Management cybernetics is concerned with the application of cybernetics to management and organizations. "Management cybernetics" was first introduced by Stafford Beer in the late 1950s and introduces the various mechanisms of self-regulation applied by and to organizational settings, as seen through a cybernetics perspective. Beer developed the theory through a combination of practical applications and a series of influential books. The practical applications involved steel production, publishing and operations research in a large variety of different industries. Some consider that the full flowering of management cybernetics is represented in Beer's books. However, learning continues (see below).
As practiced by Beer, research into operations involved multidisciplinary teams seeking practical assistance for difficult managerial issues. It often involved the development of models borrowed from basic sciences and put into an isomorphic relationships with an organizational situation. Beer initially called this "operations research" (OR) but, along with Russell Ackoff, became increasingly disenchanted with that term as the field transitioned into one in which a predefined set of mathematical tools was applied to well-formulated problems. Beer's critique of traditional OR, in part, was that it became a matter of experts in mathematics looking for situations that could be conformed to their methods. Beer insisted that what was needed for effective research into operations was to first understand the key dynamics within the situation and only then to select the theory or methods that would allow one to understand that situation in detail. Beer's "Decision and Control", especially chapter six, discusses the methodology in some detail.
Viable means capable of independent existence and implies both maintaining internal stability and adaptation to a changing environment. "Internal stability" and "adaptation" can be in conflict, particularly if the relevant environment is changing rapidly, so the viable system model (VSM) is about maintaining a balance between the two such that the system is able to survive.
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Cybernetics is a wide-ranging field concerned with circular causal processes such as feedback. Norbert Wiener named the field after an example of circular causal feedback—that of steering a ship where the helmsman adjusts their steering in response to the effect it is observed as having, enabling a steady course to be maintained amongst disturbances such as cross-winds or the tide.
Viable system theory (VST) concerns cybernetic processes in relation to the development/evolution of dynamical systems. They are considered to be living systems in the sense that they are complex and adaptive, can learn, and are capable of maintaining an autonomous existence, at least within the confines of their constraints. These attributes involve the maintenance of internal stability through adaptation to changing environments. One can distinguish between two strands such theory: formal systems and principally non-formal system.
Autonomous agency theory (AAT) is a viable system theory (VST) which models autonomous social complex adaptive systems. It can be used to model the relationship between an agency and its environment(s), and these may include other interactive agencies. The nature of that interaction is determined by both the agency's external and internal attributes and constraints. Internal attributes may include immanent dynamic "self" processes that drive agency change.
Chlorinated compounds are ubiquitous. However, accumulation of chlorine-containing waste has a negative impact on human health and the environment due to the inapplicability of common disposal methods, such as landfill and incineration. Here we report a su ...
The article links two seemingly different fundamental theoretical concepts of autopoiesis and homeostasis and tries to apply them to the realm of socio-technical systems with the use of the Fractal Enterprise Model (FEM). Autopoiesis is the property of a s ...
2020
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Metasurfaces (MSs) are the 2-D equivalent of metaterials, the latter being a class of artificial engineered materials exhibiting peculiar electromagnetic properties [1], [2]. Generally constructed as arrays of deeply sub-wavelength resonant particles on a ...