Freakonomics Radio - How to Stop Worrying and Love the Robot Apocalypse (Update)
Episode Date: November 18, 2024It’s true that robots (and other smart technologies) will kill many jobs. It may also be true that newer collaborative robots (“cobots”) will totally reinvigorate how work gets done. That, at le...ast, is what the economists are telling us. Should we believe them? SOURCES:David Autor, professor of economics at the Massachusetts Institute of Technology.James Rosenman, C.E.O. of Andrus on Hudson senior care community.Karen Eggleston, economist at Stanford University.Yong Suk Lee, professor of technology, economy, and global affairs at the University of Notre Dame. RESOURCES:"Robots and Labor in Nursing Homes," by Yong Suk Lee, Toshiaki Iizuka, and Karen Eggleston (NBER Working Paper, 2024)."Global Robotics Race: Korea, Singapore and Germany in the Lead," by International Federation of Robotics (2024)."Unmet Need for Equipment to Help With Bathing and Toileting Among Older US Adults," by Kenneth Lam, Ying Shi, John Boscardin, and Kenneth E. Covinsky (JAMA Internal Medicine, 2021)."Robots and Labor in the Service Sector: Evidence from Nursing Homes," by Karen Eggleston, Yong Suk Lee, and Toshiaki Iizuka (NBER Working Papers, 2021).The Work of the Future: Building Better Jobs in an Age of Intelligent Machines, by David Autor, David Mindell, Elisabeth Reynolds, and the MIT Task Force on the Work of the Future (2020)."Robots and Jobs: Evidence from US Labor Markets," by Daron Acemoglu and Pascual Restrepo (University of Chicago Press, 2020)."The Slowdown in Productivity Growth and Policies That Can Restore It," by Emily Moss, Ryan Nunn, and Jay Shambaugh (The Hamilton Project, 2020)."The China Shock: Learning from Labor Market Adjustment to Large Changes in Trade," by David H. Autor, David Dorn, and Gordon H. Hanson (NBER Working Papers, 2016)."Deregulation at Heart of Japan's New Robotics Revolution," by Sophie Knight and Kaori Kaneko (Reuters, 2014). EXTRAS:"What Do People Do All Day?" by Freakonomics Radio (2024)."Did China Eat America’s Jobs?" by Freakonomics Radio (2017).
Transcript
Discussion (0)
Hey there, it's Stephen Dubner and this is a bonus episode of Freakonomics Radio.
In 2021, we put out an episode about the future of robots in the workforce.
It featured a couple of economists who had been studying how robots or kobots, or collaborative
robots were being used in Japanese nursing homes.
Those same economists recently put out a follow-up
paper, so we thought we'd replay the original episode with updated facts and figures,
and then hear about the new research findings. We've also got some robot news from an American
nursing home. So here is the updated episode. It's called How to Stop Worrying and Love the Robot Apocalypse.
We might as well start with an economist.
No, no, I'm not even a real economist. I just play one at MIT.
That's David Otter.
He is a real economist.
He's been on the show a few times before.
His path to economics professor was indirect.
I started as an undergraduate at Columbia. I dropped out after three semesters. I worked,
I rode a motorcycle. I went back and completed my undergraduate degree at Tufts a couple years later.
I studied psychology with a concentration in computer science and I really didn't know what
to do with myself.
So he did some temping, he did construction, he worked at McDonald's.
Then he went back to school again and got a PhD in public policy.
So not the typical path for a labor economist at MIT.
And that real world experience is reflected in David Otter's work.
My work is very concrete. I'm not a high theorist. I'm very much driven by practical problems.
A lot of the questions I studied are related to things I worked on and saw firsthand. Working in poor communities, working in places undergoing political upheaval,
watching the gulf of inequality expand in the information age.
watching the Gulf of Inequality expand in the Information Age? Watching the Gulf of Inequality expand in the Information Age.
Yes, that does sound like a transformative idea, and it leads to a large question.
Will new technologies make that inequality gulf bigger or smaller?
You could see it going either way, right?
On the one hand, technology democratizes.
Many of us are now rich enough
to afford what is essentially a butler.
Amazon.com, for instance, will bring you
whatever you'd like quite quickly at the push of a button.
On the other hand, much of the wealth produced
by this kind of technology flows way up
to the tippity top of the income ladder.
So who are the winners and who are the losers when there is such a transformative shift
in the global economy?
Think about one of the last big shifts we lived through, the massive expansion of global
trade during which the US intentionally sent millions of jobs to China.
We actually had David Otter on the show a few years back
to talk about that.
Episode number 274, if you want to listen,
it's called, Did China Eat America's Jobs?
So Otter has done a lot of thinking about these issues.
No country has experienced the extremes
of rising inequality that the United States has,
and there's no evidence that the US has gained much from it.
