Graphics Programs Reference
In-Depth Information
Understanding a BIM Workflow
According to the National Institute of Building Sciences (
www.nibs.org)
, a BIM is defined
as “a digital representation of physical and functional characteristics of a facility” that serves
as a “shared knowledge resource for information about a facility forming a reliable basis for
decisions during its life cycle from inception onward.” While this is the definition of the noun
used to represent the electronic data, the verb form of building information
modeling
is equally
important. BIM is both a tool and a process, and one cannot realistically exist without the other.
This topic will help you to learn one BIM tool—Revit Architecture—but we hope that it will also
teach you about the BIM process.
Building information modeling implies an increased attention to more informed design
and enhanced collaboration. Simply installing an application like Revit and using it to replicate
your current processes will yield limited success. In fact, it may even be more cumbersome than
using traditional CAD tools.
Regardless of the design and production workflow you have established in the past, moving
to BIM is going to be a change. Regardless of where you fall on the adoption curve, you'll still
need some tools to help transition from your current workflow to one using BIM tools. To begin,
we'll cover some of the core differences between a CAD-based system and a BIM-based one.
Moving to BIM is a shift in how designers and contractors approach the design and
documentation process throughout the entire life cycle of the project, from concept to
occupancy. In a traditional CAD-based workflow, represented in Figure 1.1, each view is
drawn separately with no inherent relationship between drawings. In this type of production
environment, the team creates plans, sections, elevations, schedules, and perspectives and must
coordinate any changes between files manually.
In a BIM-based workflow, the team creates a 3D parametric model and uses this model to
generate the drawings necessary for documentation. Plans, sections, elevations, schedules,
and perspectives are all by-products of creating a building information model, as shown in
Figure 1.2. This enhanced representation methodology not only allows for a highly coordinated
documentation but also provides the basic model geometry necessary for analysis, such as
daylighting studies, energy usage simulation, material takeoffs, and so on.
Certification
Objective
Leveraging BIM Processes
As architects or designers, we have accepted the challenge of changing our methodology to
adapt to the nuances of documentation through modeling rather than drafting. We are now
confronted with identifying the next step. Some firms look to create even better documents,
whereas others are leveraging BIM in building analysis and simulation. As we continue to be
successful in visualization and documentation, industry leaders are looking to push BIM to the
next plateau. Many of these possibilities represent new workflows and potential changes in our
culture or habits, which require you to ask a critical question:
What kind of firm do you want, and
how do you plan to use BIM?
As the technology behind BIM continues to grow, so does the potential. A host of things are
now possible using a building information model; in fact, that list continues to expand year after
year. Figure 1.3 shows some of the potential opportunities.
