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A large-scale database for HEVC in-loop filter (HIF).

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HIF-Database

A large-scale database for HEVC in-loop filter (HIF).

For learning the in-loop filter in HEVC, we construct this database providing distorted frames before and after the standard in-loop filter. This database has been used to train the proposed deep-learning-based multi-frame in-loop filter (MIF) [1], and may also facilitate other related future works.

Source codes (both training and test): https://github.com/tianyili2017/MultiFrame-InLoop-Filter

Link of paper [1]: https://ieeexplore.ieee.org/document/8736997

Zhihu blog in Chinese [1]: https://zhuanlan.zhihu.com/p/78591265

1. Database Construction

The HIF database is constructed from 182 raw video sequences, consisting of 6 facial sequences from [2], 87 sequences from Xiph.org [3] and 89 sequences from the Consumer Digital Video Library [4] in the Video Quality Experts Group (VQEG) [5]. The 182 sequences were divided into non-overlapping sets of training (120 sequences), validation (40 sequences) and test (22 sequences). The corresponding copyright files are in folder Copyright/. Data in our database can be freely used for research without any commercial purpose, only on the condition that the copyrights are appropriately obeyed.

The sequences were all encoded by HM 16.5 [6] at four QPs {22, 27, 32, 37} with the Low Delay P (LDP) (using encoder_lowdelay_P_main.cfg), the Low Delay B (LDB) (using encoder_lowdelay_main.cfg) and the Random Access (RA) (using encoder_randomaccess_main.cfg) configurations. During the encoding procedure, all unfiltered reconstructed frames (URFs) were extracted as the input of our MIF approach, with their corresponding raw frames being ground-truth. In addition, CU and TU partition results for all the frames were also extracted as auxiliary features, since the compression artifacts are highly influenced by the block partition structure in HEVC. As a result, each frame-wise sample in the HIF database consists of four parts, i.e., a URF, its associated raw frame and two matrices indicating the CU and TU depth throughout the frame. Finally, 12 sub-databases were obtained corresponding to 4 QPs and 3 configurations. Each sub-database contains 51,335 frame-wise samples, and thus 616,020 frame-wise samples were collected for the whole HIF database. Note that each frame-wise sample can be split into multiple block-wise samples for data augmentation. Also, the position of each block-wise sample within the frame-wise sample is alterable, further increasing the variety of training samples in practice. Therefore, the HIF database is ready for providing sufficient data for our deep-learning-based MIF approach.

2. Data Access

All files can be downloaded at

Dropbox:

https://www.dropbox.com/sh/cpa4pca3jhvjhn7/AABrw4Oq4ZzvBYTyOziJispra?dl=0

or Baidu Cloud Disk:

https://pan.baidu.com/s/10uVms2eHP9CIEhBke6dB5A

From the above two sources, files are identical. Choose either source that is more convenient for you.

(1) 182 video sequences are in folder YUV_HIF/.

(2) The encoded bit-stream files (*.bin format) for QPs {22, 27, 32, 37} can be obtained from folders HIF_LDP_Bin/, HIF_LDB_Bin/ and HIF_RA_Bin/. With the decoder in HM-16.5_HIF_Rec/, both reconstructed frames with and without the standard in-loop filter are generated. To run this decoder, please refer to file HM-16.5_HIF_Rec/bin/README.md.

(3) The CU and TU partition results are stored in folders HIF_LDP_Info/, HIF_LDB_Info/ and HIF_RA_Info/, with the corresponding data format specified in README_CU_TU_Info.md.

3. Subjective Quality Analysis

In addition to the HIF database itself, this GitHub project also provides compressed files for evaluating the subjective visual quality of our MIF approach [1] on the 22 test sequences in HIF database. Benefiting from the multi-frame design where a low-quality frame can be enhanced by its neighboring higher-quality frames, our approach may provide considerably better visual quality, compared with the standard in-loop filter. Considering that YUV files are too large, here we provide the corresponding bit-stream files and decoders, as follow.

First, the sequences compressed by standard HEVC (i.e., with standard DBF and SAO filter) can be generated with the bit-stream files in HIF_LDP_Bin/, HIF_LDB_Bin/, HIF_RA_Bin/ and the decoder in HM-16.5_HIF_Rec/, the same as 2. (2).

Then, the sequences compressed by our MIF approach can be generated with the bit-stream files in Test_MIF-Net_RA_Bin/ and log files in Test_MIF-Net_RA_Log/, with our adapted HM decoder in folder HM-16.5_MIF-Net/. To run this decoder, please refer to file HM-16.5_MIF-Net/bin/README.md.

References

[1] Tianyi Li, Mai Xu, Ce Zhu, Ren Yang, Zulin Wang and Zhenyu Guan, “A Deep Learning Approach for Multi-Frame In-Loop Filter of HEVC,” IEEE TIP, vol. 28, no. 11, pp. 5663-5678, Nov. 2019.

[2] Mai Xu, Xin Deng, Shengxi Li and Zulin Wang, “Region-of-Interest Based Conversational HEVC Coding with Hierarchical Perception Model of Face,” IEEE JSTSP, vol. 8, no. 3, pp. 475–489, Jun. 2014.

[3] Xiph.org, “Xiph.org Video Test Media,” https://media.xiph.org/video/derf, 2017.

[4] CDVL.org, “Consumer Digital Video Library,” https://www.cdvl.org/index.php, 2019.

[5] VQEG, “VQEG Video Datasets and Organizations,” https://www.its.bldrdoc.gov/vqeg/video-datasets-and-organizations.aspx/, 2017.

[6] JCT-VC, HM Software, [Online]. Available: https://hevc.hhi.fraunhofer.de/svn/svn_HEVCSoftware/tags/HM-16.5/, [Accessed 5-Nov.-2016], 2014.

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