Denoising of multicomponent images using wavelet least-squares estimators
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摘要
In this paper, we study denoising of multicomponent images. The presented procedures are spatial wavelet-based denoising techniques, based on Bayesian least-squares optimization procedures, using prior models for the wavelet coefficients that account for the correlations between the spectral bands. We analyze three mixture priors: Gaussian scale mixture models, Bernoulli-Gaussian mixture models and Laplacian mixture models. These three prior models are studied within the same framework of least-squares optimization. The presented procedures are compared to Gaussian prior model and single-band denoising procedures. We analyze the suppression of non-correlated as well as correlated white Gaussian noise on multispectral and hyperspectral remote sensing data and Rician distributed noise on multiple images of within-modality magnetic resonance data. It is shown that a superior denoising performance is obtained when (a) the interband covariances are fully accounted for and (b) prior models are used that better approximate the marginal distributions of the wavelet coefficients.
论文关键词:Multicomponent images,Denoising,Wavelets,Bayesian estimation,Least squares estimators
论文评审过程:Received 30 October 2006, Revised 8 November 2007, Accepted 13 November 2007, Available online 24 November 2007.
论文官网地址:https://doi.org/10.1016/j.imavis.2007.11.003