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Cognitive Computation

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01.06.2015

Models for Computational Emotions from Psychological Theories Using Type-II Fuzzy Logic

verfasst von: Aladdin Ayesh, William Blewitt

Erschienen in: Cognitive Computation | Ausgabe 3/2015

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Abstract

Emotions have been subject of research and deliberation in philosophy and psychology mainstream for a long time. In contrast, emotions have only emerged in artificial intelligence research as a serious topic in the last two decades. Year 2000, in particular, experienced a shift in attitude towards emotions and their relationship to human reasoning and human–computer interaction. This paper presents the second part of our research in this area, which aimed at interpreting psychological theories of emotions computationally and translating them into machine-implementable models. We continue with the previously selected psychological theories, namely Millenson (the psychology of emotion: theories of emotion perspective, Wiley, Hoboken, 1967) and Scherer (Soc Sci Inf 44(4):695–729, 2005), with exploration of the nature of emotional state. Fuzzy logic (FL) type-II is utilised here as a tool to capture the finer details of the psychological and computational interpretations of these theories. The paper presents a full theoretical formalism in FL type-II accompanied by implementation, using the De Montfort University Type-II Fuzzy Logic Toolbox, and detailed discussion of the complexity of the models’ computational interpretation and implementation.

Vorheriger Artikel Models for Computational Emotions from Psychological Theories Using Type I Fuzzy Logic

Nächster Artikel Is Attentional Refreshing in Working Memory Sequential? A Computational Modeling Approach

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Titel: Models for Computational Emotions from Psychological Theories Using Type-II Fuzzy Logic
verfasst von: Aladdin Ayesh
William Blewitt
Publikationsdatum: 01.06.2015
Verlag: Springer US
Erschienen in: Cognitive Computation / Ausgabe 3/2015
Print ISSN: 1866-9956
Elektronische ISSN: 1866-9964
DOI: https://doi.org/10.1007/s12559-014-9286-8

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