Complexity Digest 2011.25 2011/12/26

Archive: http://comdig.unam.mx

"I think the next century will be the century of complexity." Stephen
Hawking, 2000
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Editor-in-Chief: Carlos Gershenson
Founding Editor: Gottfried Mayer

Complex wishes for 2012!
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01. The network takeover, Nature Physics
02. Between order and chaos, Nature Physics
02.01. Information processing in echo state networks at the edge of chaos,
Theory in Biosciences
03. Uninformed Individuals Promote Democratic Consensus in Animal Groups,
Science
03.01. Decision versus compromise for animal groups in motion, PNAS
04. To Group or Not to Group?, Science
05. Antonio Damasio: The quest to understand consciousness, TED.com
06. Communities, modules and large-scale structure in networks, Nature Physics
06.01. Evolution of a modular software network, PNAS
07. Modelling dynamical processes in complex socio-technical systems, Nature
Physics
08. Collaborative learning in networks, PNAS
08.01. Social selection and peer influence in an online social network, PNAS
09. Detecting Novel Associations in Large Data Sets, Science
10. Evolution and development of Brain Networks: From Caenorhabditis elegans to
Homo sapiens, arXiv
11. The use of information theory in evolutionary biology, arXiv
12. Networks formed from interdependent networks, Nature Physics
13. Converging towards the optimal path to extinction, arXiv
14. The Diversity Paradox: How Nature Resolves an Evolutionary Dilemma, arXiv
15. Facing Complexity: Prediction vs. Adaptation, arXiv
16. A comparative study of Macroscopic Fundamental Diagrams of urban road
networks governed by different traffic signal systems, arXiv
17. The effects of spatially heterogeneous prey distributions on detection
patterns in foraging seabirds, arXiv
18. Slime mould imitation of Belgian transport networks: redundancy,
bio-essential motorways, and dissolution, arXiv
19. Book Announcements 
19.01. Reinventing Discovery: The New Era of Networked Science, Princeton
University Press
19.02. Bacteria: The Benign, the Bad, and the Beautiful, Wiley-Blackwell
19.03. Currency Wars: The Making of the Next Global Crisis, Portfolio Hardcover
19.04. Aerotropolis: The Way We'll Live Next, Farrar, Straus and Giroux
19.05. Neurogastronomy: How the Brain Creates Flavor and Why It Matters,
Columbia University Press
19.06. What Makes Your Brain Happy and Why You Should Do the Opposite,
Prometheus Books
19.07. Endgame: The End of the Debt Supercycle and How It Changes Everything,
Wiley
20. Links & Snippets 
20.01. Other Publications 
20.02. Event Announcements 
20.03. Video Announcements 
20.04. Other Announcements 

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01. The network takeover , Nature Physics

Summary: Reductionism, as a paradigm, is expired, and complexity, as a field, is
tired. Data-based mathematical models of complex systems are offering a fresh
perspective, rapidly developing into a new discipline: network science.

* [1] The network takeover, Albert-László Barabási, 2011/12/22, DOI:
10.1038/nphys2188, Nature Physics 8, 14–16

[1] http://dx.doi.org/10.1038/nphys2188

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02. Between order and chaos , Nature Physics

Abstract: What is a pattern? How do we come to recognize patterns never seen
before? Quantifying the notion of pattern and formalizing the process of pattern
discovery go right to the heart of physical science. Over the past few decades
physics’ view of nature’s lack of structure—its
unpredictability—underwent a major renovation with the discovery of
deterministic chaos, overthrowing two centuries of Laplace’s strict
determinism in classical physics. Behind the veil of apparent randomness,
though, many processes are highly ordered, following simple rules. Tools adapted
from the theories of information and computation have brought physical science
to the brink of automatically discovering hidden patterns and quantifying their
structural complexity.

* [2] Between order and chaos, James Crutchfield, 2011/12/22, DOI:
10.1038/nphys2190, Nature Physics 8, 17–24

[2] http://dx.doi.org/10.1038/nphys2190

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02.01. Information processing in echo state networks at the edge of chaos ,
Theory in Biosciences

Excerpt: We investigate information processing in randomly connected recurrent
neural networks. It has been shown previously that the computational
capabilities of these networks are maximized when the recurrent layer is close
to the border between a stable and an unstable dynamics regime, the so called
edge of chaos. The reasons, however, for this maximized performance are not
completely understood. We adopt an information-theoretical framework and are for
the first time able to quantify the computational capabilities between elements
of these networks directly as they undergo the phase transition to chaos.
Specifically, we present evidence that both information transfer and storage in
the recurrent layer are maximized close to this phase transition, providing an
explanation for why guiding the recurrent layer toward the edge of chaos is
computationally useful (…)

