Nonfrontal and Asymmetrical Facial Expression Recognition through Half-Face Frontalization and Pyramid Fourier Frequency Conversion

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Abstract

Expression recognition in the wild is easily distorted by nonfrontal and asymmetry faces. In nonfrontal faces, some areas are compressed and distorted. Even after frontalization, these compressed areas may still be blurred and distort expression recognition. Additionally, asymmetrical expressions are common on half or local face areas and produce incorrect expression features. Therefore, this paper presents a half-face frontalization and pyramid Fourier frequency conversion method. Despite the location, range and intensity of incorrect expressions in nonfrontal faces being unknown, according to discrete Fourier transform, it can be proven that the frequency band of the correct expression is much larger than that of incorrect expression on the same face. This can be taken advantage of by pyramid frequency conversion, which is designed based on Fourier frequency conversion. It can adjust incorrect expression frequency in multiscales to take them out off the band-pass of the convolution operations of deep learning and be eliminated completely, whereas correct expression information is reserved. Thus, expressions can be recognized effectively.

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Cao, T., Liu, C., Chen, J., & Gao, L. (2021). Nonfrontal and Asymmetrical Facial Expression Recognition through Half-Face Frontalization and Pyramid Fourier Frequency Conversion. IEEE Access, 9, 17127–17138. https://doi.org/10.1109/ACCESS.2021.3052500

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