User:Anthony.Sebastian/CAS
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'Complex adaptive systems' refer to numerous types of complex systems characterized by their ability to “change and reorganize their component parts to adapt themselves to the problems posed by their surroundings”[1], exploiting one or more of the many types of adaptation, including Darwinian natural selection.
Examples of complex adaptive systems include biological organisms, the immune system, economic systems, ant colonies, ecosystems, developing embryos, developing biological organ systems, computerized virtual species, social systems, the brain in function and development, the stock market, language.
Such complex adaptive systems comprise a self-organized system of interacting components (or agents) that can change and learn in an adaptive way, a way that enables them to persist, with modification, through indefinite time, despite changing environmental conditions, in particular conditions that put the system’s endurance at risk. Pioneer elucidator, John Holland, describes them as similar in the sense of having an “evolving structure”.[1]
Background
• Systems
The New Oxford American Dictionary defines ‘system’ as:
a set of connected things or parts forming a complex whole, in particular: a set of things working together as parts of a mechanism or an interconnecting network: the state railroad system | fluid is pushed through a system of pipes or channels.[2] |
The human or animal body as a whole thus constitutes a system, as do a set of organs in the body with a common structure or function, for example the ‘endocrine system’ with its common function of hormonal modulation of target organ physiology.[2]
Scientists distinguish systems from the surroundings, or environment, that embeds them, implying some kind of boundary for the system, physical or virtual, across which interactions may occur with the environment depending on the nature of the system. An isolated system cannot interact with its environment, so sealed it cannot exchange information in the form of matter or energy with its surroundings.
An ‘open’ system can exchange matter and energy with its surroundings, possibly with selectivities, as in the case of the human body, which cannot exchange cannonballs or such large objects. We will see that complex adaptive systems qualify as open systems.
• Complex systems
• Adaptation
• Ability to evolve
• Aggregate behavior—emergent behavior
• Ability to anticipate—learning
• Self-organizing and self-maintaining
Notes
References
- ↑ 1.0 1.1 Holland JH. (1992) Complex Adaptive Systems. Daedalus 121(1):17-30. | Clicking on title will download full-text PDF.
- ↑ 2.0 2.1 New Oxford American Dictionary (3 ed.) Edited by Angus Stevenson, Christine A. Lindberg. Oxford University Press. Current Online Version: 2012. eISBN 9780199891535.