Intelligence as adaptive behavior: an experiment in computational neuroethology
Intelligence as adaptive behavior: an experiment in computational neuroethology
A dynamical systems perspective on agent-environment interaction
Artificial Intelligence - Special volume on computational research on interaction and agency, part 1
Mind as motion: explorations in the dynamics of cognition
Mind as motion: explorations in the dynamics of cognition
Being There: Putting Brain, Body, and World Together Again
Being There: Putting Brain, Body, and World Together Again
Understanding Computers and Cognition: A New Foundation for Design
Understanding Computers and Cognition: A New Foundation for Design
Principles of Minimal Cognition: Casting Cognition as Sensorimotor Coordination
Adaptive Behavior - Animals, Animats, Software Agents, Robots, Adaptive Systems
Software Engineering for Ensembles
Software-Intensive Systems and New Computing Paradigms
Enactive artificial intelligence: Investigating the systemic organization of life and mind
Artificial Intelligence
Autonomy: a review and a reappraisal
ECAL'07 Proceedings of the 9th European conference on Advances in artificial life
The role of identity in agent design
Proceedings of the 11th International Conference on Autonomous Agents and Multiagent Systems - Volume 3
How universal can an intelligence test be?
Adaptive Behavior - Animals, Animats, Software Agents, Robots, Adaptive Systems
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Maturana and Varela's notion of autopoiesis has the potential to transform the conceptual foundation of biology as well as the cognitive, behavioral, and brain sciences. In order to fully realize this potential, however, the concept of autopoiesis and its many consequences require significant further theoretical and empirical development. A crucial step in this direction is the formulation and analysis of models of autopoietic systems. This article sketches the beginnings of such a project by examining a glider from Conway's game of life in autopoietic terms. Such analyses can clarify some of the key ideas underlying autopoiesis and draw attention to some of the central open issues. This article also examines the relationship between an autopoietic perspective on cognition and recent work on dynamical approaches to the behavior and cognition of situated, embodied agents.