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      Quantum contextuality in classical information retrieval

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          Abstract

          Document ranking based on probabilistic evaluations of relevance is known to exhibit non-classical correlations, which may be explained by admitting a complex structure of the event space, namely, by assuming the events to emerge from multiple sample spaces. The structure of event space formed by overlapping sample spaces is known in quantum mechanics, they may exhibit some counter-intuitive features, called quantum contextuality. In this Note I observe that from the structural point of view quantum contextuality looks similar to personalization of information retrieval scenarios. Along these lines, Knowledge Revision is treated as operationalistic measurement and a way to quantify the rate of personalization of Information Retrieval scenarios is suggested.

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          On the statistical meaning of complex numbers in quantum mechanics

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            Memory cost of quantum contextuality

            The simulation of quantum effects requires certain classical resources, and quantifying them is an important step in order to characterize the difference between quantum and classical physics. For a simulation of the phenomenon of state-independent quantum contextuality, we show that the minimal amount of memory used by the simulation is the critical resource. We derive optimal simulation strategies for important cases and prove that reproducing the results of sequential measurements on a two-qubit system requires more memory than the information carrying capacity of the system.
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              Quantum Logics

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                Author and article information

                Journal
                25 May 2012
                Article
                1205.5632
                864dd8b6-890b-4dc4-967f-5a13b3ebd109

                http://arxiv.org/licenses/nonexclusive-distrib/1.0/

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                Custom metadata
                81P13
                11 pages
                cs.IR

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