Reducing artifacts in block-coded images using adaptive constraints

Ju Jia Zou; Hong Yan; David C. Levy

doi:10.1117/1.1607329

Reducing artifacts in block-coded images using adaptive constraints

Ju Jia Zou, Hong Yan, David C. Levy

Research output: Journal Publications and Reviews › RGC 21 - Publication in refereed journal › peer-review

3 Citations (Scopus)

Abstract

This study aims to reduce blocking artifacts in compressed images coded by the block discrete cosine transform (BDCT). The theory of projection onto convex sets (POCS) is applied. Two adaptive constraints are used. The first constraint corresponds to a model that simulates an image before compression using a Delaunay triangular mesh. The mesh is constructed by dividing each block into a set of triangles. The number of triangles in a block is determined by the local block activity. The second constraint is a narrow quantization constraint, where the bound of a BDCT coefficient is also determined by the local block activity. The block activity is measured by the ac components of the BDCT coefficients by incorporating the human visual system model. Our technique produces significantly improved results after a single iteration, and compares favorably with existing methods.

Original language	English
Pages (from-to)	2900-2911
Journal	Optical Engineering
Volume	42
Issue number	10
DOIs	https://doi.org/10.1117/1.1607329
Publication status	Published - Oct 2003

Research Keywords

Blocking artifacts
Discrete cosine transform
Image compression
Projection onto convex sets
Triangulation

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title = "Reducing artifacts in block-coded images using adaptive constraints",

abstract = "This study aims to reduce blocking artifacts in compressed images coded by the block discrete cosine transform (BDCT). The theory of projection onto convex sets (POCS) is applied. Two adaptive constraints are used. The first constraint corresponds to a model that simulates an image before compression using a Delaunay triangular mesh. The mesh is constructed by dividing each block into a set of triangles. The number of triangles in a block is determined by the local block activity. The second constraint is a narrow quantization constraint, where the bound of a BDCT coefficient is also determined by the local block activity. The block activity is measured by the ac components of the BDCT coefficients by incorporating the human visual system model. Our technique produces significantly improved results after a single iteration, and compares favorably with existing methods.",

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AU - Yan, Hong

AU - Levy, David C.

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AB - This study aims to reduce blocking artifacts in compressed images coded by the block discrete cosine transform (BDCT). The theory of projection onto convex sets (POCS) is applied. Two adaptive constraints are used. The first constraint corresponds to a model that simulates an image before compression using a Delaunay triangular mesh. The mesh is constructed by dividing each block into a set of triangles. The number of triangles in a block is determined by the local block activity. The second constraint is a narrow quantization constraint, where the bound of a BDCT coefficient is also determined by the local block activity. The block activity is measured by the ac components of the BDCT coefficients by incorporating the human visual system model. Our technique produces significantly improved results after a single iteration, and compares favorably with existing methods.

KW - Blocking artifacts

KW - Discrete cosine transform

KW - Image compression

KW - Projection onto convex sets

KW - Triangulation

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DO - 10.1117/1.1607329

M3 - RGC 21 - Publication in refereed journal

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JO - Optical Engineering

JF - Optical Engineering

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Reducing artifacts in block-coded images using adaptive constraints

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