Action and perception for spatiotemporal patterns
Abstract
This is a contribution to the formalization of the concept of agents in multivariate Markov chains. Agents are commonly defined as entities that act, perceive, and are goal-directed. In a multivariate Markov chain (e.g. a cellular automaton) the transition matrix completely determines the dynamics. This seems to contradict the possibility of acting entities within such a system. Here we present definitions of actions and perceptions within multivariate Markov chains based on entity-sets. Entity-sets represent a largely independent choice of a set of spatiotemporal patterns that are considered as all the entities within the Markov chain. For example, the entity-set can be chosen according to operational closure conditions or complete specific integration. Importantly, the perception-action loop also induces an entity-set and is a multivariate Markov chain. We then show that our definition of actions leads to non-heteronomy and that of perceptions specialize to the usual concept of perception in the perception-action loop.
Cite
@article{arxiv.1706.03576,
title = {Action and perception for spatiotemporal patterns},
author = {Martin Biehl and Daniel Polani},
journal= {arXiv preprint arXiv:1706.03576},
year = {2018}
}
Comments
8 pages, 2 figures, accepted at the European Conference on Artificial Life 2017, Lyon, France