Variable illumination compensation for pigskin leather images using local and global block analysis

Variable illumination compensation for pigskin leather images using local and global block analysis

Variable illumination seems to be a main challenge to any automatic image processing system particularly in the segmentation and recognition part. The new intensity variations, which do not presence in the original image, may lead to a false segmentation result. In this research, we present a method...

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Main Author: Azmi, Mohd Hafrizal
Format: Thesis
Language:English
Published: 2012
Subjects:
Block designs
Leather - Malaysia
Online Access:http://psasir.upm.edu.my/id/eprint/38561/1/FK%202012%2023R.pdf
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spelling my-upm-ir.385612015-05-05T04:35:15Z Variable illumination compensation for pigskin leather images using local and global block analysis 2012 Azmi, Mohd Hafrizal Variable illumination seems to be a main challenge to any automatic image processing system particularly in the segmentation and recognition part. The new intensity variations, which do not presence in the original image, may lead to a false segmentation result. In this research, we present a method to compensate the imbalance illumination in pigskin leather texture image. The main objective of this research is to offer an alternative pre-processing tool for further image enhancement procedures that is fast, simple and robust. The method utilizes the information within the local and global area of the image. The results are promising as the output image illumination condition is improved. In addition to that,the performances are either similar or better if to be compared to other established methods. However, the output images are affected by the visibility of the block boundaries. It happens due to the rapid intensity variation across the block boundaries, which is caused by the inaccurate residual selected for the normalization step. The next objective of this thesis is to remove the blockiness effect while still maintain the image attributes and improve the illumination condition. Some sets of modifications are employed to the basic model of local-global block analysis (B-LGBA) in order to eliminate the blockiness effect including horizontal improvement (HI-LGBA), vertical improvement (VI-LGBA), horizontal-vertical improvement (HVI-LGBA) and vertical-horizontal improvement (VHI-LGBA). The results produced by the enhanced LGBA illustrated that the modifications to be made are depending on the illumination trend. If the illumination is in one direction, the single modification is sufficient to remove all the boundaries. However, if the illumination is multi-directional, combined modifications are necessary, with the less-influencing direction must be dealt first. The accuracy of the proposed method is evaluated via the error of the numbers of the segmented region counted in the output image. Most of the outputs are oversegmented due to the existence of other low-intensity pixels which are contributed by the non-uniform surface of the sample and also the blocky pattern.From our 20 samples consist of different illumination types, the HVI -LGBA and VHI-LGBA yielded the lowest percentage of the errors with 29.52% and 35.43% compared to the errors produced by the B-LGBA which is equal to 120.35%. Block designs Leather - Malaysia 2012 Thesis http://psasir.upm.edu.my/id/eprint/38561/ http://psasir.upm.edu.my/id/eprint/38561/1/FK%202012%2023R.pdf application/pdf en public masters Universiti Putra Malaysia Block designs Leather - Malaysia
institution Universiti Putra Malaysia
collection PSAS Institutional Repository
language English
topic Block designs
Leather - Malaysia
spellingShingle Block designs
Leather - Malaysia

Azmi, Mohd Hafrizal
Variable illumination compensation for pigskin leather images using local and global block analysis
description Variable illumination seems to be a main challenge to any automatic image processing system particularly in the segmentation and recognition part. The new intensity variations, which do not presence in the original image, may lead to a false segmentation result. In this research, we present a method to compensate the imbalance illumination in pigskin leather texture image. The main objective of this research is to offer an alternative pre-processing tool for further image enhancement procedures that is fast, simple and robust. The method utilizes the information within the local and global area of the image. The results are promising as the output image illumination condition is improved. In addition to that,the performances are either similar or better if to be compared to other established methods. However, the output images are affected by the visibility of the block boundaries. It happens due to the rapid intensity variation across the block boundaries, which is caused by the inaccurate residual selected for the normalization step. The next objective of this thesis is to remove the blockiness effect while still maintain the image attributes and improve the illumination condition. Some sets of modifications are employed to the basic model of local-global block analysis (B-LGBA) in order to eliminate the blockiness effect including horizontal improvement (HI-LGBA), vertical improvement (VI-LGBA), horizontal-vertical improvement (HVI-LGBA) and vertical-horizontal improvement (VHI-LGBA). The results produced by the enhanced LGBA illustrated that the modifications to be made are depending on the illumination trend. If the illumination is in one direction, the single modification is sufficient to remove all the boundaries. However, if the illumination is multi-directional, combined modifications are necessary, with the less-influencing direction must be dealt first. The accuracy of the proposed method is evaluated via the error of the numbers of the segmented region counted in the output image. Most of the outputs are oversegmented due to the existence of other low-intensity pixels which are contributed by the non-uniform surface of the sample and also the blocky pattern.From our 20 samples consist of different illumination types, the HVI -LGBA and VHI-LGBA yielded the lowest percentage of the errors with 29.52% and 35.43% compared to the errors produced by the B-LGBA which is equal to 120.35%.
format Thesis
qualification_level Master's degree
author Azmi, Mohd Hafrizal
author_facet Azmi, Mohd Hafrizal
author_sort Azmi, Mohd Hafrizal
title Variable illumination compensation for pigskin leather images using local and global block analysis
title_short Variable illumination compensation for pigskin leather images using local and global block analysis
title_full Variable illumination compensation for pigskin leather images using local and global block analysis
title_fullStr Variable illumination compensation for pigskin leather images using local and global block analysis
title_full_unstemmed Variable illumination compensation for pigskin leather images using local and global block analysis
title_sort variable illumination compensation for pigskin leather images using local and global block analysis
granting_institution Universiti Putra Malaysia
publishDate 2012
url http://psasir.upm.edu.my/id/eprint/38561/1/FK%202012%2023R.pdf
_version_ 1747811733656829952

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