dimension of the world, of biology, psychology, and culture is seen to be a direct manifestation of it. A more detailed discussion on intentional dynamics and the nomological basis for meaningful relations is beyond the scope of this paper, and is provided elsewhere (1-5)


1. SWENSON, R. 1999. Epistemic ordering and the development of space-time: intentionality as a universal entailment. Semiotica. In press.

2. SWENSON,, R. 1998. Spontaneous order, evolution, and autocatakinetics: The nomological basis for the emergence of meaning. In Evolutionary Systems. G. Van de Vijver, S. Salthe & M. Delpos, Eds. :155-180. Kluwer Academic Publishers. Dordrecht, The Netherlands.

3. SWENSON, R. 1997. Autocatakinetics, evolution, and the law of maximum entropy production: a principled foundation toward the study of human ecology. Adv. Hum. Ecol. 6: 1-46.

4. SWENSON,, R. 1998. Autocatakinetics, the minimal ontology, and the constitutive logic of ecological relations. Jap. J. Cont. Phil. 25: 234-245. (Japanese.)

5. SWENSON, R. 1997. Thermodynamics, evolution, and behavior. In Comparative Psychology: A Handbook. G. Greenberg & M. Haraway, Eds. :207-218. Garland Publishing. New York.

6. SWENSON, R. & M.T. TURVEY. 1991. Thermodynamic reasons for perception-action cycles. Ecol. Psych. 4: 317-348.

7. SWENSON,, R. 1997. Evolutionary theory developing: the problem(s) with Darwin's Dangerous Idea. Ecol. Psych. 9: 47-96.

8. SWENSON, R. 1992. Autocatakinetics, yes, autopoiesis, no: steps towards a unified theory of evolutionary ordering. Int. J. Gen. Syst. 21: 207228.

9. MATSUNO, K. 1999. The clock and its triadic relationship. Semiotica. In press.

10. MATSONO, K. & R. SWENSON. 1999. Thermodynamics in the present progressive mode and it's role in the context of the origin of life. Biosystems. In press.

11. SWENSON, R. 1989. Gauss-in-a-box: nailing down the first principles of action. PerceivingActing Workshop Review (Technical Report of the Center for the Ecological Study of Perception and Action) 5: 60-63.

12. SWENSON, R. 1989. Engineering initial conditions in a self-producing environment. In A Delicate Balance: Technics, Culture and Consequences. M. Rogers & N. Warren, Eds. :68-73. Institute of Electrical and Electronic Engineers. Los Angeles, CA.

13. SWENSON5 R. 1991. End-directed physics and evolutionary ordering: obviating the problem of the population of one. In The Cybernetics of Complex Systems: SelfOrganization, Evolution, and Social Change. F. Geyer, Ed. :41-60. Intersystems Publications. Salinas, CA.

14. SWENSON, R. 1991. Order, evolution, and natural law: fundamental relations in complex system theory. In Cybernetics and Applied Systems, C. Negoita, Ed. :125-148. Marcel Dekker Inc. New York.

15. BOLTZMANN,, L. 1974. The second law of thermodynamics. In Theoretical Physics and Philosophical Problems. 13-32. D. Reidel Publishing. Boston, MA.

16. VON BERTALANFFY, L. 1952. Problems of Life. Watts. London.

17. SCHRODINGER, E. 1945. What is Life? Macmillan. New York.

18. PRIGOGINE,, 1. 1978. Time, structure, and fluctuations. Science 201: 777-782.

19. SWENSON.) R. 1989. Emergent attractors and the law of maximum entropy production: foundations to a theory of general evolution. Syst. Res. 6: 187-198.