by Dirk Helbing
Moore's law, describing the exponential explosion of processing power and data production, is currently driving a fundamental transformation of our economy and society. While processing power doubles every 18 months, data volumes double every 12 months, which means that we literally produce as much data in one year as in the entire history of humankind (i.e. all previous years). However, this is not the end of the digital revolution. More and more "things" are now equipped with communicating sensors - fridges, coffee machines, tooth brushes, smartphones and smart devices. In ten years, this will connect 150 billion "things" with each other - and with 10 billion people. This creates the "Internet of Everything" and data volumes that double every 12 hours rather than every 12 months. How will this impact our society?
Moore's law, describing the exponential explosion of processing power and data production, is currently driving a fundamental transformation of our economy and society. While processing power doubles every 18 months, data volumes double every 12 months, which means that we literally produce as much data in one year as in the entire history of humankind (i.e. all previous years). However, this is not the end of the digital revolution. More and more "things" are now equipped with communicating sensors - fridges, coffee machines, tooth brushes, smartphones and smart devices. In ten years, this will connect 150 billion "things" with each other - and with 10 billion people. This creates the "Internet of Everything" and data volumes that double every 12 hours rather than every 12 months. How will this impact our society?
First of all, we will have an
abundance of data about our world. Data will be cheap, and Big Data analytics can
reach entirely new levels.[1] Can we soon know
everything? Can we build a Crystal Ball depicting and perhaps even predicting
the course of events?[2] Can we build
superintelligent systems to run the world in a better way, based on cybernetic control
principles?[3]
Would humans be steered by information?[4] It seems that such technologies
may now be built. For example, Baidu has started to work on a China brain
project, which will learn to predict peoples’ behaviors based on their Internet
searches.[5] China has further
initiated a project that rates the behavior of its citizens.[6] This will make loans and
jobs dependent on personal scores, which also depend on the links clicked in
the Web - and on political opinions. Is Orwell’s Big Brother coming? Or is this
the technology we need? Can the state act like a "wise king"? Or is a
state that determines, how its citizens should be happy, a despot, as Immanuel
Kant concluded?[7]
In fact, there is no scientific
method to determine the 'goal function of society' that ought to be maximized: should
it be GDP per capita, sustainability, average life span, peace, or happiness? This
is not clear and, furthermore, people are not like ants. The concept of
omni-benevolence can't work, because people pursue different goals, have different
conceptions of good life. On the one hand, their pluralism results from social
specialization, economic differentiation and cultural development. On the other
hand, such pluralism hedges the risks to society and increases its ability to
master unexpected disruptions. Consequently, as the complexity of a society
increases, pluralism needs to increase as well.
The concepts of top-down
optimization and control are limited by a number of factors: (1) Data volume
grows faster than the processing power. A growing share of data will never be
processed. This creates a "flashlight effect": we may see anything we
want, but we need to know what to pay attention to. However, some systems are
irreducibly complex, so every little detail can matter[8] (2) Due to limited
communication bandwidth, an even smaller fraction of data can be processed
centrally, such that a lot of local information, which is needed to produce
good solutions, is ignored by a centralized optimization attempt. (3) Systemic
complexity can prevent real-time optimization, such that decentralized control
approaches may perform better. This has been shown for self-organized traffic
lights, which are flexibly and efficiently controlled by local traffic flows,
while traffic control centers often fail to control traffic flows well.[9] (4) Further problems may
be caused by overfitting, spurious correlations, meaningless patterns, noise
and related classification errors - problems which are quite common in Big Data
analytics. Another concern is that powerful information systems are attractive
to organized criminals, terrorists and extremists, so they would sooner or
later be corrupted or hacked.
