Article

An improved valence-arousal emotion space for video affective content representation and recognition

Authors:

Kai Sun,

Junqing Yu,

Yue Huang,

Xiaoqiang HuAuthors Info & Claims

ICME'09: Proceedings of the 2009 IEEE international conference on Multimedia and Expo

Pages 566 - 569

Published: 28 June 2009 Publication History

Abstract

To understand video affective content automatically, the primary task is to transform the abstract concept of emotion into the form which can be handled by the computer easily. An improved V-A emotion space is proposed to address this problem. It unifies the discrete and dimensional emotion model by introducing the typical fuzzy emotion subspace. Fuzzy C-mean clustering (FCM) algorithm is adopted to divide the V-A emotion space into the subspaces and Gaussian mixture model (GMM) is used to determine their membership functions. Based on the proposed emotion space, the maximum membership principle and the threshold principle are introduced to represent and recognize video affective content. A video affective content database is created to validate the proposed model. The experimental results show that the improved emotion space can be used as a solution to represent and recognize video affective content.

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Bulla LMongiovì M(2024)Adequate Prompting Improves Performance of Regression Models of Emotional ContentProceedings of the 2024 International Conference on Information Technology for Social Good10.1145/3677525.3678653(135-142)Online publication date: 4-Sep-2024
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Verma GNalamada THarpavat KGoel PMishra ASrinivasan BHammond TVerbert KParra DKnijnenburg BO'Donovan JTeale P(2021)Non-Linear Consumption of Videos Using a Sequence of Personalized Multimodal FragmentsProceedings of the 26th International Conference on Intelligent User Interfaces10.1145/3397481.3450672(249-259)Online publication date: 14-Apr-2021
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ICME'09: Proceedings of the 2009 IEEE international conference on Multimedia and Expo

June 2009

1844 pages

ISBN:9781424442904

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IEEE Press

Publication History

Published: 28 June 2009

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Bulla LMongiovì M(2024)Adequate Prompting Improves Performance of Regression Models of Emotional ContentProceedings of the 2024 International Conference on Information Technology for Social Good10.1145/3677525.3678653(135-142)Online publication date: 4-Sep-2024
https://dl.acm.org/doi/10.1145/3677525.3678653
Cummins SSweeney LSmeaton A(2022)Analysing the Memorability of a Procedural Crime-Drama TV Series, CSIProceedings of the 19th International Conference on Content-based Multimedia Indexing10.1145/3549555.3549592(174-180)Online publication date: 14-Sep-2022
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Verma GNalamada THarpavat KGoel PMishra ASrinivasan BHammond TVerbert KParra DKnijnenburg BO'Donovan JTeale P(2021)Non-Linear Consumption of Videos Using a Sequence of Personalized Multimodal FragmentsProceedings of the 26th International Conference on Intelligent User Interfaces10.1145/3397481.3450672(249-259)Online publication date: 14-Apr-2021
https://dl.acm.org/doi/10.1145/3397481.3450672
Zhu YChen ZWu FAmsaleg LHuet BLarson MGravier GHung HNgo CTsang Ooi W(2019)Multimodal Deep Denoise Framework for Affective Video Content AnalysisProceedings of the 27th ACM International Conference on Multimedia10.1145/3343031.3350997(130-138)Online publication date: 15-Oct-2019
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Zhao SDing GHuang QChua TSchuller BKeutzer K(2018)Affective image content analysisProceedings of the 27th International Joint Conference on Artificial Intelligence10.5555/3304652.3304794(5534-5541)Online publication date: 13-Jul-2018
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Hsu JZhen YLin TChiu Y(2018)Affective content analysis of music emotion through EEGMultimedia Systems10.1007/s00530-017-0542-024:2(195-210)Online publication date: 1-Mar-2018
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Ceballos RIonascu BPark WEid M(2017)Implicit Emotion CommunicationACM Transactions on Multimedia Computing, Communications, and Applications10.1145/315212814:1(1-18)Online publication date: 20-Dec-2017
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Karafotias GTeranishi AKorres GEyssel FCopti SEid M(2017)Intensifying Emotional Reactions via Tactile Gestures in Immersive FilmsACM Transactions on Multimedia Computing, Communications, and Applications10.1145/309284013:3(1-17)Online publication date: 28-Jun-2017
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Gupta RLaghari KBanville HFalk T(2016)Using affective brain-computer interfaces to characterize human influential factors for speech quality-of-experience perception modellingHuman-centric Computing and Information Sciences10.1186/s13673-016-0062-56:1(1-19)Online publication date: 1-Dec-2016
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Gunes HSchuller B(2013)Categorical and dimensional affect analysis in continuous inputImage and Vision Computing10.1016/j.imavis.2012.06.01631:2(120-136)Online publication date: 1-Feb-2013
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Hierarchical movie affective content analysis based on arousal and valence features

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