We haven't grown faster than other countries.
We don't have higher labor force participation rates.
We don't have higher social mobility of people
going from rags to riches.
If you wanted a spark notes version of the US economy
over the past few decades, it would be this.
Rising productivity, though not as fast a rise
as the post-war era, and stagnant median wages,
with the productivity gains largely benefiting
the top of the income distribution.
Yeah, it's just incredibly skewed.
And so, as far as we can measure it,
the median is barely budging.
And now, after all that,
it's time to consider another very, very large disruption,
because you know that robot future
you've been hearing about?
Open the pod bay doors, Hell.
I'm sorry Dave. I'm afraid I can't do that.
Yeah, well the future got here yesterday.
Good to see you again. I like your shirt.
Thank you.
So tell me, how are you feeling today? I'm feeling pretty good.
You're welcome.
This is Freakonomics Radio, the podcast that explores the hidden side of everything everything with your host, Stephen Dubner.
In the spring of 2018, David Otter was asked to co-chair an MIT task force called the Work
of the Future.
It included researchers from a variety of disciplines,
economics, engineering, political science, anthropology even. The mission was to explore
how new technologies like robotics and automation will affect labor markets, especially whether
certain groups of workers would be left behind. Keep in mind that this sort of prediction is
really hard, as evidenced by the predictions
that economists made about globalization.
They predicted that when the U.S. offshored manufacturing jobs to China, that Americans
who worked in manufacturing would be made better off, since they'd theoretically be
reallocated into better jobs.
But as David Otter told us in that earlier episode, this didn't happen.
Some people are leaving the labor market, some people are going into unemployment, some
people are going onto disability. And so the reallocation process seems to be slow, frictional,
and scarring. The real differentiator is the skill level of the worker. So higher paid
and more highly educated workers,
they seem to reallocate successfully
out of manufacturing into other jobs.
So the HR person at a big textile firm
gets an HR job elsewhere,
and the manufacturers on the line are probably not.
And the line workers are much less likely to do so exactly.
So considering the difficulty of making predictions
about the future of work, the MIT task force
started with one thing they were pretty sure about.
The one thing we were confident in was that the US would keep generating lots of low-wage
jobs.
Too many even, yes?
Well, actually, too many is better than too few.
When there's too many, at least they're competing hard for workers.
When there are too few, workers are competing for them. And that means those jobs will get worse. And so the one positive thing
you could say about the US workforce, well, we had a lot of crappy jobs.
When we spoke with Audar for this episode originally, the US was still recovering from
the COVID-19 recession. And what kind of damage did that recession do?
In the short run, it's just done enormous damage to most of the in-person service jobs.
The ones that were absolutely necessary, like in grocery stores and healthcare, have persisted,
but many of the jobs in retail, in restaurants, in hospitality have not.
A lot of those jobs paid only the minimum wage, and they did come back after the recession,
but other changes were more permanent.
I actually think the biggest change, and it, most obvious, is telepresence.
That we are just doing more things remotely.
We've kind of broken the space-time barrier in that we can't be in two places at once,
but we can get to any two places instantly.
But with lockdowns and COVID precautions, some jobs simply couldn't be done remotely.
During the pandemic, business travel dropped massively and that had
all kinds of downstream labor effects. It's not just airplanes, right? It's Ubers and Limos,
it's expensive hotels that people pay full freight on weeknights and then go out to marquee
restaurants and then go have their shoes shined and dry cleaners. And so I think that's the real
challenge.
The work of the Future Task Force
took the pandemic into account as best as they could.
They published their report in December, 2021.
It tried to answer three main questions.
The first one, how are emerging technologies
transforming the nature of human work
and the set of skills that enable humans
to thrive in the digital economy.
Technology is always eliminating work
and creating work simultaneously.
We tend to focus on what is automated away
and that's completely reasonable.
Simultaneously, new areas of expertise,
new luxuries, new services,
new demands are constantly being created.
And that process, that kind of turnover, is highly productive.
Consider for instance how medicine is practiced these days.
There's hundreds of medical specialties, way, way more than there used to be.
And it's not because doctors have become narrower and narrower and they know less and less.
It's that they know more and more in depth rather than breadth, right?
The extent of expertise required is just extraordinary
and humans have finite capacity.
Where did all of that need for expertise come from?
Well, it came from research and technology and so on.
So often we're broadening expertise,
but it's not just in the high tech professions.
You will find patents emerging for new ways
of hardening nails, fingernails, I mean, not the nails you found into wood.
Patents for solvovotaic electricians, people who install solar cells.
You know, there's a lot of skilled work that's done hands-on, being an electrician, being
a plumber, building a home, or repairing an engine.