To unleash the value of Big Data, it
often takes theoretical models to look at the data in a useful way, as it is
done in experiments at CERN's elementary particle accelerator (which just keeps
the 0.1 percent of all measurement data - the data that are actually needed to
test a particular theoretical prediction). A similar finding is made when
trying to predict epidemic spread: a model-based analysis with little data is
more powerful than brute force Big Data analytics such as Flu Trends.[10] Therefore, Michael Macy
recently concluded: "Big Data is the beginning of theory, not the
end", and most experts agree. This is in sharp contrast to Chris Anderson's
earlier claim that "The data deluge makes the scientific method
obsolete."[11]
Some might say that Singapore, which
considers itself a "social laboratory",[12] is a good example for a
country that has greatly benefited from data-driven decision-making. Western
democracies envy the country for its quick development and economic growth rate,
but we must also consider that Singapore has been a tax haven, and it largely profits
from imported innovations originating in predominantly Western democracies. Moreover,
the political party in power has steadily lost votes over the past years in spite of all its successes. This is irritating, and we should therefore listen
to Geoffrey West, the former president of the Santa Fe Institute, who studied
cities extensively. He points out that the country of Singapore is run like a
company. However, 40-50 percent of the Top 500 companies disappear in a time
period of just 10 years, while cities persist for hundreds of years due to their
usually more inclusive governance approach. The reason for this is that even powerful
decision-makers make mistakes, but when this happens, the mistakes tend to be
big.
Where do we stand today? Big Data
analytics is far from being able to understand the complexity of human
behavior, but it is advanced enough to manipulate our decisions by
individualized information such as personalized ads or nudging. Such approaches
use a few thousand metadata that have been collected about every one of us.
However, manipulating our decision doesn't seem to be a good idea, because it
undermines the "wisdom of crowds" - an effect on which the
functionality of democracies and financial markets is based.[13] Moreover, manipulating
our decisions is likely to narrow down the variance of our choices, i.e.
socio-economic diversity. On the one hand, this can foster political and
societal polarization (or fragmentation).[14] On the other hand,
diversity is key for innovation, economic development, societal resilience, and
collective intelligence.[15] Losing socio-economic
diversity is equally bad as losing bio-diversity. It can cause systemic
malfunction or collapse.[16],[17]
Moreover, given that about 50
percent of today's jobs in the industrial and service sectors will be lost in
the next 10-20 years, our societies are under pressure to come up with many new
jobs in the emerging digital sector (or at least with sufficient income and
meaningful activities to give our lives a meaning).[18]
All of this calls for a
fundamentally different strategy and an entirely new approach, particularly as
we are faced with an increasing number of existential problems: an economic and
public spending crisis, financial and political instability, increasing dangers
of large-scale international conflicts or cyber wars, climate change with a
mass extinction of species, and growing antibiotic resistance, to mention just
a few of our global threats. We need to have more innovation capacity, and this
means we need to unleash the creativity of people. Diversity can help trigger
innovation, while information platforms and digital assistants can support
coordination in a diverse and culturally rich world. A participatory approach,
which allows everyone to contribute with his/her skills, ideas, and resources
(as in citizen science, for example) can mobilize the full socio-economic potential
and capacity of society. If many people are unemployed, have to do jobs that
don't fit their skills, or if they are excluded from socio-economic engagement,
the competitiveness and well-being of a country is significantly reduced.
To unleash the good side of the
digital revolution and new opportunities for everyone, we must provide useful
and trustworthy information to everyone. In the same way as we have built
public roads to promote the industrial age and public schools to fuel the
service society, we need powerful public information systems and digital
literacy to promote the digital era to come. Therefore, I propose to build a
Planetary Nervous System that creates possibilities for pluralistic data use
and opportunities for everyone to contribute to society and pursue flourishing
lives.[19] The Planetary Nervous
System would use the sensor networks behind the Internet of Things and potentially
also the sensors in our smartphones (currently about 15) to measure the world
around us and build a data commons together. The critical question is how this
can be done in a way that respects our privacy and minimizes misuse as compared
to the benefits the system would create. It is time to learn how to do this.