* [3] Information processing in echo state networks at the edge of chaos,
Joschka Boedecker, Oliver Obst, Joseph T. Lizier, N. Michael Mayer and Minoru
Asada, 2011/12/07, DOI: 10.1007/s12064-011-0146-8, Theory in Biosciences

[3] http://dx.doi.org/10.1007/s12064-011-0146-8

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03. Uninformed Individuals Promote Democratic Consensus in Animal Groups ,
Science

Abstract: Conflicting interests among group members are common when making
collective decisions, yet failure to achieve consensus can be costly. Under
these circumstances individuals may be susceptible to manipulation by a strongly
opinionated, or extremist, minority. It has previously been argued, for humans
and animals, that social groups containing individuals who are uninformed, or
exhibit weak preferences, are particularly vulnerable to such manipulative
agents. Here, we use theory and experiment to demonstrate that, for a wide range
of conditions, a strongly opinionated minority can dictate group choice, but the
presence of uninformed individuals spontaneously inhibits this process,
returning control to the numerical majority. Our results emphasize the role of
uninformed individuals in achieving democratic consensus amid internal group
conflict and informational constraints.

* [4] Uninformed Individuals Promote Democratic Consensus in Animal Groups, Iain
D. Couzin, Christos C. Ioannou, Güven Demirel, Thilo Gross, Colin J. Torney,
Andrew Hartnett, Larissa Conradt, Simon A. Levin, and Naomi E. Leonard,
2011/12/16, DOI: 10.1126/science.1210280, Science Vol. 334 no. 6062 pp.
1578-1580

[4] http://dx.doi.org/10.1126/science.1210280

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03.01. Decision versus compromise for animal groups in motion , PNAS

Excerpt: we derive a testable result that adding uninformed individuals improves
stability of collective decision making.

* [5] Decision versus compromise for animal groups in motion, Naomi E. Leonard, 
Tian Shen,  Benjamin Nabet, , Luca Scardovi,  Iain D. Couzin,  Simon A. Levin,
2011/12/19, DOI: 10.1073/pnas.1118318108, PNAS

[5] http://dx.doi.org/10.1073/pnas.1118318108

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04. To Group or Not to Group? , Science

Summary: The phenomenon of cooperation between potentially competing individuals
raises an interesting question related to evolution: Why should a competitor
favor someone else's fitness at the expense of its own? One way to approach this
question is through insights on how cooperation and population structure
coevolve.

* [6] To Group or Not to Group?, Eörs Szathmáry, 2011/12/23, DOI:
10.1126/science.1209548, Science Vol. 334 no. 6063 pp. 1648-1649

[6] http://dx.doi.org/10.1126/science.1209548

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05. Antonio Damasio: The quest to understand consciousness , TED.com

About this talk: Every morning we wake up and regain consciousness -- that is a
marvelous fact -- but what exactly is it that we regain? Neuroscientist Antonio
Damasio uses this simple question to give us a glimpse into how our brains
create our sense of self.

* [7] Antonio Damasio: The quest to understand consciousness, 2011/12, TED.com
* VIDEO - [8] Watch this talk

[7]
http://www.ted.com/talks/antonio_damasio_the_quest_to_understand_consciousness.html
[8]
http://www.ted.com/talks/antonio_damasio_the_quest_to_understand_consciousness.html

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06. Communities, modules and large-scale structure in networks , Nature Physics

Abstract: Networks, also called graphs by mathematicians, provide a useful
abstraction of the structure of many complex systems, ranging from social
systems and computer networks to biological networks and the state spaces of
physical systems. In the past decade there have been significant advances in
experiments to determine the topological structure of networked systems, but
there remain substantial challenges in extracting scientific understanding from
the large quantities of data produced by the experiments. A variety of basic
measures and metrics are available that can tell us about small-scale structure
in networks, such as correlations, connections and recurrent patterns, but it is
considerably more difficult to quantify structure on medium and large scales, to
understand the ‘big picture’. Important progress has been made, however,
within the past few years, a selection of which is reviewed here.

