Title :
Video Denoising Based on Inter-frame Statistical Modeling of Wavelet Coefficients
Author :
Rahman, S. M Mahbubur ; Ahmad, M. Omair ; Swamy, M.N.S.
Author_Institution :
Dept. of Electr. & Comput. Eng., Concordia Univ., Montreal, Que.
Abstract :
The paper proposes a joint probability density function to model the video wavelet coefficients of any two neighboring frames and then applies this statistical model for denoising. The parameter of the density function that measures the correlation between the wavelet coefficients of the two frames is used as an index for the motion. The joint density function is employed for spatial filtering of the noisy wavelet coefficients by developing a bivariate maximum a posteriori estimator. A recursive time averaging of the spatially filtered wavelet coefficients is adopted for further noise reduction. Simulation results on test video sequences show an improved performance both in terms of the peak signal-to-noise ratio and the perceptual quality compared to that of the other denoising algorithms
Keywords :
filtering theory; image denoising; image sequences; maximum likelihood estimation; video signal processing; wavelet transforms; bivariate maximum a posteriori estimator; inter-frame statistical modeling; noise reduction; probability density function; spatial filtering; video denoising; video sequences; video wavelet coefficients; Density functional theory; Density measurement; Filtering; Maximum a posteriori estimation; Motion measurement; Noise reduction; Probability density function; Testing; Video sequences; Wavelet coefficients; Bivariate Gaussian density function; bivariate maximum a posteriori (MAP) estimation; bivariate maximum likelihood (ML) estimation; video denoising; wavelet coefficients;
Journal_Title :
Circuits and Systems for Video Technology, IEEE Transactions on
DOI :
10.1109/TCSVT.2006.887079
