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Meaningful information, sensor evolution, and the temporal horizon of embodied organisms

Chrystopher L. Nehaniv, Daniel Polani, Kerstin Dautenhahn, René te Beokhorst, Lola Cañamero

Year
2002
Citations
31

Abstract

We survey and outline how an agent-centered, information-theoretic approach to meaningful information extending classical Shannon information theory by means of utility measures relevant for the goals of particular agents can be applied to sensor evolution for real and constructed organisms. Furthermore, we discuss the relationship of this approach to the programme of freeing artificial life and robotic systems from reactivity, by describing useful types of information with broader temporal horizon, for signaling, communication, affective grounding, two-process learning, individual learning, imitation and social learning, and episodic experiential information (memories, narrative, and culturally transmitted information).

Keywords

Experiential learningImitationEmbodied cognitionComputer scienceNarrativeCognitive scienceHorizonInformation theoryArtificial intelligenceHuman–computer interaction

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