The vast vacant lot along the Monongahela River has been a scar from Pittsburgh’s industrial past for decades. It was once the site of the Jones and Laughlin steelworks, one of the largest such facilities in the city back when steel was the dominant industry there. Most of the massive structures are long gone, leaving behind empty fields pocked with occasional remnants of steelmaking and a few odd buildings. It all stares down the river at downtown Pittsburgh.
Next to the sprawling site is one of Pittsburgh’s poorer neighborhoods, Hazelwood, where a house can go for less than $50,000. As with many of the towns that stretch south along the river toward West Virginia, like McKeesport and Duquesne, the economic reasons for its existence—steel and coal—are a fading memory.
These days the old steel site, called Hazelwood Green by its developers, is coming back to life. At one edge, fenced off from prying eyes, is a test area for Uber’s self-driving cars. A new road, still closed to the public, traverses the 178 acres of the site, complete with parking signs, fire hydrants, a paved bike path, and a sidewalk. It doesn’t take much imagination to picture it bustling with visitors to the planned park along the riverfront.
The gem of the redevelopment effort is Mill 19, the former coke works. A structure more than a quarter-mile long, sitting amid the empty fields, it has been stripped clean to a three-story metal skeleton. Crews of workers are clearing away remaining debris and preparing the building for its reincarnation. By next spring, if all goes according to plan, its first occupant will move in: the Advanced Robotics for Manufacturing Institute.
The symbolism of robots moving into a former steelworks is lost on few people in the city. Pittsburgh is reinventing itself, using the advances in automation, robots, and artificial intelligence coming out of its schools—particularly Carnegie Mellon University (CMU)—to try to create a high-tech economy. Lawrenceville, five miles from Hazelwood, has become a center for US development of self-driving cars. Uber Advanced Technologies occupies a handful of industrial buildings; self-driving startups Argo AI and Aurora Innovation are nearby. Even Caterpillar has set up shop, working on autonomous backhoes and other heavy machines that could one day operate themselves.
“Can AI, advanced robotics, self-driving cars, and other recent breakthroughs spread prosperity to the population at large?”
This has drawn billions of dollars from Silicon Valley and elsewhere, a welcome development in a city whose economy has been moribund for decades. And the effects are visible. Self-driving cars out for a test ride are a common sight, as are lines outside the trendy restaurants in what civic boosters call “Robotics Row.” While many longtime residents complain of skyrocketing home prices near the tech firms’ headquarters and test facilities, they’ll also tell you these are the best days the city has seen in their lifetimes.
But despite all this activity, Pittsburgh’s economy is struggling by many measures. Though the city’s population is no longer hemorrhaging away—between 1970 and 1980 it fell by roughly a fifth—it isn’t growing, either, and is aging quickly. During the last half-decade, almost 70,000 people aged 35 to 54 have left the region. And not far from the city and its elite universities, in areas where the main hope for prosperity lies in coal and natural gas from fracking rather than self-driving cars, well-paying jobs are scarce and towns are being devastated by opioid addiction.
This makes Pittsburgh not only a microcosm of the US industrial heartland but a test case for the question facing every city and country with access to new digital technologies: Can AI, advanced robotics, self-driving cars, and other recent breakthroughs spread prosperity to the population at large, or will they just concentrate the wealth among entrepreneurs, investors, and some highly skilled tech workers?
To prosper, says Scott Andes at the National League of Cities, Pittsburgh “can’t just be a producer of brilliant talent and ideas that then don’t turn into job generation.” He adds, “Pittsburgh is a great case study for the 21st-century economy, because it is beginning to leverage research strengths into economic value.”
There is no sillier—or more disingenuous—debate in the tech community than the one over whether robots and AI will destroy jobs or, conversely, create a great abundance of new ones. In fact, the outcome depends on various economic factors. And how it will play out as the pace of AI intensifies, no one knows.
Automation and robots have certainly wiped out many jobs over the last few decades, especially in manufacturing. In one of the first attempts to quantify the impact of industrial robots, research by Daron Acemoglu at MIT and his colleagues, based on data from 1990 to 2007, found that for every robot on the factory floor, some six jobs are lost. That means as many as 670,000 jobs for the years that they looked at, and as many as 1.5 million jobs at 2016 levels of robot usage in the US.
Automation is changing work
The McKinsey Global Institute estimates that about 50 percent of tasks done in our economy could be automated. But such statistics are often misinterpreted. The 50 percent merely describes the “technical feasibility” of what can be automated with existing and emerging technologies, says James Manyika, the institute’s chairman. The number of actual jobs lost will depend on the costs and benefits of replacing people with machines.
Even more uncertain is how many new jobs will be created. Many technologists, especially roboticists, assert that advances will lead to a wealth of new kinds of work. So far, though, that hasn’t happened, and few of the breakthroughs have reached the largest sectors of the US economy, such as health care.
Perhaps we just need to be patient; technology advances have always increased incomes, which then increased demand for goods and services, which then led to more jobs. But Laura Tyson, a top economic advisor to President Bill Clinton and a professor at the University of California, Berkeley, asks the question that is on everyone’s mind: What if, this time around, the goods and services that people want just don’t require much human labor to produce? “This is the first time that technology, we think, could on net reduce the demand for human workers,” she says.
