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Karl Ludwig von Bertalanffy (19 September 1901 – 12 June 1972) was an Austrian biologist known as one of the founders of general systems theory (GST). This is an interdisciplinary practice that describes systems with interacting components, applicable to biology , cybernetics and other fields.
General Systems Theory (GST) laid the foundation to systemic thinking. Ludwig Von Bertalanffy was known as the founder of the original principles of GST. [1] Prior to 1968, when GST was introduced in Bertalanffy’s book, General System Theory: Foundations, Development, Applications, the traditional approach to development used linear thinking or cause-and-effect thinking.
In the beginnings, general systems theory was developed by Ludwig von Bertalanffy to overcome the over-specialisation of the modern times and as a worldview using holism. The systems theories nowadays are closer to the traditional specialisation than to holism, by interdependencies and mutual division by mutually-different specialists.
Systems theory is manifest in the work of practitioners in many disciplines, for example the works of physician Alexander Bogdanov, biologist Ludwig von Bertalanffy, linguist Béla H. Bánáthy, and sociologist Talcott Parsons; in the study of ecological systems by Howard T. Odum, Eugene Odum; in Fritjof Capra's study of organizational theory; in the study of management by Peter Senge; in ...
Equifinality is the principle that in open systems a given end state can be reached by many potential means. The term and concept is due to the German Hans Driesch, the developmental biologist, later applied by the Austrian Ludwig von Bertalanffy, the founder of general systems theory, and by William T. Powers, the founder of perceptual control theory.
W. Ross Ashby, "General systems theory as a new discipline," General Systems Yearbook, 3, (1958). Charles A. McClelland, "Systems and History in International Relations," General Systems Yearbook, III (1958). The General Systems Yearbook also contains examples of the third kind of general systems activity — creating new laws and refining old. [3]
The Systems View of the World: The Natural Philosophy of the New Developments in the Sciences. George Braziller. Laszlo, E. (1973). A Systems Philosophy of Human Values. Systems Research and Behavioral Science, 18(4), 250–259. Laszlo, E. (1996). The Systems View of the World: a Holistic Vision for our Time. Cresskill NJ: Hampton Press. Laszlo ...
Self-organizing systems: Systems that typically (though not always) display emergent properties. Steady state: A state in which the variables (called state variables) which define the behavior of a system or a process are unchanging in time. In chemistry, it is a more general situation than dynamic equilibrium.