Block artifact reduction using a transform-domain Markov random field model

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Author

Z Li, EJ Delp

Entry type

article

Abstract

The block-based discrete cosine transform (BDCT) is often used in image and video coding. It may introduce block artifacts at low data rates that manifest themselves as an annoying discontinuity between adjacent blocks. In this paper, we address this problem by investigating a transform-domain Markov random field (TD-MRF) model. Based on this model, two block artifact reduction postprocessing methods are presented. The first method, referred to as TD-MRF, provides an efficient progressive transform-domain solution. Our experimental results show that TD-MRF can reduce up to 90% of the computational complexity compared with spatial-domain MRF (SD-MRF) methods while still achieving comparable visual quality improvements. We then discuss a hybrid framework, referred to as TSD-MRF, that exploits the advantages of both TD-MRF and SD-MRF. The experimental results confirm that TSD-MRF can improve visual quality both objectively and subjectively over SD-MRF methods.

Date

2005 – 12

URL

http://md1.csa.com/partners/vi ... 2506814&setcookie=yes

Journal

IEEE Transactions on Circuits and Systems for Video Technology

Key alpha

Delp

Number

Pages

1583-1593

Volume

Publication Date

2005-12-01

Keywords

Blocking, Mathematical models, Artifacts, Images, Magnetorheological fluids, Reduction, Visual, Markov processes, Complexity, Discontinuity, Discrete cosine transform, Coding, Circuits, Frameworks, Computation

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@Article{ Delp,
	title = "Block artifact reduction using a transform-domain Markov random field model",
	author = "Z Li, EJ Delp",
	year = "2005",
	month = "12",
	journal = " IEEE Transactions on Circuits and Systems for Video Technology",
	number = "12",
	pages = "1583-1593",
	volume = "15",
	abstract = "The block-based discrete cosine transform (BDCT) is often used in image and video coding. It may introduce block artifacts at low data rates that manifest themselves as an annoying discontinuity between adjacent blocks. In this paper, we address this problem by investigating a transform-domain Markov random field (TD-MRF) model. Based on this model, two block artifact reduction postprocessing methods are presented. The first method, referred to as TD-MRF, provides an efficient progressive transform-domain solution. Our experimental results show that TD-MRF can reduce up to 90% of the computational complexity compared with spatial-domain MRF (SD-MRF) methods while still achieving comparable visual quality improvements. We then discuss a hybrid framework, referred to as TSD-MRF, that exploits the advantages of both TD-MRF and SD-MRF. The experimental results confirm that TSD-MRF can improve visual quality both objectively and subjectively over SD-MRF methods.",
	keywords = "Blocking, Mathematical models, Artifacts, Images, Magnetorheological fluids, Reduction, Visual, Markov processes, Complexity, Discontinuity, Discrete cosine transform, Coding, Circuits, Frameworks, Computation",
	url = "http://md1.csa.com/partners/viewrecord.php?requester=gs&collection=TRD&recid=2006073227442CI&recid=2006075046384EA&q=&uid=792506814&setcookie=yes",
}