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Main Authors: Och, Hannah, Uddehal, Shabhrish Reddy, Strutz, Tilo, Kaup, André
Format: Preprint
Published: 2023
Subjects:
Online Access:https://arxiv.org/abs/2305.05440
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author Och, Hannah
Uddehal, Shabhrish Reddy
Strutz, Tilo
Kaup, André
author_facet Och, Hannah
Uddehal, Shabhrish Reddy
Strutz, Tilo
Kaup, André
contents Screen content images typically contain a mix of natural and synthetic image parts. Synthetic sections usually are comprised of uniformly colored areas and repeating colors and patterns. In the VVC standard, these properties are exploited using Intra Block Copy and Palette Mode. In this paper, we show that pixel-wise lossless coding can outperform lossy VVC coding in such areas. We propose an enhanced VVC coding approach for screen content images using the principle of soft context formation. First, the image is separated into two layers in a block-wise manner using a learning-based method with four block features. Synthetic image parts are coded losslessly using soft context formation, the rest with VVC.We modify the available soft context formation coder to incorporate information gained by the decoded VVC layer for improved coding efficiency. Using this approach, we achieve Bjontegaard-Delta-rate gains of 4.98% on the evaluated data sets compared to VVC.
format Preprint
id arxiv_https___arxiv_org_abs_2305_05440
institution arXiv
publishDate 2023
record_format arxiv
spellingShingle Improved Screen Content Coding in VVC Using Soft Context Formation
Och, Hannah
Uddehal, Shabhrish Reddy
Strutz, Tilo
Kaup, André
Image and Video Processing
Multimedia
Screen content images typically contain a mix of natural and synthetic image parts. Synthetic sections usually are comprised of uniformly colored areas and repeating colors and patterns. In the VVC standard, these properties are exploited using Intra Block Copy and Palette Mode. In this paper, we show that pixel-wise lossless coding can outperform lossy VVC coding in such areas. We propose an enhanced VVC coding approach for screen content images using the principle of soft context formation. First, the image is separated into two layers in a block-wise manner using a learning-based method with four block features. Synthetic image parts are coded losslessly using soft context formation, the rest with VVC.We modify the available soft context formation coder to incorporate information gained by the decoded VVC layer for improved coding efficiency. Using this approach, we achieve Bjontegaard-Delta-rate gains of 4.98% on the evaluated data sets compared to VVC.
title Improved Screen Content Coding in VVC Using Soft Context Formation
topic Image and Video Processing
Multimedia
url https://arxiv.org/abs/2305.05440