As a robotics researcher and educator, I strongly advocate that the best way to get those jobs back is to build on our existing strengths, remaining a leader in manufacturing efficiency and doing the hard work to further improve our educational and social systems to cope with a changing workforce. Particularly when looking at what’s happening in China, it’s clear we need to maintain America’s international competitiveness, as we have done since the beginning of industrialization.
That’s a bold goal, especially given the current state of robotics. At present, robots are good only at highly repetitive tasks in structured environments. They are still far inferior to humans in simple tasks like picking items from a shelf. But Foxconn’s goal of transforming its streamlined manufacturing line is definitely achievable. Many of the tasks now done by humans thousands of times a day—such as applying a puddle of glue, placing double-sided tape, positioning a piece of plastic, tightening screws or loading products onto a pallet—can be easily automated.
The lesson here is simple: Some occupations will simply disappear, like those of weavers in the textile industry displaced by the power loom. We need to embrace this disruption if we want to avoid being taken out of the game altogether. Imagine if China is able to replace our low-wage jobs with its workers and then can automate those jobs: The work that Americans do now will be done here, or anywhere—but not by humans. Foxconn is planning its first plant in the U.S.; soon, Chinese robots will be working in America.
Seeing Opportunity, Not Loss
The good news is that while many types of jobs will cease to exist, robots will create other jobs—and not only in the industry of designing new robots.
This is already beginning to happen. In 2014, there were more than 350,000 manufacturing companies with only one employee, up 17 percent from 2004. These companies combine globalization and automation, embracing outsourcing and technological tools to make craft foods, artisanal goods and even high-tech engineered products.
Three trends in automation are emerging that might revitalize the U.S. manufacturing sector and bring back jobs.
Many American entrepreneurs use digitally equipped manufacturing equipment such as 3-D printers, laser cutters and computer numerical controlled (CNC) mills combined with market places to outsource small manufacturing jobs, such as mfg.com, to run small businesses. I’m one of them, manufacturing custom robotic grippers from my basement. Automation enables these sole proprietors to create and innovate in small batches without large costs.
Returning to Manufacturing Dominance
This sort of solo entrepreneurship is just getting going. Were robots more available and cheaper, people would make jewelry and leather goods at home, and even create custom-made items like clothing or sneakers, directly competing with mass-produced items from China. As with the iPhone, even seemingly complex manufacturing tasks can be automated; it’s not even necessary to incorporate artificial intelligence into the process.
Three trends are emerging that, with industry buy-in and careful government support, could help revitalize the U.S. manufacturing sector.
First, robots are getting cheaper. Today’s $100,000 industrial robotic arms are not what the future needs. Automating iPhone assembly lines will require cheap robotic arms, simple conveyor belts, 3-D-printed fixtures and software to manage the entire process. As we saw in the 3-D printing industry, the maker movement is setting the pace, creating low-cost fabrication robots. The government is involved, too: The Pentagon’s research arm, DARPA, has backed the OtherMill, a low-cost computer-controlled mill.
In addition, more people are programming robots. Getting a robot to accomplish repetitive tasks in industry—for example, using Universal Robots’ interface—is as simple as programming LEGO Mindstorms. Many people think it’s much harder than that, confusing robotic automation with artificial intelligence systems playing chess or Go. In fact, building and programming robots is very similar both physically and intellectually to doing your own plumbing, electrical wiring and car maintenance, which many Americans enjoy and are capable of learning. “Maker spaces” for learning and practicing these skills and using the necessary equipment are sprouting across the country. It is these spaces that might develop the skill sets that enable Americans to take automation into their own hands at their workplaces.
Lastly, cutting-edge research is improving the hardware needed to grasp and manipulate manufacturing components, and the software to sense and plan movements for assembling complex items. Industrial robot technology is upgradable and new robots are designed to complement human workers, allowing industry to make gradual changes rather than complete factory retooling.
A Path Forward
To fully take advantage of these trends and other developments, we need to improve connections between researchers and businesses. Government effort, in the form of the Defense Department’s new Advanced Robotics for Manufacturing Institute, is already working toward this goal. Funded by $80 million in federal dollars, the institute has drawn an additional $173 million in cash, personnel, equipment and facilities from the academic and private sectors, aiming to create half a million manufacturing jobs in the next 10 years.
Those numbers might sound high, but China is way ahead: Just two provinces, Guangdong and Zhejiang, plan to spend a combined $270 billion over the next five years to equip factories with industrial robots.
The stakes are high: If the U.S. government ignores or avoids globalization and automation, it will stifle innovation. Americans can figure out how to strengthen society while integrating robotics into the workforce, or we can leave the job to China. Should it come to that, Chinese companies will be able to export their highly efficient manufacturing and logistics operations back to the U.S., putting America’s manufacturing workforce out of business forever.
Assistant Professor, Computer Science at University of Colorado
Nikolaus Correll is an assistant professor of Computer Science, University of Colorado. Correll’s research focuses on practical robot applications that target grand challenge applications such as sustainable food production, manufacturing and exploration of space. He’s also looking into what materials robots of the future will be made of, such as deeply embed sensing, actuation, computation and communication in order to adapt their physical properties to changing requirements.