Diederik Aerts, Liane Gabora
Published 2004-02-26Version 1
We propose a theory for modeling concepts that uses the state-context-property theory (SCOP), a generalization of the quantum formalism, whose basic notions are states, contexts and properties. This theory enables us to incorporate context into the mathematical structure used to describe a concept, and thereby model how context influences the typicality of a single exemplar and the applicability of a single property of a concept. We introduce the notion `state of a concept' to account for this contextual influence, and show that the structure of the set of contexts and of the set of properties of a concept is a complete orthocomplemented lattice. The structural study in this article is a preparation for a numerical mathematical theory of concepts in the Hilbert space of quantum mechanics that allows the description of the combination of concepts (see quant-ph/0402205)
Comments: 20 pages, to appear in the journal 'Kybernetes' in the Summer of 2004
Journal: Kybernetes, 34, pp. 167-191, 2005.
Geometry of the Hilbert space and the Quantum Zeno Effect
Teleporting a quantum state in a subset of the whole Hilbert space
Distribution of local entropy in the Hilbert space of bi-partite quantum systems: Origin of Jaynes' principle
