5-D refers to all of the current dimensions of BIM, where the 3rd dimension is considered space, the 4th dimension is considered time and the 5th dimension is considered cost. In the future, the reference will be modified to include 6-D (procurement applications) and 7-D (operational applications).
Most contractors are likely to start using BIM through “partial uses.” The list of partial uses of BIM seems almost infinite. For contractors already using BIM, the list seems to grow daily. For those getting started, the following list represents some of the more common “early” uses that most contractors experience in their experimentation with BIM:
BIM is a building development tool that is based on a 3-d model of a building created in an object-oriented (intelligent) modeling software. Once the model is created, it can be used to assist with design, construction and operational tasks; it can also be used as a communication tool. Different uses of BIM may require different software applications to utilize the model, so BIM requires software to be interoperable.
Keep in mind that each firm doesn’t need each of these software types:
Initially, fears: everyone needs to overcome the legal & risk fears, fear of change, fear of the unknown, etc.
Those who are using BIM will almost universally tell you that the number of new benefits they continue to discover seems endless. Here are a few:
The most common question asked is, “Who’s receiving the most benefit and therefore should bear the cost of developing the model?” The growing consensus is that everyone benefits and therefore everyone should bear some of the cost.
As alluded to above, the out-of-pocket expense, even after spreading out the initial technology and training investment, is generally believed to be much less than the cost benefits. Research efforts are underway to prove this point, but until results are in, the biggest challenge is aligning who is receiving the benefit versus who is paying the out-of-pocket expenses. The delivery method, the contract type and the basis of reimbursement may dictate how and to whom the cost benefits will flow.
A building information model (BIM) is an object-oriented building development tool that utilizes 5-D modeling concepts, information technology and software interoperability to design, constructs and operates a building project, as well as communicate its details.
There isn’t a single correct wer to this question. However to get an idea of the cost, consider what it takes to implement BIM: software licenses, new hardware, new staff, software training, etc.
Implementing BIM can be expensive; however, keep in mind the major cost (and headache) savings associated with the use of BIM. Not to mention the coming wave of client recognition of bottom-line benefits to them—a fact that will drive BIM capabilities onto the center stage of near future selection criteria for both designers and builders.
Because BIM is a collaborative process, the entire project team should ideally be involved: the owner, architect, engineers, consultants, and GC/CM and specialty contractors.
However, implementation of BIM doesn’t always happen in an ideal environment, so remember to keep the owner and other non-BIM project participants aware of developments and updates.
Make a plan and keep it simple and specific. Focus on tangible objects and avoid scope creep. Avoid implementing on multiple projects before you have learned the lessons of using BIM on one.
The paradigm shift: BIM will change the way we work. The typical top-down organizational chart won’t work for BIM because more collaboration is required. This becomes a barrier because old practices die hard.
Technology & software: without industry standards and interoperability, it can be difficult to share building models. This poses a problem because BIM requires collaboration.
Legal issues: there is a perception of increased liability within both the architectural and construction communities that is hindering industry implementation of BIM.
Anyone with the right software and training can convert 2D Designs into 3D; most models have been able to make remarkable progress with less than a week’s worth of training. The length of time it takes to do a conversion is of course proportional to the amount of experience the modeler has, the complexity of the project and the level of detail of a model. Conversions can be done by the contractor or by a growing number of third-party service providers.