Volume 8 No 3 (2010)
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Quantum Mechanics Meets Cognitive Science: Explanatory vs Descriptive Approaches
Reinhard Blutner
Abstract
We reflect on several aspects of the general claim that a quantum‐like
approach to Cognitive Science is advantageous over classical approaches.
The classical approaches refer to the symbolic approaches including models
using a classical (Kolmogorov) probability calculus. The general claim seems
to be right from a descriptive viewpoint but not necessarily from an
explanatory viewpoint. The explanatory perspective needs a more careful
analysis since adding some additional arbitrary parameters (such as phase
shift parameters in quantum probabilities) does not automatically increase
the explanatory value of the approach; rather, it seems to decrease it. We
argue further that there is another class of traditional models – the class of
geometric models of cognition. These models have a much longer tradition
than the symbolic models. Interestingly, quantum mechanics does not
contradict the geometric models. Hence, real progress at the meeting
between quantum mechanics and cognitive science could be made by
unifying these geometric models with ideas from quantum theory.
Keywords
Quantum theory, interference effects, Jung, symbolic models, geometric models, quantum cognition
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