Quantum Cognitive Triad. Semantic geometry of context representation. (arXiv:2002.11195v1 [q-bio.NC])

The paper describes an algorithm for cognitive representation of triples of
related behavioral contexts two of which correspond to mutually exclusive
states of some binary situational factor while uncertainty of this factor is
the third context. The contexts are mapped to vector states in the
two-dimensional quantum Hilbert space describing a dichotomic decision
alternative in relation to which the contexts are subjectively recognized. The
obtained triad of quantum cognitive representations functions as a minimal
carrier of semantic relations between the contexts, which are quantified by
phase relations between the corresponding quantum representation states. The
described quantum model of subjective semantics supports interpretable vector
calculus which is geometrically visualized in the Bloch sphere view of quantum
cognitive states.

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