The Nervousnet project[20] has started to work on
this. It aims to create an open and participatory information platform such as
Wikipedia or OpenStreetMap, but for real-time data. In favor of security, scalability
and fault tolerance, Nervousnet is based on distributed data and control. It
will be run as a Citizen Web, i.e. built and managed by the users. This gives
us maximum control over the data traces we produce. Each sensor can separately be
turned on or off. External sensors (e.g. for smart home applications) can be
added. Users can also decide what data to share and how frequently to record
them. The shared data are anonymized, and they are deleted after a short period
of time.
Nervousnet invites everyone to
contribute to the creation of this powerful, but distributed and trustworthy
information platform for the age of the "Internet of Everything".[21] It is an open platform
that will allow developers to add own measurement procedures and Apps on top.
These can be scientific applications, games, or business applications. This
will allow everyone to provide data-driven services or products and establish
own companies. In other words, Nervousnet could once be a global catalyst to
create an information, innovation and production ecosystem that will produce
new jobs and societal benefits. There is still a lot to be done though. We are
currently working on end-to-end data encryption. We need to add multi-dimensional
reputation, incentive and payment systems. We also plan to add a personal data
store, as it was proposed by Sandy Pentland and others.[22]
In perspective, Nervousnet will
allow everyone to make better-informed decisions. It will offer five main
functionalities. First, it will configure the sensor network to answer specific
questions based on real-time measurements. For example, it will allow us to
quantify the externalities of the interactions around us, which will make it
possible to improve economic systems. Second, these measurements will be able
to reveal the hidden forces underlying socio-economic change and other
important intangible factors such as reputation and trust. This will fuel a
better understanding of our complex, interdependent world, as it is now studied
by Global Systems Science.[23] Third, the Planetary
Nervous System will create awareness about the problems and opportunities
around us. Fourth, it will enable self-organizing systems through real-time
feedbacks such as self-organized traffic light controls, industry-4.0-kind-of production
systems, or new solutions to socio-economic problems based on locally applied
interaction mechanisms. So, 300 years after the invention of the invisible
hand, we can finally make it work for us, by combining real-time measurements
with suitable feedbacks, as advised by complexity science and enabled by
multi-dimensional incentive and exchange systems. Finally, Nervousnet will
allow one to build digital assistants supporting collective intelligence. This
is needed to master the combinatorial complexity of our increasingly interdependent
world. So, an entirely new age with amazing new possibilities is ahead of us,
fueled by information.
It
is now within reach to build an information system that finally brings
everything together: science, politics, business, and society. We can create
self-organizing and self-improving systems with massively increased efficiency.
The approach I propose is based on participation and compatible with democratic
principles. It respects the autonomy of decision-making and supports free
entrepreneurship, while considering externalities. Therefore, I also expect benefits
for our environment and society. In particular, the information age may allow
us to reduce the level of conflict, because information is an unlimited
resource that offers endless creative possibilities. The digital economy is
everything but a zero-sum game. Information can be reproduced as often as we
like. To get more of it for us, we don't have to take it away from others. Furthermore,
considering that money is just a coordination mechanism to organize the
distribution of scarce resources, we can now build a better, multi-dimensional
money and incentive system that rewards digital co-creation.
So, what are we waiting for? Let's build the digital society together! [24]
Dirk
So, what are we waiting for? Let's build the digital society together! [24]
Dirk
[1] D.
Helbing, Thinking Ahead (Springer, Berlin, 2015)
[2] D.
Helbing, Crystal Ball and Magic Wand - the Dangerous Promise of Big Data
http://papers.ssrn.com/sol3/papers.cfm?abstract_id=2502561
[3] N.
Wiener, The Human Use of Human Beings: Cybernetics and Society (Da Capo Press,
Boston, 1954); E. Medina, Cybernetic Revolutionaries
(MIT Press, 2011)
[4] A.D.I.
