Title :
Fast and reliable structure-oriented video noise estimation
Author :
Amer, A. ; Dubois, E.
Author_Institution :
Dept. of Electr. & Comput. Eng., Concordia Univ., Montreal, Que., Canada
Abstract :
Noise can significantly impact the effectiveness of video processing algorithms. This paper proposes a fast white-noise variance estimation that is reliable even in images with large textured areas. This method finds intensity-homogeneous blocks first and then estimates the noise variance in these blocks, taking image structure into account. This paper proposes a new measure to determine homogeneous blocks and a new structure analyzer for rejecting blocks with structure. This analyzer is based on high-pass operators and special masks for corners to stabilize the homogeneity estimation. For typical video quality (PSNR of 20-40 dB), the proposed method outperforms other methods significantly and the worst-case estimation error is 3 dB, which is suitable for real applications such as video broadcasts. The method performs well both in highly noisy and good-quality images. It also works well in images including few uniform blocks.
Keywords :
image enhancement; reliability; video signal processing; white noise; adaptive variance averaging; additive white-noise variance estimation; homogeneity estimation; image structure; reliability; structure-oriented video noise estimation; video enhancement; video noise estimation; video processing algorithm; worst-case estimation error; Additive noise; Charge coupled devices; Circuit noise; Digital cameras; Noise generators; PSNR; Satellite broadcasting; Signal processing; Video recording; White noise; Adaptive variance averaging; homogeneous regions; second-order operators; structure analyzers; textured regions; video enhancement; video noise estimation; white noise;
Journal_Title :
Circuits and Systems for Video Technology, IEEE Transactions on
DOI :
10.1109/TCSVT.2004.837017
