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Self‐organization is a core concept of Systems Science. It refers to the ability of a class ofsystems (self‐organizing systems (SOS)) to change their internal structure and/or their function in response to external circumstances.
The key characteristic of self-organization is self-reference. A system is self-referential when the elements or components that build it constitute themselves as functional units, in other words, when they operate in reference to a systemic interrelationship. Every system has its own logic and dynamics with a potential for order.
Abstract— In its unparalleled wisdom nature creates adaptively complex self-organizing systems (SOS), which produce the dynamic (i.e., through-time) behavior patterns that physicists and life scientists see. A system is an organized group of interacting components working together for a purpose.
Self-organization occurs in many physical, chemical, biological, robotic, and cognitive systems. Examples of self-organization include crystallization, thermal convection of fluids, chemical oscillation, animal swarming, neural circuits, and black markets.
4 de ago. de 2010 · In this chapter we address the less understood question of self-organisation. That is, how do intrinsic properties, interactions between elements and other factors act to create order within complex systems? The question of self-organisation is one of the central issues in the study of complexity.
definition: Self-organization is a process in which pattern at the global level of a system emerges solely from numerous interactions among the lower-level components of the system.
9 de abr. de 2018 · Self-organization refers to the emergence of an overall order in time and space of a given system that results from the collective interactions of its individual components. This concept has been widely recognized as a core principle in pattern formation for multi-component systems of the physical, chemical and biological world.
