Collective intelligence Collective action Self-organized criticality Herd mentality Phase transition Agent-based modelling Synchronization Ant colony optimization Particle swarm optimization Swarm behaviour
54-464: (Redirected from Self-Regulation ) [REDACTED] Look up self-regulation , self-regulated , or self-regulating in Wiktionary, the free dictionary. Self-regulation may refer to: Emotional self-regulation Self-control , in sociology/psychology Self-regulated learning , in educational psychology Self-regulation theory (SRT),
108-423: A reductionist analysis. As a consequence the emerging properties are scale dependent : they are only observable if the system is large enough to exhibit the phenomenon. Chaotic, unpredictable behaviour can be seen as an emergent phenomenon, while at a microscopic scale the behaviour of the constituent parts can be fully deterministic . Bedau notes that weak emergence is not a universal metaphysical solvent, as
162-409: A claim about the etiology of a system 's properties. An emergent property of a system, in this context, is one that is not a property of any component of that system, but is still a feature of the system as a whole. Nicolai Hartmann (1882–1950), one of the first modern philosophers to write on emergence, termed this a categorial novum (new category). This concept of emergence dates from at least
216-489: A complex entity has properties or behaviors that its parts do not have on their own, and emerge only when they interact in a wider whole. Emergence plays a central role in theories of integrative levels and of complex systems . For instance, the phenomenon of life as studied in biology is an emergent property of chemistry and physics . In philosophy, theories that emphasize emergent properties have been called emergentism . Philosophers often understand emergence as
270-423: A critical question: if an emergent, M, emerges from basal condition P, why cannot P displace M as a cause of any putative effect of M? Why cannot P do all the work in explaining why any alleged effect of M occurred? If causation is understood as nomological (law-based) sufficiency, P, as M's emergence base, is nomologically sufficient for it, and M, as P∗'s cause, is nomologically sufficient for P∗. It follows that P
324-416: A high-level system on its components; qualities produced this way are irreducible to the system's constituent parts. The whole is other than the sum of its parts. It is argued then that no simulation of the system can exist, for such a simulation would itself constitute a reduction of the system to its constituent parts. Physics lacks well-established examples of strong emergence, unless it is interpreted as
378-419: A nuisance, is possibly an emergent property of the spreading of bottlenecks across a network in high traffic flows which can be considered as a phase transition . Some artificially intelligent (AI) computer applications simulate emergent behavior. One example is Boids , which mimics the swarming behavior of birds. In religion, emergence grounds expressions of religious naturalism and syntheism in which
432-491: A property, law, or phenomenon which occurs at macroscopic scales (in space or time) but not at microscopic scales, despite the fact that a macroscopic system can be viewed as a very large ensemble of microscopic systems. An emergent behavior of a physical system is a qualitative property that can only occur in the limit that the number of microscopic constituents tends to infinity. According to Robert Laughlin , for many-particle systems, nothing can be calculated exactly from
486-677: A sense of the sacred is perceived in the workings of entirely naturalistic processes by which more complex forms arise or evolve from simpler forms. Examples are detailed in The Sacred Emergence of Nature by Ursula Goodenough & Terrence Deacon and Beyond Reductionism: Reinventing the Sacred by Stuart Kauffman , both from 2006, as well as Syntheism – Creating God in The Internet Age by Alexander Bard & Jan Söderqvist from 2014 and Emergentism: A Religion of Complexity for
540-561: A system of conscious personal management Industry self-regulation , the process of monitoring one's own adherence to industry standards Self-regulatory organization , in business and finance Homeostasis , a state of steady internal conditions maintained by living things Emergence , the phenomenon in which unpredictable outcomes emerge from complex systems Self-regulating variable resistance cables used for trace heating Spontaneous order See also [ edit ] Self-limiting (disambiguation) Topics referred to by
594-561: A system of conscious personal management Industry self-regulation , the process of monitoring one's own adherence to industry standards Self-regulatory organization , in business and finance Homeostasis , a state of steady internal conditions maintained by living things Emergence , the phenomenon in which unpredictable outcomes emerge from complex systems Self-regulating variable resistance cables used for trace heating Spontaneous order See also [ edit ] Self-limiting (disambiguation) Topics referred to by
