Fast CU Partitioning Algorithm for VVC Based on Multi-Stage Framework and Binary Subnets

Wang, Yanjun; Liu, Yong; Zhao, Jinchao; Zhang, Qiuwen

doi:10.1109/access.2023.3277627

Cited by 5 publications

(1 citation statement)

References 34 publications

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“…Li et al introduce a swift CU partitioning decision method that combines texture complexity and CNNs [14], and this method begins by analyzing CU segmentation patterns from the training set, processing large CU blocks based on texture complexity. Wang et al develop a multi-stage network framework for addressing the given issue, segmenting CUs into stages based on block size and adaptively extracting relevant features [15]. Tissier et al propose a decision tree (DT) model to predict probable splits for each block [16].…”

Section: Introductionmentioning

confidence: 99%

Extreme Learning Machine-Enabled Coding Unit Partitioning Algorithm for Versatile Video Coding

Jiang,

Xiang,

Jin

et al. 2023

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The versatile video coding (VVC) standard offers improved coding efficiency compared to the high efficiency video coding (HEVC) standard in multimedia signal coding. However, this increased efficiency comes at the cost of increased coding complexity. This work proposes an efficient coding unit partitioning algorithm based on an extreme learning machine (ELM), which can reduce the coding complexity while ensuring coding efficiency. Firstly, the coding unit size decision is modeled as a classification problem. Secondly, an ELM classifier is trained to predict the coding unit size. In the experiment, the proposed approach is verified based on the VVC reference model. The results show that the proposed method can reduce coding complexity significantly, and good image quality can be obtained.

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Section: Introductionmentioning

confidence: 99%

Extreme Learning Machine-Enabled Coding Unit Partitioning Algorithm for Versatile Video Coding

Jiang,

Xiang,

Jin

et al. 2023

Information

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Innovative Insights: A Review of Deep Learning Methods for Enhanced Video Compression

Khadir,

Farukh Hashmi,

Kotambkar

et al. 2024

IEEE Access

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Early quadtree with nested multitype tree partitioning algorithm based on convolution neural network for the versatile video coding standard

Abdallah,

Jdidia,

Belghith

et al. 2024

J. Electron. Imag.

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The Joint Video Experts Team has recently finalized the versatile video coding (VVC) standard, which incorporates various advanced encoding tools. These tools ensure great enhancements in the coding efficiency, leading to a bitrate reduction up to 50% when compared to the previous standard, high-efficiency video coding. However, this enhancement comes at the expense of high computational complexity. Within this context, we address the new quadtree (QT) with nested multitype tree partition block in VVC for all-intra configuration. In fact, we propose a fast intra-coding unit (CU) partition algorithm using various convolution neural network (CNN) classifiers to directly predict the partition mode, skip unnecessary split modes, and early exit the partitioning process. The proposed approach first predicts the QT depth at a CU of size 64 × 64 by the corresponding CNN classifier. Then four CNN classifiers are applied to predict the partition decision tree at a CU of size 32 × 32 using multithreshold values and ignore the rate-distortion optimization process to speed up the partition coding time. Thus the developed method is implemented on the reference software VTM 16.2 and tested for different video sequences. The experimental results confirm that the proposed solution achieves an encoding time reduction of about 46% in average, reaching up to 67.3% with an acceptable increase in bitrate and an unsignificant decrease in quality.

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Fast CU Partitioning Algorithm for VVC Based on Multi-Stage Framework and Binary Subnets

Cited by 5 publications

References 34 publications

Extreme Learning Machine-Enabled Coding Unit Partitioning Algorithm for Versatile Video Coding

Extreme Learning Machine-Enabled Coding Unit Partitioning Algorithm for Versatile Video Coding

Innovative Insights: A Review of Deep Learning Methods for Enhanced Video Compression

Early quadtree with nested multitype tree partitioning algorithm based on convolution neural network for the versatile video coding standard

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