A parallel implementation of 4-dimensional haralick texture analysis for disk-resident image datasets

Brent Woods; Bradley Clymert; Joel Saltz; Tahsin Kurc

A parallel implementation of 4-dimensional haralick texture analysis for disk-resident image datasets

Brent Woods
, Bradley Clymert
, Joel Saltz
, Tahsin Kurc

Biomedical Informatics

Ohio State University

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

4 Scopus citations

Abstract

Texture analysis is one possible method to detect features In biomedical images. During texture analysis, texture related information is found by examining local variations in image brightness. 4-dimensional (4D) Haralick texture analysis is a method that extracts local variations along space and time dimensions and represents them as a collection of fourteen statistical parameters. However, the application of the 4D Haralick method on large time-dependent 2D and 3D image datasets is hindered by computation and memory requirements. This paper presents a parallel implementation of 4D Haralick texture analysis on PC clusters. We present a performance evaluation of our implementation on a cluster of PCs. Our results show that good performance can be achieved for this application via combined use of task- and data-parallelism.

Original language	English
Title of host publication	IEEE/ACM SC2004 Conference - Bridging Communities, Proceedings
Pages	213-227
Number of pages	15
State	Published - 2004
Event	IEEE/ACM SC2004 Conference - Bridging Communities - Pittsburgh, PA, United States Duration: Nov 6 2004 → Nov 12 2004

Publication series

Name	IEEE/ACM SC2004 Conference, Proceedings

Conference

Conference	IEEE/ACM SC2004 Conference - Bridging Communities
Country/Territory	United States
City	Pittsburgh, PA
Period	11/6/04 → 11/12/04

Cite this

@inproceedings{8adae039cf0b466bbb6f94d92dd2a5f6,

title = "A parallel implementation of 4-dimensional haralick texture analysis for disk-resident image datasets",

abstract = "Texture analysis is one possible method to detect features In biomedical images. During texture analysis, texture related information is found by examining local variations in image brightness. 4-dimensional (4D) Haralick texture analysis is a method that extracts local variations along space and time dimensions and represents them as a collection of fourteen statistical parameters. However, the application of the 4D Haralick method on large time-dependent 2D and 3D image datasets is hindered by computation and memory requirements. This paper presents a parallel implementation of 4D Haralick texture analysis on PC clusters. We present a performance evaluation of our implementation on a cluster of PCs. Our results show that good performance can be achieved for this application via combined use of task- and data-parallelism.",

author = "Brent Woods and Bradley Clymert and Joel Saltz and Tahsin Kurc",

year = "2004",

language = "English",

isbn = "0769521533",

series = "IEEE/ACM SC2004 Conference, Proceedings",

pages = "213--227",

booktitle = "IEEE/ACM SC2004 Conference - Bridging Communities, Proceedings",

note = "IEEE/ACM SC2004 Conference - Bridging Communities ; Conference date: 06-11-2004 Through 12-11-2004",

}

A parallel implementation of 4-dimensional haralick texture analysis for disk-resident image datasets. / Woods, Brent; Clymert, Bradley; Saltz, Joel et al.
IEEE/ACM SC2004 Conference - Bridging Communities, Proceedings. 2004. p. 213-227 (IEEE/ACM SC2004 Conference, Proceedings).

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

TY - GEN

T1 - A parallel implementation of 4-dimensional haralick texture analysis for disk-resident image datasets

AU - Woods, Brent

AU - Clymert, Bradley

AU - Saltz, Joel

AU - Kurc, Tahsin

PY - 2004

Y1 - 2004

N2 - Texture analysis is one possible method to detect features In biomedical images. During texture analysis, texture related information is found by examining local variations in image brightness. 4-dimensional (4D) Haralick texture analysis is a method that extracts local variations along space and time dimensions and represents them as a collection of fourteen statistical parameters. However, the application of the 4D Haralick method on large time-dependent 2D and 3D image datasets is hindered by computation and memory requirements. This paper presents a parallel implementation of 4D Haralick texture analysis on PC clusters. We present a performance evaluation of our implementation on a cluster of PCs. Our results show that good performance can be achieved for this application via combined use of task- and data-parallelism.

AB - Texture analysis is one possible method to detect features In biomedical images. During texture analysis, texture related information is found by examining local variations in image brightness. 4-dimensional (4D) Haralick texture analysis is a method that extracts local variations along space and time dimensions and represents them as a collection of fourteen statistical parameters. However, the application of the 4D Haralick method on large time-dependent 2D and 3D image datasets is hindered by computation and memory requirements. This paper presents a parallel implementation of 4D Haralick texture analysis on PC clusters. We present a performance evaluation of our implementation on a cluster of PCs. Our results show that good performance can be achieved for this application via combined use of task- and data-parallelism.

UR - https://www.scopus.com/pages/publications/23944446281

M3 - Conference contribution

AN - SCOPUS:23944446281

SN - 0769521533

SN - 9780769521534

T3 - IEEE/ACM SC2004 Conference, Proceedings

SP - 213

EP - 227

BT - IEEE/ACM SC2004 Conference - Bridging Communities, Proceedings

T2 - IEEE/ACM SC2004 Conference - Bridging Communities

Y2 - 6 November 2004 through 12 November 2004

ER -

A parallel implementation of 4-dimensional haralick texture analysis for disk-resident image datasets

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Conference

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