Arup Thoughts: Robots can boost efficiency

New robots will revolutionize the construction industry.


Modern robots can cope with the demands of a building site and make construction more efficient. Courtesy: ArupMy colleague Alvise Simondetti predicts that (new) robots will revolutionize the construction industry. I think he's right. I also think the principal business case arises from a combination of demands for greater efficiency borne of increasing global competition and demographic pressures.

The efficiency of the construction industry, in stark contrast to that of manufacturing, has actually declined over the past 25 years. During that period, average productivity—measured in value produced per hour worked—of industrial manufacturing has grown by 42%. But productivity in construction has fallen by 25% over the same period. Automation and robotics could reverse that trend, by bringing the consistency and efficiency that characterizes the modern factory production line to the construction site.

Furthermore, there are fewer skilled construction workers in many countries, even where the population is growing and urbanizing. Japan offers a particularly stark example, where plans for the 2020 Olympic Games are being reined in, partly because of the worst labor shortage the country has experienced in 20 years. Even China is being hit—the South China Morning Post reported recently that "chronic labor shortages threaten Hong Kong's infrastructure building boom." Automation markedly reduces dependency on human labor, so robots could offer a remedy for this problem, too—although there exists the clear possibility that the pendulum will swing too far and, eventually, "humans need not apply" (to quote CGP Grey's short film about this issue).

William Gibson says: "The future is already here, it's just not very evenly distributed." You can already see fully automated bricklaying machines building walls in Australia. In Sweden, façade-placing robots scale the heights of skyscrapers, and paving robots set out cobblestones in the Netherlands. These examples don't yet look like a force for creative destruction. However, it is in the nature of information technology to improve exponentially, so a slow start accelerates relentlessly into a maelstrom of change.

As Bill Gates observed, we tend to over-estimate the change that will occur in the next 2 years and underestimate the change that will occur in the next 10. This will happen in construction. The current, rather limited and specialized machines will evolve rapidly, becoming more dexterous, perceptive, faster, and smarter. They will start by aiding people in performing specific tasks, but will quickly become more versatile and autonomous. They will start to make decisions that are currently the province of skilled human tradesmen, supervisors, engineers, and designers.

The smart constructing machine's "eyes" — its data sources — will be distributed, and its brain will be in the computing cloud. It will communicate wirelessly with its fellows, improving itself through machine learning and genetic programming. It will demand no wages, it will not strike, and it will work around the clock. It will complement new methods of construction, such as large-scale 3-D printing.

The future building robot will also never ignore or misinterpret its instructions, and its progress will be communicated back to the other smart machines that carry out much of the building design. In this way, both the design and the algorithms that gave rise to that design can be improved or adjusted to cope with the unforeseen. The building information model will be updated in real-time as work progresses, so the final version truly will be "as built." So what's stopping robots from being used more widely? I believe there are two factors.

One is that the construction industry is inherently conservative. Construction firms and their staff tend to favor evolutionary change, relying on familiar tools, techniques, and suppliers. Developers and other sponsors are dissuaded from demanding or even recognizing the possibility of step change.

The second is that the technology is not quite there yet. Although the machines are getting smarter and tougher, coping more readily with the unique and harsh conditions of building sites, they aren't yet either versatile or cost-effective enough for most projects. But the future is accelerating toward us.

Firms like Arup must peer into this not-so-distant horizon to spot the tipping point—the point at which smart machines for designing and building become truly capable and cost-effective. We can see a few glimpses at present, in the specialized robots I've mentioned, but it won't be long before a radically different future emerges. Now is the time to prepare.

-Peter Edwards is leader of Arup's technology strategy and architecture work. He is developing capability to deliver successful enterprise architecture for clients. This article originally appeared on Arup Thoughts. Arup is a CFE Media content partner.

No comments
Consulting-Specifying Engineer's Product of the Year (POY) contest is the premier award for new products in the HVAC, fire, electrical, and...
Consulting-Specifying Engineer magazine is dedicated to encouraging and recognizing the most talented young individuals...
The MEP Giants program lists the top mechanical, electrical, plumbing, and fire protection engineering firms in the United States.
Commissioning lighting control systems; 2016 Commissioning Giants; Design high-efficiency hot water systems for hospitals; Evaluating condensation and condensate
Solving HVAC challenges; Thermal comfort criteria; Liquid-immersion cooling; Specifying VRF systems; 2016 Product of the Year winners
MEP Giants; MEP Annual Report; Mergers and acquisitions; Passive, active fire protection; LED retrofits; HVAC energy efficiency
Driving motor efficiency; Preventing Arc Flash in mission critical facilities; Integrating alternative power and existing electrical systems
Putting COPS into context; Designing medium-voltage electrical systems; Planning and designing resilient, efficient data centers; The nine steps of designing generator fuel systems
Designing generator systems; Using online commissioning tools; Selective coordination best practices
As brand protection manager for Eaton’s Electrical Sector, Tom Grace oversees counterfeit awareness...
Amara Rozgus is chief editor and content manager of Consulting-Specifier Engineer magazine.
IEEE power industry experts bring their combined experience in the electrical power industry...
Michael Heinsdorf, P.E., LEED AP, CDT is an Engineering Specification Writer at ARCOM MasterSpec.
click me