And much of that work requires a combination of dexterity and flexibility and problem solving and also knowledge, knowledge on demand.
A lot of people today consult YouTube when they want to learn how to sweat a pipe.
We can augment people's capability to do that work by giving them VR tools, giving them
information on demand.
People could be much more effective in that work and more productive and therefore paid
more if they were augmented in these ways. And so you can see in those examples how you could use the
technology to not make people less necessary, but to make them more effective. That said,
not every profession benefits from this kind of tech augmentation. If you're doing one of those
things that all of a sudden a machine can do better than you, your opportunity set contracts.
And usually the people who are on the one end of that seeing their work
disappear are not the same people who are getting new opportunities.
We saw this vividly when the US offshored manufacturing jobs and we're seeing it now
in other sectors.
For the people who have been working in clerical jobs or many production jobs, what automation
has done is made their work
unnecessary.
It's tempting to think that automation will replace only the simpler jobs that don't
require heavy cognitive input. But that's not the case. Otter has seen this for himself
at some of the firms he's visited.
One of them was a big insurance company. And they do an enormous amount of claims adjudication, claims
assessment and they have these floors of, I guess you'd call them forensic accountants.
And they go through a lot of material looking for anomalies, looking for fraud, looking
for overpayment and so on.
It is true that forensic accounting requires a high level of expertise, but combing through
these files in search of anomalies is also
a tedious task.
And the automation has really accelerated that discovery work.
Machines can actually do reasonably well at this and simultaneously, they never run out
of attention.
They never run out of energy.
Let's say machine learning and artificial intelligence can be used to find these anomalies.
Does that mean that the people who used to find the anomalies are out of work or they
have a different style of work, a different amount of work?
So definitely the total headcount of people who need to do this work is shrinking.
Now they're mostly not firing people, but they slow down hiring.
The work I think that remains is quite interesting.
There's less tedium and more action, but it does ultimately mean, I think,
reduction in the number of people doing that work.
The automating of work is itself big business,
and it's something we've heard a lot about
since we first made this episode in 2021.
To give you an example of how big,
NVIDIA, the leading supplier of hardware and software
for artificial intelligence, is now
the most valuable publicly traded company in the world.
If you are the kind of person who hears this and shudders at the thought that technology
is destroying our way of life, well, there is a long history of such thought.
Aristotle had the same concern, and in ancient Rome, some technologies were outlawed because
of the expected job loss.
In the most recent century, if you've ever watched a movie, you have likely come across
at least one fever dream of technology run amok.
It's alive!
It's alive! It's alive! of technology run amok, and fears of a robot apocalypse.
But if the overall goal is to make good policy and economic decisions about our collective
future, we probably shouldn't base that policy on movie plots.
As history has shown again and again and again, the fear of new technologies tends to be overstated,
and the gains from technology make most people better off.
But maybe, you're thinking, maybe this time is different.
In the old days, when the automobile replaced the horse and carriage, if you lost your job
as a carriage maker or a stable hand, you could probably find work in an auto plant.
What about today?
A 2020 paper by the economists Deron Asimoglu and Pascual Restrepo, found that a single industrial robot will typically reduce employment by as many as six human workers.
Here's David Autor again.
And, you know, I can understand why companies would do that. It makes a lot of sense. Labor is a cost. No one hires workers for the fun of hiring workers.
They hire workers because they need things done. If they could have machines that did it without complaining and cost less, that's what they would do.
But we have a public interest in something more than that.
We're going to have lots of people.
The machines ultimately work for the people.
We want to augment the people.
And there are many highly valuable social problems
that could use automation, could use investment,
and we underinvest in, for example, health care.
Consider this health care checkup.
He's going to be evaluating you today. Okay. Okay. Hello, my
dear. How are you? Hi, I'm okay. How are you? Good to see you
again. I like your shirt. So tell me how you feeling today.
I like your shirt. So tell me, how are you feeling today?
Yeah, I'm feeling pretty good.
No complaints today, really.
Abiola Fomelusi is a doctor who works with a nursing home in Westchester County, just
outside of New York City.
It is called Andrus on Hudson.
Can you open your mouth for me?
Say ahhhh.
Okay, good.
Can you lift both hands up for me?
Lift your hands up for me.
Both of them.
Andrus on Hudson.
Okay.
So, I'm going to go ahead and do this.
I'm going to go ahead and do this.
I'm going to go ahead and do this.
I'm going to go ahead and do this.
I'm going to go ahead and do this.
I'm going to go ahead and do this.
I'm going to go ahead and do this.
I'm going to go ahead and do this.
I'm going to go ahead and do this.
I'm going to go ahead and do this. I'm going to go ahead and do this. I'm going to go ahead and do this. I'm going to go ahead and both arms up for me? Lift your arms up for me.
Go further.
Excellent.
