基于H.265的低延迟优化策略研究
Research on Low Delay Optimization Strategy Based on H.265
DOI: 10.12677/CSA.2022.126165, PDF,   
作者: 洪宇光, 潘丽浓:宁波海关技术中心,浙江 宁波;叶兴扬:杭州电子科技大学电子信息学院,浙江 杭州;余维栋:慈溪市质量技术监督检验检测服务中心,浙江 慈溪
关键词: H.265视频传输系统低延时拥塞控制H.265 Video Transmission System Low Latency Congestion Control
摘要: 在有限的网络带宽下,传统的视频采集设备面临压缩率不足、帧率低、延迟高等技术瓶颈,这使得它们无法应用于超清图像的传输场景。因此,面对不断提升的视频质量,提高视频传输系统的编解码效率、降低传输延迟显得尤为重要。本文通过多种低延迟策略对视频传输系统整体延迟时间进行优化,测试结果表明:局域网内,在满足编码质量的前提下,对1080 P质量的视频进行传输,系统端到端的网络传输延迟时间为127 ms。与优化前的视频传输系统相比,优化后的视频传输系统总延迟时间减少了9.48%。
Abstract: Under the limited network bandwidth, the traditional video acquisition equipment is faced with the technical bottleneck of insufficient compression rate, low frame rate and high delay, which makes it impossible for them to be applied in the ultra HD image transmission scene. Therefore, in the face of constantly improving video quality, it is particularly important to improve the codec efficiency and reduce transmission delay of video transmission system. In this paper, the overall delay time of the video transmission system is optimized by a variety of low delay strategies. The test results show that the end-to-end delay time of the system is 127 ms when the 1080 P quality video is transmitted on the premise of satisfying the coding quality. Compared with the video transmission system before optimization, the total delay time of the video transmission system after optimization is reduced by 9.48%.
文章引用:洪宇光, 叶兴扬, 潘丽浓, 余维栋. 基于H.265的低延迟优化策略研究[J]. 计算机科学与应用, 2022, 12(6): 1641-1657. https://doi.org/10.12677/CSA.2022.126165

参考文献

[1] Sullivan, G.J., Ohm, J.-R., Han, W.-J., et al. (2012) Overview of the High Efficiency Video Coding (HEVC) Standard. IEEE Transactions on Circuits and Systems for Video Technology, 22, 1649-1668. [Google Scholar] [CrossRef
[2] Sullivan, G.J., Boyce, J.M., Chen, Y., et al. (2013) Standard-ized Extensions of High Efficiency Video Coding (HEVC). IEEE Journal of Selected Topics in Signal Processing, 7, 1001-1016. [Google Scholar] [CrossRef
[3] Yousfi, R., Ben Omor, M., Damak, T., Ben Ayed, M.A. and Masmoudi, N. (2018) JEM-Post HEVC vs. HM-H265/HEVC Performance and Subjective Quality Compari-son Based on QVA Metric. 2018 4th International Conference on Advanced Technologies for Signal and Image Pro-cessing (ATSIP), Sousse, 21-24 March 2018, 1-4. [Google Scholar] [CrossRef
[4] 李路, 冉亮. 基于CS架构的雷电流信号智能检测系统设计[J]. 自动化与仪器仪表, 2019(7): 80-83.
[5] 彭瑶, 周端, 杨银堂, 等. 高速环形FIFO的设计[J]. 计算机辅助设计与图形学学报, 2011, 23(3): 488-495.
[6] 胡博, 赵旦峰, 王中刊. 基于H.265编解码高清视频传输系统[J]. 应用科技, 2017, 44(1): 27-32.
[7] 王静, 丁尧, 袁杰. 低延时视频传输系统的设计[J]. 自动化应用, 2017(12): 42-44, 47.
[8] 刘建新, 廖望, 严月浩. 基于ARM的无人机HEVC实时视频传输系统设计[J]. 南昌航空大学学报(自然科学版), 2019(2): 96-101.
[9] 王鑫, 左乐, 施振华, 等. GStreamer音视频传输系统研究与实现[J]. 单片机与嵌入式系统应用, 2020, 20(9): 6-10.