Albert Hanken

Albert Frederik Gerhard Hanken (born 9 October 1926, Hillegersberg),[1][2] is a Dutch mathematician, inventor, and Emeritus Professor of systems theory at the University of Twente, known for his contributions to the field of systems theory and social analysis.[3][4]

Biography

Hanken studied mathematics and physics at the University of Twente and the VU University Amsterdam, and received his PhD in 1954 at the Ohio State University with the thesis, entitled "A method and a model for the analysis and description of car-following performance."

From 1955 to 1967 Hanken studied and worked in the United States. Early 1960s he worked for the Industrial Nucleonics Corporation in Ohio, where he developed and patented several measuring systems. From 1965 to 1967 he taught systems engineering at the Georgia Institute of Technology. In 1967 he moved back to the Netherlands to teach systems theory at the University of Twente and the Eindhoven University of Technology. From 1974 to 1986 he was Professor of Systems Theory at the University of Twente, specifically focussing on systems concepts and methods in the social sciences. Among his students were Ton de Leeuw en Walter Kickert.

Hanken made an important contribution to the introduction and spreading of systems theory in the Netherlands. In 1970 with Gerard de Zeeuw he cofounded the Dutch Systems Group.[5]

After his retirement in 1986 Hanken published several books on Eastern philosophy and mysticism.

Work

Cybernetics and Society, 1981

In his 1981 "Cybernetics and Society: An Analysis of Social Systems," Hanken explains, that there are different ways to analyse societies as a social systems. A common approach is to see society as a network of interacting persons or groups, called actors. In the those days these actors where "usually represented by either stimulus response or normative models."[6]

The problem with these analysis-techniques of social systems was, that they were not detailed enough. According to Hanken, they didn't "include a number of essential psychological attributes."[6] In his work he proposed to extend the existing methods, and presents a framework to make this possible.

Classification of social systems

Hanken (1981) argued that in the social systems can be classified in three main types:[7]

This systems differ in ways of decision-making, social interaction, dominance relationship, principles of coordination, communication, bargaining, coalitions, etc.

The social system itself can be pictured with three types of subsystems:[8]

Furthermore these systems contain five essential variables: the control variables, the input variables, the state variables, the output variables, and the information variables.

Reception

In the sociocybernetics of the 1980s, it was an ongoing question what constitutes social systems. In his 1981 Cybernetics and Society, Hanken stated that social systems consists of actors, inline with Tom Baumgartner in his 1978 paper entitled "An actor-oriented systems model for the analysis of industrial democracy measures." Other scientists in those days defined the components of social systems simply as individuals, or communications.[4]

In summarizing the different approaches in cybernetics on evaluation processes Levin-Rozalis (2010) stated that developments has led to "relativist and subjective perceptions of knowledge."[9] Is this matter Hanken (1981) had shown that "two actors in the same system will not absorb the same information from sources either outside or inside the system, nor will they perceive or weight it in the same way."[9]

Selected publications

Articles, a selection

Patents

References

  1. Dr. A.F.G. Hanken bio
  2. Birth advertisement
  3. Kickert, Walter JM. Fuzzy theories on decision making: A critical review. Vol. 3. Springer, 1978.
  4. 1 2 Geyer, Felix, and Johannes van der Zouwen. "Cybernetics and social science: theories and research in sociocybernetics." Kybernetes 20.6 (1991): 81–92.
  5. Gerard de Zeeuw (2006), "A forgotten message? von Bertalanffy's puzzle" in: Kybernetes, Vol 35 Issue 3/4, pp. 433–440 DOI: 10.1108/03684920610653728
  6. 1 2 Hanken (1981, intro)
  7. Hanken (1981, content)
  8. Hanken (1981, p. 6)
  9. 1 2 Levin-Rozalis, Miri. "Cybernetics: A possible solution for the “knowledge gap” between “external” and “internal” in evaluation processes." Evaluation and program planning 33.4 (2010): 333–342.
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