SECTION 10
#1732854884656648-466: A theory of social change termed SEED-SCALE to show how standard principles interact to bring forward socio-economic development fitted to cultural values, community economics, and natural environment (local solutions emerging from the larger socio-econo-biosphere). These principles can be implemented utilizing a sequence of standardized tasks that self-assemble in individually specific ways utilizing recursive evaluative criteria. Looking at emergence in
702-444: Is also brought forth when thinking about alternatives to the current economic system based on growth facing social and ecological limits. Both degrowth and social ecological economics have argued in favor of a co-evolutionary perspective for theorizing about transformations that overcome the dependence of human wellbeing on economic growth . Economic trends and patterns which emerge are studied intensively by economists. Within
756-399: Is called strong emergence, which it is argued cannot be simulated, analysed or reduced. David Chalmers writes that emergence often causes confusion in philosophy and science due to a failure to demarcate strong and weak emergence, which are "quite different concepts". Some common points between the two notions are that emergence concerns new properties produced as the system grows, which
810-498: Is different from Wikidata All article disambiguation pages All disambiguation pages self-regulation [REDACTED] Look up self-regulation , self-regulated , or self-regulating in Wiktionary, the free dictionary. Self-regulation may refer to: Emotional self-regulation Self-control , in sociology/psychology Self-regulated learning , in educational psychology Self-regulation theory (SRT),
864-1212: Is different from Wikidata All article disambiguation pages All disambiguation pages Emergence Social network analysis Small-world networks Centrality Motifs Graph theory Scaling Robustness Systems biology Dynamic networks Evolutionary computation Genetic algorithms Genetic programming Artificial life Machine learning Evolutionary developmental biology Artificial intelligence Evolutionary robotics Reaction–diffusion systems Partial differential equations Dissipative structures Percolation Cellular automata Spatial ecology Self-replication Conversation theory Entropy Feedback Goal-oriented Homeostasis Information theory Operationalization Second-order cybernetics Self-reference System dynamics Systems science Systems thinking Sensemaking Variety Ordinary differential equations Phase space Attractors Population dynamics Chaos Multistability Bifurcation Rational choice theory Bounded rationality In philosophy , systems theory , science , and art , emergence occurs when
918-414: Is logically possible, it is uncomfortably like magic. How does an irreducible but supervenient downward causal power arise, since by definition it cannot be due to the aggregation of the micro-level potentialities? Such causal powers would be quite unlike anything within our scientific ken. This not only indicates how they will discomfort reasonable forms of materialism. Their mysteriousness will only heighten
972-414: Is nomologically sufficient for P∗ and hence qualifies as its cause...If M is somehow retained as a cause, we are faced with the highly implausible consequence that every case of downward causation involves overdetermination (since P remains a cause of P∗ as well). Moreover, this goes against the spirit of emergentism in any case: emergents are supposed to make distinctive and novel causal contributions. If M
1026-413: Is not necessarily the only one. The development of macroscopic laws from first principles may involve more than just systematic logic, and could require conjectures suggested by experiments, simulations or insight. Human beings are the basic elements of social systems, which perpetually interact and create, maintain, or untangle mutual social bonds. Social bonds in social systems are perpetually changing in
1080-603: Is ordered, what is random, and what is complex in its environment depends directly on its computational resources: the amount of raw measurement data, of memory, and of time available for estimation and inference. The discovery of structure in an environment depends more critically and subtly, though, on how those resources are organized. The descriptive power of the observer's chosen (or implicit) computational model class, for example, can be an overwhelming determinant in finding regularity in data. The low entropy of an ordered system can be viewed as an example of subjective emergence:
1134-429: Is produced from an identified preferred goal or outcome. As explained in their paper An essay on ready-ing: Tending the prelude to change : "While linear managing or controlling of the direction of change may appear desirable, tending to how the system becomes ready allows for pathways of possibility previously unimagined." This brings a new lens to the field of emergence in social and systems change as it looks to tending
SECTION 20
