'Feeling'the flow of time through sensorimotor co-ordination

E Tuci, V Trianni, M Dorigo - Connection Science, 2004 - Taylor & Francis
Connection Science, 2004Taylor & Francis
In this paper, we aim to design decision-making mechanisms for a simulated Khepera robot
equipped with simple sensors, which integrates over time its perceptual experience in order
to initiate a simple signalling response. Contrary to other previous similar studies, in this
work the decision-making is uniquely controlled by the time-dependent structures of the
agent controller, which in turn are tightly linked to the mechanisms for sensorimotor
coordination. The results of this work show that a single dynamic neural network, shaped by …
In this paper, we aim to design decision-making mechanisms for a simulated Khepera robot equipped with simple sensors, which integrates over time its perceptual experience in order to initiate a simple signalling response. Contrary to other previous similar studies, in this work the decision-making is uniquely controlled by the time-dependent structures of the agent controller, which in turn are tightly linked to the mechanisms for sensorimotor coordination. The results of this work show that a single dynamic neural network, shaped by evolution, makes an autonomous agent capable of ‘feeling’ time through the flow of sensations determined by its actions. Further analysis of the evolved solutions reveals the nature of the selective pressures that facilitate the evolution of fully discriminating and signalling agents. Moreover, we show that, by simply working on the nature of the fitness function, it is possible to bring forth discrimination mechanisms that generalize to conditions never encountered during evolution.
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