Philosophy-Guided Modelling and Implementation of Adaptation and Control in Complex Systems

TL;DR

This paper extends a philosophy-inspired system modeling method with cybernetic concepts of control and adaptation, demonstrating how philosophical theories can inform the formal modeling and implementation of complex adaptive systems.

Contribution

It introduces an extension to the allagmatic method incorporating control and adaptation based on Whitehead's philosophy, linking abstract philosophical concepts with formal system modeling and implementation.

Findings

Formal description of control and adaptation concepts

Implementation of these concepts in program code

Experimental validation through simple system models

Abstract

Control was from its very beginning an important concept in cybernetics. Later on, with the works of W. Ross Ashby, for example, biological concepts such as adaptation were interpreted in the light of cybernetic systems theory. Adaptation is the process by which a system is capable of regulating or controlling itself in order to adapt to changes of its inner and outer environment maintaining a homeostatic state. In earlier works we have developed a system metamodel that on the one hand refers to cybernetic concepts such as structure, operation, and system, and on the other to the philosophy of individuation of Gilbert Simondon. The result is the so-called allagmatic method that is capable of creating concrete models of systems such as artificial neural networks and cellular automata starting from abstract building blocks. In this paper, we add to our already existing method the cybernetic concepts of control and especially adaptation. In regard to the system metamodel, we rely again on philosophical theories, this time the philosophy of organism of Alfred N. Whitehead. We show how these new meta-theoretical concepts are described formally and how they are implemented in program code. We also show what role they play in simple experiments. We conclude that philosophical abstract concepts help to better understand the process of creating computer models and their control and adaptation. In the outlook we discuss how the allagmatic method needs to be extended in order to cover the field of complex systems and Norbert Wiener's ideas on control.