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The distinction between first and second-order cybernetics is sometimes used as a form of periodisation, while can obscure the continuity between earlier and later cybernetics, [note 3] [34] with what would come to be called second-order qualities evident in the work of cyberneticians such as Warren McCulloch [7] and Gregory Bateson, [1] and ...
Cybernetics, according to Wiener's definition, is the science of "control and communication in the animal and the machine". Heinz von Foerster went on to distinguish a first order cybernetics, "the study of observed systems", and a second order cybernetics, "the study of observing systems".
Second-order cybernetics: Also known as the cybernetics of cybernetics, second-order cybernetics is the recursive application of cybernetics to itself and the practice of cybernetics according to such a critique. Schismogenesis; Self-organisation; Social systems theory; Syntegrity; Variety and Requisite Variety; Viable system model
Cybernetics is a transdisciplinary approach for exploring regulatory systems with feedback, their structures, constraints, and possibilities. Cybernetics is relevant to the study of systems, such as mechanical, physical, biological, cognitive, and social .
First Cybernetics Conference, 21–22 March 1946. Titled "Feedback Mechanisms and Circular Causal Systems in Biological and Social Systems". [22] Second Cybernetics Conference, 17–18 October 1946. Title changed to "Teleological Mechanisms and Circular Causal Systems" Third Cybernetics Conference, 13–14 March 1947.
ASC Glossary on Cybernetics and Systems Theory [2] Disciplinary Matrices in Cybernetics and Systems Science [3] Wiener and McCulloch awards; The American Society for Cybernetics was founded in 1964 in Washington, DC to encourage new developments in cybernetics as an interdisciplinary field (with Warren McCulloch as first elected president of ...
Cybernetics is concerned with feedforward and feedback processes, and first-order cybernetics is concerned with this relationship between the system and its environment. Second-order cybernetics is concerned with the relationship between the system and its internal meta-system (that some refer to as "the observer" of the system).
The importance of phase locking or the "attraction of frequencies", as he called it, is discussed in the 2nd edition of his "Cybernetics". [14] Drexler sees self-replication (copying) as a key step in nano and universal assembly. [15] In later work he seeks to lessen this constraint. [16]