BLINC: lightweight bimodal learning for low-complexity VVC intra-coding

The latest video coding standard, versatile video coding (VVC), achieves almost twice coding efficiency compared to its predecessor, the high efficiency video coding (HEVC). However, achieving this efficiency (for intra coding) requires 31 × computational complexity compared to HEVC, which makes it...

Full description

Saved in:
Bibliographic Details
Published in:Journal of real-time image processing 2022-08, Vol.19 (4), p.791-807
Main Authors: Pakdaman, Farhad, Adelimanesh, Mohammad Ali, Hashemi, Mahmoud Reza
Format: Article
Language:English
Subjects:
Algorithms
Coding
Complexity
Computer Graphics
Computer Science
Efficiency
Image Processing and Computer Vision
Lightweight
Machine learning
Multimedia Information Systems
Online instruction
Original Research Paper
Pattern Recognition
Signal,Image and Speech Processing
Surveillance
Video compression
Citations: Items that this one cites
Items that cite this one
Online Access:Get full text
Tags: Add Tag
No Tags, Be the first to tag this record!
Description
Summary:The latest video coding standard, versatile video coding (VVC), achieves almost twice coding efficiency compared to its predecessor, the high efficiency video coding (HEVC). However, achieving this efficiency (for intra coding) requires 31 × computational complexity compared to HEVC, which makes it challenging for low power and real-time applications. This paper, proposes a novel machine learning approach that jointly and separately employs two modalities of features, to simplify the intra coding decision. To do so, first a set of features are extracted that use the existing DCT core of VVC, to assess the texture characteristics, and forms the first modality of data. This produces high-quality features with almost no extra computational overhead. The distribution of intra modes at the neighboring blocks is also used to form the second modality of data, which provides statistical information about the frame, unlike the first modality. Second, a two-step feature reduction method is designed that reduces the size of feature set, such that a lightweight model with a limited number of parameters can be used to learn the intra mode decision task. Third, three separate training strategies are proposed (1) an offline training strategy using the first (single) modality of data, (2) an online training strategy that uses the second (single) modality, and (3) a mixed online–offline strategy that uses bimodal learning. Finally, a low-complexity encoding algorithms is proposed based on the proposed learning strategies. Extensive experimental results show that the proposed methods can reduce up to 24% of encoding time, with a negligible loss of coding efficiency. Moreover, it is demonstrated how a bimodal learning strategy can boost the performance of learning. Lastly, the proposed method has a very low computational overhead (0.2%), and uses existing components of a VVC encoder, which makes it much more practical compared to competing solutions.
ISSN:1861-8200
1861-8219
DOI:10.1007/s11554-022-01223-1