Abstract
Human feelings are mental conditions of sentiments that emerge immediately as opposed to cognitive exertion. Some of the basic feelings are happy, angry, neutral, sad and surprise. These internal feelings of a person are reflected on the face as Facial Expressions. This paper presents a novel methodology for Facial Expression Analysis which will aid to develop a facial expression recognition system. This system can be used in real time to classify five basic emotions. The recognition of facial expressions is important because of its applications in many domains such as artificial intelligence, security and robotics. Many different approaches can be used to overcome the problems of Facial Expression Recognition (FER) but the best suited technique for automated FER is Convolutional Neural Networks(CNN). Thus, a novel CNN architecture is proposed and a combination of multiple datasets such as FER2013, FER+, JAFFE and CK+ is used for training and testing. This helps to improve the accuracy and develop a robust real time system. The proposed methodology confers quite good results and the obtained accuracy may give encouragement and offer support to researchers to build better models for Automated Facial Expression Recognition systems.
Highlights
The changes in facial muscles together with the emotional state of a person is known as facial expression
The different datasets used in this research are Facial Expression Recognition (FER)-2013 and FER+ dataset, Extended Cohn Kanade(CK+) database, Japanese Female Facial Expression database(JAFFE) and our own dataset
This work presented a novel methodology for facial expression recognition using convolutional neural network
Summary
We are guided by our emotions in many ways, so understanding them is very important. The best way forward in doing so is to understand facial expressions. The changes in facial muscles together with the emotional state of a person is known as facial expression. Analysis of facial expressions has many applications such as Human Behavior Predictor, Surveillance System and Medical Rehabilitation. It can be useful in other domains such as robotics, education, automation, etc
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