Title :
Frame-level quantization control for perceptual quality constrained H.264/AVC video coding
Author :
Chen, Zhenzhong ; Tan, Yap-Peng
Abstract :
Achieving the desired visual quality is an important objective of video compression. In this paper, we present a frame-level quantization control approach for perceptual quality constrained video coding which aims to compress video at a certain perceptual quality level. We develop a general learning- based framework in which different video quality measures can be adopted. We model the rate-quality characteristic of the video using v-support vector regression with a Gaussian radial basis function as the kernel. Such a rate-quality modeling is useful for practical video coding with perceptual quality constraint. Specifically, we show how to minimize the bit rate cost and satisfy the quality constraint by exploiting the relationship between the quantization and advanced video quality measure. The advantage of our proposed approach in practical H.264/AVC video coding is demonstrated through simulations and evidenced by favorable experimental results.
Keywords :
data compression; quantisation (signal); radial basis function networks; regression analysis; support vector machines; video coding; Gaussian radial basis function; H.264-AVC video coding; advanced video rate quality modeling; bit rate cost; frame-level quantization control; learning-based framework; perceptual quality constrained video coding; perceptual quality constraint; perceptual quality level; support vector regression; video compression; video rate quality characteristic; visual quality; Bit rate; Encoding; Estimation; PSNR; Quantization; Support vector machines; Video coding;
Conference_Titel :
Circuits and Systems (ISCAS), 2011 IEEE International Symposium on
Conference_Location :
Rio de Janeiro
Print_ISBN :
978-1-4244-9473-6
Electronic_ISBN :
0271-4302
DOI :
10.1109/ISCAS.2011.5937792