#17328548846561188-459: Is such flexibility that nourishes the ready-ing living systems require to respond to complex situations in new ways and change. In other words, this readying process preludes what will emerge. When exploring questions of social change, it is important to ask ourselves, what is submerging in the current social imaginary and perhaps, rather than focus all our resources and energy on driving direct order responses, to nourish flexibility with ourselves, and
1242-446: Is the cause of M∗, then M∗ is overdetermined because M∗ can also be thought of as being determined by P. One escape-route that a strong emergentist could take would be to deny downward causation . However, this would remove the proposed reason that emergent mental states must supervene on physical states, which in turn would call physicalism into question, and thus be unpalatable for some philosophers and physicists. Crutchfield regards
1296-421: Is to say ones which are not shared with its components or prior states. Also, it is assumed that the properties are supervenient rather than metaphysically primitive. Weak emergence describes new properties arising in systems as a result of the interactions at a fundamental level. However, Bedau stipulates that the properties can be determined only by observing or simulating the system, and not by any process of
1350-419: Is unlike its components insofar as these are incommensurable, and it cannot be reduced to their sum or their difference. Usage of the notion "emergence" may generally be subdivided into two perspectives, that of "weak emergence" and "strong emergence". One paper discussing this division is Weak Emergence , by philosopher Mark Bedau . In terms of physical systems, weak emergence is a type of emergence in which
1404-479: The International Bateson Institute delve into this. Since 2012, they have been researching questions such as what makes a living system ready to change? Can unforeseen ready-ness for change be nourished? Here being ready is not thought of as being prepared, but rather as nourishing the flexibility we do not yet know will be needed. These inquiries challenge the common view that a theory of change
1458-590: The Universal Dielectric Response (UDR) , can be seen as emergent properties of such physical systems. Such arrangements can be used as simple physical prototypes for deriving mathematical formulae for the emergent responses of complex systems. Internet traffic can also exhibit some seemingly emergent properties. In the congestion control mechanism, TCP flows can become globally synchronized at bottlenecks, simultaneously increasing and then decreasing throughput in coordination. Congestion, widely regarded as
1512-414: The behavior of all fundamental particles. The view that this is the goal of science rests in part on the rationale that such a theory would allow us to derive the behavior of all macroscopic concepts, at least in principle. The evidence we have presented suggests that this view may be overly optimistic. A 'theory of everything' is one of many components necessary for complete understanding of the universe, but
1566-445: The case of the global economic system, under capitalism , growth, accumulation and innovation can be considered emergent processes where not only does technological processes sustain growth, but growth becomes the source of further innovations in a recursive, self-expanding spiral. In this sense, the exponential trend of the growth curve reveals the presence of a long-term positive feedback among growth, accumulation, and innovation; and
1620-525: The combination of their parts. In 2009, Gu et al. presented a class of infinite physical systems that exhibits non-computable macroscopic properties. More precisely, if one could compute certain macroscopic properties of these systems from the microscopic description of these systems, then one would be able to solve computational problems known to be undecidable in computer science. These results concern infinite systems, finite systems being considered computable. However, macroscopic concepts which only apply in
1674-472: The context of social and systems change, invites us to reframe our thinking on parts and wholes and their interrelation. Unlike machines, living systems at all levels of recursion - be it a sentient body, a tree, a family, an organisation, the education system, the economy, the health system, the political system etc - are continuously creating themselves. They are continually growing and changing along with their surrounding elements, and therefore are more than
Self-regulation - Misplaced Pages Continue
1728-477: The emergence of new structures and institutions connected to the multi-scale process of growth. This is reflected in the work of Karl Polanyi , who traces the process by which labor and nature are converted into commodities in the passage from an economic system based on agriculture to one based on industry. This shift, along with the idea of the self-regulating market, set the stage not only for another economy but also for another society. The principle of emergence
