基于云计算的智能手机自动面部表情识别应用开发

Humaid Alshamsi, Veton Këpuska, H. Meng
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引用次数: 10

摘要

人类情感自动检测是计算机视觉领域的一个重要研究课题。在过去的十年中,利用面部表情识别(FER)从面部表情中提取情感得到了很大的重视。本文提出了一种基于云模型的人脸识别方法,结合传统的人脸表情系统。从面部表情图像中预测情绪的过程包含几个阶段。该系统的第一阶段是预处理阶段,即检测图像中的人脸,然后调整图像的大小。第二阶段是使用面部地标和重心(COG)特征提取算法从面部表情图像中提取特征,生成包含愤怒、厌恶、恐惧、快乐、中立、悲伤和惊讶表情的训练和测试数据集。然后在分类阶段使用支持向量机(SVM)分类器来预测情绪。此外,使用混淆矩阵(CM)技术来评估这些分类器的性能。该系统在CK+、JAFFE和KDEF数据库上进行了测试。然而,当使用面部地标和重心(COG)+支持向量机方法时,该系统的预测率达到96.3%。
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Automated facial expression recognition app development on smart phones using cloud computing
Automated human emotion detection is a topic of significant interest in the field of computer vision. Over the past decade, much emphasis has been on using facial expression recognition (FER) to extract emotion from facial expressions. In this paper, the proposed system presents a novel method of facial recognition based on the cloud model, in combination with the traditional facial expression system. The process of predicting emotions from facial expression images contains several stages. The first stage of this system is the pre-processing stage, which is applied by detecting the face in images and then resizing the images. The second stage involves extracting features from facial expression images using Facial Landmarks and Center of Gravity (COG) feature extraction algorithms, which generate the training and testing datasets that contain the expressions of Anger, Disgust, Fear, Happiness, Neutrality, Sadness, and Surprise. Support Vector Machine (SVM) classifiers are then used for the classification stage in order to predict the emotion. In addition, a Confusion Matrix (CM) technique is used to evaluate the performance of these classifiers. The proposed system is tested on CK+, JAFFE, and KDEF databases. However, the proposed system achieved a prediction rate of 96.3% when Facial Landmarks and the Center of Gravity (COG)+SVM method are used.
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