Computation and cognition: toward a foundation for cognitive science
Computation and cognition: toward a foundation for cognitive science
Knowledge engineering and management: the CommonKADS methodology
Knowledge engineering and management: the CommonKADS methodology
Computer science as empirical inquiry: symbols and search
Communications of the ACM
Situated Cognition: On Human Knowledge and Computer Representations
Situated Cognition: On Human Knowledge and Computer Representations
Autonomous robotic systems
Intelligence Without Reason
On some of the neural mechanisms underlying adaptive behavior
IDEAL'06 Proceedings of the 7th international conference on Intelligent Data Engineering and Automated Learning
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Virtually from its origins, with Turing and McCulloch's formulations, the use of the computational paradigm as a conceptual and theoretical framework to explain neurophysiology and cognition has aroused controversy. Some of the objections raised, relating to its constitutive and formal limitations, still prevail. We believe that others stem from the assumption that its objectives are different from those of a methodological approximation to the problem of knowing. In this work we start from the hypothesis that it is useful to look at the neuronal circuits assuming that they are the neurophysiological support of a calculus, whose full description requires considering three nested levels of organization, one of circuits, other of neurophysiological symbols and another of knowledge, and two description domains, the intrinsic to each level and that of the external observer.