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-plex and -plic- are the same etymon, not different ones. In Latin, the combining form of a noun ending in -ex is -ic, for example index versus indices. The root is plico, "I fold", and it's only colloquially used to indicate weaving.
I'm changing the article, speak now or forever hold your peace (and learn a little Latin while you're at it.) 35.10.172.97 00:51, 27 February 2007 (UTC)
oh, but complexity is not restricted to computer science and complexity theory! maybe we had better make this a disambig. page that would in turn point to
For the definition of complex adaptive systems, three characteristics are mentioned: hih-dimentionality, non-linearity and sensitivity to initial conditions. There is also a fourth characteritic: emergent behaviour. Shouldnt this also be included?
While Complex adaptive systems are of current hot interest, they are by no means the only type of complex system. I currently have observed 4 types of complex systems. The typing reflects the manner with which the system interacts with its chaotic context (environment). (This requires you to understand the 4 zones of chaos.) If the environment is truly random or white noise (Zone 3) then the best complex system is usally robust to withstand the totally unpredictable changes. The zone 1 and 2 chaotic enviroments lend themselves usually to flexible and adaptive complex systems. With flexible complex system changing near real time to transients but going back to previous state when transient subsides. The adaptive complex system changes over time to the new state. When operating in zone 4 ("edge of chaos"), the agile complex system changes based on short term predictions to leverage the upcoming change. There may be more types of complex systems, but these are the current. Anyone who uses just adaptive complex systems is assuming a solution and type of chaotic context that may or may not be real for the case in consideration.
Wikipedia is a complex system with many emergent behaviors, sensitivity to initial contributors. I think the definition of complex - meaning to "weave" indicates that the underlying characteristic of a complex system is the focus on the interelationships rather than the nodes. It is the interaction that gives rise to the behaviors such as non-linearity, sensitivity to initial conditions, emergence, and hi-dimentionality. Counting connections misses the point that complex systems can have few but non-linear interrelationships. I would recommend sticking with basic definition of the terms and current fields of application. If you have to make references I would definitely include Wolfram's book A New Kind of Science.
It'd be nice if we could have an overview of what is generally meant by complexity and how different fields approach it. All those concepts are somehow related, so we need more than mere disambiguation.
I'm trying to improve the article :-P "The opposite of simplicity" seems a bit dubious to me (and I wrote it ^-^) but refering to simplicity seems necessary. How about randomness ? Computational irreducibility ? Determinism ? A distinction between what is complex and what is complicated ? Flammifer 09:00, 21 August 2005 (UTC).
OK, I've been reorganizing the page. I've removed the disambig link, for one - I think there should be a general discussion of complexity, and how different fields approach it. This overlaps a bit with complex systems, but the term is meaningful outside of complex systems, and it isn't a case of "many different meanings".
The general structure I see is :
(Also, some fields aren't mentioned much here, such as design, engineering ... complexity of a user interface is a problem, etc. Flammifer 09:59, 25 August 2005 (UTC)
I would also like to say that this page is in dire need of improvement in both content and structure.
Structurally, the basics of Complexity and its various notions are not covered very well. The general outline seems like random fragments of vague descriptions rather than a systematic outline covering the concepts in any sort of rational structure. A better examples of good outlines for introducing Complexity might be found here:
http://www.calresco.org/intro.htm
(although I wouldn't necessarily advocate the overall approach to Complexity on this site at large)
In terms of content, the current Wikipedia article does nothing to communicate the sheer magnitude of importance Complexity has to nearly every science, major branches of philosophy, business models, and even being crucial to comprehending many of the basic perspectives of the universe in our time.
Although not exactly encyclopedic in their approach, good content sources to look at might include:
http://www.prototista.org/E-Zine/WhatisComplexity.htm
And (humbly) my own:
http://dtstrainphilosophyblog.blogspot.com/2005/08/big-deal-about-complexity.html
I would be happy to cook something up that is more appropriate for an encyclopedia article than my above examples, but I don't want to duplicate any efforts that might be going on right now. If this is appropriate to others here, please feel free to email me at dtstrain@yahoo.com (I will also look back here after a time).
Much of this paragraph seems a parody or satire, is it?
Some indication exists that, pari passu, computer programs become slowly less reliable as their size increases because the statistical and geopolitical meanings of individual bits and bytes of information comprising the program are lost at the extreme of their implications in the environmental thermodynamics of the system. This can be resolved better as computer design becomes better adapted to the ordinary covariant relativistic space-time frame (x, y, z,-ct).
--
jonathan
I agree, since I can't figure out what it means, or if it means anything at all. For memory, the deleted piece was:
... if anyone feels like salvaging that, feel free. Flammifer 04:51, 22 April 2006 (UTC)
Based on work by Wolfram in his book, A New Kind of Science, the second law of thermodynamics and entropy are in question. I think this discussion is beyond the scope of Wikipedia and is best left to theorists in the New Science.