1782-401: The emergent property is amenable to computer simulation or similar forms of after-the-fact analysis (for example, the formation of a traffic jam, the structure of a flock of starlings in flight or a school of fish, or the formation of galaxies). Crucial in these simulations is that the interacting members retain their independence. If not, a new entity is formed with new, emergent properties: this
1836-456: The field of facilitation . In Emergent Strategy , adrienne maree brown defines emergent strategies as "ways for humans to practice complexity and grow the future through relatively simple interactions". In linguistics , the concept of emergence has been applied in the domain of stylometry to explain the interrelation between the syntactical structures of the text and the author style (Slautina, Marusenko, 2014). It has also been argued that
1890-483: The field of group facilitation and organization development, there have been a number of new group processes that are designed to maximize emergence and self-organization, by offering a minimal set of effective initial conditions. Examples of these processes include SEED-SCALE , appreciative inquiry , Future Search, the world cafe or knowledge cafe , Open Space Technology , and others (Holman, 2010 ). In international development, concepts of emergence have been used within
1944-404: The hypothesis that consciousness is weakly emergent would not resolve the traditional philosophical questions about the physicality of consciousness. However, Bedau concludes that adopting this view would provide a precise notion that emergence is involved in consciousness, and second, the notion of weak emergence is metaphysically benign. Strong emergence describes the direct causal action of
1998-467: The impossibility in practice to explain the whole in terms of the parts. Practical impossibility may be a more useful distinction than one in principle, since it is easier to determine and quantify, and does not imply the use of mysterious forces, but simply reflects the limits of our capability. Some thinkers question the plausibility of strong emergence as contravening our usual understanding of physics. Mark A. Bedau observes: Although strong emergence
2052-452: The larger world, and the need for all living systems to evolve." While change is predictably constant, it is unpredictable in direction and often occurs at second and nth orders of systemic relationality. Understanding emergence and what creates the conditions for different forms of emergence to occur, either insidious or nourishing vitality, is essential in the search for deep transformations. The works of Nora Bateson and her colleagues at
2106-401: The limit of infinite systems, such as phase transitions and the renormalization group , are important for understanding and modeling real, finite physical systems. Gu et al. concluded that Although macroscopic concepts are essential for understanding our world, much of fundamental physics has been devoted to the search for a 'theory of everything', a set of equations that perfectly describe
2160-424: The microscopic equations, and macroscopic systems are characterised by broken symmetry: the symmetry present in the microscopic equations is not present in the macroscopic system, due to phase transitions. As a result, these macroscopic systems are described in their own terminology, and have properties that do not depend on many microscopic details. Novelist Arthur Koestler used the metaphor of Janus (a symbol of
2214-414: The observer sees an ordered system by ignoring the underlying microstructure (i.e. movement of molecules or elementary particles) and concludes that the system has a low entropy. On the other hand, chaotic, unpredictable behaviour can also be seen as subjective emergent, while at a microscopic scale the movement of the constituent parts can be fully deterministic. In physics , emergence is used to describe
Self-regulation - Misplaced Pages Continue
2268-475: The pre-emergent process. Warm Data Labs are the fruit of their praxis , they are spaces for transcontextual mutual learning in which aphanipoetic phenomena unfold. (Read about Aphanipoesis ). Having hosted hundreds of Warm Data processes with 1000s of participants, they have found that these spaces of shared poly-learning across contexts lead to a realm of potential change, a necessarily obscured zone of wild interaction of unseen, unsaid, unknown flexibility. It
2322-472: The properties of complexity and organization of any system as subjective qualities determined by the observer. Defining structure and detecting the emergence of complexity in nature are inherently subjective, though essential, scientific activities. Despite the difficulties, these problems can be analysed in terms of how model-building observers infer from measurements the computational capabilities embedded in non-linear processes. An observer's notion of what