“The naïve view among macroeconomists for several decades has been that technology will always create jobs,” says Acemoglu. “The alarmists’ is that this time is different and it will destroy jobs. The truth is it’s capable of doing both.” Though in the past the economic benefits from new technologies have always been enough to create more jobs than were lost, he says, “lately, for a variety of reasons, there has been a much more job-destroying face to technology.”
Part of what he’s describing is the so-called productivity paradox: while big data, automation, and AI should in theory be making businesses more productive, boosting the economy and creating more jobs to offset the ones being lost, this hasn’t happened. Some economists think it’s just a matter of time—though it could take many years (see “The productivity paradox”).
But the debate about how many jobs are gained or lost obscures a much more important point. The location of jobs and the kind of work they involve are changing, and that’s what’s causing real pain to people and to local economies.
In the US, demand for low-paying work in places like warehouses and restaurants is growing; so is demand for well-paying work in occupations requiring lots of technical skills, such as programming. At the same time, many traditionally middle-class jobs in areas like manufacturing and data processing are shriveling. These trends have contributed to record levels of income inequality. “There is not a lot of disagreement that technology is changing the skills and occupations in demand,” says Tyson. “And that will continue to increase income inequality.”
This movie has, of course, played out before. In 1900, about 40 percent of US workers were on farms; today fewer than 2 percent are. In 1950, about 24 percent of the jobs were in manufacturing; today around 9 percent are. Similar shifts are occurring in other developed countries. But today’s changes are happening faster and more broadly than before, leaving little time for people to adapt.
Many are simply giving up on finding a decent job. Labor-force participation—basically, the proportion of people working or seeking work—is showing a troubling drop, especially for men aged 25 to 54. Melissa Kearney and Katharine Abraham, economists at the University of Maryland, have looked at why. They think there may be several causes, but they say robots and automation are a critical one. Many people without a college degree simply think the prospects of finding a well-paying job are too slim to make it worth looking.
Inequality is up as growth slows
Princeton economist Anne Case and her coauthor Angus Deaton have identified what’s likely a related trend. They found that mortality is rising among middle-aged white people in the US with a high school diploma or less. The culprits: high rates of suicide, drug addiction, and alcoholism, which Case and Deaton call “diseases of despair” because they don’t seem related to poverty per se, but rather to disappointment; in a reversal of expectations, people are realizing they won’t be better off than their parents.
Automation might be partly to blame for these social problems. But if economists like Acemoglu are right, the key to creating more good jobs is not fewer of these advances but better versions of them that are deployed faster throughout the economy.
That, in essence, is what Pittsburgh’s attempt at reinventing itself is about. So far the results are mixed. “The transformation of the city by new, young people working in AI and robotics has been spectacular,” says Andrew Moore, dean of computer science at CMU. “But it has been more of an approach of gentrification rather than an inclusion of the community.”
That criticism resonates in a place that prides itself as a working-class city with strong unions and a rich history of progressive politics. Mayor William Peduto helped attract Uber to the city, but he has since soured on the San Francisco–based company. “The Silicon Valley model doesn’t [put] people in the equation. It is based on what return will be derived for VCs,” he said in a recent interview at city hall with MIT Technology Review. “In places like Detroit and Pittsburgh, when we look at the future of work, we want to know what the future of the worker is.”
According to a recent poll, more than half of Pittsburgh residents would strongly support Amazon’s building its second headquarters there. That’s far more than in many cities on Amazon’s shortlist—in Austin and Boston only around a third of the population would welcome the move. It’s hardly surprising: Amazon is pledging 50,000 jobs and $5 billion in investment, which would be transformative for Pittsburgh. It’s rumored that the city is tempting the company with the site along the Monongahela River that includes Mill 19.
But if Amazon picks Pittsburgh, that’s likely to exacerbate the anxiety over how to match residents with new high-tech jobs. “There is nowhere near enough people in the city and the region with the technical skills,” says CMU’s Moore. “We’re great in terms of the rare genius leaders, but [Pittsburgh] really needs to skill up the local population to take part in this.”
The challenge facing the city and the rest of the country, though, is not only to include more people in the high-tech workforce but to expand the supply of those well-paying jobs. Advanced robotics can modernize the factories in a city like Pittsburgh and help make manufacturing more competitive. But the factory jobs lost through the years aren’t coming back. As a country, we’re struggling to imagine how to build an economy with plenty of good jobs around AI and automation.
A person standing on the flat roof of a building in the Lawrenceville neighborhood can get a glimpse of the future. On the first floor is a large garage housing several of Aurora’s self-driving cars. Off in some weedy fields is a Caterpillar backhoe belonging to the company’s research outpost for autonomous machines. Beyond that is a fenced-in testing area next to yet another former steel facility—this one housing Carnegie Robotics, which is working on a bomb-clearing robot for the Army. In the background is the National Robotics Center, another imposing building and home—until it moves into Mill 19—of the Advanced Robotics for Manufacturing Institute.
It’s an impressive scene highlighting signs, if you know where to look, of some of the world’s leading research into robotics and automation. But it is also almost deadly quiet. There are a few cars in the parking lots—those of the engineers and programmers involved in the various robotic ventures, and probably some visitors. Beyond that, there are no signs of workers anywhere.