* [9] Communities, modules and large-scale structure in networks, M. E. J.
Newman, 2011/12/22, DOI: 10.1038/nphys2162, Nature Physics 8, 25–31

[9] http://dx.doi.org/10.1038/nphys2162

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06.01. Evolution of a modular software network , PNAS

Excerpt: “Evolution behaves like a tinkerer” (François Jacob, Science,
1977). Software systems provide a singular opportunity to understand biological
processes using concepts from network theory. The Debian GNU/Linux operating
system allows us to explore the evolution of a complex network in a unique way.
The modular design detected during its growth is based on the reuse of existing
code in order to minimize costs during programming. The increase of modularity
experienced by the system over time has not counterbalanced the increase in
incompatibilities between software packages within modules(…)

* [10] Evolution of a modular software network, Miguel A. Fortuna,  Juan A.
Bonachela,  Simon A. Levin, 2011/12/13, DOI: 10.1073/pnas.1115960108, PNAS vol.
108 no. 50 19985-19989

[10] http://dx.doi.org/10.1073/pnas.1115960108

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07. Modelling dynamical processes in complex socio-technical systems , Nature
Physics

Abstract: In recent years the increasing availability of computer power and
informatics tools has enabled the gathering of reliable data quantifying the
complexity of socio-technical systems. Data-driven computational models have
emerged as appropriate tools to tackle the study of dynamical phenomena as
diverse as epidemic outbreaks, information spreading and Internet packet
routing. These models aim at providing a rationale for understanding the
emerging tipping points and nonlinear properties that often underpin the most
interesting characteristics of socio-technical systems. Here, using diffusion
and contagion phenomena as prototypical examples, we review some of the recent
progress in modelling dynamical processes that integrates the complex features
and heterogeneities of real-world systems.

* [11] Modelling dynamical processes in complex socio-technical systems,
Alessandro Vespignani, 2011/12/22, DOI: 10.1038/nphys2160, Nature Physics 8,
32–39

[11] http://dx.doi.org/10.1038/nphys2160

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08. Collaborative learning in networks , PNAS

Excerpt: Complex problems in science, business, and engineering typically
require some tradeoff between exploitation of known solutions and exploration
for novel ones, where, in many cases, information about known solutions can also
disseminate among individual problem solvers through formal or informal
networks. Prior research on complex problem solving by collectives has found the
counterintuitive result that inefficient networks, meaning networks that
disseminate information relatively slowly, can perform better than efficient
networks for problems that require extended exploration. (…) we found that
efficient networks outperformed inefficient networks, even in a problem space
with qualitative properties thought to favor inefficient networks.

* [12] Collaborative learning in networks, Winter Mason,  Duncan J. Watts,
2011/12/19, DOI: 10.1073/pnas.1110069108, PNAS

[12] http://dx.doi.org/10.1073/pnas.1110069108

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08.01. Social selection and peer influence in an online social network , PNAS

Excerpt: Disentangling the effects of selection and influence is one of social
science's greatest unsolved puzzles: Do people befriend others who are similar
to them, or do they become more similar to their friends over time? Recent
advances in stochastic actor-based modeling, combined with self-reported data on
a popular online social network site, allow us to address this question with a
greater degree of precision than has heretofore been possible. Using data on the
Facebook activity of a cohort of college students over 4 years, we find that
students who share certain tastes in music and in movies, but not in books, are
significantly likely to befriend one another (…)

* [13] Social selection and peer influence in an online social network, Kevin
Lewis,  Marco Gonzalez,  Jason Kaufman, 2011/12/19, DOI:
10.1073/pnas.1109739109, PNAS

[13] http://dx.doi.org/10.1073/pnas.1109739109

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09. Detecting Novel Associations in Large Data Sets , Science

Abstract: Identifying interesting relationships between pairs of variables in
large data sets is increasingly important. Here, we present a measure of
dependence for two-variable relationships: the maximal information coefficient
(MIC). MIC captures a wide range of associations both functional and not, and
for functional relationships provides a score that roughly equals the
coefficient of determination (R^2) of the data relative to the regression
function. MIC belongs to a larger class of maximal information-based
nonparametric exploration (MINE) statistics for identifying and classifying
relationships. We apply MIC and MINE to data sets in global health, gene
expression, major-league baseball, and the human gut microbiota and identify
known and novel relationships.

