Skip to main content
Proceedings of the International Conferences on Computer Graphics, Visualization, Computer Vision and Image Processing 2017 and Big Data Analytics, Data Mining and Computational Intelligence 2017 - Part of the Multi Conference on Computer Science and Information Systems 20172017, Pages 124-13011th International Conferences on Computer Graphics, Visualization, Computer Vision and Image Processing, CGVCVIP 2017 and International Conference on Big Data Analytics, Data Mining and Computational Intelligence, BigDaCI 2017; Lisbon; Portugal; 21 July 2017 through 23 July 2017; Code 132105

An automated ovarian tissue detection approach using type P63 counter stained images to minimize pathology experts observation variability(Conference Paper)

  • Sazzad, T.M.S.,
  • Armstrong, L.,
  • Tripathy, A.K.
  Save all to author list
  • aEdith Cowan University, WA, Australia
  • bDon Bosco Institute of Technology, Mumbai, India

Abstract

Pathology experts are more interested to work and analyze microscopic digitized color images in compare to other available image processing modalities especially electronic ultrasound scanners. Ultrasound has the capability to identify larger sized and more mature sized tissues in compare to smaller ones. Ovarian reproductive tissues are smaller in size in compare to other available tissues in the ovary for which it is hard for ultrasound scanners to analyze ovarian reproductive tissues. Microscopic digitized color images are more viable for which at present most appropriate approach to analyze ovarian reproductive tissues remains microscopic analysis process. Manual analysis process is costly, extensive analysis time requires with observation variations between experts. To improve accuracy and reduce processing time computer based approaches have become popular for the last two decades but mostly to analyze cancer cells. To analyze small ovarian reproductive tissues accurately type P63 counter stained images with 3 different magnifications a fully automated approach is presented in this paper. The study's experimental results have higher accuracy rate in compare to manual analysis and electronic scanners. © 2017.

Author keywords

ClusterColor Digitized Microscopic ImageHistopathologyImage ArtifactsMean ShiftOvarian Reproductive TissuesRegion Fusion

Indexed keywords

Engineering controlled terms:Artificial intelligenceBig dataColorColor image processingComputer graphicsComputer visionComputersData miningData visualizationHistologyImage analysisImage processingPathologyScanningTissueUltrasonic applicationsVisualization
Engineering uncontrolled termsClusterHistopathologyImage artifactsMean shiftMicroscopic imageRegion fusionReproductive tissues
Engineering main heading:Tissue engineering
  • ISBN: 978-989853366-1
  • Source Type: Conference Proceeding
  • Original language: English
  • Document Type: Conference Paper
  • Volume Editors: Rodrigues L.,Xiao Y.,Abraham A.P.
  • Sponsors:
  • Publisher: IADIS


© Copyright 2018 Elsevier B.V., All rights reserved.

Cited by 0 documents

Inform me when this document is cited in Scopus:
Set citation alert Set citation feed
{"topic":{"name":"4-Vinyl-1-Cyclohexene Dioxide; Phosphoramide Mustards; Ovary","id":42979,"uri":"Topic/42979","prominencePercentile":62.303352,"prominencePercentileString":"62.303","overallScholarlyOutput":0},"dig":"4052e3a16e57ecb5c4a99f00c0e9a2d7a7c3cd20e1a85a0e8c92a15b84ce08b8"}

SciVal Topic Prominence

Topic:
Prominence percentile: