Complex system

A complex system is a system composed of many components which may interact with each other Examples of complex systems are Earth s global climate organisms the human brain infrastructure such as power grid transportation or communication systems complex software and electronic systems social and economic organizations like cities an ecosystem a living cell and ultimately for some authors the entire universe Complex systems are systems whose behavior is intrinsically difficult to model due to the dependencies competitions relationships or other types of interactions between their parts or between a given system and its environment Systems that are complex have distinct properties that arise from these relationships such as nonlinearity emergence spontaneous order adaptation and feedback loops among others Because such systems appear in a wide variety of fields the commonalities among them have become the topic of their independent area of research In many cases it is useful to represent such a system as a network where the nodes represent the components and links to their interactions The term complex systems often refers to the study of complex systems which is an approach to science that investigates how relationships between a system s parts give rise to its collective behaviors and how the system interacts and forms relationships with its environment The study of complex systems regards collective or system wide behaviors as the fundamental object of study for this reason complex systems can be understood as an alternative paradigm to reductionism which attempts to explain systems in terms of their constituent parts and the individual interactions between them As an interdisciplinary domain complex systems draw contributions from many different fields such as the study of self organization and critical phenomena from physics of spontaneous order from the social sciences chaos from mathematics adaptation from biology and many others Complex systems is therefore often used as a broad term encompassing a research approach to problems in many diverse disciplines including statistical physics information theory nonlinear dynamics anthropology computer science meteorology sociology economics psychology and biology Key conceptsAdaptation Complex adaptive systems are special cases of complex systems that are adaptive in that they have the capacity to change and learn from experience Examples of complex adaptive systems include the stock market social insect and ant colonies the biosphere and the ecosystem the brain and the immune system the cell and the developing embryo cities manufacturing businesses and any human social group based endeavor in a cultural and social system such as political parties or communities FeaturesComplex systems may have the following features Complex systems may be open Complex systems are usually open systems that is they exist in a thermodynamic gradient and dissipate energy In other words complex systems are frequently far from energetic equilibrium but despite this flux there may be see synergetics Complex systems may exhibit critical transitionsGraphical representation of alternative stable states and the direction of critical slowing down prior to a critical transition taken from Lever et al 2020 Top panels a indicate stability landscapes at different conditions Middle panels b indicate the rates of change akin to the slope of the stability landscapes and bottom panels c indicate a recovery from a perturbation towards the system s future state c I and in another direction c II Critical transitions are abrupt shifts in the state of ecosystems the climate financial and economic systems or other complex systems that may occur when changing conditions pass a critical or bifurcation point The direction of critical slowing down in a system s state space may be indicative of a system s future state after such transitions when delayed negative feedbacks leading to oscillatory or other complex dynamics are weak Complex systems may be nested The components of a complex system may themselves be complex systems For example an economy is made up of organisations which are made up of people which are made up of cells all of which are complex systems The arrangement of interactions within complex bipartite networks may be nested as well More specifically bipartite ecological and organisational networks of mutually beneficial interactions were found to have a nested structure This structure promotes indirect facilitation and a system s capacity to persist under increasingly harsh circumstances as well as the potential for large scale systemic regime shifts Dynamic network of multiplicity As well as coupling rules the dynamic network of a complex system is important Small world or scale free networks which have many local interactions and a smaller number of inter area connections are often employed Natural complex systems often exhibit such topologies In the human cortex for example we see dense local connectivity and a few very long axon projections between regions inside the cortex and to other brain regions Gosper s Glider Gun creating gliders in the cellular automaton Conway s Game of LifeMay produce emergent phenomena Complex systems may exhibit behaviors that are emergent which is to say that while the results may be sufficiently determined by the activity of the systems basic constituents they may have properties that can only be studied at a higher level For example empirical food webs display regular scale invariant features across aquatic and terrestrial ecosystems when studied at the level of clustered trophic species Another example is offered by the termites in a mound which have physiology biochemistry and biological development at one level of analysis whereas their social behavior and mound building is a property that emerges from the collection of termites and needs to be analyzed at a different level Relationships are non linear In practical terms this means a small perturbation may cause a large effect see butterfly effect a proportional effect or even no effect at all In linear systems the effect is always directly proportional to cause See nonlinearity Relationships contain feedback loops Both negative damping and positive amplifying feedback are always found in complex systems The effects of an element s behavior are fed back in such a way that the element itself is altered HistoryIn 1948 Dr Warren Weaver published an essay on Science and Complexity exploring the diversity of problem types by contrasting problems of simplicity disorganized complexity and organized complexity Weaver described these as problems which involve dealing simultaneously with a sizable number of factors which are interrelated into an organic whole While the explicit study of complex systems dates at least to the 1970s the first research institute focused on complex systems the Santa Fe Institute was founded in 1984 Early Santa Fe Institute participants included physics Nobel laureates Murray Gell Mann and Philip Anderson economics Nobel laureate Kenneth Arrow and Manhattan Project scientists George Cowan and Herb Anderson Today there are over 50 institutes and research centers focusing on complex systems citation needed Since the late 1990s the interest of mathematical physicists in researching economic phenomena has been on the rise The proliferation of cross disciplinary research with the application of solutions originated from the physics epistemology has entailed a gradual paradigm shift in the theoretical articulations and methodological approaches in economics primarily in financial economics The development has resulted in the emergence of a new branch of discipline namely econophysics which is broadly defined as a cross discipline that applies statistical physics methodologies which are mostly based on the complex systems theory and the chaos theory for economics analysis The 2021 Nobel Prize in Physics was awarded to Syukuro Manabe Klaus Hasselmann and Giorgio Parisi for their work to understand complex systems Their work was used to create more accurate computer models of the effect of global warming on the Earth s climate ApplicationsComplexity in practice The traditional approach to dealing with complexity is to reduce or constrain it Typically this involves compartmentalization dividing a large system into separate parts Organizations for instance divide their work into departments that each deal with separate issues Engineering systems are often designed using modular components However modular designs become susceptible to failure when issues arise that bridge the divisions Complexity of cities Jane Jacobs described cities as being a problem in organized complexity in 1961 citing Dr Weaver s 1948 essay As an example she explains how an abundance of factors interplay into how various urban spaces lead to a diversity of interactions and how changing those factors can change how the space is used and how well the space supports the functions of the city She further illustrates how cities have been severely damaged when approached as a problem in simplicity by replacing organized complexity with simple and predictable spaces such as Le Corbusier s Radiant City and Ebenezer Howard s Garden City Since then others have written at length on the complexity of cities Complexity economics Over the last decades within the emerging field of complexity economics new predictive tools have been developed to explain economic growth Such is the case with the models built by the Santa Fe Institute in 1989 and the more recent economic complexity index ECI introduced by the MIT physicist Cesar A Hidalgo and the Harvard economist Ricardo Hausmann Recurrence quantification analysis has been employed to detect the characteristic of business cycles and economic development To this end Orlando et al developed the so called recurrence quantification correlation index RQCI to test correlations of RQA on a sample signal and then investigated the application to business time series The said index has been proven to detect hidden changes in time series Further Orlando et al over an extensive dataset shown that recurrence quantification analysis may help in anticipating transitions from laminar i e regular to turbulent i e chaotic phases such as USA GDP in 1949 1953 etc Last but not least it has been demonstrated that recurrence quantification analysis can detect differences between macroeconomic variables and highlight hidden features of economic dynamics Complexity and education Focusing on issues of student persistence with their studies Forsman Moll and Linder explore the viability of using complexity science as a frame to extend methodological applications for physics education research finding that framing a social network analysis within a complexity science perspective offers a new and powerful applicability across a broad range of PER topics Complexity in healthcare research and practice Healthcare systems are prime examples of complex systems characterized by interactions among diverse stakeholders such as patients providers policymakers and researchers across various sectors like health government community and education These systems demonstrate properties like non linearity emergence adaptation and feedback loops Complexity science in healthcare frames knowledge translation as a dynamic and interconnected network of processes problem identification knowledge creation synthesis implementation and evaluation rather than a linear or cyclical sequence Such approaches emphasize the importance of understanding and leveraging the interactions within and between these processes and stakeholders to optimize the creation and movement of knowledge By acknowledging the complex adaptive nature of healthcare systems complexity science advocates for continuous stakeholder engagement transdisciplinary collaboration and flexible strategies to effectively translate research into practice Complexity and biology Complexity science has been applied to living organisms and in particular to biological systems Within the emerging field of fractal physiology bodily signals such as heart rate or brain activity are characterized using entropy or fractal indices The goal is often to assess the state and the health of the underlying system and diagnose potential disorders and illnesses citation needed Complexity and chaos theory Complex systems theory is related to chaos theory which in turn has its origins more than a century ago in the work of the French mathematician Henri Poincare Chaos is sometimes viewed as extremely complicated information rather than as an absence of order Chaotic systems remain deterministic though their long term behavior can be difficult to predict with any accuracy With perfect knowledge of the initial conditions and the relevant equations describing the chaotic system s behavior one can theoretically make perfectly accurate predictions of the system though in practice this is impossible to do with arbitrary accuracy The emergence of complex systems theory shows a domain between deterministic order and randomness which is complex This is referred to as the edge of chaos A plot of the Lorenz attractor When one analyzes complex systems sensitivity to initial conditions for example is not an issue as important as it is within chaos theory in which it prevails As stated by Colander the study of complexity is the opposite of the study of chaos Complexity is about how a huge number of extremely complicated and dynamic sets of relationships can generate some simple behavioral patterns whereas chaotic behavior in the sense of deterministic chaos is the result of a relatively small number of non linear interactions For recent examples in economics and business see Stoop et al who discussed Android s market position Orlando who explained the corporate dynamics in terms of mutual synchronization and chaos regularization of bursts in a group of chaotically bursting cells and Orlando et al who modelled financial