I'm not seeing it. yes i've been studying this stuff for 30 years, but this article doesn't seem to sum up what i've been studying.
i don't think the field of computational complexity goes here at all. I don't think it has to do with what the authors have in mind.
This goes along with those systems wikis. It's simply too broad to be a topic. perhaps it needsd to just be a list to all the wikis that have some notion of complexity? A large redirect page?
the opening paragraph states:
but then the article never discusses independence or lack of in complex systems.
another definition:
really that's too braod. so the natural numbers are complex? The periodic chart is complex? What is NOT complex then? wave phenomenon i suppose...
oh here is the def:
come out and say what we mean! what do we mean? i don't get it.
i give up! there's nothing here. Wikiskimmer 07:24, 10 July 2007 (UTC)
The leader paragraph raises the immediate questions of the meaning of general usage and specific usage, and of the difference between the two. It may be that a better way to a respectable article starts with narrowing the article's subject to system complexity - it would focus the mind, it seems. -- Iterator12n Talk 19:15, 19 October 2007 (UTC)
Re. why we should do this. Reason: My experience elsewhere is that a discussion about complexity may easily lead to a discussion about the complexity of WHAT, followed by a lot of talk about the object that manifests the complexity (and whether or not that object is "truly" complex, etc.), and not enough about complexity itself. Use of system would abstract us (insulate us, at least to some degree) from the object with the complexity. If you like, it introduces 'systems thinking' into the discussion about complexity. Cheers. -- Iterator12n Talk 20:48, 19 October 2007 (UTC)
In short, the title that I propose is "Complexity (systems)," leaving room for other views of complexity. -- Iterator12n Talk 21:04, 19 October 2007 (UTC)
Good idea, I'll put it on my to-do list. I'll probably make it Complexity (systems), covering both systems science and systems engineering. -- Iterator12n Talk 21:53, 19 October 2007 (UTC)
Anybody looking to lampoon Wikipedia doesn’t have to look further than the collection of { Complexity, Complex system, Complex systems} articles. As another editor already asked, is this part of Wikipedia a joke? Being positive and trying to fix Complexity, you will then run into the two other articles. Maybe the most hilarious point is the side-by-side existence of Complex system and Complex systems. I’m sorry for the general reader who stumbles into this part of Wikipedia. Best thing is to scrap all three articles and start over, possibly using Duracell’s work on Complex system from 2 years ago as a bootstrap - that work wasn't half bad. Vyyjpkmi 04:21, 15 November 2007 (UTC)
Hope my moving the materials formerly in sources of complexity to new complex adaptive systems is not too heavy handed. Have focused mainly on definitional area to try to help flesh out basic elements found often in attempts to define complexity without trying to achieve one definition at this time for this article. Though I see criticisms of the structure of the piece, have not tried to reorganized entire article or set of articles. Ordermaven ( talk) 03:50, 12 December 2007 (UTC)
I removed the following text:
The text can be readded, when a real article about Complex project management is written in Wikipedia, which is worth mentioning here. There are a million things related to complexity, and this article isn't the place to mention them all. This article only lists and summarized the most important thing allready present in Wikipedia. -- Marcel Douwe Dekker ( talk) 20:44, 29 June 2008 (UTC)
I completed my doctoral studies in complex project management in the1990s before it became an academic fad. I drafted the initial version of the Competency Standard for Complex Project Management with input and review from the world's leading complex program managers from Boeing, Lockheed Martin, Raytheon, Thales, BAE, and KBR. Over the years I have seen numerous academics criticise the real world contribution from this work. Today the WAVE Model that forms a core part of the Standard is incorporated into the US DAU Acquisition Guide for complex systems of systems. — Preceding unsigned comment added by 49.195.29.138 ( talk) 04:57, 3 April 2015 (UTC)
References
The essence of the most modern and intriguing meaning of complexity is missing from this article. The core of complexity (from complector, as distict from merely complicatum, i.e. "having many parts") is NON-LINEARITY. This is implicit in Poincaré (1890) and Lyapunov (1910) already, and becomes explicit with Wiener et al. in the 1940's. The essence of complexity is NOT in the many parts of a system; it's in the nonlinear interactions between those parts. The "trivial" complexity that derives from a system having many parts (complicatum) is in itself a challenge, and is discussed in many Wikipedia places. It should be touched upon here but not handled as a central topic because that is NOT the main point about the complexity that physcists, systems engineers and mathematicians have in mind today. Weaver's view is OK but, if it is to remain, it should be presented and discussed in light of the underlying non-linearity of organized complexity. Finally: non-linearity is a subtle system science concept which the new Wikipedia article will present by pointing to the scientific literature and not merely referencing entertaining pseudo-science and journalistic accounts such as those provided in most of the reference and bibliography currently presented. We will need to work hard to come up with a sustainable article. Thanks for the attention. -- pmagrass ( talk) 16:43, 13 July 2009 (UTC)
