Extending Dynamical Systems Theory to Model Embodied Cognition

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Cognitive Science 35 (3):444-479 (2011)
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Abstract

We define a mathematical formalism based on the concept of an ‘‘open dynamical system” and show how it can be used to model embodied cognition. This formalism extends classical dynamical systems theory by distinguishing a ‘‘total system’’ (which models an agent in an environment) and an ‘‘agent system’’ (which models an agent by itself), and it includes tools for analyzing the collections of overlapping paths that occur in an embedded agent's state space. To illustrate the way this formalism can be applied, several neural network models are embedded in a simple model environment. Such phenomena as masking, perceptual ambiguity, and priming are then observed. We also use this formalism to reinterpret examples from the embodiment literature, arguing that it provides for a more thorough analysis of the relevant phenomena

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10.1111/j.1551-6709.2010.01151.x

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Jeff Yoshimi
University of California, Merced

Citations of this work

Neural Representations Observed.Eric Thomson & Gualtiero Piccinini - 2018 - Minds and Machines 28 (1):191-235.
Towards a computational theory of experience.Tomer Fekete & Shimon Edelman - 2011 - Consciousness and Cognition 20 (3):807-827.

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References found in this work

The Principles of Psychology.William James - 1890 - London, England: Dover Publications.
Action in Perception.Alva Noë - 2004 - MIT Press.

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