* [14] Detecting Novel Associations in Large Data Sets, David N. Reshef et al.,
2011/12/16, DOI: 10.1126/science.1205438, Science Vol. 334 no. 6062 pp.
1518-1524

[14] http://dx.doi.org/10.1126/science.1205438

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10. Evolution and development of Brain Networks: From Caenorhabditis elegans to
Homo sapiens , arXiv

Abstract: Neural networks show a progressive increase in complexity during the
time course of evolution. From diffuse nerve nets in Cnidaria to modular,
hierarchical systems in macaque and humans, there is a gradual shift from simple
processes involving a limited amount of tasks and modalities to complex
functional and behavioral processing integrating different kinds of information
from highly specialized tissue. However, studies in a range of species suggest
that fundamental similarities, in spatial and topological features as well as in
developmental mechanisms for network formation, are retained across evolution.
'Small-world' topology and highly connected regions (hubs) are prevalent across
the evolutionary scale, ensuring efficient processing and resilience to internal
(e.g. lesions) and external (e.g. environment) changes. Furthermore, in most
species, even the establishment of hubs, long-range connections linking distant
components, and a modular organization, relies on similar mechanisms. In
conclusion, evolutionary divergence leads to greater complexity while following
essential developmental constraints.

* [15] Evolution and development of Brain Networks: From Caenorhabditis elegans
to Homo sapiens, Marcus Kaiser and Sreedevi Varier, 2011/12/22, arXiv:1112.5449

[15] http://arXiv.org/abs/1112.5449

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11. The use of information theory in evolutionary biology , arXiv

Abstract: Information is a key concept in evolutionary biology. Information is
stored in biological organism's genomes, and used to generate the organism as
well as to maintain and control it. Information is also "that which evolves".
When a population adapts to a local environment, information about this
environment is fixed in a representative genome. However, when an environment
changes, information can be lost. At the same time, information is processed by
animal brains to survive in complex environments, and the capacity for
information processing also evolves. Here I review applications of information
theory to the evolution of proteins as well as to the evolution of information
processing in simulated agents that adapt to perform a complex task.

* [16] The use of information theory in evolutionary biology, Christoph Adami,
2011/12/16, arXiv:1112.3867

[16] http://arXiv.org/abs/1112.3867

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12. Networks formed from interdependent networks , Nature Physics

Abstract: Complex networks appear in almost every aspect of science and
technology. Although most results in the field have been obtained by analysing
isolated networks, many real-world networks do in fact interact with and depend
on other networks. The set of extensive results for the limiting case of
non-interacting networks holds only to the extent that ignoring the presence of
other networks can be justified. Recently, an analytical framework for studying
the percolation properties of interacting networks has been developed. Here we
review this framework and the results obtained so far for connectivity
properties of ‘networks of networks’ formed by interdependent random
networks.

* [17] Networks formed from interdependent networks, Jianxi Gao, Sergey V.
Buldyrev, H. Eugene Stanley and Shlomo Havlin, 2011/12/22, DOI:
10.1038/nphys2180, Nature Physics 8, 40–48

[17] http://dx.doi.org/10.1038/nphys2180

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13. Converging towards the optimal path to extinction , arXiv

Abstract: Extinction appears ubiquitously in many fields, including chemical
reactions, population biology, evolution, and epidemiology. Even though
extinction as a random process is a rare event, its occurrence is observed in
large finite populations. Extinction occurs when fluctuations due to random
transitions act as an effective force which drives one or more components or
species to vanish. Although there are many random paths to an extinct state,
there is an optimal path that maximizes the probability to extinction. In this
article, we show that the optimal path is associated with the dynamical systems
idea of having maximum sensitive dependence to initial conditions. Using the
equivalence between the sensitive dependence and the path to extinction, we show
that the dynamical systems picture of extinction evolves naturally toward the
optimal path in several stochastic models of epidemics.

* [18] Converging towards the optimal path to extinction, Ira B. Schwartz, Eric
Forgoston, Simone Bianco, Leah B. Shaw, 2011/12/21, arXiv:1112.4908

[18] http://arXiv.org/abs/1112.4908

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14. The Diversity Paradox: How Nature Resolves an Evolutionary Dilemma , arXiv

Excerpt: Adaptation to changing environments is a hallmark of biological
systems. Diversity in traits is necessary for adaptation and can influence the
survival of a population faced with novelty. In habitats that remain stable over
many generations, stabilizing selection reduces trait differences within
populations, thereby appearing to remove the diversity needed for heritable
adaptive responses in new environments. Paradoxically, field studies have
documented numerous populations under long periods of stabilizing selection and
evolutionary stasis that have rapidly evolved under changed environmental
conditions. In this article, we review how cryptic genetic variation (CGV)
resolves this diversity paradox by allowing populations in a stable environment
to gradually accumulate hidden genetic diversity that is revealed as trait
differences when environments change. (…)

* [19] The Diversity Paradox: How Nature Resolves an Evolutionary Dilemma, James
M. Whitacre and Sergei P. Atamas, 2011/12/14, arXiv:1112.3115