But here's the thing.
Dr. Fomalusi isn't at the nursing home today.
He is examining the patient remotely.
Yeah, we are in our infancy of adopting certain robots.
That is James Rosenman.
He's the CEO of Andrus on Hudson.
We have two robots.
One for the purposes of telemedicine so that physicians can go into patient rooms with the assistance of a nurse when they can't be physically available on site.
This telemedicine robot doesn't look like much, or at least not like what you might
think a robot should look like.
Yeah, like an iPad that is on a base that has wheels that can move to various areas.
And we also have another robot that is a social robot to visit certain residents that may
be less able to get up and walk around.
I understand you had eight robotic dogs and 11 robotic cats.
Did you have to pull them then because of COVID concerns?
They've been put in the kennel for a little while.
The problem with the robots in the environment we're in right now
is that you can't have them just roaming about.
So, infection controls added this other layer of complexity to robotics.
[♪ music playing, fades out. And then comes the beat of the music again.
So, the pandemic is the reason the robotic dogs and cats had to be sidelined, but the
pandemic was also the reason that Andrus got the telemedicine robot. Nursing homes were a hot zone
for COVID transmissions, so Rosenman wanted to minimize face-to-face contact.
Are you pretty typical as far as a nursing facility with the amount of robots you have?
Are you at the leading edge or are you lagging?
It's hard to know where we stand in comparison to other providers because this isn't a topic
that comes up very often.
But we do know that a lot of the people that we talk to don't utilize those in their facilities
Also, James Rosenman is a self-proclaimed robot nerd
I think I watched short circuit when I was little the movie. Oh
Johnny five was a big inspiration for me, but there are other non pandemic reasons that a nursing home or hospital might want to use
robots.
Yeah, we work very hard on staff retention and we do have a good retention rate.
But we also have people, you know, they retire.
We would love for them to work there forever and ever and I'd love to clone people, but
we can't, you know, maybe that's for another show, but we have a labor shortage in the
market of nurses and
of CNAs.
A CNA is a certified nursing assistant. In the U.S. today, there are roughly 4 million
RNs, or registered nurses. A study in the American Journal of Medical Quality found
that by 2030, there will be a shortage of half a million RNs. A subsequent study by the National Center
for Health Workforce Analysis projects a smaller gap,
but still a gap.
This gap is driven by both demand,
we have a large population of elderly and sick people,
and supply.
There are more nurses aging out of the workforce
than entering it.
I've continued to see this labor shortage get worse and worse.
How hard is it for you to hire already?
It's incredibly difficult.
It is a very difficult and demanding job.
There is a critical shortage of those individuals.
Andrus has about 190 residents and nearly 250 employees not counting the robots The typical resident is over 70 and has a variety of conditions
respiratory conditions
COPD
general chronic respiratory failure
congestive heart failure
cancer
The nursing assistants manage a lot of the moment-by-moment care their wages start at $23 an hour
manage a lot of the moment by moment care. Their wages start at $23 an hour.
Registered nurses at Andrus earn around $40 to $50 an hour.
$50 an hour works out to around $100,000 a year.
And what did these robots cost?
It was $4,000 for one of the robots
that we are using for socialization.
And then for the medical robot, we lease that.
We pay about $2,000 a month
because it has all of the equipment.
Equipment meaning like EKG possibility.
Exactly.
With the telemedicine robot, one of the key components
is not just that the clinician can look at the patient
and assess them, but it has an array of tools
connected with it.
So you have what they call smart stethoscope.
So that directly feeds into what the physician can see on their end.
You know, an EKG on site and an ultrasound is something that we're looking on adding.
Your pulse rate is very good.
Good, yeah.
Thank you.
Oxygen saturation is 98%.
James Rosenman says the robots have increased productivity
at the nursing home, and better yet,
they've helped improve patient outcomes.
You know, one area that is always of concern,
individuals who come to us for short-term rehabilitation,
and then something happens medically with them. Then we have to send
them back out to the hospital. It's called a readmission. And so we realized that by adding
the robot and having faster access to clinicians to be able to view something in real time, assess it,
we were able to fairly significantly reduce readmission rates to the hospital just through that alone.
For David Otter, the MIT labor economist, these nursing home robots can help answer the second
question that his work of the Future Task Force asked. How can we shape and catalyze technological
innovation to complement and augment human potential. You could introduce so much technology in healthcare
without reducing employment and yet expanding
the quality of care and the quantity of care.
And of course you'll need tons and tons of people
to actually do the hands-on care work.
But is that reading of the situation too optimistic?
Coming up after the break,
a fascinating new study about Japanese nursing homes.
Andris What we're really worried about are the lower-scaled workers that might be completely
replaced.