I agree with your assessment. The main issue is that this definition of complexity is to encompass computational complexity (not necessarily focused on nonlinearity but computational challenges) as well as the study of complex, self-organizing systems (nonlinearity implied), dynamical systems (where the nonlinearity comes in as central). Wikipedia has another definition under complex system that deals more with what you are discussing. I think this is the constant problem of all the complexity science entries is arriving at some uniformity. User:Bcastel3
Yours is a very good point, but let me tell you that computational complexity can be bridged with nonlinear complexity via Kolmogorov's entropy. In phase space, the two problems can be given surprisingly similar descriptions. (Notice, for example, that M. Gell-Mann does not differentiate between the two...). However this is a subtle point and it would take ages for a Wikipedia community to agree upon it. The fact remains that an article on "complexity" can absolutely not ignore nonlinearity, while this is what en.wiki does today. In it.wiki, for example, we overcame the problem by stating that complexity is nonlinearity and also is computational complexity, and that MAYBE the two domains can be reunited under the K umbrella. How about that? -- pmagrass ( talk) 10:07, 27 July 2009 (UTC)
As it currently stands, the en.wiki "complexity" entry looks like a catalog and it fails to get to the core, keeping instead closer to the colloquial meaning of complexity, which does not differentiate between what is complex and what is merely complicated. I am also sorry to say that I do not like the map, which, however nice (although unreadable), contributes to create said confusion: i.e., listing as "complex" anything which is weird or hard (fuzzy logic, A.I., etc.) does not serve the cause of an encyclopedia entry and makes it look more like a vocabulary one.-- pmagrass ( talk) 10:17, 27 July 2009 (UTC)
The statements beginning this topic is not accurate. NON-LINEARITY is not representative of complexity in and of itself, it is only one of the rudimentary elements of complexity (as a physically meaningful term); i.e, it may be necessary, but it's not adequate. Many non-linear systems, in their non-linear behavior, are deterministically and predictively modeled from first principles. Therefore, non-linearity is not meaningful as the "essence" of complexity. 4.35.70.203 ( talk) 02:52, 27 November 2015 (UTC) Wikibearwithme ( talk) 03:19, 27 November 2015 (UTC)
Missing a word on algebraic complexity or algebraic computation models like algebraic circuits, algebraic computation trees, and algebraic Turing Ma- chines. Sterling ( talk) 17:40, 4 January 2010 (UTC)
I would love for someone to explain the distinction, if any, between a disorganized system and a chaotic one. I am also troubled by the use of "random" attributed to Warren Weaver, excerpted below from the article. (Troubled substantively - not questioning the attribution. :) Emphasis added below.)
A prime example of disorganized complexity is a gas in a container, with the gas molecules as the parts. Some would suggest that a system of disorganized complexity may be compared, for example, with the (relative) simplicity of the planetary orbits—the latter can be known by applying Newton's laws of motion, though this example involved highly correlated events.
Organized complexity, in Weaver's view, resides in nothing else than the non-random, or correlated, interaction between the parts."
"God does not play dice with the universe" - wasn't that Einstein? I'm not clear that randomness is a valid scientific concept. Who would call the motion of the planets random? The Brownian motion of gas molecules may or may not be predictable with current technology, but it is surely as non-random as the motion of the planets: given an initial configuration, the correlation of the parts is described by Newtonian &/or quantum interactions.
74.211.52.135 ( talk) 03:52, 15 September 2010 (UTC)
I'm uncomfortable with the large map image currently in the article, because 1) its caption seems to promote an external website; 2) the copyright status of the image is not so clear--the upload says CC but the origin site doesn't say anything; 3) I'm not convinced that the image content is that helpful to the article, especially with such prominent placement (it seems like basically a buzzword graph). So I'm planning to remove it. Let me know of any concerns. 71.141.88.54 ( talk) 10:03, 11 February 2011 (UTC)
thanks for your concerns. to note, i am the author of the map and the educational webpage to which it links--i am a prof of soc and complexity and teach and do research on topic, as well as art. the map, which was published in my recent book, is extensively used by readers and students as an introduction to the field. if you noted in my comments on the edit history, i made a number of changes recently to the map in response to readers emailing me about small edits, names to add, fields to modify, etc. that is why there was recent activity on it. i have done that now for the past couple years. -- [[User talk:bcastel3 Bcastel3 ( talk) 18:04, 15 February 2011 (UTC)])
self-promotion and COI seems overstated, but i will remove the link. -- [[User talk:bcastel3 Bcastel3 ( talk) —Preceding undated comment added 00:45, 7 March 2011 (UTC).
