A Low-Latency 4K HEVC Multi-Channel Encoding System with Content-Aware Bitrate Control for Live Streaming

Kobayashi, Daisuke; Nakamura, Ken; Kitahara, M.; Osawa, Tatsuya; Omori, Yuya; Onishi, Takayuki; Iwasaki, Hiromichi

doi:10.1587/transinf.2022edp7048

IEICE Trans. Inf. & Syst.

2023

DOI: 10.1587/transinf.2022edp7048

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A Low-Latency 4K HEVC Multi-Channel Encoding System with Content-Aware Bitrate Control for Live Streaming

Daisuke Kobayashi

Ken Nakamura

M. Kitahara

et al.

Abstract: This paper describes a novel low-latency 4K 60 fps HEVC (high efficiency video coding)/H.265 multi-channel encoding system with content-aware bitrate control for live streaming. Adaptive bitrate (ABR) streaming techniques, such as MPEG-DASH (dynamic adaptive streaming over HTTP) and HLS (HTTP live streaming), spread widely on Internet video streaming. Live content has increased with the expansion of streaming services, which has led to demands for traffic reduction and low latency. To reduce network traffic, w… Show more

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2024

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Impact of Video Motion Content on HEVC Coding Efficiency

Salih,

Ali,

Mstafa

2024

Computers

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Digital video coding aims to reduce the bitrate and keep the integrity of visual presentation. High-Efficiency Video Coding (HEVC) can effectively compress video content to be suitable for delivery over various networks and platforms. Finding the optimal coding configuration is challenging as the compression performance highly depends on the complexity of the encoded video sequence. This paper evaluates the effects of motion content on coding performance and suggests an adaptive encoding scheme based on the motion content of encoded video. To evaluate the effects of motion content on the compression performance of HEVC, we tested three coding configurations with different Group of Pictures (GOP) structures and intra refresh mechanisms. Namely, open GOP IPPP, open GOP Periodic-I, and closed GOP periodic-IDR coding structures were tested using several test sequences with a range of resolutions and motion activity. All sequences were first tested to check their motion activity. The rate–distortion curves were produced for all the test sequences and coding configurations. Our results show that the performance of IPPP coding configuration is significantly better (up to 4 dB) than periodic-I and periodic-IDR configurations for sequences with low motion activity. For test sequences with intermediate motion activity, IPPP configuration can still achieve a reasonable quality improvement over periodic-I and periodic-IDR configurations. However, for test sequences with high motion activity, IPPP configuration has a very small performance advantage over periodic-I and periodic-IDR configurations. Our results indicate the importance of selecting the appropriate coding structure according to the motion activity of the video being encoded.

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Impact of Video Motion Content on HEVC Coding Efficiency

Salih,

Ali,

Mstafa

2024

Computers

View full text Add to dashboard Cite

show abstract

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A Low-Latency 4K HEVC Multi-Channel Encoding System with Content-Aware Bitrate Control for Live Streaming

Cited by 1 publication

References 21 publications

Impact of Video Motion Content on HEVC Coding Efficiency

Impact of Video Motion Content on HEVC Coding Efficiency

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