Fixed grid wavelet network segmentation on diffuse optical tomography image to detect sarcoma

Fixed grid wavelet network segmentation on diffuse optical tomography image to detect sarcoma

Abstract: Objective: To detect and explore the boundary of the sarcoma in Diffuse Optical Tomography (DOT) images, we need to extract the scattering and absorption property of the tissue at the cellular level. The DOT images suffer with lower optical resolution; therefore to improve the resolution in non-invasive imaging technique we apply Fixed Grid Wavelet Network (FGWN) image segmentation. Methods: We have subjected the reconstructed optical image to Vignette Correction to enhance the corners so that it traces the smooth boundary of tumor región. Fixed Grid Wavelet Network segmentation applied to reduce the training with the significant ortho-normal property. R, G and B valúes of optical image were considered as network inputs which lead to the formation of Wavelet network. Effective wavelet selection was based on Orthogonal Least Squares Algorithm and the network weights were calculated to optimize the network structure. The Mexican hat wavelet chosen facilitates the diffusion operator for image restoration, henee well-suited for Diffuse Optical Tomography (DOT) images. Results: Analysis made on data base of 30 DOT images and the 6 criteria results was evaluated. The boundary of the tumor región was traced on grayseale and the following Image Metrics were measured namely Mean Square Error, Root Mean Square Error, Peak Signal to Noise Ratio, Pearson Correlation Coefficient and Mean absolute error. The Receiver Operating Characteristics (ROC) was estimated at 99.527%, 88.73% and 93.8% with respect to sensitivity, specificity and overall aecuracy. Conclusions: FGWN was compared with genetic algorithm and graph cut segmentation based on image metrics which exhibited 5.2% improvement and it was evaluated such that FGWN based image segmentation was superior to other methodologies.

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Main Authors: Uma Maheswari,K., Sathiyamoorthy,S.
Format: Digital revista
Language:English
Published: Universidad Nacional Autónoma de México, Instituto de Ciencias Aplicadas y Tecnología 2018
Online Access:http://www.scielo.org.mx/scielo.php?script=sci_arttext&pid=S1665-64232018000200126
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spelling oai:scielo:S1665-642320180002001262019-03-28Fixed grid wavelet network segmentation on diffuse optical tomography image to detect sarcomaUma Maheswari,K.Sathiyamoorthy,S. Diffuse Optical Tomography Fixed Grid Wavelet Network Orthogonal Least Square Algorithm Vignette Correction Abstract: Objective: To detect and explore the boundary of the sarcoma in Diffuse Optical Tomography (DOT) images, we need to extract the scattering and absorption property of the tissue at the cellular level. The DOT images suffer with lower optical resolution; therefore to improve the resolution in non-invasive imaging technique we apply Fixed Grid Wavelet Network (FGWN) image segmentation. Methods: We have subjected the reconstructed optical image to Vignette Correction to enhance the corners so that it traces the smooth boundary of tumor región. Fixed Grid Wavelet Network segmentation applied to reduce the training with the significant ortho-normal property. R, G and B valúes of optical image were considered as network inputs which lead to the formation of Wavelet network. Effective wavelet selection was based on Orthogonal Least Squares Algorithm and the network weights were calculated to optimize the network structure. The Mexican hat wavelet chosen facilitates the diffusion operator for image restoration, henee well-suited for Diffuse Optical Tomography (DOT) images. Results: Analysis made on data base of 30 DOT images and the 6 criteria results was evaluated. The boundary of the tumor región was traced on grayseale and the following Image Metrics were measured namely Mean Square Error, Root Mean Square Error, Peak Signal to Noise Ratio, Pearson Correlation Coefficient and Mean absolute error. The Receiver Operating Characteristics (ROC) was estimated at 99.527%, 88.73% and 93.8% with respect to sensitivity, specificity and overall aecuracy. Conclusions: FGWN was compared with genetic algorithm and graph cut segmentation based on image metrics which exhibited 5.2% improvement and it was evaluated such that FGWN based image segmentation was superior to other methodologies.info:eu-repo/semantics/openAccessUniversidad Nacional Autónoma de México, Instituto de Ciencias Aplicadas y TecnologíaJournal of applied research and technology v.16 n.2 20182018-01-01info:eu-repo/semantics/articletext/htmlhttp://www.scielo.org.mx/scielo.php?script=sci_arttext&pid=S1665-64232018000200126en
institution SCIELO
collection OJS
country México
countrycode MX
component Revista
access En linea
databasecode rev-scielo-mx
tag revista
region America del Norte
libraryname SciELO
language English
format Digital
author Uma Maheswari,K.
Sathiyamoorthy,S.
spellingShingle Uma Maheswari,K.
Sathiyamoorthy,S.
Fixed grid wavelet network segmentation on diffuse optical tomography image to detect sarcoma
author_facet Uma Maheswari,K.
Sathiyamoorthy,S.
author_sort Uma Maheswari,K.
title Fixed grid wavelet network segmentation on diffuse optical tomography image to detect sarcoma
title_short Fixed grid wavelet network segmentation on diffuse optical tomography image to detect sarcoma
title_full Fixed grid wavelet network segmentation on diffuse optical tomography image to detect sarcoma
title_fullStr Fixed grid wavelet network segmentation on diffuse optical tomography image to detect sarcoma
title_full_unstemmed Fixed grid wavelet network segmentation on diffuse optical tomography image to detect sarcoma
title_sort fixed grid wavelet network segmentation on diffuse optical tomography image to detect sarcoma
description Abstract: Objective: To detect and explore the boundary of the sarcoma in Diffuse Optical Tomography (DOT) images, we need to extract the scattering and absorption property of the tissue at the cellular level. The DOT images suffer with lower optical resolution; therefore to improve the resolution in non-invasive imaging technique we apply Fixed Grid Wavelet Network (FGWN) image segmentation. Methods: We have subjected the reconstructed optical image to Vignette Correction to enhance the corners so that it traces the smooth boundary of tumor región. Fixed Grid Wavelet Network segmentation applied to reduce the training with the significant ortho-normal property. R, G and B valúes of optical image were considered as network inputs which lead to the formation of Wavelet network. Effective wavelet selection was based on Orthogonal Least Squares Algorithm and the network weights were calculated to optimize the network structure. The Mexican hat wavelet chosen facilitates the diffusion operator for image restoration, henee well-suited for Diffuse Optical Tomography (DOT) images. Results: Analysis made on data base of 30 DOT images and the 6 criteria results was evaluated. The boundary of the tumor región was traced on grayseale and the following Image Metrics were measured namely Mean Square Error, Root Mean Square Error, Peak Signal to Noise Ratio, Pearson Correlation Coefficient and Mean absolute error. The Receiver Operating Characteristics (ROC) was estimated at 99.527%, 88.73% and 93.8% with respect to sensitivity, specificity and overall aecuracy. Conclusions: FGWN was compared with genetic algorithm and graph cut segmentation based on image metrics which exhibited 5.2% improvement and it was evaluated such that FGWN based image segmentation was superior to other methodologies.
publisher Universidad Nacional Autónoma de México, Instituto de Ciencias Aplicadas y Tecnología
publishDate 2018
url http://www.scielo.org.mx/scielo.php?script=sci_arttext&pid=S1665-64232018000200126
work_keys_str_mv AT umamaheswarik fixedgridwaveletnetworksegmentationondiffuseopticaltomographyimagetodetectsarcoma
AT sathiyamoorthys fixedgridwaveletnetworksegmentationondiffuseopticaltomographyimagetodetectsarcoma
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