Who controls the world?

0:01 - 0:03

"When the crisis came,
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the serious limitations
of existing economic and financial models
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immediately became apparent."
0:12 - 0:16

"There is also a strong belief,
which I share,
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that bad or oversimplistic
and overconfident economics
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helped create the crisis."
0:23 - 0:26

Now, you've probably all heard
of similar criticism
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coming from people
who are skeptical of capitalism.
0:30 - 0:31

But this is different.
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This is coming from the heart of finance.
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The first quote
is from Jean-Claude Trichet
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when he was governor
of the European Central Bank.
0:41 - 0:46

The second quote is from the head
of the UK Financial Services Authority.
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Are these people implying
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that we don't understand
the economic systems
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that drive our modern societies?
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It gets worse.
0:56 - 0:59

"We spend billions of dollars
0:59 - 1:03

trying to understand
the origins of the universe,
1:03 - 1:09

while we still don't understand
the conditions for a stable society,
1:09 - 1:12

a functioning economy, or peace."
1:14 - 1:17

What's happening here?
How can this be possible?
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Do we really understand more
about the fabric of reality
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than we do about the fabric
which emerges from our human interactions?
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Unfortunately, the answer is yes.
1:27 - 1:30

But there's an intriguing solution
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which is coming from what is known
as the science of complexity.
1:36 - 1:38

To explain what this means
and what this thing is,
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please let me quickly take
a couple of steps back.
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I ended up in physics by accident.
1:44 - 1:47

It was a random encounter
when I was young,
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and since then, I've often wondered
about the amazing success of physics
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in describing the reality
we wake up in every day.
1:56 - 1:59

In a nutshell, you can think
of physics as follows.
1:59 - 2:02

So you take a chunk of reality
you want to understand
2:03 - 2:06

and you translate it into mathematics.
2:06 - 2:08

You encode it into equations.
2:09 - 2:12

Then, predictions can be made and tested.
2:13 - 2:16

We're actually
really lucky that this works,
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because no one really knows
why the thoughts in our heads
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should actually relate to the fundamental
workings of the universe.
2:24 - 2:27

Despite the success,
physics has its limits.
2:28 - 2:31

As Dirk Helbing pointed out
in the last quote,
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we don't really understand the complexity
that relates to us, that surrounds us.
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This paradox is what got me interested
in complex systems.
2:41 - 2:43

So these are systems which are made up
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of many interconnected
or interacting parts:
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swarms of birds or fish,
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ant colonies, ecosystems,
brains, financial markets.
2:54 - 2:55

These are just a few examples.
2:58 - 3:03

Interestingly, complex systems
are very hard to map
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into mathematical equations,
3:05 - 3:09

so the usual physics approach
doesn't really work here.
3:09 - 3:11

So what do we know about complex systems?
3:11 - 3:18

Well, it turns out that what looks
like complex behavior from the outside
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is actually the result
of a few simple rules of interaction.
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This means you can forget
about the equations
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and just start to understand the system
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by looking at the interactions,
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so you can actually forget
about the equations
3:34 - 3:36

and you just start to look
at the interactions.
3:36 - 3:40

And it gets even better,
because most complex systems
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have this amazing property
called emergence.
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So this means that the system as a whole
suddenly starts to show a behavior
3:47 - 3:50

which cannot be understood or predicted
3:50 - 3:52

by looking at the components
of the system.
3:52 - 3:56

So the whole is literally
more than the sum of its parts.
3:57 - 3:58

And all of this also means
3:58 - 4:03

that you can forget about
the individual parts of the system,
4:03 - 4:04

how complex they are.
4:04 - 4:09

So if it's a cell or a termite or a bird,
4:09 - 4:11

you just focus on the rules
of interaction.
4:14 - 4:20

As a result, networks are ideal
representations of complex systems.
4:21 - 4:26

The nodes in the network
are the system's components,
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and the links are given
by the interactions.
4:31 - 4:33

So what equations are for physics,
4:33 - 4:36

complex networks are for the study
of complex systems.
4:38 - 4:41

This approach has been
very successfully applied
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to many complex systems
in physics, biology,
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computer science, the social sciences,
4:47 - 4:49

but what about economics?
4:50 - 4:51

Where are economic networks?
4:52 - 4:56

This is a surprising
and prominent gap in the literature.
4:57 - 5:03

The study we published last year, called
"The Network of Global Corporate Control,"
5:03 - 5:07

was the first extensive analysis
of economic networks.
5:09 - 5:11

The study went viral on the Internet
5:11 - 5:15

and it attracted a lot of attention
from the international media.
5:16 - 5:20

This is quite remarkable, because, again,
why did no one look at this before?
5:20 - 5:24