[19] http://arXiv.org/abs/1112.3115

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15. Facing Complexity: Prediction vs. Adaptation , arXiv

Abstract: One of the presuppositions of science since the times of Galileo,
Newton, Laplace, and Descartes has been the predictability of the world. This
idea has strongly influenced scientific and technological models. However, in
recent decades, chaos and complexity have shown that not every phenomenon is
predictable, even if it is deterministic. If a problem space is predictable, in
theory we can find a solution via optimization. Nevertheless, if a problem space
is not predictable, or it changes too fast, very probably optimization will
offer obsolete solutions. This occurs often when the immediate solution affects
the problem itself. An alternative is found in adaptation. An adaptive system
will be able to find by itself new solutions for unforeseen situations.

* [20] Facing Complexity: Prediction vs. Adaptation, Carlos Gershenson,
2011/12/16, arXiv:1112.3843

[20] http://arXiv.org/abs/1112.3843

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16. A comparative study of Macroscopic Fundamental Diagrams of urban road
networks governed by different traffic signal systems , arXiv

Excerpt: Using a stochastic cellular automaton model for urban traffic flow, we
study and compare Macroscopic Fundamental Diagrams (MFDs) of arterial road
networks governed by different types of adaptive traffic signal systems. In
particular, we simulate realistic signal systems that include signal linking and
adaptive cycle times, and compare their performance against a network using
highly adaptive self-organizing traffic signals (…) Our results show that the
MFD of the self-organizing traffic signals lies above the MFD for the realistic
systems, suggesting that higher adaptivity provides overall better performance
and higher capacity.

* [21] A comparative study of Macroscopic Fundamental Diagrams of urban road
networks governed by different traffic signal systems, Lele Zhang, Timothy M
Garoni, Jan de Gier, 2011/12/16, arXiv:1112.3761

[21] http://arXiv.org/abs/1112.3761

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17. The effects of spatially heterogeneous prey distributions on detection
patterns in foraging seabirds , arXiv

Excerpt: Many attempts to relate animal foraging patterns to landscape
heterogeneity are focused on the analysis of foragers movements. Resource
detection or feeding patterns in space and time are not commonly studied, yet
they are tightly coupled to landscape properties and add relevant information on
foraging behavior. By exploring simple foraging models in unpredictable
environments we show that the distribution of intervals between detected prey
(detection statistics) is mostly determined by the spatial structure of the prey
field and essentially distinct from predator displacement statistics (…)

* [22] The effects of spatially heterogeneous prey distributions on detection
patterns in foraging seabirds, Octavio Miramontes and Denis Boyer and Frederic
Bartumeus, 2011/12/16, arXiv:1112.3900

[22] http://arXiv.org/abs/1112.3900

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18. Slime mould imitation of Belgian transport networks: redundancy,
bio-essential motorways, and dissolution , arXiv

Abstract: Belgium is amongst few artificial countries, established on purpose,
when Dutch and French speaking parts were joined in a single unit. This makes
Belgium a particularly interesting testbed for studying bio-inspired techniques
for simulation and analysis of vehicular transport networks. We imitate growth
and formation of a transport network between major urban areas in Belgium using
the acellular slime mould Physarum polycephalum. We represent the urban areas
with the sources of nutrients. The slime mould spans the sources of nutrients
with a network of protoplasmic tubes. The protoplasmic tubes represent the
motorways. In an experimental laboratory analysis we compare the motorway
network approximated by P. polycephalum and the man-made motorway network of
Belgium. We evaluate the efficiency of the slime mould network and the motorway
network using proximity graphs.

* [23] Slime mould imitation of Belgian transport networks: redundancy,
bio-essential motorways, and dissolution, Andrew Adamatzky, Bernard De Baets,
Wesley Van Dessel, 2011/12/19, arXiv:1112.4507

[23] http://arXiv.org/abs/1112.4507

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19. Book Announcements 





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19.01. Reinventing Discovery: The New Era of Networked Science , Princeton
University Press

Summary:        In this book Michael Nielsen argues that we are living at the
dawn of the most dramatic change in science in more than 300 years. This change
is being driven by powerful new cognitive tools, enabled by the internet, which
are greatly accelerating scientific discovery. There are many books about how
the internet is changing business or the workplace or government, but this is
the first book about something much more fundamental: how the internet is
transforming the nature of our collective intelligence and how we understand the
world. (...)