Someone tried to edit the map. Thanks for the edit, but the image size for the complexity map has been that way for a long time. you give no good rationale for changing it other than your personal preference, which is not sufficient to a democratic environment where the main contributors have had no problem with the map image. Bcastel3 ( talk) 04:14, 15 June 2012 (UTC)
One of the definitions state: Warren Weaver has posited that the complexity of a particular system is the degree of difficulty in predicting the properties of the system, if the properties of the system's parts are given. While the definition is rather reasonable, it is unclear where he (Weaver) has said or even implied this. From his paper this assertion seems rather unsubstatiated. —Preceding unsigned comment added by 115.240.57.237 ( talk) 00:31, 24 May 2011 (UTC)
Definition: where is the citation? I read Weaver's paper for a couple of times, but I didn't find anything pointing to the given definition. I even searched the web to find the original definition, but noyhing similar to this definition. Albeit there was several duplication of the same, but no citation again. Even I can assert Weaver's description for disorganized complexity is opisite to that of given here as a definition. Weaver writes for disorganized complexity: "It is a problem in which the number of variables is very large, and one in which each of the many variables has a behavior which is individually erratic, or perhaps totally unknown." -- Fereidunian ( talk) 14:53, 28 July 2011 (UTC)
This looks like one of those articles that was put together some time ago based on a very partial set of readings. Its way out of date, fails to get the complex to complex adaptive systems use and generally lacks any depth or substance. I'm too engage in the field, with a particular perspective, but it would be a good article for someone to get to grips with if there are any volunteers. ---- Snowded TALK 04:20, 29 June 2013 (UTC)
When (the article says it was in 1948) a person called Warren discussed "organised complexity" as separate from "disorganised complexity", she was making an interesting (in my opinion) distinction. It seems to me that he was not IDENTIFYING two distinct concepts, nor was she really exploring complexity. Warren was illustrating/exploring the meaning contained in the conceptual idea/dimension/scale that I would label: "order > < chaos" I am happy to be corrected, but it seems to me that "complexity" is just a simple, derived noun, which can not realistically carry the responsibility of a Wikipedia article. 86.17.152.168 ( talk) 09:37, 11 December 2014 (UTC) I have now read some more about Mr Warren Weaver's and his work and ideas; he was quite a polymath. His 'classic' 'American Scientist' paper was published in 1948, entitled "Science and Complexity"; in it, he subdivided the problems addressed by science into three categories: simplicity, disorganised complexity and organised complexity. The paper is worth anybody's time to read, but it is clear to me that whatever Weaver wrote about situations that can be categorised using the compound noun 'organised complexity', there is no requirement for the simple word 'complexity' to be given a scientific or academic treatment. Leave it alone! 86.17.152.168 ( talk) 12:55, 11 December 2014 (UTC)
YES THERE IS A SIMPLE ONE WORD DISTINCT CONCEPT FOR 'COMPLEX'
It comes from the work of Ludwig Boltzmann on absolute entropy of any system of particles s = k.Log(W). W is the number of possible arrangements or microstates in a given macrostate which being just a number effectively measures the probability of that state existing (larger W = more probable). Without going into too much detail basically what Boltzmann did was put a quantitative scale on the axis of 'complexity' or 'order' as the absolute entropy(s) of the system. Which all just means..
This definition can be universally applied to any arrangement of matter, information or ideas. I have no good reference because the term 'entropy' is just as confused in the Wiki as this one and its all because supporters of evolution theory can't handle the true implications of the second law of thermodynamics.. (all states tend to move to their most probable state). Gyroman ( talk) 22:25, 2 September 2016 (UTC)
It seems the most basic concept of complexity is "non-uniformity". If some thing is uniform, it cannot be complex. Perhaps this can provide some starting point for the article. -- Lbeaumont ( talk) 13:43, 24 May 2015 (UTC)
I think you need to define what you mean by "non-uniformity." You've replaced a "complex" terminology with what could interpreted as an opaque one.
4.35.70.203 (
talk) 03:18, 27 November 2015 (UTC)
Wikibearwithme (
talk) 03:19, 27 November 2015 (UTC)
Much confusion in this article, based on conflation between what contemporary computer scientists like to hypothesize (however vague and flowery), and the central issue of observing natural systems (computers and human org's incuded) - the result is too many terminologies introduced without any adequate definition. I believe the broad definition of "no independence" is a noble start, and I disagree with the objections that defining "what complexity isn't" is not satisfactory - this is basically what the fundamental physical laws of thermo and electromag do.
Effectively Vague and Meaningless: "sensitivity to initial conditions," "emergent behavior" (please see fractals, brownian walks, etc), "non-linear" (in itself, can be perfectly deterministic and predictable), "adaptive systems" (fuzzy logic doesn't comprise physically meaningful complexity just because no one's watching) Wikibearwithme ( talk) 03:51, 27 November 2015 (UTC)
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-plex and -plic- are the same etymon, not different ones. In Latin, the combining form of a noun ending in -ex is -ic, for example index versus indices. The root is plico, "I fold", and it's only colloquially used to indicate weaving.
