Abstract
The interest in the facial expression recognition (FER) is increasing day by day due to its practical and potential applications, such as human physiological interaction diagnosis and mental diseases detection. This area has received much attention from the research community in recent years and achieved remarkable results; however, a significant improvement is required in spatial problems. This research work presents a novel framework and proposes an effective and robust solution for FER under an unconstrained environment. Face detection is performed using the supervision of facial attributes. Faceness‐Net is used for deep facial part responses for the detection of faces under severe unconstrained variations. In order to improve the generalization problems and avoid insufficient data regime, Deep Convolutional Graphical Adversarial Network (DC‐GAN) is utilized. Due to the challenging environmental factors faced in the wild, a large number of noises disrupt feature extraction, thus making it hard to capture ground truth. We leverage different multimodal sensors with a camera that aids in data acquisition, by extracting the features more accurately and improve the overall performance of FER. These intelligent sensors are used to tackle the significant challenges like illumination variance, subject dependence, and head pose. Dual‐enhanced capsule network is used which is able to handle the spatial problem. The traditional capsule networks are unable to sufficiently extract the features, as the distance varies greatly between facial features. Therefore, the proposed network is capable of spatial transformation due to action unit aware mechanism and thus forward most desiring features for dynamic routing between capsules. Squashing function is used for the classification function. We have elaborated the effectiveness of our method by validating the results on four popular and versatile databases that outperform all state‐of‐the‐art methods.
Highlights
Facial expressions contain the most important nonverbal and rich emotional information in the social communication [1] People communicate with each other through verbal and nonverbal communications [2]
We propose a method which is capable of spatial transformation due to action unit aware mechanism and forward most desiring features for dynamic routing between capsules
The Extended Cohn-Kanade is the most wide and most popular database used in the facial expression recognition
Summary
Facial expressions contain the most important nonverbal and rich emotional information in the social communication [1] People communicate with each other through verbal and nonverbal communications [2]. Facial expression recognition is used in various domains like Intelligent Tutoring System (ITS), psychology, human-machine interaction, behavioral science, intelligent transportation, and Journal of Sensors interactive games [4] It can be helpful in monitoring the abnormal expressions in the crowd at public places to avoid any crime. According to Ekman and Friesen [5], there are six basic expressions: happiness, surprise, disgust, fear, sadness, and anger (some researchers have termed neutral expression as the seventh expression). These expressions are conveyed almost among all species
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