* [24] Reinventing Discovery: The New Era of Networked Science, Michael Nielsen,
2011/10/01, Princeton University Press
* Contributed by [25] Anton Joha

[24]
http://www.amazon.com/dp/0691148902/ref=as_li_ss_til?tag=compldiges-20&camp=0&creative=0&linkCode=as4&creativeASIN=0691148902&adid=0YG2FM3JE7XZDPGP4PCH&
[25] mailto:antonjoha@gmail.com

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19.02. Bacteria: The Benign, the Bad, and the Beautiful , Wiley-Blackwell

Summary:        When most people hear the word "bacteria" they think of food
poisoning; infections; and acute, debilitating, or fatal diseases. Yet, while E.
coli, strep, and other bacterial pathogens certainly cause their share of misery
in the world, they are only a tiny portion of a vast universe of
microorganisms—the most basic of life forms. Without them, nothing else could
live or grow on Planet Earth. This book introduces you to this diverse,
microscopic world and explains the fundamental microbiological concepts you need
to explore the life and behavior of bacteria. (...)

* [26] Bacteria: The Benign, the Bad, and the Beautiful, Trudy M. Wassenaar,
2011/12/13, Wiley-Blackwell
* Contributed by [27] Anton Joha

[26]
http://www.amazon.com/dp/1118107667/ref=as_li_ss_til?tag=compldiges-20&camp=0&creative=0&linkCode=as4&creativeASIN=1118107667&adid=05M3WEJ6R0J0YA92RN7B&
[27] mailto:antonjoha@gmail.com

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19.03. Currency Wars: The Making of the Next Global Crisis , Portfolio Hardcover

Summary:        Currency wars are one of the most destructive and feared
outcomes in international economics. At best, they offer the sorry spectacle of
countries' stealing growth from their trading partners. At worst, they
degenerate into sequential bouts of inflation, recession, retaliation, and
sometimes actual violence. Left unchecked, the next currency war could lead to a
crisis worse than the panic of 2008. Currency wars have happened before-twice in
the last century alone-and they always end badly. Time and again, paper
currencies have collapsed, assets have been frozen, gold has been confiscated,
and capital controls have been imposed. (...)

* [28] Currency Wars: The Making of the Next Global Crisis, James Rickards,
2011/11/10, Portfolio Hardcover
* Contributed by [29] Anton Joha

[28]
http://www.amazon.com/dp/1591844495/ref=as_li_ss_til?tag=compldiges-20&camp=0&creative=0&linkCode=as4&creativeASIN=1591844495&adid=1KYK5CC9RKKKZ4YQ4T4E&
[29] mailto:antonjoha@gmail.com

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19.04. Aerotropolis: The Way We'll Live Next , Farrar, Straus and Giroux

Summary:        A new phenomenon is reshaping the way we live and transforming
the way we do business: the aerotropolis. A combination of giant airport,
planned city, shipping facility and business hub, the aerotropolis will be at
the heart of the next phase of globalization. Drawing on a decade's worth of
cutting-edge research, this book offers a visionary look at how the metropolis
of the future will bring us together - and how, in our globalized, 'flat' world,
connecting people and goods is still as important as digital communication.
"Aerotropolis" shows us how to make the most of this unparalleled opportunity.

* [30] Aerotropolis: The Way We'll Live Next, John D. Kasarda, Greg Lindsay,
2011/11/10, Farrar, Straus and Giroux
* Contributed by [31] Anton Joha

[30]
http://www.amazon.com/dp/0374100195/ref=as_li_ss_til?tag=compldiges-20&camp=0&creative=0&linkCode=as4&creativeASIN=0374100195&adid=074P6FRNY6WKZJ3WPX60&
[31] mailto:antonjoha@gmail.com

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19.05. Neurogastronomy: How the Brain Creates Flavor and Why It Matters ,
Columbia University Press

Summary:        Leading neuroscientist Gordon Shepherd embarks on a
paradigm-shifting trip through the "human brain flavor system," laying the
foundations for a new scientific field: neurogastronomy. Challenging the belief
that the sense of smell diminished during human evolution, Shepherd argues that
this sense, which constitutes the main component of flavor, is far more powerful
and essential than previously believed. He analyzes flavor's engagement with the
brain regions that control emotion, food preferences, and cravings, and he even
devotes a section to food's role in drug addiction and, building on Marcel
Proust's iconic tale of the madeleine, its ability to evoke deep memories.