Similar data has been
around for quite some time.
5:24 - 5:27

What we looked at in detail
was ownership networks.
5:29 - 5:35

So here the nodes are companies,
people, governments, foundations, etc.
5:36 - 5:39

And the links represent
the shareholding relations,
5:39 - 5:44

so shareholder A has x percent
of the shares in company B.
5:44 - 5:48

And we also assign a value to the company
given by the operating revenue.
5:50 - 5:54

So ownership networks reveal the patterns
of shareholding relations.
5:56 - 6:00

In this little example,
you can see a few financial institutions
6:00 - 6:03

with some of the many links highlighted.
6:04 - 6:07

Now, you may think that no one
looked at this before
6:07 - 6:11

because ownership networks
are really, really boring to study.
6:12 - 6:16

Well, as ownership is related to control,
6:16 - 6:18

as I shall explain later,
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looking at ownership networks
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actually can give you
answers to questions like,
6:22 - 6:23

who are the key players?
6:23 - 6:26

How are they organized?
Are they isolated?
6:26 - 6:27

Are they interconnected?
6:27 - 6:30

And what is the overall
distribution of control?
6:31 - 6:34

In other words, who controls the world?
6:34 - 6:37

I think this is an interesting question.
6:37 - 6:40

And it has implications for systemic risk.
6:41 - 6:46

This is a measure of how vulnerable
a system is overall.
6:47 - 6:51

A high degree of interconnectivity
can be bad for stability,
6:52 - 6:56

because then the stress can spread
through the system like an epidemic.
6:58 - 7:01

Scientists have sometimes
criticized economists
7:01 - 7:06

who believe ideas and concepts
are more important than empirical data,
7:06 - 7:09

because a foundational
guideline in science is:
7:10 - 7:13

Let the data speak. OK. Let's do that.
7:13 - 7:19

So we started with a database containing
13 million ownership relations from 2007.
7:20 - 7:23

This is a lot of data,
and because we wanted to find out
7:23 - 7:25

"who rules the world,"
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we decided to focus
on transnational corporations,
7:28 - 7:30

or "TNCs," for short.
7:30 - 7:33

These are companies that operate
in more than one country,
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and we found 43,000.
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In the next step, we built
the network around these companies,
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so we took all the TNCs' shareholders,
7:43 - 7:44

and the shareholders' shareholders, etc.,
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all the way upstream,
and we did the same downstream,
7:47 - 7:52

and ended up with a network
containing 600,000 nodes
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and one million links.
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This is the TNC network which we analyzed.
7:57 - 7:59

And it turns out to be
structured as follows.
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So you have a periphery and a center
8:02 - 8:06

which contains about 75 percent
of all the players,
8:07 - 8:11

and in the center,
there's this tiny but dominant core
8:11 - 8:14

which is made up of highly
interconnected companies.
8:15 - 8:17

To give you a better picture,
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think about a metropolitan area.
8:19 - 8:21

So you have the suburbs and the periphery,
8:21 - 8:24

you have a center,
like a financial district,
8:24 - 8:26

then the core will be something like
8:26 - 8:28

the tallest high-rise building
in the center.
8:30 - 8:33

And we already see signs
of organization going on here.
8:34 - 8:40

36 percent of the TNCs
are in the core only,
8:40 - 8:46

but they make up 95 percent of the total
operating revenue of all TNCs.
8:47 - 8:49

OK, so now we analyzed the structure,
8:49 - 8:52

so how does this relate to the control?
8:54 - 8:57

Well, ownership gives
voting rights to shareholders.
8:57 - 9:00

This is the normal notion of control.
9:00 - 9:01

And there are different models
9:01 - 9:05

which allow you to compute
the control you get from ownership.
9:06 - 9:09

If you have more than 50 percent
of the shares in a company,
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you get control,
9:10 - 9:14

but usually, it depends
on the relative distribution of shares.
9:15 - 9:17

And the network really matters.
9:18 - 9:21

About 10 years ago, Mr. Tronchetti Provera
9:21 - 9:25

had ownership and control
in a small company,
9:25 - 9:28

which had ownership and control
in a bigger company.
9:28 - 9:29

You get the idea.
9:29 - 9:35

This ended up giving him control
in Telecom Italia with a leverage of 26.
9:36 - 9:40

