Will Robots Take Our Children’s Jobs?

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CreditRichie Pope

Like a lot of children, my sons, Toby, 7, and Anton, 4, are obsessed with robots. In the children’s books they devour at bedtime, happy, helpful robots pop up more often than even dragons or dinosaurs. The other day I asked Toby why children like robots so much.

“Because they work for you,” he said.

What I didn’t have the heart to tell him is, someday he might work for them — or, I fear, might not work at all, because of them.

It is not just Elon MuskBill Gates and Stephen Hawking who are freaking out about the rise of invincible machines. Yes, robots have the potential to outsmart us and destroy the human race. But first, artificial intelligence could make countless professions obsolete by the time my sons reach their 20s.

You do not exactly need to be Marty McFly to see the obvious threats to our children’s future careers.

Say you dream of sending your daughter off to Yale School of Medicine to become a radiologist. And why not? Radiologists in New York typically earn about $470,000, according to Salary.com.

But that job is suddenly looking iffy as A.I. gets better at reading scans. A start-up called Arterys, to cite just one example, already has a program that can perform a magnetic-resonance imaging analysis of blood flow through a heart in just 15 seconds, compared with the 45 minutes required by humans.

Maybe she wants to be a surgeon, but that job may not be safe, either. Robots already assist surgeons in removing damaged organs and cancerous tissue, according to Scientific American. Last year, a prototype robotic surgeon called STAR (Smart Tissue Autonomous Robot) outperformed human surgeons in a test in which both had to repair the severed intestine of a live pig.

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Robots put together vehicle frames on the assembly line at the Peugeot Citroën Moteurs factory.CreditSebastien Bozon/Agence France-Presse — Getty Images

So perhaps your daughter detours to law school to become a rainmaking corporate lawyer. Skies are cloudy in that profession, too. Any legal job that involves lots of mundane document review (and that’s a lot of what lawyers do) is vulnerable.

Software programs are already being used by companies including JPMorgan Chase & Company to scan legal papers and predict what documents are relevant, saving lots of billable hours. Kira Systems, for example, has reportedly cut the time that some lawyers need to review contracts by 20 to 60 percent.

As a matter of professional survival, I would like to assure my children that journalism is immune, but that is clearly a delusion. The Associated Press already has used a software program from a company called Automated Insights to churn out passable copy covering Wall Street earnings and some college sports, and last year awarded the bots the minor league baseball beat.

What about other glamour jobs, like airline pilot? Well, last spring, a robotic co-pilot developed by the Defense Advanced Research Projects Agency, known as Darpa, flew and landed a simulated 737. I hardly count that as surprising, given that pilots of commercial Boeing 777s, according to one 2015 survey, only spend seven minutes during an average flight actually flying the thing. As we move into the era of driverless cars, can pilotless planes be far behind?

Then there is Wall Street, where robots are already doing their best to shove Gordon Gekko out of his corner office. Big banks are using software programs that can suggest bets, construct hedges and act as robo-economists, using natural language processing to parse central bank commentary to predict monetary policy, according to Bloomberg. BlackRock, the biggest fund company in the world, made waves earlier this year when it announced it was replacing some highly paid human stock pickers with computer algorithms.

So am I paranoid? Or not paranoid enough? A much-quoted 2013 studyby the University of Oxford Department of Engineering Science — surely the most sober of institutions — estimated that 47 percent of current jobs, including insurance underwriter, sports referee and loan officer, are at risk of falling victim to automation, perhaps within a decade or two.

Just this week, the McKinsey Global Institute released a report that found that a third of American workers may have to switch jobs in the next dozen or so years because of A.I.

I know I am not the only parent wondering if I can robot-proof my children’s careers. I figured I would start by asking my own what they want to do when they grow up.

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Elon Musk, the C.E.O. of Tesla Motors. CreditMarcio Jose Sanchez/Associated Press

Toby, a people pleaser and born entertainer, is obsessed with cars and movies. He told me he wanted to be either an Uber driver or an actor. (He is too young to understand that those jobs are usually one and the same).

As for Uber drivers, it is no secret that they are headed to that great parking garage in the sky; the company recently announced plans to buy 24,000 Volvo sport utility vehicles to roll out as a driverless fleet between 2019 and 2021.

And actors? It may seem unthinkable that some future computer-generated thespian could achieve the nuance of expression and emotional depth of, say, Dwayne Johnson. But Hollywood is already Silicon Valley South. Consider how filmmakers used computer graphics to reanimate Carrie Fisher’s Princess Leia and Peter Cushing’s Grand Moff Tarkin as they appeared in the 1970s (never mind that the Mr. Cushing died in 1994) for “Rogue One: A Star Wars Story.

My younger son Anton, a sweetheart, but tough as Kevlar, said he wanted to be a football player. Robot football may sound crazy, but come to think of it, a Monday night battle between the Dallas Cowdroids and Seattle Seabots may be the only solution to the sport’s endless concussion problems.