Pete And why is the Andris nursing home an outlier? Why is the U.S. a laggard when it comes to
healthcare robots?
Dr. Michael S. Hickman Sort of hard to understand.
Pete And if you like what you're hearing on Freakonomics Radio today, why don't you give us a rating
or a red review on your podcast app.
We'll be right back with robots and cobots. Welcome back.
Today we are playing an update of an episode we originally recorded in 2021.
The MIT labor economist David Otter was co-chair of a task force on the future of work, specifically
how the US workforce is integrating and adapting to new technologies.
The task force found that the US is not nearly as adept as one might hope in this regard.
Here's what they wrote in their final report.
Institutional changes and policy choices failed to blunt and in some cases magnified the consequences
of these pressures on the US labor market. So David, of all the rich countries in the world, how would you rank the US in terms of
successfully adapting to the future of work? And assuming that we are not in, let's say,
the 90th percentile or above, why are we trailing? I would put the US maybe at the bottom of the top
dozen. On the plus side, let's give the US a little bit of credit.
It's incredibly creative and entrepreneurial.
A lot of the technologies originate here, right?
But in terms of dealing with the consequences
as opposed to the opportunities,
that's where we have been extremely poor.
Low wage workers in Canada make 25% more per hour
than low wage workers in the United States.
It's hard to believe that Canadian workers
are actually 25% more productive per hour at McDonald's than U.S. workers. That seems
very unlikely.
How are those wages so much higher in Canada?
There are minimum wages, and then there are just norms about what is acceptable. And the
U.S. has kind of thrown away those norms. To a substantial extent, we've convinced ourselves
that those norms are the problem, not the solution.
Aside from those norms, there's also the fear that new technologies will destroy more good
jobs than they create, or at least that the productivity trade-off won't be worth it.
But not all countries feel that way, especially when it comes to robots.
I think a lot of people just weren't aware that Japan's been subsidizing robot
adoption since 2015. Karen Eggleston is an economist at Stanford. It's beautiful. You
can hear the birds chirping. A lot of Eggleston's research looks at healthcare and technology
in Asia. Why that focus? Well, Asia is a very important part of the world and a part of
the global economy. I also have family connections to Asia.
When you look at the countries with the highest per capita share of robots in the workforce,
Asia is well represented.
Number one by a long shot is South Korea, Singapore is number two, and Japan is number
four.
Germany is third.
Most of these are industrial robots used in the production of electronics and automobiles.
The countries with a lot of robots tend to be high-wage countries, which makes sense
since higher wages create more incentives to replace human workers.
The exception is China, which is now at number five, even though labor there is relatively
cheap at least for now.
When it comes to Japan, Karen Eggleston says that robots have been embraced for several
reasons.
First of all, we know Japan is a very developed economy and invests a lot in many kinds of
new technologies, from so-so technologies to brilliant technologies.
So investing in robots was natural in that context.
A so-so technology is, economists speak for something that just doesn't perform very
well, especially when it's new. Think of automated phone services and self-checkouts in grocery
stores.
Second, and more related to what I usually study, is that the population age structure
in Japan is such that it's
leading the world in the demographic transition and so therefore has an overall declining
population and a declining working age population.
Japan, in fact, has the oldest population in the world.
So you have an increasing demand for long-term care and a declining supply of workers to
staff that long-term care.
This is the same dynamic that James Rosenman of the Andrus Nursing Home told us about,
but it's even more pronounced in Japan.
A lot of countries ease the burden of an aging population by importing labor.
But as many people know,
Japan is less welcoming of immigrant labor
than many other countries in the world
and has actually had a longstanding acceptance of robots.
I feel like I read that a few years ago,
Japan had finally started to loosen up
some of the immigration, is that right?
Japan does continue to loosen immigration, so it's certainly not a black or white thing,
but it's just relative to many other countries where the labor market conditions might be different.
In other words, Japan might have opted for more immigrant labor to help care for its
aging population, but instead it invested heavily in robots.
So they don't all look like R2D2 or C3PO,
but they have functionality that enables them
to take actions based on what they're monitoring.
And a cobot is a term that's developed for robots
that work alongside humans.
Cobot as in a collaborative robot.
It is a very different machine than the kind of robots used
in something like auto manufacturing.
Correct. Yeah, those robots can kind of swing their arms without worrying that they're going to knock over a human and damage them.
And then a cobot is defined as necessarily working alongside humans. Is that right?
That's the idea is that they can work alongside. They're not only aware physically of the human's presence, but they can productively interact with the
human. In Japanese nursing homes, there are a variety of cobots designed to
accomplish a variety of tasks. One type, for instance, is designed to monitor
patients. So these can help both the caregivers and the people themselves to avoid falls,
particularly if they roll out of bed at night or they get up and then trip on something.
There are also cobots to help the nursing home staff move their patients.
