Building Information Modeling

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BIM stands for both Building Information Model and Building Information Modeling. The Building Information Model (BIM) is a set of information generated and maintained throughout the life cycle of a building. BIM is the process of generating and managing a building information model [1]. There are two theories on the origin of the term. The first one is that the term was coined by Autodesk [2] to describe "3D, object-oriented, AEC-specific CAD". The second theory claims that Professor Charles M. Eastman at Georgia Institute of Technology coined the term [3]. This theory is based on a view that the term Building Information Model is basically the same as Building Product Model, which Professor Eastman has used extensively in his book [4] and papers since the late 1970s. ('Product model' means 'data model' or 'information model' in engineering.) Nevertheless, it is agreed upon that the term was popularized by Jerry Laiserin [5] as a common name for a digital representation of the building process to facilitate exchange and interoperability of information in digital format. According to him[6] and others[7], the first implementation of BIM was under the Virtual Building concept by Graphisoft's ArchiCAD, in its debut in 1987.

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[edit] Definition

BIM covers geometry, spatial relationships, geographic information, quantities and properties of building components (for example manufacturers' details). BIM can be used to demonstrate the entire building life cycle including the processes of construction and facility operation. Quantities and shared properties of materials can easily be extracted. Scopes of work can be isolated and defined. Systems, assemblies, and sequences are able to be shown in a relative scale with the entire facility or group of facilities.

BIM is able to achieve such improvements by modeling representations of the actual parts and pieces being used to build a building. This is a substantial shift from the traditional computer aided drafting method of drawing with vector file based lines that combine to represent objects.

The interoperability requirements of construction documents include the drawings, procurement details, environmental conditions, submittal processes and other specifications for building quality. It is anticipated by proponents that BIM can be utilized to bridge the information loss associated with handing a project from design team, to construction team and to building owner/operator, by allowing each group to add to and reference back to all information they acquire during their period of contribution the BIM model. For example, a building owner may find evidence of a leak in his building. Rather than exploring the physical building, he may turn to his BIM and see that a water valve is located in the suspect location. He could also have in the model the specific valve size, manufacturer, part number, and any other information ever researched in the past, pending adequate computing power.

The American Institute of Architects has further defined BIM as "a model-based technology linked with a database of project information"[1], and this reflects the general reliance on database technology as the foundation. In the future, structured text documents such as specifications may be able to be searched and linked to regional, national, and international standards.

[edit] Anticipated future potential

BIM is currently employed by professionals on all building types from the simplest warehouse to many of the most complex new buildings, BIM design method is currently young in its development.

BIM provides the potential for a virtual information model to be handed from Design Team (architects, surveyors, consulting engineers, and others) to Contractor and Subcontractors and then to the Owner, each adding their own additional discipline-specific knowledge and tracking of changes to the single model. The result is anticipated to greatly reduce the information loss that occurs when a new team takes "ownership" of the project as well as in delivering extensive information to owners of complex structures far beyond that which they are currently accustomed to having.

BIM can greatly decrease errors made by design team members and the construction team (Contractors and Subcontractors) by allowing the use of conflict detection where the computer actually informs team members about parts of the building in conflict or clashing, and through detailed computer visualization of each part in relation to the total building. As computers and software become more capable of handling more building information, this will become even more pronounced than it is in current design and construction projects. This error reduction is a great part of cost savings realized by all members of a project. Reduction in time required to complete construction directly contributes to the cost savings numbers as well.

gbXML is an emerging schema, a subset of the Building Information Modeling efforts, focused on green building design and operation.

[edit] Building Information Modeling software

[edit] BIM in the USA

[edit] Contractors

The Associated General Contractors and contracting firms also have developed a variety of working definition of BIM which describe it generally as "an object-oriented building development tool that utilizes 5-D modeling concepts, information technology and software interoperability to design, construct and operate a building project, as well as communicate its details.

Although the concept of BIM and relevant processes are being explored by contractors, architects and developers alike, the term itself is under debate[8], and it is yet to be seen whether it will win over alternatives, which include:

BIM is often associated with IFCs (Industry Foundation Classes) and aecXML, which are data structures for representing information used in BIM. IFCs were developed by the International Alliance for Interoperability. There are other data structures which are proprietary, and many have been developed by CAD firms that are now incorporating BIM into their software. One of the earliest examples of a nationally approved BIM standard is the AISC (American Institute of Steel Construction)-approved CIS/2 standard, a non proprietary standard with its roots in the UK.

Proponents claim that BIM offers:

  1. Improved visualization
  2. Improved productivity due to easy retrieval of information
  3. Increased coordination of construction documents
  4. Embedding and linking of vital information such as vendors for specific materials, location of details and quantities required for estimation and tendering
  5. Increased speed of delivery
  6. Reduced costs

In August 2004 the US National Institute of Standards and Technology (NIST) issued a report entitled "Cost Analysis of Inadequate Interoperability in the U.S. Capital Facilities Industry" (NIST GCR 04-867 (PDF), which came to the conclusion that, as a conservative estimate, $15.8 billion is lost annually by the U.S. capital facilities industry resulting from inadequate interoperability due to "the highly fragmented nature of the industry, the industry’s continued paperbased business practices, a lack of standardization, and inconsistent technology adoption among stakeholders".

[edit] See also

[edit] References

  1. ^ Lee, G., Sacks, R., and Eastman, C. M. (2006). Specifying parametric building object behavior (BOB) for a building information modeling system. Automation in Construction, 15(6), 758-776.
  2. ^ Archived version of Autodesk's white paper on Building Information Modeling
  3. ^ Yessios, C.I. Are We Forgetting Design? AECbytes Viewpoint #10 2004, http://www.aecbytes.com/viewpoint/2004/issue_10.html
  4. ^ Eastman, C.M., Building Product Models: Computer Environments Supporting Design and Construction. 1999, Boca Raton, FL: CRC Press
  5. ^ Laiserin's explanation of why 'BIM' should be an industry standard-term
  6. ^ Graphisoft on BIM
  7. ^ Building Information Modeling Two Years Later –Huge Potential, Some Success and Several Limitations
  8. ^ Discussion of the BIM acronym

[edit] External links