* [32] Neurogastronomy: How the Brain Creates Flavor and Why It Matters, Gordon
M. Shepherd, 2011/12/02, Columbia University Press
* Contributed by [33] Anton Joha

[32]
http://www.amazon.com/dp/0231159102/ref=as_li_ss_til?tag=compldiges-20&camp=0&creative=0&linkCode=as4&creativeASIN=0231159102&adid=1V09VR964SG1HSNW1AQF&
[33] mailto:antonjoha@gmail.com

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19.06. What Makes Your Brain Happy and Why You Should Do the Opposite ,
Prometheus Books

Summary:        Greece isn't the only country drowning in debt. The Debt
Supercycle—when the easily managed, decades-long growth of debt results in a
massive sovereign debt and credit crisis—is affecting developed countries
around the world, including the United States. For these countries, there are
only two options, and neither is good—restructure the debt or reduce it
through austerity measures. The book reveals why the world economy is in for an
extended period of sluggish growth, high unemployment, and volatile markets
punctuated by persistent recessions and reviews global markets, trends in
population, government policies, and currencies. (...)

* [34] What Makes Your Brain Happy and Why You Should Do the Opposite, David
DiSalvo, 2011/11/22, Prometheus Books
* Contributed by [35] Anton Joha

[34]
http://www.amazon.com/dp/1616144831/ref=as_li_ss_til?tag=compldiges-20&camp=0&creative=0&linkCode=as4&creativeASIN=1616144831&adid=02D88XS5BKPV4PYJGTP1&
[35] mailto:antonjoha@gmail.com

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19.07. Endgame: The End of the Debt Supercycle and How It Changes Everything ,
Wiley

Summary:        Why do we routinely choose options that don't meet our
short-term needs and undermine our long-term goals? Why do we willingly expose
ourselves to temptations that undercut our hard-fought progress to overcome
addictions? Why are we prone to assigning meaning to statistically common
coincidences? Why do we insist we're right even when evidence contradicts us? In
this book, David DiSalvo reveals a remarkable paradox: what your brain wants is
frequently not what your brain needs. In fact, much of what makes our brains
"happy" leads to errors, biases, and distortions, which make getting out of our
own way extremely difficult.

* [36] Endgame: The End of the Debt Supercycle and How It Changes Everything,
John Mauldin, Jonathan Tepper, 2011/04/01, Wiley
* Contributed by [37] Anton Joha

[36]
http://www.amazon.com/dp/1118004574/ref=as_li_ss_til?tag=compldiges-20&camp=0&creative=0&linkCode=as4&creativeASIN=1118004574&adid=0EWCE241NNSEZDG66PE0&
[37] mailto:antonjoha@gmail.com

_________________________________________________________________

20. Links & Snippets 





_________________________________________________________________

20.01. Other Publications 




- Stability of Synchronized Motion in Complex Networks, 2011/12/10,
arXiv:1112.2297
- Pervasive Flexibility in Living Technologies through Degeneracy Based Design,
2011/12/14, arXiv:1112.3117
- Short and Long Range Population Dynamics of the Monarch, 2011/12/19,
arXiv:1112.3991
- Does strong heterogeneity promote cooperation by group interactions?,
2011/12/20, arXiv:1112.4826
- Evolution of sustained foraging in 3D environments with physics, 2011/12/21,
arXiv:1112.5116
- Advancing the Understanding of Sociospatial Dependencies in Terrorist
Networks, 2011/10, Transactions in GIS Volume 15, Issue 5, pages 577–597, DOI:
10.1111/j.1467-9671.2011.001281.x


_________________________________________________________________

20.02. Event Announcements 


  New England Complex Systems Institute Winter School, Cambridge, MA, USA,
2012/01/02-13 
  41th Winter Meeting on Statistical Physics, Xalapa, Veracruz, Mexico,
2012/01/3-6 
  VI Congreso Bienal Internacional Complejidad 2012, Havana, Cuba, 2012/01/10-13