He also said he wanted to be a soldier. If he means foot soldier, however, he might want to hold off on enlistment. Russia recently unveiled Fedor, a humanoid robot soldier that looks like RoboCop after a Whole30 crash diet; this space-combat-ready android can fire handguns, drive vehicles, administer first aid and, one hopes, salute. Indeed, the world’s armies are in such an arms race developing grunt-bots that one British intelligence expert predicted that American forces will have more robot soldiers than humans by 2025.

And again, all of this stuff is happening now, not 25 years from now. Who knows what the jobs marketplace might look like by then. We might not even be the smartest beings on the planet.

Ever heard of the “singularity”? That is the term that futurists use to describe a potentially cataclysmic point at which machine intelligence catches up to human intelligence, and likely blows right past it. They may rule us. They may kill us. No wonder Mr. Musk says that A.I. “is potentially more dangerous than nukes.”

But is it really that dire? Fears of technology are as old as the Luddites, those machine-smashing British textile workers of the early 19th century. Usually, the fears turn out to be overblown.

The rise of the automobile, to cite the obvious example, did indeed put most manure shovelers out of work. But it created millions of jobs to replace them, not just for Detroit assembly line workers, but for suburban homebuilders, Big Mac flippers and actors performing “Greased Lightnin’” in touring revivals of “Grease.” That is the process of creative destruction in a nutshell.

But artificial intelligence is different, said Martin Ford, the author of “Rise of the Robots: Technology and the Threat of a Jobless Future.”Machine learning does not just give us new machines to replace old machines, pushing human workers from one industry to another. Rather, it gives us new machines to replace us, machines that can follow us to virtually any new industry we flee to.

Since Mr. Ford’s book sent me down this rabbit hole in the first place, I reached out to him to see if he was concerned about all this for his own children: Tristan, 22, Colin, 17, and Elaine, 10.

He said the most vulnerable jobs in the robot economy are those involving predictable, repetitive tasks, however much training they require. “A lot of knowledge-based jobs are really routine — sitting in front of a computer and cranking out the same application over and over, whether it is a report or some kind of quantitative analysis,” he said.

Professions that rely on creative thinking enjoy some protection (Mr. Ford’s older son is a graduate student studying biomedical engineering). So do jobs emphasizing empathy and interpersonal communication (his younger son wants to be a psychologist).

Even so, the ability to think creatively may not provide ultimate salvation. Mr. Ford said he was alarmed in May when Google’s AlphaGo software defeated a 19-year-old Chinese master at Go, considered the world’s most complicated board game.

“If you talk to the best Go players, even they can’t explain what they’re doing,” Mr. Ford said. “They’ll describe it as a ‘feeling.’ It’s moving into the realm of intuition. And yet a computer was able to prove that it can beat anyone in the world.”

Looking for a silver lining, I spent an afternoon Googling TED Talks with catchy titles like “Are Droids Taking Our Jobs?”

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“Rise of the Robots,” by Martin Ford.

In one, Albert Wenger, an influential tech investor, promoted the Basic Income Guarantee concept. Also known as Universal Basic Income, this sunny concept holds that a robot-driven economy may someday produce an unlimited bounty of cool stuff while simultaneously releasing us from the drudgery of old-fashioned labor, leaving our government-funded children to enjoy bountiful lives of leisure as interpretive dancers or practitioners of bee-sting therapy, as touted by Gwyneth Paltrow.

The idea is all the rage among Silicon Valley elites, who not only understand technology’s power, but who also love to believe that it will be used for good. In their vision of a post-A.I. world without traditional jobs, everyone will receive a minimum weekly or monthly stipend (welfare for all, basically).

Another talk by David Autor, an economist, argued that reports of the death of work are greatly exaggerated. Almost 50 years after the introduction of the A.T.M., for instance, more humans actually work as bank tellers than ever. The computers simply freed the humans from mind-numbing work like counting out 20-dollar bills to focus on more cognitively demanding tasks like “forging relationships with customers, solving problems and introducing them to new products like credit cards, loans and investments,” he said.

Computers, after all, are really good at some things and, for the moment, terrible at others. Even Anton intuits this. The other day I asked him if he thought robots were smarter or dumber than humans. “Sdumber,” he said after a long pause. Confused, I pushed him. “Smarter and dumber,” he explained with a cheeky smile.

He was joking. But he also happened to be right, according to Andrew McAfee, a management theorist at the Massachusetts Institute of Technology whom I interviewed a short while later.

Discussing another of Anton’s career aspirations — songwriter — Dr. McAfee said that computers were already smart enough to come up with a better melody than a lot of humans. “The things our ears find pleasant, we know the rules for that stuff,” he said. “However, I’m going to be really surprised when there is a digital lyricist out there, somebody who can put words to that music that will actually resonate with people and make them think something about the human condition.”

Not everyone, of course, is cut out to be a cyborg-Springsteen. I asked Dr. McAfee what other jobs may exist a decade from now.

“I think health coaches are going to be a big industry of the future,” he said. “Restaurants that have a very good hospitality staff are not about to go away, even though we have more options to order via tablet.

