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MOJ
eISSN: 2576-4519

Applied Bionics and Biomechanics

Mini Review Volume 1 Issue 4

Factors affecting the recognition accuracy of facial expressions

Sajid Ali  Khan

Department of Software Engineering, Foundation University Rawalpindi campus, Pakistan

Correspondence: Sajid Ali Khan, Department of Software Engineering, Foundation University Rawalpindi campus, Islamabad, Pakistan

Received: August 19, 2017 | Published: November 16, 2017

Citation: Khan SA. Factors affecting the recognition accuracy of facial expressions. MOJ App Bio Biomech. 2017;1(4):134–135. DOI: 10.15406/mojabb.2017.01.00021

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Abstract

Facial expression recognition has many potential applications like detection of mental disorders, human behavior understanding and social interaction. The recognition accuracy of facial expressions is affected by many factors including, the intensity of the expressions, illumination effects, gender of face and image resolutions. This study investigates these factors and also presents an overview of some techniques who worked to resolve these issues.

Keywords: facial expressions, illumination effects, image resolution, expression intensity, accuracy

Introduction

Facial expression recognition has many potential applications like detection of mental disorders, human behavior understanding and social interaction. The recognition accuracy of facial expressions is affected by many factors including, the intensity of the expressions, illumination effects, gender of face and image resolutions. This study investigates these factors and also presents an overview of some techniques who worked to resolve these issues. The human face possesses expressive ability1 and it provides one of the most natural, powerful and versatile means of affective mind state of humans.2 We use our facial expressions to provide important communicative cues and also express our emotions during social interaction. In order to perform analysis of expression in computer science, two main methodologies exists in literature i.e.

  1. Audio based methods and
  2. Vision based methods.

Expressions recognition through vision based methods is still the hottest research area due to the fact that expression can be emitted by a face without any sound. Vision based methods are generally divided into

  1. Pre-processing,
  2. Feature Extraction and
  3. Expression classification.

Some pre-processing steps like face detection and normalization are performed on the input image in the first step. After face detection, the second and the most important step are to extract the face features from an image. Accuracy of any expressions recognition system greatly depends on how accurately features are extracted from given image. The process of features extraction is further classified into1) geometric-based feature extraction and 2) appearance-based feature extraction. Normally, location of the facial salient points and shapes of the facial components are used for geometric features extraction. Although geometric-based features are robust to illumination and other face variation but tracking of the facial salient points is very hard. Appearance changes of the face are utilized for appearance features extraction. One problem that associates with the appearance-based is that it produces extremely large number of features.

Expression types

Facial expressions can be divided mainly into six basic emotions, referred to as happy, sad, fear, disgust, surprise and anger.1,2 It is shown by different research community that the type of emotion expressed effects the accuracy of any expression recognition system.

Expression intensity

The expression recognition accuracy rate is dependent on intensity of emotional expressions.3,4 In general, the individuals recognized the expression more accuracy when the expression are more intense and less accurate in identifying subtle expressions.

Illumination Effects

Illumination problems can be considered as a difficult problem to solve in both outdoor and indoor pattern matching. Two problems of textural based illumination handling in face image is very common i.e. due to increase in contrast, the textural values are changed during normalization. Secondly, it also increases the false acceptance rate because the distance between inter classes is minimized.5

Image resolutions

Many real world applications of face images required to work accurately on different image resolutions. However, literature studies revealed that these applications fail to achieve good accuracy rate when the size of image is reduced.6 Video conferencing, smart meeting and visual surveillance are some examples of such real time applications. This problem is tackled by very few studies in literature. Rizwan et al.6 first down sample the original image to produce the images with resolution and then pyramid of local binary pattern (PLBP) is applied to extract the features some facial points. Similarly, Khan et al.7 introduced a novel descriptor known as Weber Local Binary Image Cosine Transform (WLBI-CT) to handle the face images with different resolutions.

Conclusion

In this study, different factors affecting the accuracy of facial expression recognition has been investigated. Mostly the real world applications are sensitive to these factors. There are many algorithms presented in literature to solve these problems. It has been concluded that the conversion from spatial to frequency domain is the most convenient way to tackle some illumination and image resolution problems.

Acknowledgements

None.

Conflict of interest

Author declares that there is no conflict of interest.

References

Creative Commons Attribution License

©2017 Khan. This is an open access article distributed under the terms of the, which permits unrestricted use, distribution, and build upon your work non-commercially.