  38th International Conference on Current Trends in Theory and Practice of
Computer Science, Špindlerův Mlýn, Czech Republic, 2012/01/21-27 
  4th International Conference on Agents and Artificial Intelligence - ICAART
2012, Vilamoura, Algarve, Portugal, 2012/02/6-8 
  WIVACE 2012
Italian Workshop on Artificial Life and Evolutionary Computation "Artificial
Life, Evolution and Complexity"
, Parma, Italy, 2012/02/20-21 
  3rd Workshop on Complex Networks, Melbourne, Florida, USA, 2012/03/7-9 
  evostar - the main european events on evolutionary computation eurogp, evocop,
evobio, evomusart and evoapplications, Málaga, Spain, 2012/03/11-13 
  9th International Conference on the Evolution of Language (Evolang IX), Kyoto,
Japan, 2012/03/13-16 
  IWSOS'12 (Sixth International Workshop on Self-Organizing Systems), Delft, The
Netherlands, 2012/03/15-16 
  5th International Nonlinear Science Conference 2012, Barcelona, Spain,
2011/03/15-17 
  IPCAT 2012: Ninth International Conference on Information Processing in Cells
and Tissues, Cambridge, United Kingdom, 2012/03/31-04/02 
  21st European Meeting on Cybernetics and Systems Research, Vienna, Austria,
2012/04/10-13     Self-* Systems – Biological Foundations and Technological
Applications.    Complexity and Management: from the Concept of Innovation to
Social Responsibility.    Design and Self-Organization in the Emergence of
Effective Organizations.     Collective Intelligence 2012, Cambridge, MA, USA,
2012/04/18-20 
  2012 IEEE World Congress on Computational Intelligence, Brisbane, Australia,
2012/06/10-15 
  CiE 2012 Turing Centenary conference: How the World Computes, Cambridge, UK,
2012/06/18-23 
  Cellular Automata Algorithms & Architectures (CAAA 2012), Madrid, Spain,
2012/07/2-6 
  GECCO 2012, Philadelphia, USA, 2012/07/7-11 
  25th European Conference on Operational Research, Vilnius, Lithuania,
2012/07/8-11 
  ALife XIII: The Thirteenth International Conference on the Simulation and
Synthesis of Living Systems, Lansig, Michigan, USA, 2012/08/19-22 
  12th International Conference on Parallel Problem Solving From Nature
(PPSN2012), Taormina, Italy, 2012/09/1-5 
  ECCS'12: European Conference on Complex Systems, Brussels, Belgium,
2012/09/3-7 
  Interdisciplinary Symposium on Complex Systems, Kos island, Greece,
2012/09/19-25 
  10th International Conference on Cellular Automata for Research and Industry
(ACRI 2012), Santorini Island, Greece, 2012/09/24-27 
  IBERAMIA 2012: 13th Ibero-American Conference on Artificial Intelligence,
Cartagena de Indias, Colombia, 2012/11/13-16 





_________________________________________________________________

20.03. Video Announcements 


  Complexity Digest videos and  Webcast Archive.
  Lakeside Labs videos.
  FuturICT videos.
  Brain-Mind Institute webinars 
 IFISC@uib.es seminars.
  [38] ASSYST Digital Library.
 TED Talks.
Edge Videos
CERN Webcast Service.
Dean LeBaron's Video Casts. 



[38] http://www.assystcomplexity.eu/video.jsp

_________________________________________________________________

20.04. Other Announcements 

   Call for papers: Special issue of JSSC on Complex Systems and Sports,
2011/12/31 
 [39] ASSYSTComplexity 
One of the main goals of the ASSYST Coordination Action is to promote Complex
Systems for Socially Intelligent ICT (COSI-ICT) and, more generally, Complex
Systems (CS) Science in Europe and Worldwide. We do this by communicating widely
with scientists, policy makers, and business people, and by showcasing success
stories of CS applications.
 [40] Job openings in Complex Systems
  Modelling and Physics of Complex Systems, MSc & PhD Programme, Universidad Rey
Juan Carlos, Madrid, Spain. 
  [41] Research Positions in Complex Systems 
 The New England Complex Systems Institute ( [42] NECSI) has openings for
postdoctoral appointments, and scholarships for research supervision in the
study of complex systems. 
 Call for Papers:  Cliodynamics: The Journal of Theoretical and Mathematical
History 


Friends of Complexity Theory in Cuba, inlcudes Revista Pensando la
Complejidad.
  DDLab, new release available! DDLab is a free set of tools for researching
cellular automata, random Boolean networks, multi-value discrete dynamical
networks, and beyond. See introductory video. 


 [43]  



[39] http://www.assystcomplexity.eu
[40] http://jobs.cssociety.org/
[41] http://www.necsi.edu/education/postdocstudent.html
[42] http://www.necsi.edu
[43]
http://www.springer.com/complexity?cm_mmc=3rd%20party%20website-_-3rd%20party%20website%20banner-_-PSE744-_-EncComplex
target=new

_________________________________________________________________

[44]Complexity Digest is an independent publication available to
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lists. ComDig is published by the [45]Computer Sciences Department, [46]IIMAS
and the
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[49]Carlos Gershenson. To unsubscribe from this list, please go to
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