I'm changing the article, speak now or forever hold your peace (and learn a little Latin while you're at it.) 35.10.172.97 00:51, 27 February 2007 (UTC)
oh, but complexity is not restricted to computer science and complexity theory! maybe we had better make this a disambig. page that would in turn point to
For the definition of complex adaptive systems, three characteristics are mentioned: hih-dimentionality, non-linearity and sensitivity to initial conditions. There is also a fourth characteritic: emergent behaviour. Shouldnt this also be included?
While Complex adaptive systems are of current hot interest, they are by no means the only type of complex system. I currently have observed 4 types of complex systems. The typing reflects the manner with which the system interacts with its chaotic context (environment). (This requires you to understand the 4 zones of chaos.) If the environment is truly random or white noise (Zone 3) then the best complex system is usally robust to withstand the totally unpredictable changes. The zone 1 and 2 chaotic enviroments lend themselves usually to flexible and adaptive complex systems. With flexible complex system changing near real time to transients but going back to previous state when transient subsides. The adaptive complex system changes over time to the new state. When operating in zone 4 ("edge of chaos"), the agile complex system changes based on short term predictions to leverage the upcoming change. There may be more types of complex systems, but these are the current. Anyone who uses just adaptive complex systems is assuming a solution and type of chaotic context that may or may not be real for the case in consideration.
Wikipedia is a complex system with many emergent behaviors, sensitivity to initial contributors. I think the definition of complex - meaning to "weave" indicates that the underlying characteristic of a complex system is the focus on the interelationships rather than the nodes. It is the interaction that gives rise to the behaviors such as non-linearity, sensitivity to initial conditions, emergence, and hi-dimentionality. Counting connections misses the point that complex systems can have few but non-linear interrelationships. I would recommend sticking with basic definition of the terms and current fields of application. If you have to make references I would definitely include Wolfram's book A New Kind of Science.
It'd be nice if we could have an overview of what is generally meant by complexity and how different fields approach it. All those concepts are somehow related, so we need more than mere disambiguation.
I'm trying to improve the article :-P "The opposite of simplicity" seems a bit dubious to me (and I wrote it ^-^) but refering to simplicity seems necessary. How about randomness ? Computational irreducibility ? Determinism ? A distinction between what is complex and what is complicated ? Flammifer 09:00, 21 August 2005 (UTC).
OK, I've been reorganizing the page. I've removed the disambig link, for one - I think there should be a general discussion of complexity, and how different fields approach it. This overlaps a bit with complex systems, but the term is meaningful outside of complex systems, and it isn't a case of "many different meanings".
The general structure I see is :
(Also, some fields aren't mentioned much here, such as design, engineering ... complexity of a user interface is a problem, etc. Flammifer 09:59, 25 August 2005 (UTC)
I would also like to say that this page is in dire need of improvement in both content and structure.
Structurally, the basics of Complexity and its various notions are not covered very well. The general outline seems like random fragments of vague descriptions rather than a systematic outline covering the concepts in any sort of rational structure. A better examples of good outlines for introducing Complexity might be found here:
http://www.calresco.org/intro.htm
(although I wouldn't necessarily advocate the overall approach to Complexity on this site at large)
In terms of content, the current Wikipedia article does nothing to communicate the sheer magnitude of importance Complexity has to nearly every science, major branches of philosophy, business models, and even being crucial to comprehending many of the basic perspectives of the universe in our time.
Although not exactly encyclopedic in their approach, good content sources to look at might include:
http://www.prototista.org/E-Zine/WhatisComplexity.htm
And (humbly) my own:
http://dtstrainphilosophyblog.blogspot.com/2005/08/big-deal-about-complexity.html
I would be happy to cook something up that is more appropriate for an encyclopedia article than my above examples, but I don't want to duplicate any efforts that might be going on right now. If this is appropriate to others here, please feel free to email me at dtstrain@yahoo.com (I will also look back here after a time).
Much of this paragraph seems a parody or satire, is it?
Some indication exists that, pari passu, computer programs become slowly less reliable as their size increases because the statistical and geopolitical meanings of individual bits and bytes of information comprising the program are lost at the extreme of their implications in the environmental thermodynamics of the system. This can be resolved better as computer design becomes better adapted to the ordinary covariant relativistic space-time frame (x, y, z,-ct).
--
jonathan
I agree, since I can't figure out what it means, or if it means anything at all. For memory, the deleted piece was:
... if anyone feels like salvaging that, feel free. Flammifer 04:51, 22 April 2006 (UTC)
Based on work by Wolfram in his book, A New Kind of Science, the second law of thermodynamics and entropy are in question. I think this discussion is beyond the scope of Wikipedia and is best left to theorists in the New Science.
