As technology increases, the design has continued to form complex and best paradigm within AEC. This development has turned as a critical pillar in restructuring and integrating the roles of the involved personnel and stakeholders of the project.  For instance, BIM dimensions have been an active and efficient organizing system that increases the degree of predefined processes. Ideally, the application of CAD and 3D modeling is among the development that has recently enhanced necessary engineering skills and competency. Besides, BIM is a data-based object-oriented technique; intelligent and virtual presentation models facilities decision processes, thus making and constructing and delivery processes to be on time.

The architecture industry has been looking for this approach in efforts to enhance project quality, delivery, and regain the high budget, which has been a challenge over a considerable period. Some of the added advantages which influence the crediting of this approach include models and geometry aspects involved. Spatial relationship and building element is an essential process that is used in demonstrating entire building lifecycle. BIM has been genuinely viewed as a virtual process that encompasses numerous aspects. Besides, it has integrated various disciplines to attain a virtual model and allow a corporate approach. Several of the disciplines include owners, architects, engineers, contractors, subcontractors, and suppliers who are used in three-dimensional intelligent models (Salman Azhar, Ph.D., A.M.ASCE, 2011). It’s a critical factor that encourages workflow and collaborative factors which promote construction structures. The factor has positively influenced the formation of substantial building information and modeling as well as application in such a wide area.

Visualization and fabrication processes use this model and design when carrying out different building tasks. On the same note, BIM is applied in metalwork and code review especially in the design phase. Cost estimations made and construction sequencing enhances delivery through scheduling, coordination and fabrications. According to construction and innovation document (CID) that was prepared in 2007, there are high possibilities of having better design and a productive environment upon application of this model. BIM enhances quality, customer service, visualization, forensic analysis, and evacuations plans. This advanced model has promoted structures and building engineering in a great way. Firms which will enhance BIM will continue realizing a sustainable and competitive advantage.

References

Salman Azhar, Ph.D., A.M.ASCE. (2011, June 15). Building information modeling (BIM): Trends, benefits, risks, and challenges for the AEC industry | Leadership and management in engineering | Vol 11, no 3. Retrieved from https://ascelibrary.org/doi/10.1061/%28ASCE%29LM.1943-5630.0000127