Cybernetics
Cybernetics[1] is the study of control and communication in the animal and the machine.[2] Norbert Wiener added: "Information is information, not matter or energy".[2]155
Ross Ashby defined it as: "the art of steermanship... co-ordination, regulation and control will be its themes, for these are of the greatest biological and practical interest... it treats, not things but ways of behaving. It does not ask “what is this thing?” but “what does it do?”[3] Ashby continued:
- "Cybernetics stands to the real machine—electronic, mechanical, neural, or economic—much as geometry stands to a real object in our terrestrial space".[3]
Louis Couffignal said cybernetics was "the art of ensuring the efficacy of action".[4]
Cybernetics was from the first an inter-disciplinary field of study. It included people from at least a dozen academic disciplines. There were two events which sparked it off after World War II. The first was that scientists from different backgrounds had, during the war, worked together on various military projects. They learned a good deal about how to cooperate with their various partners. The second event was the invention of computers during the war.
The countries which started cybernetics were Britain and the United States, but the idea spread quickly to France, Russia and other countries. Another, more famous, example of 'interdisciplinary studies' was molecular and cell biology.
The building block
[change | change source]Imagine a simple system such as a central heating system.
A goal-directed or control system has these four parts:
- Sensor (S): test the system's environment.
- Goal (G): the specification of the desired state of the system.
- Error Detection (E): a method for finding the difference between the present state and the goal state.
- Effector (E'): operations the system can make to get the environment closer to the goal.[5]
The device which does this is called a thermostat.
Later years
[change | change source]Cybernetics started rapidly, and some of the greatest thinkers of the post-war era were interested in it. When this generation died, and some of the hopes for artificial intelligence and robotics were slow to produce results, cybernetics fell somewhat out of favour.[6]
Related pages
[change | change source]References
[change | change source]- ↑ The term cybernetics (the Greek κυβερνήτης) means a governor or pilot.
- ↑ 2.0 2.1 Wiener N. 1948: Cybernetics, or control and communication in the animal and the machine. Wiley, New York 1948. 2nd revised ed. 1961. ISBN 9780262730099
- ↑ 3.0 3.1 W. Ross Ashby 1956. Introduction to Cybernetics. Methuen, London, UK. PDF text.
- ↑ Couffignal, Louis, "Essai d’une définition générale de la cybernétique", The First International Congress on Cybernetics, Namur, Belgium, June 26–29, 1956, Gauthier-Villars, Paris, 1958, pp. 46-54
- ↑ Pask, Gordon 1972. Cybernetics Archived 2011-09-28 at the Wayback Machine, entry in Encyclopædia Britannica.
- ↑ Cariani, Peter 2010. On the importance of being emergent. Constructivist Foundations 5 (2): 89. "Artificial intelligence was born at a conference at Dartmouth in 1956 that was organized by McCarthy, Minsky, Rochester, and Shannon, three years after the Macy conferences on cybernetics had ended (Boden 2006; McCorduck 1972). The two movements coexisted for roughly a decade, but by the mid-1960s, the proponents of symbolic AI gained control of national funding conduits and ruthlessly defunded cybernetics research. This effectively liquidated the subfields of self-organizing systems, neural networks and adaptive machines, evolutionary programming, biological computation, and bionics for several decades, leaving the workers in management, therapy and the social sciences to carry the torch"