ITHEA International Scientific Society : OPERATING MODEL OF KNOWLEDGE QUANTUM ENGINEERING ...

ITHEA Classification Structure > I. Computing Methodologies > I.2 ARTIFICIAL INTELLIGENCE > I.2.3 Deduction and Theorem Proving

OPERATING MODEL OF KNOWLEDGE QUANTUM ENGINEERING ...
By: Liudmyla Molodykh, Igor Sirodzha (3977 reads)

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Abstract: The operating model of knowledge quantum engineering for identification and prognostic decisionmaking in conditions of α-indeterminacy is suggested in the article. The synthesized operating model solves three basic tasks: Аt-task to formalize tk-knowledge; Вt-task to recognize (identify) objects according to observed results; Сt-task to extrapolate (prognosticate) the observed results. Operating derivation of identification and prognostic decisions using authentic different-level algorithmic knowledge quantum (using tRAKZ-method) assumes synthesis of authentic knowledge quantum database (BtkZ) using induction operator as a system of implicative laws, and then using deduction operator according to the observed tk-knowledge and BtkZ a derivation of identification or prognostic decisions in a form of new tk-knowledge.

Keywords: operating model, decision-making object, knowledge quantum database, target feature, method of different-level algorithmic knowledge quantum, implicative law.

ACM Classification Keywords: I.2.3 Deduction and Theorem Proving; I.2.4 Knowledge Representation Formalisms and Methods; I.2.5 Programming Languages and Software

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OPERATING MODEL OF KNOWLEDGE QUANTUM ENGINEERING FOR DECISION-MAKING IN CONDITIONS OF INDETERMINACY

Liudmyla Molodykh, Igor Sirodzha

http://www.foibg.com/ijita/vol14/ijita14-1-p11.pdf

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I.2.3 Deduction and Theorem Proving

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