3D-guided facial shape clustering and analysis

Facial shape classification is of crucial importance in facial characteristics analysis and product recommendation. In this paper, we develop a 3D-guided facial shape clustering and analysis method to classify facial shapes without supervision, which is more reliable and accurate. This method consis...

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Veröffentlicht in:	Multimedia tools and applications 2022-03, Vol.81 (6), p.8785-8806
Hauptverfasser:	Zhang, Jie, Zhou, Kangneng, Luximon, Yan, Li, Ping, Iftikhar, Hassan
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Sprache:	eng
Schlagworte:	Algorithms Cluster analysis Clustering Computer Communication Networks Computer Science Contours Data Structures and Information Theory Feature extraction Females Image databases Image reconstruction Males Methods Multimedia Multimedia Information Systems Product design Shape Special Purpose and Application-Based Systems Vector quantization
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creator	Zhang, Jie Zhou, Kangneng Luximon, Yan Li, Ping Iftikhar, Hassan
description	Facial shape classification is of crucial importance in facial characteristics analysis and product recommendation. In this paper, we develop a 3D-guided facial shape clustering and analysis method to classify facial shapes without supervision, which is more reliable and accurate. This method consists of four steps: 3D face reconstruction, facial shape normalization, facial feature extraction and facial contour clustering. Firstly, we incorporate two 3D face reconstruction methods to reconstruct 3D face mesh without expression component from 1997 male and 2493 female facial images. Secondly, we normalize these 3D facial contours by translation and scaling. Thirdly, we propose two facial contour representations: geometric and anthropometric features. Fourthly, we use and compare three clustering methods to cluster these facial contours based on the extracted contour features by using Silhouette Coefficient and Calinski-Harabasz Index. The Circular Dendrogram of the hierarchical clustering result based on geometric features shows the optimal cluster number is 6 for 3D female and male faces and the analysis results demonstrate the K-means clustering on geometric features can achieve better performance. A further investigation between the beauty distribution and facial shape clusters reveals that the facial shapes with more pointed chin have higher beauty ratings, regardless of male or female. The facial shape analysis results can be applied in face-related product design, hairstyle recommendation and cartoon character creation. The code will be released to the public for research purpose: https://github.com/Easy-Shu/facial_shape_clustering
doi_str_mv	10.1007/s11042-022-12190-x
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In this paper, we develop a 3D-guided facial shape clustering and analysis method to classify facial shapes without supervision, which is more reliable and accurate. This method consists of four steps: 3D face reconstruction, facial shape normalization, facial feature extraction and facial contour clustering. Firstly, we incorporate two 3D face reconstruction methods to reconstruct 3D face mesh without expression component from 1997 male and 2493 female facial images. Secondly, we normalize these 3D facial contours by translation and scaling. Thirdly, we propose two facial contour representations: geometric and anthropometric features. Fourthly, we use and compare three clustering methods to cluster these facial contours based on the extracted contour features by using Silhouette Coefficient and Calinski-Harabasz Index. The Circular Dendrogram of the hierarchical clustering result based on geometric features shows the optimal cluster number is 6 for 3D female and male faces and the analysis results demonstrate the K-means clustering on geometric features can achieve better performance. A further investigation between the beauty distribution and facial shape clusters reveals that the facial shapes with more pointed chin have higher beauty ratings, regardless of male or female. The facial shape analysis results can be applied in face-related product design, hairstyle recommendation and cartoon character creation. 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In this paper, we develop a 3D-guided facial shape clustering and analysis method to classify facial shapes without supervision, which is more reliable and accurate. This method consists of four steps: 3D face reconstruction, facial shape normalization, facial feature extraction and facial contour clustering. Firstly, we incorporate two 3D face reconstruction methods to reconstruct 3D face mesh without expression component from 1997 male and 2493 female facial images. Secondly, we normalize these 3D facial contours by translation and scaling. Thirdly, we propose two facial contour representations: geometric and anthropometric features. Fourthly, we use and compare three clustering methods to cluster these facial contours based on the extracted contour features by using Silhouette Coefficient and Calinski-Harabasz Index. The Circular Dendrogram of the hierarchical clustering result based on geometric features shows the optimal cluster number is 6 for 3D female and male faces and the analysis results demonstrate the K-means clustering on geometric features can achieve better performance. A further investigation between the beauty distribution and facial shape clusters reveals that the facial shapes with more pointed chin have higher beauty ratings, regardless of male or female. The facial shape analysis results can be applied in face-related product design, hairstyle recommendation and cartoon character creation. The code will be released to the public for research purpose: https://github.com/Easy-Shu/facial_shape_clustering</abstract><cop>New York</cop><pub>Springer US</pub><doi>10.1007/s11042-022-12190-x</doi><tpages>22</tpages></addata></record>
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subjects	Algorithms Cluster analysis Clustering Computer Communication Networks Computer Science Contours Data Structures and Information Theory Feature extraction Females Image databases Image reconstruction Males Methods Multimedia Multimedia Information Systems Product design Shape Special Purpose and Application-Based Systems Vector quantization
title	3D-guided facial shape clustering and analysis
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