Conceptual blending is a mental process that serves a variety of cognitive purposes, including human creativity. In this line of thinking, human creativity is modeled as a process that takes different mental spaces as input and combines them into a new mental space, called a blend. According to this form of combinational creativity, a blend is constructed by taking the commonalities among the input mental spaces into account, to form a so-called generic space, and by projecting the non-common structure of the input spaces in a selective way to the novel blended space. Since input spaces for interesting blends are often initially incompatible, a generalisation step is needed before they can be blended. In this paper, we apply this idea to blend input spaces specified in the description logic + + and propose an upward refinement operator for generalising + + concepts. We show how the generalisation operator is translated to Answer Set Programming (ASP) in order to implement a search process that finds possible generalisations of input concepts. The generalisations obtained by the ASP process are used in a conceptual blending algorithm that generates and evaluates possible combinations of blends. We exemplify our approach in the domain of computer icons

Confalonieri, R., Eppe, M., Schorlemmer, M., Kutz, O., Peñaloza, R., Plaza, E. (2018). Upward Refinement Operators for Conceptual Blending in the Description Logic EL++. ANNALS OF MATHEMATICS AND OF ARTIFICIAL INTELLIGENCE, 82(1-3), 69-99 [10.1007/s10472-016-9524-8].

Upward Refinement Operators for Conceptual Blending in the Description Logic EL++

Peñaloza, R;
2018

Abstract

Conceptual blending is a mental process that serves a variety of cognitive purposes, including human creativity. In this line of thinking, human creativity is modeled as a process that takes different mental spaces as input and combines them into a new mental space, called a blend. According to this form of combinational creativity, a blend is constructed by taking the commonalities among the input mental spaces into account, to form a so-called generic space, and by projecting the non-common structure of the input spaces in a selective way to the novel blended space. Since input spaces for interesting blends are often initially incompatible, a generalisation step is needed before they can be blended. In this paper, we apply this idea to blend input spaces specified in the description logic + + and propose an upward refinement operator for generalising + + concepts. We show how the generalisation operator is translated to Answer Set Programming (ASP) in order to implement a search process that finds possible generalisations of input concepts. The generalisations obtained by the ASP process are used in a conceptual blending algorithm that generates and evaluates possible combinations of blends. We exemplify our approach in the domain of computer icons
Articolo in rivista - Articolo scientifico
description logic, conceptual blending, concept invention, refinement
English
2018
82
1-3
69
99
reserved
Confalonieri, R., Eppe, M., Schorlemmer, M., Kutz, O., Peñaloza, R., Plaza, E. (2018). Upward Refinement Operators for Conceptual Blending in the Description Logic EL++. ANNALS OF MATHEMATICS AND OF ARTIFICIAL INTELLIGENCE, 82(1-3), 69-99 [10.1007/s10472-016-9524-8].
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/10281/233780
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