They have these big robots with big arms that help to pick people up.
Others that actually are worn by the caregiver
really need to strap onto the body when they're trying to move someone from the bed to a chair
or back again so they're not shaped like a human but to fit onto a human body. And these robots
are trying to address the issue of back pain that caregivers often experience and leads to turnover and
therefore poor outcomes for long-term care.
Other robots help with other activities of the individual such as being able to move
directly themselves and to function independently to help with taking a bath or walking around.
So unlike the typical robot,
a cobot is designed to complement human labor rather than replace it.
That at least is the theory.
Karen Eggleston, being an economist, wanted to test this theory.
She and two colleagues, Yang Li and Toshiyaki Iizuka,
set out to gather and analyze data from 860 nursing homes in Japan.
We focused on nursing homes partly because that's where this population aging question
is really most manifest.
And also because the huge debate about technologies is, yes, we know that surgeons' jobs will
be affected by technology, but what we're really worried about are the lower-scaled workers that might be completely
replaced.
A lot of the research in manufacturing has shown that to be certainly a worry that has
foundation.
Egleston and her co-authors were able to collect a variety of data for this study.
First, wage and employment data from these nursing homes.
This included whether a given employee was a so-called regular worker, which was usually a
full-time position and paid fairly well, or a lower paid non-regular, meaning a part-time or flex
worker. The researchers also measured the degree of cobot adoption in a given nursing home, but
they needed to introduce a random variable to prove causality between the adoption of
robots and the effects on staffing.
Luckily for them, different prefectures across Japan subsidize cobots at different rates,
some as high as 50%.
This variation in subsidies gave the researchers a nice natural
experiment.
And we use the variation in those subsidies to help figure out which way the causality
arrow goes.
Eggleston and her colleagues have written a working paper called Robots and Labor in
the Service Sector, Evidence from Nursing H nursing homes. What they find? What we find is that robot adoption is strongly correlated with having a much larger nursing
home and it appears to be a causal impact that adopting robots is associated with more
care workers rather than fewer.
But these additional care workers are the non-regular
type on more flexible contracts.
So that sounds as if it could mean that robots are bad for the upper end of that employment
spectrum, considering that this is relatively low paid work anyway.
It sounds like it would promote more human workers,
but at a lower wage. Is that about right?
Well, yes, it is possible. Although we also know that the most commonly adopted robot
is the monitoring robots we were talking about. And they are helping to reduce the long night
shifts that nurses and care workers have to do.
So we think that part of the effect is that the workers have a reduced burden of care. And yes,
we do find a lower wage of a modest amount for the regular nurses, but if the case is that they have
shorter work days, then it's not clear that that's actually a welfare loss.
When I first read your paper,
the sort of sunny headline that I wrote in my head was,
we thought robots were the enemy of workers,
and now it looks like they are best friends.
That's a little bit too sunny, isn't it?
Yeah, I think it is a little sunny, although it is a little bit surprising.
And depending on how they're adapted, this automation, yes, it will replace some of the tasks that care workers do.
But the ones that do end up staying in this profession, maybe they will have more support, less back pain, have the education to work alongside robots, and may find that
a more enjoyable experience as well as better for the people they serve.
A lot of the workforce feels burned out, not necessarily because they don't like doing
what they do, but they don't like doing all that paperwork and all that other stuff.
And they want to interact one-on-one with the people they care for.
And co-bots, if they work properly, will enable that.
Humans have these qualities of being very dexterous
and being able to care directly to the patient
and communicate and have compassion with them.
And what's next for our relationship with the robots?
That's coming up.
I'm Stephen Dubner.
You are listening to Freakonomics Radio.
We'll be right back. You could argue that healthcare is the ideal scenario for the blending of human and robot
labor. There are countless tasks and procedures where technology can plainly be helpful, but
the human appetite for compassion also seems boundless, and for now at least, humans are
better at compassion.
You could see cobots helping mightily, not just in hospitals and nursing homes, but in
at-home care as well.
A recent study from the Journal of the American Medical Association found that some 5 million
older adults in the U.S. need help with bathing or using the bathroom.
In Japan and elsewhere in Asia, and also in Europe,
it is increasingly possible for a robot
to assist with such tasks.
That's not just because robots have been subsidized.
They've also been deregulated.
In the United States, we don't have access
to a lot of these types of robots.
That, again, is James Rosenman, CEO of the Andress on Hudson nursing home, We don't have access to a lot of these types of robots.
That again is James Rosenman, CEO of the Andrus on Hudson nursing home.
And why don't we have more access to these types of robots?
It's a good question.
When I look at a lot of these things, I'll find something in my eyes will get huge.
You know, I'll do some research late at night and then I find out, you know, it's only available
in, you know, Japan or in the EU, actually
in many, many markets.
