For instance, a switch to autonomous vehicles has the potential to reduce the required spacing between vehicles and thus increase the number of people that can be safely transported on our infrastructure. “Instead of rebuilding and/or expanding our infrastructure, which has been the trend over the last half century, I think this source of ‘capacity’ could alleviate one of the biggest challenges facing transportation in this country,” adds Moon.

The ‘Holdup’

Acumen Research and Consulting suggests the global smart transportation market will reach a market value of more than $35 billion by 2026. Other research firms take an even more optimistic view. Global Market Insights, for instance, projects the market will reach $130 billion by 2024. Whichever projection one buys into, the question of how remains. How will the market reach these new heights when there are very real, very pressing hurdles preventing cities from leveraging IoT (Internet of Things) technologies to either upgrade existing transportation infrastructures or build new, smart infrastructure?

Ban sees a big problem, though, particularly for connected and autonomous vehicles and V2X (vehicle-to-everything) technology deployments. “I feel that the lack of a business model—i.e., who pays for the new technologies and systems, (whether it’s) federal, state, the private sector, or users—is the major hurdle,” he explains. “Because we are not clear about where the revenue is coming from, no one is interested in investing to build new or retrofit existing infrastructure, which is currently holding things back. Transportation is a public infrastructure; people (users) like everything to be free or paid by tax dollars. This explains why connected vehicles and V2X are not widely deployed, even though the technology is mature.”

“First, there’s a lack of money,” Yang says. “The installation of smart infrastructures could be very expensive and requires a lot of investments. Second, there are minimal benefits at the very beginning. Smart transportation infrastructures can only benefit us if there are many smart vehicles on the streets. However, it is expected that the market penetration rate of smart vehicles could still be very low in the near future. Third, there’s a gap between government and (the) vehicle industry. The communication between transportation infrastructure and vehicles requires (more) collaboration between government and industry.”

Similarly, Michael Hyland, assistant professor of civil and environmental engineering at the University of California, Irvine Institute of Transportation Studies, says a lack of collaboration is what’s holding the space back. “In general, when it comes to transportation infrastructure, I think vehicle manufacturers, smart infrastructure technology developers, and city officials should be working more closely together to significantly improve transportation systems,” Hyland says. “At the moment, these three entities seem to be acting somewhat independently, whereas their decisions are heavily interdependent.”

Roadmap to Success

Samuel Labi, professor of civil engineering at Purdue University, says cities are realizing that connectivity is a critical thread for intelligent infrastructure, sewing together the various components of the intelligent infrastructure architecture. But aforementioned hurdles—which also include things like identifying the best platform or combination of platforms for connectivity, a lack of standardized protocols and a lack of consistency with legacy systems, and regulatory uncertainties (such as the recently proposed changes in communication frequency allocations to the transportation industry)—stop some cities from pursuing or moving forward with smart transportation infrastructure projects.

In the face of many uncertainties, Labi suggests the following roadmap to transportation infrastructure success:

“This roadmap could proceed largely in a parallel (fashion) instead of series fashion for two reasons,” Labi adds. “The first is that time is of the essence as the development of connectedness technology continues to outpace the capability of infrastructure agencies, governments, and legislators to provide the needed supporting facilities, regulations, and policies to support connectedness. Second, there is a little interdependence of the roadmap initiatives; therefore, in the foregoing discussion, the sequence of the discussion should not be taken as a series implementation of the initiatives.”

In short, smarter, more connected infrastructure can not only benefit today’s cities but also improve future cities, and it can do this in numerous ways. The technology is here now. As to the question, What’s the holdup? The answer is multi-faceted, but one standout hurdle is the need for improved collaboration and cooperation among stakeholders. When everyone involved is batting for the same team, we will we start to see the smart transportation infrastructure market take off like it could.

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