Autonomous & Self-Sensitive Organisms, Behaviours and Ecological Systems
Abstract. The enactive concept of autonomy refers to a precarious, “operationally closed” network of interdependent components, where each constituitive component both depends upon and enables other components. Originally formulated as a description of the basic organization of living systems, the idea has been applied in a variety of domains.
In this talk, I will touch on three of these domains. First I will briefly review previous work that shows how autonomous biological individuals (such as bacterial cells) can respond to indicators of their own viability.
I will then present some recent investigations of autonomous sensorimotor dynamics, and highlight an open challenge concerning how autonomous patterns of sensorimotor behaviour might similarly adapt to their own viability.
Finally, I will consider autonomy in the context of ecological systems, and how these systems might be able to respond adaptively to their own viability. This final section of the talk outlines some very early-stage research I am engaged in that relates to Lovelock’s Gaia theory.