And the glimmer goes out of my eye because I know that we can't legally import that
to the United States.
The other day I was just looking at, for example, to reduce the incidence of individuals developing
pressure ulcers for people who are more bed-bound.
The current thinking is that you rotate people so that you can increase blood flow and reduce
pressure on one given part of the body.
So the idea that I was thinking about was maybe there are beds beyond just the mattresses
that are pressure-relieving, a robotic bed that literally move people.
Right now, that's being done by humans.
It's not available in the United States. So is it regulation that's preventing this right now? And if so, what kind of regulation?
Is it technical regulation? Is it medical regulation, etc.?
Sort of hard to understand. I think that some of it is like a pie chart, if you will, of
different reasons. I don't think there's one sort of smoking gun or people in the back
room that are saying, all right, let's not get these things rolled out because it goes against our interests. It's just very
fragmented. And so you have these different regulatory authorities, you have who's going
to pay for it, how is it going to be used? You know, you can have it approved, but then
you have how is it used in practical terms on site? I think that first and foremost, there need to be more pilots,
studies, models. There are pilots going on every day. Medicare funds those, or they're funded by
other agencies of the federal government. But there haven't been a lot of pilots that include
robotics in our settings.
So if you're thinking big picture about the future of work, one of the most compelling
questions is the degree to which robotics will complement human labor versus replace
it.
One example that I've encountered is in a construction company.
That is Yang Li, one of Karen Eggleston's co-authors on the Japanese
nursing home paper. He is an economist at Notre Dame. They initially created
robots so that they could replace workers for instance digging out certain
parts of the land and lay the foundation but they needed people who had years of
experience more than 10 or 20 years of experience. And it was just difficult to find that labor anymore.
So what they decided to do is to create a robot where an individual with maybe only
one year of experience could operate a machine that could perform the task that a skilled
laborer with 20 years of experience could perform.
So in this sense, they were designing a robot
not to replace the skilled individual,
but actually to augment an individual with less skill.
In another study, Lee looked at robots
in the manufacturing sector, a study that covered 11 years.
There too, he found that robots at first
were replacing workers, but later,
as the technology matured,
the robots became more collaborative.
Robots 10 years ago that did welding, and robots 10 years later will likely be different.
So how do economists see this relationship unfolding between human workers and smart
machines?
How can that relationship be optimized?
Karen Eggleston again.
It won't surprise you to know as an educator and a researcher that I believe that investment
in human capital is really, really important and we need to be investing in young people
and everyone else to enable them to be lifelong learners and to be adaptable. If we give support to people to be adaptable to changes in the labor
markets, there really is a possibility that it will work on behalf of a very broad spectrum
of society.
In other words, every piece of technology in a way could become a cobot if we humans
are skilled enough to collaborate with them. Yes, yes.
I think there really is a potential for technology
to make our lives better.
But I'm not of that opinion that it's
going to automatically happen.
I think it comes down to the choices that we make,
particularly in policy on behalf of the most
vulnerable in our society.
We have time to adapt. Our institutions, our educational systems, and the way we work.
And that, again, is the MIT economist David Otter.
The third and final question from his task force on the future of work was this.
How can our civic institutions ensure that the gains from these emerging innovations
contribute to equality of opportunity, social inclusion, and shared prosperity?
The problem, it strikes me as a layperson, is maybe a gigantic coordination problem,
because we look to our governments to coordinate the way jobs and the economy will flow and take care of everybody. But in fact, governments
aren't really very equipped to do that, whereas firms have a different set of incentives.
So can you just describe how that will unfold in a way that leaves people not either out
of work or grotesquely underpaid, or working in an economy where the gap
between the high and low just gets bigger and bigger?
So first I wanna argue that the government
actually can do a lot,
and that we in America tend to deride our government
and assume it can't be effective.
But in many ways, history demonstrates just the opposite,
and you don't have to look very far back in history,
just look back when the government passed the CARES Act,
and overnight essentially took 10% of GDP and said, hey, we're going to
send this to households, to businesses, and to the unemployed to keep this pandemic from turning
into an economic catastrophe. It was highly effective. And the government similarly has been
effective in shaping technology over many generations. The US had a leading patent system,
it's in our constitution,
but the US has also invested in R&D
through our universities in health development and so on.
So it actually plays a big role
and even setting the rules of the road.
To that end, the MIT work of the Future Task Force
had some concrete recommendations.
They include heavy investment in education and job training,
both in schools and through private firms,
improving the quality of existing jobs
via policies like a higher minimum wage
and labor organizing protections,
and reforming the tax incentives
that privilege capital investments over labor.
If you think all that sounds a lot like the recommendations
we've been hearing about
for a few decades now, I agree.