So this means that,
with each euro he invested,
9:40 - 9:44

he was able to move 26 euros
of market value
9:44 - 9:46

through the chain of ownership relations.
9:47 - 9:53

Now what we actually computed in our study
was the control over the TNCs' value.
9:54 - 9:58

This allowed us to assign
a degree of influence to each shareholder.
10:00 - 10:04

This is very much in the sense
of Max Weber's idea of potential power,
10:05 - 10:08

which is the probability
of imposing one's own will
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despite the opposition of others.
10:12 - 10:17

If you want to compute the flow
in an ownership network,
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this is what you have to do.
10:19 - 10:21

It's actually not that hard to understand.
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Let me explain by giving you this analogy.
10:24 - 10:29

So think about water flowing in pipes,
where the pipes have different thickness.
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So similarly, the control is flowing
in the ownership networks
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and is accumulating at the nodes.
10:39 - 10:43

So what did we find after computing
all this network control?
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Well, it turns out
that the 737 top shareholders
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have the potential to collectively control
80 percent of the TNCs' value.
10:56 - 10:58

Now remember, we started out
with 600,000 nodes,
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so these 737 top players
make up a bit more than 0.1 percent.
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They're mostly financial institutions
in the US and the UK.
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And it gets even more extreme.
11:14 - 11:17

There are 146 top players in the core,
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and they together have the potential
to collectively control
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40 percent of the TNCs' value.
11:28 - 11:30

What should you take home
from all of this?
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Well, the high degree of control you saw
is very extreme by any standard.
11:39 - 11:44

The high degree of interconnectivity
of the top players in the core
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could pose a significant systemic risk
to the global economy.
11:50 - 11:52

And we could easily
reproduce the TNC network
11:52 - 11:54

with a few simple rules.
11:55 - 11:58

This means that its structure is probably
the result of self-organization.
11:59 - 12:05

It's an emergent property which depends
on the rules of interaction in the system,
12:05 - 12:09

so it's probably not the result
of a top-down approach
12:09 - 12:10

like a global conspiracy.
12:12 - 12:15

Our study "is an impression
of the moon's surface.
12:15 - 12:16

It's not a street map."
12:16 - 12:20

So you should take the exact numbers
in our study with a grain of salt,
12:20 - 12:26

yet it "gave us a tantalizing glimpse
of a brave new world of finance."
12:28 - 12:32

We hope to have opened the door
for more such research in this direction,
12:32 - 12:37

so the remaining unknown terrain
will be charted in the future.
12:37 - 12:39

And this is slowly starting.
12:39 - 12:44

We're seeing the emergence of long-term
and highly-funded programs
12:44 - 12:47

which aim at understanding
our networked world
12:47 - 12:49

from a complexity point of view.
12:50 - 12:52

But this journey has only just begun,
12:52 - 12:55

so we will have to wait
before we see the first results.
12:57 - 13:01

Now there is still
a big problem, in my opinion.
13:02 - 13:07

Ideas relating to finance,
economics, politics, society,
13:07 - 13:11

are very often tainted
by people's personal ideologies.
13:13 - 13:17

I really hope that this
complexity perspective
13:18 - 13:21

allows for some common ground to be found.
13:23 - 13:25

It would be really great
if it has the power
13:25 - 13:30

to help end the gridlock
created by conflicting ideas,
13:30 - 13:34

which appears to be paralyzing
our globalized world.
13:36 - 13:39

Reality is so complex,
we need to move away from dogma.
13:40 - 13:43

But this is just my own personal ideology.
13:43 - 13:44

Thank you.
13:44 - 13:50

(Applause)

Title:: Who controls the world?
Speaker:: James B. Glattfelder
Description:: James Glattfelder studies complexity: how an interconnected system -- say, a swarm of birds -- is more than the sum of its parts. And complexity theory, it turns out, can reveal a lot about how the economy works. Glattfelder shares a groundbreaking study of how control flows through the global economy, and how concentration of power in the hands of a shockingly small number leaves us all vulnerable. (Filmed at TEDxZurich.)

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Video Language:: English
Team:: closed TED
Project:: TEDTalks
Duration:: 14:10

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The English transcript was updated on 12/12/2016.

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