An Overlapping and Integral Blurry Evaluation Method to Optimize Tissues Scanning from Microscope

An Overlapping and Integral Blurry Evaluation Method to Optimize Tissues Scanning from Microscope

Virtual microscopes are devices that employ an automated XYZ mechanism to scan a sample, leading to the obtention of a series of small pictures that, when merged, compose a high-quality representation of the specimen. Due to the assembly tolerances, these devices may suffer from zones out of focus,...

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Main Authors: Bayuelo Jaishir, Sanjuan Javier, Yepes-Martinez Julián, Tovar Wilson, Zapata Fabio, Peñaloza Giselle
Format: Article
Language:English
Published: EDP Sciences 2018-01-01
Series:MATEC Web of Conferences
Online Access:https://doi.org/10.1051/matecconf/201818601006
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spelling doaj-3ac70d64ef2a4105a048067e8d2c09892021-02-02T02:58:48ZengEDP SciencesMATEC Web of Conferences2261-236X2018-01-011860100610.1051/matecconf/201818601006matecconf_icemp2018_01006An Overlapping and Integral Blurry Evaluation Method to Optimize Tissues Scanning from MicroscopeBayuelo JaishirSanjuan JavierYepes-Martinez JuliánTovar WilsonZapata FabioPeñaloza GiselleVirtual microscopes are devices that employ an automated XYZ mechanism to scan a sample, leading to the obtention of a series of small pictures that, when merged, compose a high-quality representation of the specimen. Due to the assembly tolerances, these devices may suffer from zones out of focus, reducing the quality of the final image. To solve this problem, researchers employ evaluation methods to calculate the blurriness of the image, and when an out of focus picture is located, performs the process of autofocus. Because of the variation on the types of samples, especially in pathology, the existing evaluation methods may fail to deliver a proper blur detection. This article proposes an optimized algorithm for the detection of the blurriness while conducting the sample scan in real time, ensuring that every scanned picture will be in focus. For this purpose, the algorithm relies on two functions, the comparison of the overlapping zones of two consecutive images, and the multivariate linear regression of a series of focus functions. The algorithm proved to be a reliable tool when applied in different pathology samples.https://doi.org/10.1051/matecconf/201818601006
collection DOAJ
language English
format Article
sources DOAJ
author Bayuelo Jaishir
Sanjuan Javier
Yepes-Martinez Julián
Tovar Wilson
Zapata Fabio
Peñaloza Giselle
spellingShingle Bayuelo Jaishir
Sanjuan Javier
Yepes-Martinez Julián
Tovar Wilson
Zapata Fabio
Peñaloza Giselle
An Overlapping and Integral Blurry Evaluation Method to Optimize Tissues Scanning from Microscope
MATEC Web of Conferences
author_facet Bayuelo Jaishir
Sanjuan Javier
Yepes-Martinez Julián
Tovar Wilson
Zapata Fabio
Peñaloza Giselle
author_sort Bayuelo Jaishir
title An Overlapping and Integral Blurry Evaluation Method to Optimize Tissues Scanning from Microscope
title_short An Overlapping and Integral Blurry Evaluation Method to Optimize Tissues Scanning from Microscope
title_full An Overlapping and Integral Blurry Evaluation Method to Optimize Tissues Scanning from Microscope
title_fullStr An Overlapping and Integral Blurry Evaluation Method to Optimize Tissues Scanning from Microscope
title_full_unstemmed An Overlapping and Integral Blurry Evaluation Method to Optimize Tissues Scanning from Microscope
title_sort overlapping and integral blurry evaluation method to optimize tissues scanning from microscope
publisher EDP Sciences
series MATEC Web of Conferences
issn 2261-236X
publishDate 2018-01-01
description Virtual microscopes are devices that employ an automated XYZ mechanism to scan a sample, leading to the obtention of a series of small pictures that, when merged, compose a high-quality representation of the specimen. Due to the assembly tolerances, these devices may suffer from zones out of focus, reducing the quality of the final image. To solve this problem, researchers employ evaluation methods to calculate the blurriness of the image, and when an out of focus picture is located, performs the process of autofocus. Because of the variation on the types of samples, especially in pathology, the existing evaluation methods may fail to deliver a proper blur detection. This article proposes an optimized algorithm for the detection of the blurriness while conducting the sample scan in real time, ensuring that every scanned picture will be in focus. For this purpose, the algorithm relies on two functions, the comparison of the overlapping zones of two consecutive images, and the multivariate linear regression of a series of focus functions. The algorithm proved to be a reliable tool when applied in different pathology samples.
url https://doi.org/10.1051/matecconf/201818601006
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