I'm not seeing it. yes i've been studying this stuff for 30 years, but this article doesn't seem to sum up what i've been studying.
i don't think the field of computational complexity goes here at all. I don't think it has to do with what the authors have in mind.
This goes along with those systems wikis. It's simply too broad to be a topic. perhaps it needsd to just be a list to all the wikis that have some notion of complexity? A large redirect page?
the opening paragraph states:
but then the article never discusses independence or lack of in complex systems.
another definition:
really that's too braod. so the natural numbers are complex? The periodic chart is complex? What is NOT complex then? wave phenomenon i suppose...
oh here is the def:
come out and say what we mean! what do we mean? i don't get it.
i give up! there's nothing here. Wikiskimmer 07:24, 10 July 2007 (UTC)
The leader paragraph raises the immediate questions of the meaning of general usage and specific usage, and of the difference between the two. It may be that a better way to a respectable article starts with narrowing the article's subject to system complexity - it would focus the mind, it seems. -- Iterator12n Talk 19:15, 19 October 2007 (UTC)
Re. why we should do this. Reason: My experience elsewhere is that a discussion about complexity may easily lead to a discussion about the complexity of WHAT, followed by a lot of talk about the object that manifests the complexity (and whether or not that object is "truly" complex, etc.), and not enough about complexity itself. Use of system would abstract us (insulate us, at least to some degree) from the object with the complexity. If you like, it introduces 'systems thinking' into the discussion about complexity. Cheers. -- Iterator12n Talk 20:48, 19 October 2007 (UTC)
In short, the title that I propose is "Complexity (systems)," leaving room for other views of complexity. -- Iterator12n Talk 21:04, 19 October 2007 (UTC)
Good idea, I'll put it on my to-do list. I'll probably make it Complexity (systems), covering both systems science and systems engineering. -- Iterator12n Talk 21:53, 19 October 2007 (UTC)
Anybody looking to lampoon Wikipedia doesn’t have to look further than the collection of { Complexity, Complex system, Complex systems} articles. As another editor already asked, is this part of Wikipedia a joke? Being positive and trying to fix Complexity, you will then run into the two other articles. Maybe the most hilarious point is the side-by-side existence of Complex system and Complex systems. I’m sorry for the general reader who stumbles into this part of Wikipedia. Best thing is to scrap all three articles and start over, possibly using Duracell’s work on Complex system from 2 years ago as a bootstrap - that work wasn't half bad. Vyyjpkmi 04:21, 15 November 2007 (UTC)
Hope my moving the materials formerly in sources of complexity to new complex adaptive systems is not too heavy handed. Have focused mainly on definitional area to try to help flesh out basic elements found often in attempts to define complexity without trying to achieve one definition at this time for this article. Though I see criticisms of the structure of the piece, have not tried to reorganized entire article or set of articles. Ordermaven ( talk) 03:50, 12 December 2007 (UTC)
I removed the following text:
The text can be readded, when a real article about Complex project management is written in Wikipedia, which is worth mentioning here. There are a million things related to complexity, and this article isn't the place to mention them all. This article only lists and summarized the most important thing allready present in Wikipedia. -- Marcel Douwe Dekker ( talk) 20:44, 29 June 2008 (UTC)
I completed my doctoral studies in complex project management in the1990s before it became an academic fad. I drafted the initial version of the Competency Standard for Complex Project Management with input and review from the world's leading complex program managers from Boeing, Lockheed Martin, Raytheon, Thales, BAE, and KBR. Over the years I have seen numerous academics criticise the real world contribution from this work. Today the WAVE Model that forms a core part of the Standard is incorporated into the US DAU Acquisition Guide for complex systems of systems. — Preceding unsigned comment added by 49.195.29.138 ( talk) 04:57, 3 April 2015 (UTC)
References
The essence of the most modern and intriguing meaning of complexity is missing from this article. The core of complexity (from complector, as distict from merely complicatum, i.e. "having many parts") is NON-LINEARITY. This is implicit in Poincaré (1890) and Lyapunov (1910) already, and becomes explicit with Wiener et al. in the 1940's. The essence of complexity is NOT in the many parts of a system; it's in the nonlinear interactions between those parts. The "trivial" complexity that derives from a system having many parts (complicatum) is in itself a challenge, and is discussed in many Wikipedia places. It should be touched upon here but not handled as a central topic because that is NOT the main point about the complexity that physcists, systems engineers and mathematicians have in mind today. Weaver's view is OK but, if it is to remain, it should be presented and discussed in light of the underlying non-linearity of organized complexity. Finally: non-linearity is a subtle system science concept which the new Wikipedia article will present by pointing to the scientific literature and not merely referencing entertaining pseudo-science and journalistic accounts such as those provided in most of the reference and bibliography currently presented. We will need to work hard to come up with a sustainable article. Thanks for the attention. -- pmagrass ( talk) 16:43, 13 July 2009 (UTC)
