A Novel Randomize Hierarchical Extension of MV-HEVC for Improved Light Field Compression

2019 International Conference on 3D Immersion (IC3D) Pub Date : 2019-12-01 DOI:10.1109/IC3D48390.2019.8975905

Mansi Sharma, Gowtham Ragavan

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引用次数: 1

Abstract

This paper presents a novel scheme for light field compression based on a randomize hierarchical multi-view extension of high efficiency video coding (dubbed as RH-MVHEVC). Specifically, a light field data are arranged as a multiple pseudo-temporal video sequences which are efficiently compressed with MV-HEVC encoder, following an integrated random coding technique and hierarchical prediction scheme. The critical advantage of proposed RH-MVHEVC scheme is that it utilizes not just a temporal and inter-view prediction, but efficiently exploits the strong intrinsic similarities within each sub-aperture image and among neighboring sub-aperture images in both horizontal and vertical directions. Experimental results consistently outperform the state-of-the-art compression methods on benchmark ICME 2016 and ICIP 2017 grand challenge data sets. It achieves an average up to 33.803% BD-rate reduction and 1.7978 dB BD-PSNR improvement compared with an advanced JEM video encoder, and an average 20.4156% BD-rate reduction and 2.0644 dB BD-PSNR improvement compared with a latest image-based JEM-anchor coding scheme.

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一种改进光场压缩的MV-HEVC随机分层扩展

提出了一种基于随机分层多视点扩展的高效视频编码光场压缩新方案(RH-MVHEVC)。具体而言，采用随机编码和分层预测相结合的方法，将光场数据排列成多个伪时序视频序列，并利用MV-HEVC编码器进行高效压缩。所提出的RH-MVHEVC方案的关键优势在于，它不仅利用了时间和视场预测，而且有效地利用了每个子孔径图像之间以及相邻子孔径图像在水平和垂直方向上的强内在相似性。在基准ICME 2016和ICIP 2017大挑战数据集上，实验结果始终优于最先进的压缩方法。与先进的JEM视频编码器相比，该方案平均可实现高达33.803%的BD-rate降低和1.7978 dB的BD-PSNR改善;与最新的基于图像的JEM锚定编码方案相比，该方案平均可实现高达20.4156%的BD-rate降低和2.0644 dB的BD-PSNR改善。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2019 International Conference on 3D Immersion (IC3D)

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