Kramer, J.E. Guillory, and J.T. Hancock, Experimental evidence of massive-scale
emotional contagion through social networks. Proceedings of the National
Academy of Sciences of the United States of America 111, 8788-8790. This
experiment was highly controversial, see
http://www.wsj.com/articles/furor-erupts-overfacebook-experiment-on-users-1404085840
[5] Baidu welcomes China's military to join China
Brain project on AI systems, see
http://www.wantchinatimes.com/news-subclass-cnt.aspx?id=20150307000015&cid=1101
[6] China rates its own citizens - including online
behaviour, see http://www.volkskrant.nl/buitenland/china-rates-its-own-citizens-including-online-behaviour~a3979668/
; China:
Kontrolle über alles, see http://www.zeit.de/politik/ausland/2015-07/china-plangesellschaft-xi-jinping
[7] see
http://oll.libertyfund.org/titles/kant-kants-principles-of-politics-including-his-essay-on-perpetual-peace/simple
and http://plato.stanford.edu/entries/kant-social-political/
[8] I.
Kondor et al. Strong random correlations in networks of heterogeneous agents,
J. Econ. Interact. Coord. 9, 203-232 (2014).
[9] S. Lämmer and D. Helbing (2008) Self-control of
traffic lights and vehicle flows in urban road networks. JSTAT P04019; D. Helbing (2013) Economics 2.0: The
natural step towards a self-regulating, participatory market society. Evolutionary and Institutional
Economics Review 10, 3-41;
see also http://www.stefanlaemmer.de/
[10] D.
Lazer, R. Kennedy, G. King and A. Vespignani, The Parable of Google Flu: Traps
in Big Data Analysis. Science 343, 1203-1205 (2014).
[11] see http://archive.wired.com/science/discoveries/magazine/16-07/pb_theory
[12] Foreign
Policy, The Social Laboratory (July 29, 2014), see
http://foreignpolicy.com/2014/07/29/the-social-laboratory/
[13] J.
Lorenz, H. Rauhut, F. Schweitzer, and D. Helbing (2011) How social influence
can undermine the wisdom of crowd effect. Proceedings of the National Academy
of Sciences USA (PNAS) 108(28), 9020-9025
[14] C.
Andris et al., The Rise of Partisanship and
Super-Cooperators in the U.S. House of Representatives, PLoS ONE 10(4):
e0123507, see
http://journals.plos.org/plosone/article?id=10.1371/journal.pone.0123507
[15] S.E.
Page, The Difference: How the Power of Diversity Creates Better Groups, Firms,
Schools, and Societies (Princeton University, 2008)
[16] R.M.
May, S.A. Levin, and G. Sugihara, Complex systems: Ecology for bankers, Nature
451, 893-895 (2008)
[17] J.
Diamond, Collapse: How Societies Choose to Fail or Succeed (Penguin 2011); J.A.
Tainter, The Collapse of Complex Societies (Cambridge University, 1990)
[18] C.B.
Frey and M.A. Osborne (2013) The future of employment: How susceptible are jobs
to computerisation? See
http://www.oxfordmartin.ox.ac.uk/downloads/academic/The_Future_of_Employment.pdf
[19] F.
Gianotti et al., A planetary nervous system for social mining and collective
awareness, Eur. Phys. J. Special Topics 214, 49-75 (2012)
[20] see http://www.nervous.ethz.ch/ and
http://www.futurict.eu, also https://www.youtube.com/watch?v=BKcWPdSUJVA
[21] The
Nervousnet app can be downloaded via Apple's app store and Google's play store.
You can contact us at nervousnet@ethz.ch
[22] Y.-A.
de Montjoye, E. Shmueli, S.S. Wang, and A.S. Pentland, openPDS: Protecting the
privacy of metadata through SafeAnswers, PLoS ONE 9(7): e98790, http://journals.plos.org/plosone/article?id=10.1371/journal.pone.0098790
[23] D.
Helbing (2013): Globally networked
risks and how to respond. Nature 497, 51–59; you may also want to see this movie: https://www.youtube.com/watch?v=UHp0lV6ppQQ
[24] Preprint version D.Helbing, The Automation of Society Is Next (2015); You may also want to watch this related
movie list: https://www.youtube.com/watch?v=KgVBob5HIm8&list=PLDmlT_Ptfv0fcMD29kNKOIhV0yK9AhyQl
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