data Financial Stress Index swap and equity emerging and developed corporate and government short and long maturity with a low dimensional deterministic model Therefore the main difference between chaotic systems and complex systems is their history Chaotic systems do not rely on their history as complex ones do Chaotic behavior pushes a system in equilibrium into chaotic order which means in other words out of what we traditionally define as order clarification needed On the other hand complex systems evolve far from equilibrium at the edge of chaos They evolve at a critical state built up by a history of irreversible and unexpected events which physicist Murray Gell Mann called an accumulation of frozen accidents In a sense chaotic systems can be regarded as a subset of complex systems distinguished precisely by this absence of historical dependence Many real complex systems are in practice and over long but finite periods robust However they do possess the potential for radical qualitative change of kind whilst retaining systemic integrity Metamorphosis serves as perhaps more than a metaphor for such transformations Complexity and network science A complex system is usually composed of many components and their interactions Such a system can be represented by a network where nodes represent the components and links represent their interactions For example the Internet can be represented as a network composed of nodes computers and links direct connections between computers Other examples of complex networks include social networks financial institution interdependencies airline networks and biological networks Notable scholarsRobert McCormick Adams Christopher Alexander Philip Anderson Kenneth Arrow Robert Axelrod W Brian Arthur Per Bak Bela H Banathy Albert Laszlo Barabasi Yaneer Bar Yam Gregory Bateson Ludwig von Bertalanffy Alexander Bogdanov Samuel Bowles Guido Caldarelli Paul Cilliers Walter Clemens Jr James P Crutchfield Chris Danforth Peter Sheridan Dodds Brian Enquist Joshua Epstein Doyne Farmer Jay Forrester Nigel R Franks Murray Gell Mann Carlos Gershenson Nigel Goldenfeld Vittorio Guidano Hermann Haken James Hartle F A Hayek Dirk Helbing John Holland Alfred Hubler Arthur Iberall Johannes Jaeger Stuart Kauffman J A Scott Kelso David Krakauer Simon A Levin Ellen Levy Robert May Donella Meadows Jose Fernando Mendes Melanie Mitchell Cris Moore Yamir Moreno Edgar Morin Harold Morowitz Adilson E Motter Scott Page Luciano Pietronero David Pines Vladimir Pokrovskii William T Powers Ilya Prigogine Steen Rasmussen Sidney Redner Jerry Sabloff Cosma Shalizi Herbert Simon Dave Snowden Sergei Starostin Steven Strogatz Stefan Thurner Alessandro Vespignani Andreas Wagner Duncan Watts Geoffrey West Stephen Wolfram David WolpertSee alsoSystems science portalBiological organisation Chaos theory Cognitive modeling Cognitive science Complex disambiguation Complex adaptive system Complex networks Complexity Complexity disambiguation Complexity economics Complexity Science Hub Vienna Cybernetics Decision engineering Dissipative system Dual phase evolution Dynamical system Dynamical systems theory Emergence Enterprise systems engineering Fractal Fractal physiology Generative sciences Hierarchy theory Homeokinetics Interdependent networks Invisible hand Mixed reality Multi agent system Network science Neuroscience and intelligence fr Noogenese Nonlinearity Pattern oriented modeling Percolation Percolation theory Process architecture Self organization Sociology and complexity science System accident System dynamics System equivalence Systems engineering Systems theory Systems theory in anthropology Tektology Ultra large scale systems Volatility uncertainty complexity and ambiguityReferencesLadyman James Lambert James Wiesner Karoline 2013 What is a complex system PDF European Journal for Philosophy of Science 3 33 67 doi 10 1007 s13194 012 0056 8 Retrieved 28 July 2024 S pecial issue of Science on Complex Systems featuring many key figures in the field Science 2 April 1999 6 A complex system is literally one in which there are multiple interactions between many different components 40 p 105 Ladyman James Lambert James Wiesner Karoline 2013 What is a complex system PDF European Journal for Philosophy of Science 3 33 67 doi 10 1007 s13194 012 0056 8 Retrieved 28 July 2024 The following quotations apart from the last one come from a special issue of Science on Complex Systems featuring many key figures in the field Science 2 April 1999 8 In recent years the scientific community has coined the rubric complex system to describe phenomena structure aggregates organisms or problems that share some common theme i They are inherently