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Main Authors: Zheng, Qi, Chen, Li-Heng, He, Chenlong, Berkbeck, Neil, Wang, Yilin, Adsumilli, Balu, Bovik, Alan C., Fan, Yibo, Tu, Zhengzhong
Format: Preprint
Published: 2025
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Online Access:https://arxiv.org/abs/2508.08700
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author Zheng, Qi
Chen, Li-Heng
He, Chenlong
Berkbeck, Neil
Wang, Yilin
Adsumilli, Balu
Bovik, Alan C.
Fan, Yibo
Tu, Zhengzhong
author_facet Zheng, Qi
Chen, Li-Heng
He, Chenlong
Berkbeck, Neil
Wang, Yilin
Adsumilli, Balu
Bovik, Alan C.
Fan, Yibo
Tu, Zhengzhong
contents Although there have been notable advancements in video compression technologies in recent years, banding artifacts remain a serious issue affecting the quality of compressed videos, particularly on smooth regions of high-definition videos. Noticeable banding artifacts can severely impact the perceptual quality of videos viewed on a high-end HDTV or high-resolution screen. Hence, there is a pressing need for a systematic investigation of the banding video quality assessment problem for advanced video codecs. Given that the existing publicly available datasets for studying banding artifacts are limited to still picture data only, which cannot account for temporal banding dynamics, we have created a first-of-a-kind open video dataset, dubbed LIVE-YT-Banding, which consists of 160 videos generated by four different compression parameters using the AV1 video codec. A total of 7,200 subjective opinions are collected from a cohort of 45 human subjects. To demonstrate the value of this new resources, we tested and compared a variety of models that detect banding occurrences, and measure their impact on perceived quality. Among these, we introduce an effective and efficient new no-reference (NR) video quality evaluator which we call CBAND. CBAND leverages the properties of the learned statistics of natural images expressed in the embeddings of deep neural networks. Our experimental results show that the perceptual banding prediction performance of CBAND significantly exceeds that of previous state-of-the-art models, and is also orders of magnitude faster. Moreover, CBAND can be employed as a differentiable loss function to optimize video debanding models. The LIVE-YT-Banding database, code, and pre-trained model are all publically available at https://github.com/uniqzheng/CBAND.
format Preprint
id arxiv_https___arxiv_org_abs_2508_08700
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Subjective and Objective Quality Assessment of Banding Artifacts on Compressed Videos
Zheng, Qi
Chen, Li-Heng
He, Chenlong
Berkbeck, Neil
Wang, Yilin
Adsumilli, Balu
Bovik, Alan C.
Fan, Yibo
Tu, Zhengzhong
Computer Vision and Pattern Recognition
Although there have been notable advancements in video compression technologies in recent years, banding artifacts remain a serious issue affecting the quality of compressed videos, particularly on smooth regions of high-definition videos. Noticeable banding artifacts can severely impact the perceptual quality of videos viewed on a high-end HDTV or high-resolution screen. Hence, there is a pressing need for a systematic investigation of the banding video quality assessment problem for advanced video codecs. Given that the existing publicly available datasets for studying banding artifacts are limited to still picture data only, which cannot account for temporal banding dynamics, we have created a first-of-a-kind open video dataset, dubbed LIVE-YT-Banding, which consists of 160 videos generated by four different compression parameters using the AV1 video codec. A total of 7,200 subjective opinions are collected from a cohort of 45 human subjects. To demonstrate the value of this new resources, we tested and compared a variety of models that detect banding occurrences, and measure their impact on perceived quality. Among these, we introduce an effective and efficient new no-reference (NR) video quality evaluator which we call CBAND. CBAND leverages the properties of the learned statistics of natural images expressed in the embeddings of deep neural networks. Our experimental results show that the perceptual banding prediction performance of CBAND significantly exceeds that of previous state-of-the-art models, and is also orders of magnitude faster. Moreover, CBAND can be employed as a differentiable loss function to optimize video debanding models. The LIVE-YT-Banding database, code, and pre-trained model are all publically available at https://github.com/uniqzheng/CBAND.
title Subjective and Objective Quality Assessment of Banding Artifacts on Compressed Videos
topic Computer Vision and Pattern Recognition
url https://arxiv.org/abs/2508.08700