NO-REFERENCE QUALITY ASSESSMENT OF VARIABLE FRAME-RATE VIDEOS USING TEMPORAL BANDPASS STATISTICS
Qi Zheng, Yibo Fan, Xiaoyang Zeng, Zhengzhong Tu, Alan Bovik
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Recent advances in mobile devices and cloud computing techniques have made it possible to capture, process, and share high resolution, high frame rate (HFR) videos across the Internet nearly instantaneously. Being able to monitor and control the quality of these streamed videos can enable the delivery of many enjoyable content and perceptually optimized rate control. However, the development of no-reference (NR) VQA algorithms targeting frame rate variations has been little studied. Here, we propose a first-of-a-kind blind VQA model for evaluating HFR videos, which we dub the Framerate-Aware Videos Evaluator w/o Reference (FAVER). FAVER uses extended models of spatial natural scene statistics that encompass space-time wavelet-decomposed video signals, to conduct efficient frame rate sensitive quality prediction. Our extensive experiments on several HFR video quality datasets show that FAVER outperforms other blind VQA algorithms at a reasonable computational cost. The code will be released on \url{https://github.com/uniqzheng/HFR-BVQA}.