So you might be forgiven for thinking these adjustments won't happen, at least not in
time to deal with the robotic revolution.
But David Otter isn't panicking.
The revolution may be inevitable, but it's not instantaneous.
The technology is spectacular, and it's going to have momentous impacts,
but they're unfolding gradually. They often take years to decades.
You know,
you think about the gap between the hype about driverless cars and the number
that you don't yet see on the roads.
And many of the things are still a ways off. I mean,
these things will happen, but they take time.
Let me ask you to cast your mind forward, let's say, between 10 and 20 years. It's
pretty easy to foresee that a lot of low-skill jobs will be replaced or very much amended.
But let's say even a lot of medium and high-skill ones, let's say economists and writers and
podcasters and forensic insurance agents. Let's say that many, many, many of those jobs get essentially wiped out by some combination
of robots and cobots and artificial intelligence and machine learning.
Wouldn't that mostly be a wonderful thing?
So it's wonderful in one sense.
It means we are now much richer.
We can do everything we were doing and yet not use any labor to do it.
So we have incredible leisure opportunities.
Therefore we have incredible productivity, incredible wealth.
The problem that creates is twofold.
One is a huge distributional challenge.
Our main method of income distribution in this country and in most industrialized economies
is ownership of labor, right?
You have some labor, you invest in your skills, and then you sell those skills and labor to
the market for 30, 35 years. You save up some money, you invest in your skills, and then you sell those skills and labor to the market for 30-35 years,
you save up some money, you retire. If labor is no longer scarce,
what claim do you have on the assets of that society? So I worry about that problem. The problem of
abundance, actually. The problem of lack of labor scarcity.
The other is, I do think work, you know, one can oversell it, but work should be venerated
to some degree.
It gives people identity, it gives them structure, it gives them purpose.
I mean, this is what the Calvinists have always told us, but how do we know this is true?
Well, we know when people lose work, they are miserable.
So if we're going to have less work, I'd like to see everybody have a little bit less, rather
than many people not working at all. David Otter is a lot smarter than me.
So I am inclined to believe him when he says that people are miserable when they lose work.
On the other hand, could it be that people who've lost work in the past have been miserable
because our civilization is built around work as the
primary means to satisfy your basic needs.
If the assets of society, as Otter puts it, are so bountiful at some point in the future,
shouldn't there be a way to share in those assets while our robot and cobot friends do
most of the work?
Some people are lucky enough to love their work.
I'll be honest, that describes me most days at least, and I'm guessing it describes
David Otter too.
But many, many, many people have jobs they do not love and which keep them from what
they do love.
Economists are pretty good at measuring utility, but they're not very good yet at
measuring things like love. Maybe if the robots and cobots are really smart, they can teach
the economists how to do that.
Since we originally published this episode, Yong Li and Karen Eggleston have come out
with a new paper about robots and labor in nursing homes in Japan.
They found that introducing cobots did not reduce the number of human workers, but it
did reduce employee turnover, which is a good thing.
And it also improved patient outcomes, also a good thing.
Here's what Eggleston told us by email.
These patterns suggest that robots have the potential to enhance quality of care
while augmenting care workers so they can focus more on human touch care and less on the back pain
inducing physical tasks that contribute to making care work such a high turnover job.
We also reached out to James Rosenman
of the Andrus on Hudson nursing home
to ask how his cobots are doing.
He told us that since 2021,
the facility has expanded its telehealth robot program
and added some new devices,
including a semi-robotic system
that helps nursing assistants rotate bed-bound patients
and a robotic
exoskeleton that can help stroke patients stand up and walk. I hope you
enjoyed this bonus episode. We will be back very soon with a brand new episode
of Freakonomics Radio. Until then, take care of yourself and if you can, someone
else too. Although maybe a cobot is taking care of them.
Freakonomics Radio is produced by Stitcher and Renbud Radio.
You can find our entire archive on any podcast app, also at Freakonomics.com, where we publish
transcripts and show notes.
This episode was produced by Zach Lipinski and updated by Augusta Chapman.
Our staff also includes Alina Kulman, Dalvin Abouaji, Eleanor Osborne, Ellen
Frankman, Elsa Hernandez, Gabriel Roth, Greg Rippon, Jasmine Klinger, Jason Gambrell, Jeremy
Johnston, John Schnarres, Lyric Bowditch, Morgan Levy, Neil Carruth, Rebecca Lee Douglas, Sarah
Lilly, and Teo Jacobs. Our theme song is Mr. Fortune by the Hitchhikers. Our composer is Luis Guerra.
As always, thank you for listening.
What do you call these two robots?
Do they have names?
Right now, the Steven, you know,
Dubnet robot and that's what we're going to after this.
The Freakonomics Radio Network.
The hidden side of everything.