complicated or intricate ii they are rarely completely deterministic iii mathematical models of the system are usually complex and involve non linear ill posed 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1998 Complexity and Postmodernism Understanding Complex Systems Routledge London Per Bak 1996 How Nature Works The Science of Self Organized Criticality Copernicus New York U S Colander D 2000 The Complexity Vision and the Teaching of Economics E Elgar Northampton Massachusetts Stoop Ruedi Orlando Giuseppe Bufalo Michele Della Rossa Fabio 2022 11 18 Exploiting deterministic features in apparently stochastic data Scientific Reports 12 1 19843 Bibcode 2022NatSR 1219843S doi 10 1038 s41598 022 23212 x ISSN 2045 2322 PMC 9674651 PMID 36400910 Orlando Giuseppe 2022 06 01 Simulating heterogeneous corporate dynamics via the Rulkov map Structural Change and Economic Dynamics 61 32 42 doi 10 1016 j strueco 2022 02 003 ISSN 0954 349X Orlando Giuseppe Bufalo Michele Stoop Ruedi 2022 02 01 Financial markets deterministic aspects modeled by a low dimensional equation Scientific Reports 12 1 1693 Bibcode 2022NatSR 12 1693O doi 10 1038 s41598 022 05765 z ISSN 2045 2322 PMC 8807815 PMID 35105929 Buchanan M 2000 Ubiquity Why catastrophes happen three river press New York Gell Mann M 1995 What is Complexity Complexity 1 1 16 19 Dorogovtsev S N Mendes J F F 2003 Evolution of Networks Vol 51 p 1079 arXiv cond mat 0106144 doi 10 1093 acprof oso 9780198515906 001 0001 ISBN 9780198515906 Newman Mark 2010 Networks doi 10 1093 acprof oso 9780199206650 001 0001 ISBN 9780199206650 permanent dead link Battiston Stefano Caldarelli Guido May Robert M Roukny tarik Stiglitz Joseph E 2016 09 06 The price of complexity in financial networks Proceedings of the National Academy of Sciences 113 36 10031 10036 Bibcode 2016PNAS 11310031B doi 10 1073 pnas 1521573113 PMC 5018742 PMID 27555583 Barrat A Barthelemy M Pastor Satorras R Vespignani A 2004 The architecture of complex weighted networks Proceedings of the National Academy of Sciences 101 11 3747 3752 arXiv cond mat 0311416 Bibcode 2004PNAS 101 3747B doi 10 1073 pnas 0400087101 ISSN 0027 8424 PMC 374315 PMID 15007165 Further readingComplexity Explained L A N Amaral and J M Ottino Complex networks augmenting the framework for the study of complex system 2004 Chu D Strand R Fjelland R 2003 Theories of complexity Complexity 8 3 19 30 Bibcode 2003Cmplx 8c 19C doi 10 1002 cplx 10059 Walter Clemens Jr Complexity Science and World Affairs SUNY Press 2013 Gell Mann Murray 1995 Let s Call It Plectics Complexity 1 5 3 5 Bibcode 1996Cmplx 1e 3G doi 10 1002 cplx 6130010502 A Gogolin A Nersesyan and A Tsvelik Theory of strongly correlated systems Cambridge University Press 1999 Nigel Goldenfeld and Leo P Kadanoff Simple Lessons from Complexity Archived 2017 09 28 at the Wayback Machine 1999 Kelly K 1995 Out of Control Perseus Books Group Orlando Giuseppe Orlando Pisarchick Alexander Stoop Ruedi 2021 Nonlinearities in Economics Dynamic Modeling and Econometrics in Economics and Finance Vol 29 doi 10 1007 978 3 030 70982 2 ISBN 978 3 030 70981 5 S2CID 239756912 Syed M Mehmud 2011 A Healthcare Exchange Complexity Model Preiser Kapeller Johannes Calculating Byzantium Social Network Analysis and Complexity Sciences as tools for the exploration of medieval social dynamics August 2010 Donald Snooks Graeme 2008 A general theory of complex living systems Exploring the demand side of dynamics Complexity 13 6 12 20 Bibcode 2008Cmplx 13f 12S doi 10 1002 cplx 20225 Stefan Thurner Peter Klimek Rudolf Hanel Introduction to the Theory of Complex Systems Oxford University Press 2018 ISBN 978 0198821939 SFI 30 Foundations amp Frontiers 2014 External linksWikimedia Commons has media related to Complex systems Look up complex systems in Wiktionary the free dictionary The Open Agent Based Modeling Consortium Complexity Science Focus Archived from the original on 2017 12 05 Retrieved 2017 09 22 Santa Fe Institute The Center for the Study of Complex Systems Univ of Michigan Ann Arbor Archived from the original on 2017 12 13 Retrieved 2017 09 22 INDECS Interdisciplinary Description of Complex Systems Introduction to Complexity Free online course by Melanie Mitchell Archived from the original on 2018 08 30 Retrieved 2018 08 29 Jessie Henshaw October 24 2013 Complex Systems Encyclopedia of Earth Complex systems in scholarpedia Complex Systems Society Australian Complex systems research network Complex Systems Modeling based on Luis M Rocha 1999 CRM Complex systems research group The Center for Complex Systems Research Univ of Illinois at Urbana Champaign Institute for Cross Disciplinary Physics and Complex Systems IFISC