A Fast Gradient Iterative Affine Motion Estimation Algorithm Based on Edge Detection for Versatile Video Coding

In the Versatile Video Coding (VVC) standard, affine motion models have been applied to enhance the resolution of complex motion patterns. However, due to the high computational complexity involved in affine motion estimation, real-time video processing applications face significant challenges. This...

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Vydané v:	Electronics (Basel) Ročník 12; číslo 16; s. 3414
Hlavní autori:	Hong, Jingping, Dong, Zhihong, Zhang, Xue, Song, Nannan, Cao, Peng
Médium:	Journal Article
Jazyk:	English
Vydavateľské údaje:	Basel MDPI AG 01.08.2023
Predmet:	Accuracy Algorithms Analysis Coders Coding Coding standards Complexity Edge detection Efficiency Estimation theory Fourier transforms Image coding Image processing Iterative algorithms Iterative methods Mathematical optimization Motion simulation Resolution (Optics) Signal to noise ratio Video Video compression China
ISSN:	2079-9292, 2079-9292
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Abstract	In the Versatile Video Coding (VVC) standard, affine motion models have been applied to enhance the resolution of complex motion patterns. However, due to the high computational complexity involved in affine motion estimation, real-time video processing applications face significant challenges. This paper focuses on optimizing affine motion estimation algorithms in the VVC environment and proposes a fast gradient iterative algorithm based on edge detection for efficient computation. Firstly, we establish judging conditions during the construction of affine motion candidate lists to streamline the redundant judging process. Secondly, we employ the Canny edge detection method for gradient assessment in the affine motion estimation process, thereby enhancing the iteration speed of affine motion vectors. The experimentalresults show that the encoding time of the affine motion estimation algorithm is about 15–35% lower than the overall encoding time of the anchor algorithm encoder, the average encoding time of the affine motion estimation part of the inter-frame prediction part is reduced by 24.79%, and the peak signal-to-noise ratio (PSNR) is only reduced by 0.04.
AbstractList	In the Versatile Video Coding (VVC) standard, affine motion models have been applied to enhance the resolution of complex motion patterns. However, due to the high computational complexity involved in affine motion estimation, real-time video processing applications face significant challenges. This paper focuses on optimizing affine motion estimation algorithms in the VVC environment and proposes a fast gradient iterative algorithm based on edge detection for efficient computation. Firstly, we establish judging conditions during the construction of affine motion candidate lists to streamline the redundant judging process. Secondly, we employ the Canny edge detection method for gradient assessment in the affine motion estimation process, thereby enhancing the iteration speed of affine motion vectors. The experimentalresults show that the encoding time of the affine motion estimation algorithm is about 15–35% lower than the overall encoding time of the anchor algorithm encoder, the average encoding time of the affine motion estimation part of the inter-frame prediction part is reduced by 24.79%, and the peak signal-to-noise ratio (PSNR) is only reduced by 0.04.
Audience	Academic
Author	Song, Nannan Dong, Zhihong Zhang, Xue Hong, Jingping Cao, Peng
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SubjectTerms	Accuracy Algorithms Analysis Coders Coding Coding standards Complexity Edge detection Efficiency Estimation theory Fourier transforms Image coding Image processing Iterative algorithms Iterative methods Mathematical optimization Motion simulation Resolution (Optics) Signal to noise ratio Video Video compression
Title	A Fast Gradient Iterative Affine Motion Estimation Algorithm Based on Edge Detection for Versatile Video Coding
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