2-D impulse noise suppression by recursive gaussian maximum likelihood estimation

Yang Chen; Jian Yang; Huazhong Shu; Luyao Shi; Jiasong Wu; Limin Luo; Jean Louis Coatrieux; Christine Toumoulin

doi:10.1371/journal.pone.0096386

2-D impulse noise suppression by recursive gaussian maximum likelihood estimation

Yang Chen
, Jian Yang
, Huazhong Shu
, Luyao Shi
, Jiasong Wu
, Limin Luo
, Jean Louis Coatrieux
, Christine Toumoulin

Southeast University, Nanjing
Ministry of Education in China
Centre de Recherche en Information Biomedicale Sino-Francais (LIA CRIBs)
Beijing Institute of Technology
U1099

Research output: Contribution to journal › Article › peer-review

9 Citations (Scopus)

Abstract

An effective approach termed Recursive Gaussian Maximum Likelihood Estimation (RGMLE) is developed in this paper to suppress 2-D impulse noise. And two algorithms termed RGMLE-C and RGMLE-CS are derived by using spatially-adaptive variances, which are respectively estimated based on certainty and joint certainty & similarity information. To give reliable implementation of RGMLE-C and RGMLE-CS algorithms, a novel recursion stopping strategy is proposed by evaluating the estimation error of uncorrupted pixels. Numerical experiments on different noise densities show that the proposed two algorithms can lead to significantly better results than some typical median type filters. Efficient implementation is also realized via GPU (Graphic Processing Unit)-based parallelization techniques.

Original language	English
Article number	e96386
Journal	PLoS ONE
Volume	9
Issue number	5
DOIs	https://doi.org/10.1371/journal.pone.0096386
Publication status	Published - 16 May 2014
Externally published	Yes

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title = "2-D impulse noise suppression by recursive gaussian maximum likelihood estimation",

abstract = "An effective approach termed Recursive Gaussian Maximum Likelihood Estimation (RGMLE) is developed in this paper to suppress 2-D impulse noise. And two algorithms termed RGMLE-C and RGMLE-CS are derived by using spatially-adaptive variances, which are respectively estimated based on certainty and joint certainty \& similarity information. To give reliable implementation of RGMLE-C and RGMLE-CS algorithms, a novel recursion stopping strategy is proposed by evaluating the estimation error of uncorrupted pixels. Numerical experiments on different noise densities show that the proposed two algorithms can lead to significantly better results than some typical median type filters. Efficient implementation is also realized via GPU (Graphic Processing Unit)-based parallelization techniques.",

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AU - Chen, Yang

AU - Yang, Jian

AU - Shu, Huazhong

AU - Shi, Luyao

AU - Wu, Jiasong

AU - Luo, Limin

AU - Coatrieux, Jean Louis

AU - Toumoulin, Christine

PY - 2014/5/16

Y1 - 2014/5/16

N2 - An effective approach termed Recursive Gaussian Maximum Likelihood Estimation (RGMLE) is developed in this paper to suppress 2-D impulse noise. And two algorithms termed RGMLE-C and RGMLE-CS are derived by using spatially-adaptive variances, which are respectively estimated based on certainty and joint certainty & similarity information. To give reliable implementation of RGMLE-C and RGMLE-CS algorithms, a novel recursion stopping strategy is proposed by evaluating the estimation error of uncorrupted pixels. Numerical experiments on different noise densities show that the proposed two algorithms can lead to significantly better results than some typical median type filters. Efficient implementation is also realized via GPU (Graphic Processing Unit)-based parallelization techniques.

AB - An effective approach termed Recursive Gaussian Maximum Likelihood Estimation (RGMLE) is developed in this paper to suppress 2-D impulse noise. And two algorithms termed RGMLE-C and RGMLE-CS are derived by using spatially-adaptive variances, which are respectively estimated based on certainty and joint certainty & similarity information. To give reliable implementation of RGMLE-C and RGMLE-CS algorithms, a novel recursion stopping strategy is proposed by evaluating the estimation error of uncorrupted pixels. Numerical experiments on different noise densities show that the proposed two algorithms can lead to significantly better results than some typical median type filters. Efficient implementation is also realized via GPU (Graphic Processing Unit)-based parallelization techniques.

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2-D impulse noise suppression by recursive gaussian maximum likelihood estimation

Abstract

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