“People who are interested in working with their hands, they’re going to be fine,” he said. “The robot plumber is a long, long way away.”

Robot Proof

At Sacred Heart, we are constantly gauging the skills our students must master to contribute to the world when they are in the workforce.  Here’s in interesting perspective on what fields will be “Robot Proof.”

Northeastern president discusses his new book on how higher education can train students for careers where technology cannot make them redundant.

September 12, 2017

In the era of artificial intelligence, robots and more, higher education is arguably more important than ever. Academic researchers are producing the ideas that lead to technology after technology. On the other hand, a challenge exists for higher education: how to produce graduates whose careers won’t be derailed by all of these advances. Now that robots can pick stocks, this isn’t just about factory jobs, but the positions that college graduates have long assumed were theirs.

Northeastern University is involved in both sides of that equation. Its academic programs in engineering, computer science and other fields are producing these breakthroughs. And its students — at an institution known for close ties to employers — of course want good careers. Joseph E. Aoun, Northeastern’s president, explores these issues in Robot-Proof: Higher Education in the Age of Artificial Intelligence (MIT Press). Aoun is a scholar in linguistics when he’s not focused on university administration. His book argues that changes in the college curriculum are needed to prepare students in this new era, but that doesn’t mean ignoring the humanities or general education.

Aoun, one of seven presidents honored today by the Carnegie Corporation for academic leadership, responded via email to questions about his new book.

Q: How worried should college graduates be about being replaced by technology? Is it likely that many jobs today held by those with college degrees will be replaced by robots or some form of technology?

A: Smart machines are getting smarter, and many of the jobs performed by people today are going to disappear. Some studies predict that half of all U.S. jobs are at risk within the next 20 years. And it’s not just blue-collar jobs; today intelligent machines are picking stocks, doing legal research and even writing news articles. Simply put, if a job can be automated in the future, it will be.

For higher education to meet this challenge — for us to make people robot-proof — we need to change. In my book, I offer a blueprint for how we can accomplish this. We will need to re-envision the curriculum, invest in experiential education and put lifelong learning at the heart of what we do. It will not be easy, but we have a responsibility — to the students of today and tomorrow — to change the way we do business.

Q: In an era of adaptive learning and online learning, should faculty members be worried about their jobs in the future?

A: We’re seeing educational content become commoditized. Therefore, the job of faculty members has to go beyond simply transmitting knowledge. More than ever, the priority for faculty is to create new knowledge and act as the catalysts to make their students robot-proof. The personal connection between student and teacher cannot be replaced by a machine.

But, like students, faculty members must act to meet the challenge of today’s world and should embrace the transformation of higher education that I describe in my book.

Q: What is “humanics,” and what are the three kinds of literacy that you want colleges to teach?

A: Humanics is the curriculum for a robot-proof education. It is based on the purposeful integration of technical literacies, such as coding and data analytics, with uniquely human literacies, such as creativity, entrepreneurship, ethics, cultural agility and the ability to work with others.

The key is integration. We need to break down the academic silos that separate historians from engineers.

When I talk to employers, they tell me that they would give their right arm for more systems thinkers — quarterbacks who can see across disciplines and analyze them in an integrated way. And every student should be culturally agile, able to communicate across boundaries, and to think ethically. By integrating technology, data and humanities, we can help students become robot-proof.

Q: In your vision for the future of higher education, is this about embedding these skills into existing programs or starting from scratch?

A: Higher education has the elements for a robot-proof model, but we need to be much more intentional about how we integrate them. As I’ve mentioned, our curriculum needs to change so that technical and human literacies are unified.

We need to deliver this curriculum in an experiential way. This means recognizing that learning happens beyond the classroom through co-ops and meaningful internships. I truly believe that experiential education is the most powerful way to learn.

Still, no one is going to be set for life. We need to commit to lifelong learning in a way that we haven’t done in the past. Universities have been engaged in lifelong learning for many years, but it is usually treated as a second-class operation. We need to bring lifelong learning to the core of our mission.

This will require us to rethink the way we deliver education, particularly to working professionals who don’t have time to be on campus every day. Online and hybrid delivery modes will be essential. We have to meet learners wherever they are — in their careers and around the world.

Credentials will need to be unbundled so that learners don’t have to commit to long-term degree programs. Stackable certificates, badges and boot camps will become the norm.

These changes won’t happen by themselves. Institutions should establish authentic partnerships with employers, redesign courses to fill gaps that employers actually need and connect them with students through co-ops and internships.

Q: How is Northeastern getting ready for these changes?

A: Northeastern has designed its academic plan to meet the challenges — and opportunities — presented by smart machines. Beyond the curricular changes required by humanics, and our leadership in experiential learning, we are building a multicampus network spanning different cities, regions and countries. Learners will be able to gain access to this network wherever they are and whenever it’s convenient for them.

Throughout its history, higher education has adapted to changes in the world. Knowing what we know about the revolution of smart machines, we have a responsibility to remain relevant and an opportunity to make our learners robot-proof.