Abstract
By assigning coordinates to the environmental function space comprising all physical and mental stimuli, mathematical interpretations can be based on such terms as adaptability, and reactivity which relate to individuals interacting with their environment within a society. These psychometric concepts are incorporated into a framework of functional analysis, which permits the optimization of social change by maximizing the satisfaction integral through the use of variational or dynamic programming methods in conjunction with some optimal social policy. The approach provides a mathematical connection between psychology and sociology, and further demonstrates that existing forms of government are simulated by differential equations belonging to the same general class. The synthesis of new classes of functional equations describing social progress is visualized as a legitimate objective for abstract mathematical sociology.
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Literature
Bellman, R. 1957.Dynamic Programming. Princeton, New Jersey: Princeton University Press.
Gelfand, I. M. and S. V. Fomin. 1963.Calculus of Variations. (Translated from the Russian by S. A. Silverman.) Englewood Cliffs, New Jersey: Prentice-Hall.
Houghton, G. 1965. “Academic Learning, A Variational Model.”Bull. Math. Biophysics,28, 75–90.
Rapoport, A. 1947a. “Mathematical Theory of Motivation Interactions of Two Individuals.”Bull. Math. Biophysics,9, 17–28.
— 1947b. “Mathematical Theory of Motivation Interactions of Two Individuals: II.”Ibid.,9, 41–61.
— 1947c. “Forms of Output Distribution Between Two Individuals Motivated by a Satisfaction Function.”Ibid.,9, 109–122.
Rashevsky, N. 1947a. “A Problem in the Mathematical Biophysics of the Interaction of Two or More Individuals Which May Be of Interest in Mathematical Sociology.”Bull. Math. Biophysics,9, 9–15.
— 1947b.Mathematical Theory of Human Relations. Bloomington, Indiana: Principia Press.
— 1959.Mathematical Biology of Social Behavior. Chicago: The University of Chicago Press.
— 1961a. “On the Mutual Influence of Individuals in a Society.”Bull. Math. Biophysics,23, 15–18.
— 1961b. “A Contribution to the Theory of Egoistic and Altruistic Interactions.”Ibid.,23, 115–134.
— 1963. “A Variational Problem in Biology and Sociology.”Ibid.,25, 297–301.
Rosen, R. 1962. “The Derivation of D’Arcy Thompson’s Theory of Transformations from the Theory of Optimal Design.”Bull. Math. Biophysics,24, 279–290.
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Houghton, G. Optimal models for social change. Bulletin of Mathematical Biophysics 29, 841–862 (1967). https://doi.org/10.1007/BF02476932
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DOI: https://doi.org/10.1007/BF02476932