I agree with your assessment. The main issue is that this definition of complexity is to encompass computational complexity (not necessarily focused on nonlinearity but computational challenges) as well as the study of complex, self-organizing systems (nonlinearity implied), dynamical systems (where the nonlinearity comes in as central). Wikipedia has another definition under complex system that deals more with what you are discussing. I think this is the constant problem of all the complexity science entries is arriving at some uniformity. User:Bcastel3
Yours is a very good point, but let me tell you that computational complexity can be bridged with nonlinear complexity via Kolmogorov's entropy. In phase space, the two problems can be given surprisingly similar descriptions. (Notice, for example, that M. Gell-Mann does not differentiate between the two...). However this is a subtle point and it would take ages for a Wikipedia community to agree upon it. The fact remains that an article on "complexity" can absolutely not ignore nonlinearity, while this is what en.wiki does today. In it.wiki, for example, we overcame the problem by stating that complexity is nonlinearity and also is computational complexity, and that MAYBE the two domains can be reunited under the K umbrella. How about that? -- pmagrass ( talk) 10:07, 27 July 2009 (UTC)
As it currently stands, the en.wiki "complexity" entry looks like a catalog and it fails to get to the core, keeping instead closer to the colloquial meaning of complexity, which does not differentiate between what is complex and what is merely complicated. I am also sorry to say that I do not like the map, which, however nice (although unreadable), contributes to create said confusion: i.e., listing as "complex" anything which is weird or hard (fuzzy logic, A.I., etc.) does not serve the cause of an encyclopedia entry and makes it look more like a vocabulary one.-- pmagrass ( talk) 10:17, 27 July 2009 (UTC)
The statements beginning this topic is not accurate. NON-LINEARITY is not representative of complexity in and of itself, it is only one of the rudimentary elements of complexity (as a physically meaningful term); i.e, it may be necessary, but it's not adequate. Many non-linear systems, in their non-linear behavior, are deterministically and predictively modeled from first principles. Therefore, non-linearity is not meaningful as the "essence" of complexity. 4.35.70.203 ( talk) 02:52, 27 November 2015 (UTC) Wikibearwithme ( talk) 03:19, 27 November 2015 (UTC)
Missing a word on algebraic complexity or algebraic computation models like algebraic circuits, algebraic computation trees, and algebraic Turing Ma- chines. Sterling ( talk) 17:40, 4 January 2010 (UTC)
I would love for someone to explain the distinction, if any, between a disorganized system and a chaotic one. I am also troubled by the use of "random" attributed to Warren Weaver, excerpted below from the article. (Troubled substantively - not questioning the attribution. :) Emphasis added below.)
A prime example of disorganized complexity is a gas in a container, with the gas molecules as the parts. Some would suggest that a system of disorganized complexity may be compared, for example, with the (relative) simplicity of the planetary orbits—the latter can be known by applying Newton's laws of motion, though this example involved highly correlated events.
Organized complexity, in Weaver's view, resides in nothing else than the non-random, or correlated, interaction between the parts."
"God does not play dice with the universe" - wasn't that Einstein? I'm not clear that randomness is a valid scientific concept. Who would call the motion of the planets random? The Brownian motion of gas molecules may or may not be predictable with current technology, but it is surely as non-random as the motion of the planets: given an initial configuration, the correlation of the parts is described by Newtonian &/or quantum interactions.
74.211.52.135 ( talk) 03:52, 15 September 2010 (UTC)
I'm uncomfortable with the large map image currently in the article, because 1) its caption seems to promote an external website; 2) the copyright status of the image is not so clear--the upload says CC but the origin site doesn't say anything; 3) I'm not convinced that the image content is that helpful to the article, especially with such prominent placement (it seems like basically a buzzword graph). So I'm planning to remove it. Let me know of any concerns. 71.141.88.54 ( talk) 10:03, 11 February 2011 (UTC)
thanks for your concerns. to note, i am the author of the map and the educational webpage to which it links--i am a prof of soc and complexity and teach and do research on topic, as well as art. the map, which was published in my recent book, is extensively used by readers and students as an introduction to the field. if you noted in my comments on the edit history, i made a number of changes recently to the map in response to readers emailing me about small edits, names to add, fields to modify, etc. that is why there was recent activity on it. i have done that now for the past couple years. -- [[User talk:bcastel3 Bcastel3 ( talk) 18:04, 15 February 2011 (UTC)])
self-promotion and COI seems overstated, but i will remove the link. -- [[User talk:bcastel3 Bcastel3 ( talk) —Preceding undated comment added 00:45, 7 March 2011 (UTC).
