In this paper we focus on gender classification from face images, which is still a challenging task in unrestricted scenarios. This task can be useful in a number of ways, e.g., as a preliminary step in biometric identity recognition supported by demographic information. We compare a feature based approach with two score based ones. In the former, we stack a number of feature vectors obtained by different operators, and train a SVM based on them. In the latter, we separately compute the individual scores from the same operators, then either we feed them to a SVM, or exploit likelihood ratio based on a pairwise comparison of their answers. Experiments use EGA database, which presents a good balance with respect to demographic features of stored face images. As expected, feature level fusion achieves an often better classification performance but it is also quite computationally expensive. Our contribution has a threefold value: 1) the proposed score level fusion approaches, though less demanding, achieve results which are rather similar or slightly better than feature level fusion, especially when a particular set of experts are fused; since experts are trained individually, it is not required to evaluate a complex multi-feature distribution and the training process is more efficient; 2) the number of uncertain cases significantly decreases; 3) the operators used are not computationally expensive in themselves

MEG: Multi-Expert Gender classification from face images in a demographics-balanced dataset / Castrillon Santana, Modesto; DE MARSICO, Maria; Nappi, Michele; Riccio, Daniel. - STAMPA. - 9279:(2015), pp. 15-26. (Intervento presentato al convegno International Conference on Image Analysis and Processing – ICIAP 2015. tenutosi a Genova nel 7-11 Settembre 2015) [10.1007/978-3-319-23231-7 2].

MEG: Multi-Expert Gender classification from face images in a demographics-balanced dataset

DE MARSICO, Maria;
2015

Abstract

In this paper we focus on gender classification from face images, which is still a challenging task in unrestricted scenarios. This task can be useful in a number of ways, e.g., as a preliminary step in biometric identity recognition supported by demographic information. We compare a feature based approach with two score based ones. In the former, we stack a number of feature vectors obtained by different operators, and train a SVM based on them. In the latter, we separately compute the individual scores from the same operators, then either we feed them to a SVM, or exploit likelihood ratio based on a pairwise comparison of their answers. Experiments use EGA database, which presents a good balance with respect to demographic features of stored face images. As expected, feature level fusion achieves an often better classification performance but it is also quite computationally expensive. Our contribution has a threefold value: 1) the proposed score level fusion approaches, though less demanding, achieve results which are rather similar or slightly better than feature level fusion, especially when a particular set of experts are fused; since experts are trained individually, it is not required to evaluate a complex multi-feature distribution and the training process is more efficient; 2) the number of uncertain cases significantly decreases; 3) the operators used are not computationally expensive in themselves
2015
International Conference on Image Analysis and Processing – ICIAP 2015.
Biometrics; gender classification; local descriptors; expert fusion
04 Pubblicazione in atti di convegno::04b Atto di convegno in volume
MEG: Multi-Expert Gender classification from face images in a demographics-balanced dataset / Castrillon Santana, Modesto; DE MARSICO, Maria; Nappi, Michele; Riccio, Daniel. - STAMPA. - 9279:(2015), pp. 15-26. (Intervento presentato al convegno International Conference on Image Analysis and Processing – ICIAP 2015. tenutosi a Genova nel 7-11 Settembre 2015) [10.1007/978-3-319-23231-7 2].
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11573/790218
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