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Quality-Constant Per-Shot Encoding by Two-Pass Learning-based Rate Factor Prediction
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Quality-Constant Per-Shot Encoding by Two-Pass Learning-based Rate Factor Prediction
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Providing quality-constant streams can simultaneously guarantee user experience and prevent wasting bit-rate. In this paper, we propose a novel deep learning based two-pass encoder parameter prediction framework to decide rate factor (RF), with which encoder can output streams with constant quality. For each one-shot segment in a video, the proposed method firstly extracts spatial, temporal and pre-coding features by an ultra fast pre-process. Based on these features, a RF parameter is predicted by a deep neural network. Video encoder uses the RF to compress segment as the first encoding pass. Then VMAF quality of the first pass encoding is measured. If the quality doesn't meet target, a second pass RF prediction and encoding will be performed. With the help of first pass predicted RF and corresponding actual quality as feedback, the second pass prediction will be highly accurate. Experiments show the proposed method requires only 1.55 times encoding complexity on average, meanwhile the accuracy, that the compressed video's actual VMAF is within $\pm1$ around the target VMAF, reaches 98.88%.
Forward citations
Cited by 1 Pith paper
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Content-Adaptive Rate-Quality Curve Prediction Model in Media Processing System
A content-adaptive model predicts RF-quality and RF-bitrate curves for flexible video encoding, achieving 99.14% accuracy in VMAF prediction and showing small gains in online A/B tests before production deployment.
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