Someone tried to edit the map. Thanks for the edit, but the image size for the complexity map has been that way for a long time. you give no good rationale for changing it other than your personal preference, which is not sufficient to a democratic environment where the main contributors have had no problem with the map image. Bcastel3 ( talk) 04:14, 15 June 2012 (UTC)
One of the definitions state: Warren Weaver has posited that the complexity of a particular system is the degree of difficulty in predicting the properties of the system, if the properties of the system's parts are given. While the definition is rather reasonable, it is unclear where he (Weaver) has said or even implied this. From his paper this assertion seems rather unsubstatiated. —Preceding unsigned comment added by 115.240.57.237 ( talk) 00:31, 24 May 2011 (UTC)
Definition: where is the citation? I read Weaver's paper for a couple of times, but I didn't find anything pointing to the given definition. I even searched the web to find the original definition, but noyhing similar to this definition. Albeit there was several duplication of the same, but no citation again. Even I can assert Weaver's description for disorganized complexity is opisite to that of given here as a definition. Weaver writes for disorganized complexity: "It is a problem in which the number of variables is very large, and one in which each of the many variables has a behavior which is individually erratic, or perhaps totally unknown." -- Fereidunian ( talk) 14:53, 28 July 2011 (UTC)
This looks like one of those articles that was put together some time ago based on a very partial set of readings. Its way out of date, fails to get the complex to complex adaptive systems use and generally lacks any depth or substance. I'm too engage in the field, with a particular perspective, but it would be a good article for someone to get to grips with if there are any volunteers. ---- Snowded TALK 04:20, 29 June 2013 (UTC)
When (the article says it was in 1948) a person called Warren discussed "organised complexity" as separate from "disorganised complexity", she was making an interesting (in my opinion) distinction. It seems to me that he was not IDENTIFYING two distinct concepts, nor was she really exploring complexity. Warren was illustrating/exploring the meaning contained in the conceptual idea/dimension/scale that I would label: "order > < chaos" I am happy to be corrected, but it seems to me that "complexity" is just a simple, derived noun, which can not realistically carry the responsibility of a Wikipedia article. 86.17.152.168 ( talk) 09:37, 11 December 2014 (UTC) I have now read some more about Mr Warren Weaver's and his work and ideas; he was quite a polymath. His 'classic' 'American Scientist' paper was published in 1948, entitled "Science and Complexity"; in it, he subdivided the problems addressed by science into three categories: simplicity, disorganised complexity and organised complexity. The paper is worth anybody's time to read, but it is clear to me that whatever Weaver wrote about situations that can be categorised using the compound noun 'organised complexity', there is no requirement for the simple word 'complexity' to be given a scientific or academic treatment. Leave it alone! 86.17.152.168 ( talk) 12:55, 11 December 2014 (UTC)
YES THERE IS A SIMPLE ONE WORD DISTINCT CONCEPT FOR 'COMPLEX'
It comes from the work of Ludwig Boltzmann on absolute entropy of any system of particles s = k.Log(W). W is the number of possible arrangements or microstates in a given macrostate which being just a number effectively measures the probability of that state existing (larger W = more probable). Without going into too much detail basically what Boltzmann did was put a quantitative scale on the axis of 'complexity' or 'order' as the absolute entropy(s) of the system. Which all just means..
This definition can be universally applied to any arrangement of matter, information or ideas. I have no good reference because the term 'entropy' is just as confused in the Wiki as this one and its all because supporters of evolution theory can't handle the true implications of the second law of thermodynamics.. (all states tend to move to their most probable state). Gyroman ( talk) 22:25, 2 September 2016 (UTC)
It seems the most basic concept of complexity is "non-uniformity". If some thing is uniform, it cannot be complex. Perhaps this can provide some starting point for the article. -- Lbeaumont ( talk) 13:43, 24 May 2015 (UTC)
I think you need to define what you mean by "non-uniformity." You've replaced a "complex" terminology with what could interpreted as an opaque one.
4.35.70.203 (
talk) 03:18, 27 November 2015 (UTC)
Wikibearwithme (
talk) 03:19, 27 November 2015 (UTC)
Much confusion in this article, based on conflation between what contemporary computer scientists like to hypothesize (however vague and flowery), and the central issue of observing natural systems (computers and human org's incuded) - the result is too many terminologies introduced without any adequate definition. I believe the broad definition of "no independence" is a noble start, and I disagree with the objections that defining "what complexity isn't" is not satisfactory - this is basically what the fundamental physical laws of thermo and electromag do.
Effectively Vague and Meaningless: "sensitivity to initial conditions," "emergent behavior" (please see fractals, brownian walks, etc), "non-linear" (in itself, can be perfectly deterministic and predictable), "adaptive systems" (fuzzy logic doesn't comprise physically meaningful complexity just because no one's watching) Wikibearwithme ( talk) 03:51, 27 November 2015 (UTC)
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