2376-427: The same term [REDACTED] This disambiguation page lists articles associated with the title Self-regulation . If an internal link led you here, you may wish to change the link to point directly to the intended article. Retrieved from " https://en.wikipedia.org/w/index.php?title=Self-regulation&oldid=1152814091 " Category : Disambiguation pages Hidden categories: Short description
2430-427: The same term [REDACTED] This disambiguation page lists articles associated with the title Self-regulation . If an internal link led you here, you may wish to change the link to point directly to the intended article. Retrieved from " https://en.wikipedia.org/w/index.php?title=Self-regulation&oldid=1152814091 " Category : Disambiguation pages Hidden categories: Short description
2484-400: The same – their difference, when their directions are contrary. Further, every resultant is clearly traceable in its components, because these are homogeneous and commensurable . It is otherwise with emergents, when, instead of adding measurable motion to measurable motion, or things of one kind to other individuals of their kind, there is a co-operation of things of unlike kinds. The emergent
2538-570: The sense of the ongoing reconfiguration of their structure. An early argument (1904–05) for the emergence of social formations can be found in Max Weber 's most famous work, The Protestant Ethic and the Spirit of Capitalism . Recently, the emergence of a new social system is linked with the emergence of order from nonlinear relationships among multiple interacting units, where multiple interacting units are individual thoughts, consciousness, and actions. In
2592-612: The structure and regularity of language grammar , or at least language change , is an emergent phenomenon. While each speaker merely tries to reach their own communicative goals, they use language in a particular way. If enough speakers behave in that way, language is changed. In a wider sense, the norms of a language, i.e. the linguistic conventions of its speech society, can be seen as a system emerging from long-time participation in communicative problem-solving in various social circumstances. The bulk conductive response of binary (RC) electrical networks with random arrangements, known as
2646-459: The sum of their parts. As Peter Senge and co-authors put forward in the book Presence: Exploring profound change in People, Organizations and Society , "as long as our thinking is governed by habit - notably industrial, "machine age" concepts such as control, predictability, standardization, and "faster is better" - we will continue to recreate institutions as they have been, despite their disharmony with
2700-441: The systems we are a part of. Another approach that engages with the concept of emergence for social change is Theory U , where "deep emergence" is the result of self-transcending knowledge after a successful journey along the U through layers of awareness. This practice nourishes transformation at the inner-being level, which enables new ways of being, seeing and relating to emerge. The concept of emergence has also been employed in
2754-415: The time of Aristotle . Many scientists and philosophers have written on the concept, including John Stuart Mill ( Composition of Causes , 1843) and Julian Huxley (1887–1975). The philosopher G. H. Lewes coined the term "emergent" in 1875, distinguishing it from the merely "resultant": Every resultant is either a sum or a difference of the co-operant forces; their sum, when their directions are
SECTION 50
#17328548846562808-604: The traditional worry that emergence entails illegitimately getting something from nothing. Strong emergence can be criticized for leading to causal overdetermination . The canonical example concerns emergent mental states (M and M∗) that supervene on physical states (P and P∗) respectively. Let M and M∗ be emergent properties. Let M∗ supervene on base property P∗. What happens when M causes M∗? Jaegwon Kim says: In our schematic example above, we concluded that M causes M∗ by causing P∗. So M causes P∗. Now, M, as an emergent, must itself have an emergence base property, say P. Now we face
2862-442: The unity underlying complements like open/shut, peace/war) to illustrate how the two perspectives (strong vs. weak or holistic vs. reductionistic ) should be treated as non-exclusive, and should work together to address the issues of emergence. Theoretical physicist Philip W. Anderson states it this way: The ability to reduce everything to simple fundamental laws does not imply the ability to start from those laws and reconstruct
2916-567: The universe. The constructionist hypothesis breaks down when confronted with the twin difficulties of scale and complexity. At each level of complexity entirely new properties appear. Psychology is not applied biology, nor is biology applied chemistry. We can now see that the whole becomes not merely more, but very different from the sum of its parts. Meanwhile, others have worked towards developing analytical evidence of strong emergence. Renormalization methods in theoretical physics enable physicists to study critical phenomena that are not tractable as
#655344