For many of us who have participated in the rapid growth of BIM, It is tempting to see it as just one more technology development in the project delivery process, but its real impact is quickly accelerating beyond that. More accurately, the growth of BIM is heralding a true disruption in the construction industry. It is transforming markets, and revolutionizing expectations.
In fact, it is increasingly apparent that BIM fits a well-known pattern familiar to business scholars, a pattern known as disruptive innovation and made famous by Harvard Business School professor Clayton Christensen in his best-selling book The Innovator’s Dilemma.
In innovation theory, a disruptive technology is one that creates entirely new “value networks”––a combination of capabilities and expectations––for a given process or technology.
For example, 2D CAD simply computerized the production of drawings. Before CAD, designers produced drawings; after CAD, we still produced drawings, just differently and with more flexibility. CAD was a “sustaining technology”––something that simply improved an existing market proposition.
BIM also started out as a sustaining technology, as many disruptions do. The notion was that 3D models would be an efficient way to produce 2D documents, the next evolution of CAD enhancement. But it quickly morphed to a point where the model created brand new value networks: clash detection, quantity takeoffs, field BIM, direct fabrication, energy analysis––and, ultimately, BIM models as a store of myriad facility information.
Enter the Contractor: BIM becomes VDC
The disruptive growth of BIM has been largely due to the unanticipated interest contractors would take in the technology, and in this respect it is clearly a “new market disruption” in the terminology of disruption. By any measure, contractors have grasped the power of BIM with far more vigor than design professionals, who tend to see it as sustaining, and have failed to perceive its disruptive trajectory. Contractors looked at BIM models and immediately understood how they could be used for virtual design and construction (VDC) tasks.
Many leading design firms have come to realize that BIM’s disruption means developing new ways to work with savvy contractors and owners. At our firm, design teams now routinely exchange BIM files with contractors during and after design for purposes that are entirely unprecedented in our previous experience.
Further fueling the disruption, many savvy clients now contractually require that we work closely with the contractor and owner on BIM development and file exchange. Penn State University, for example, has some of the most detailed and well-developed processes for designers and contractors in BIM implementation.
The rumblings of disruption were becoming apparent to our firm almost as soon as contractors first learned we were creating BIM files. One of our first structural BIM projects was (somewhat hesitantly) transferred to the contractors so they could use it to quantify the lengths of steel members for a mill order. It proved useful, but it was unfamiliar to us, and a first brush with the emerging uses of BIM.
Since then we have become accustomed to our clients (both private and governmental) making BIM submission a requirement. Somewhere along the way, we began to realize that expectations were changing dramatically. It is now relatively routine for the BIM files to get substituted or supplemented with subcontractor 3D fabrication files for on-site, real-time coordination.
Enter the Owner: BIM in Real Time
More recently, another development has increased the pace of disruption-––the addition of the owner to the BIM design process. Smart owners quickly began to realize how these information-rich 3D models could be useful as an active decision-making tool during construction, and then used as stores of information for facility operations purposes. Many adopted detailed protocols for how BIM should be used on their projects.
In a subsequent development, our firm has begun to experience owners now sitting in on the fast-track design for a large high-tech facility and expecting to see 3D models they can query at any point. Our design team sits with the owner, contractor, and facility personnel to review BIM models in real time as they develop. This is a huge departure from our previous workflow, where owners received progress paper sets, carefully controlled for output. Now the process is open, active, and raw.
Embrace the Strange
For those of us using BIM, it’s important to fully understand BIM as a disruption and avoid getting caught up comparing CAD and BIM software as two different, but comparable, approaches. Such a perspective would focus on BIM’s sustaining effects and totally miss its disruptive potential.
BIM shows all the signs of a classic market disruption, and like other disruptions its ultimate destination is not yet clear, except that it will certainly change markets and expectations.
Our best strategy is to embrace the full power of BIM, to recognize its disruptive potential, and to explore its power to address many of the issues we currently face as we attempt to reImagine design and construction. +
--
John Tobin is Director of Architecture at EYP Architecture & Engineering, Albany, N.Y.
Related Stories
BIM and Information Technology | May 10, 2015
How beacons will change architecture
Indoor positioning is right around the corner. Here is why it matters.
BIM and Information Technology | Apr 29, 2015
Self-piloting drone maps out construction sites in Pennsylvania
The system comes with a real-time portal for immediate access to collected data.
BIM and Information Technology | Apr 27, 2015
The construction industry isn't rushing to hop onto the cloud: study
A new poll finds that nearly half of companies aren't planning to shift to cloud-based software to collaborate any time soon.
BIM and Information Technology | Apr 21, 2015
Software tools shouldn't dictate the AEC process
With over 200 solutions on the market, construction software is one of the most complex and fragmented markets, writes Gensler's Mark Thole.
BIM and Information Technology | Apr 9, 2015
A carboard box by Google can bring virtual reality to architecture
The global search engine giant has launched a new product, Google Cardboard, that easily allows users to experience virtual reality.
BIM and Information Technology | Apr 9, 2015
How one team solved a tricky daylighting problem with BIM/VDC tools, iterative design
SRG Partnership's Scott Mooney describes how Grasshopper, Diva, Rhino, and 3D printing were utilized to optimize a daylighting scheme at Oregon State University's new academic building.
BIM and Information Technology | Apr 3, 2015
French startup develops drone camera that overlays video with 3D images
The new drones can capture video and overlay the shot results with 3D images and augmented reality remotely.
BIM and Information Technology | Mar 23, 2015
Drones for AEC: How every stage of a building project can benefit from drone technology
From photo-mapping to aerial progress videos, SRG Partnership's Dmitriy Molla studies real-world applications for unmanned aerial vehicles.
BIM and Information Technology | Mar 23, 2015
Skanska hosts three-week 'hackathon' to find architect for Seattle tower development
Searching for a nimble, collaborative design firm for its 2&U tower project in Seattle, the construction giant ditches the traditional RFQ/RFP process for a hackathon-inspired competition.
BIM and Information Technology | Mar 16, 2015
Berkeley researchers develop 3D-printable concrete powder
The technique allows teams to create more complex and precisely finished structures, with reduced weight and waste.