Red Blood Cell Count Automation Using Microscopic Hyperspectral Imaging Technology

Qingli Li; Mei Zhou; Hongying Liu; Yiting Wang; Fangmin Guo

doi:10.1366/14-07766

Red Blood Cell Count Automation Using Microscopic Hyperspectral Imaging Technology

Qingli Li^*
, Mei Zhou
, Hongying Liu
, Yiting Wang
, Fangmin Guo

^*Corresponding author for this work

School of Communication and Electronic Engineering

East China Normal University

Research output: Contribution to journal › Article › peer-review

35 Scopus citations

Abstract

Red blood cell counts have been proven to be one of the most frequently performed blood tests and are valuable for early diagnosis of some diseases. This paper describes an automated red blood cell counting method based on microscopic hyper-spectral imaging technology. Unlike the light microscopy-based red blood count methods, a combined spatial and spectral algorithm is proposed to identify red blood cells by integrating active contour models and automated two-dimensional k-means with spectral angle mapper algorithm. Experimental results show that the proposed algorithm has better performance than spatial based algorithm because the new algorithm can jointly use the spatial and spectral information of blood cells.

Original language	English
Pages (from-to)	1372-1380
Number of pages	9
Journal	Applied Spectroscopy
Volume	69
Issue number	12
DOIs	https://doi.org/10.1366/14-07766
State	Published - Dec 2015

Keywords

Microscopic hyperspectral imaging
Peripheral blood
Red blood cell count
Segmentation

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10.1366/14-07766

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title = "Red Blood Cell Count Automation Using Microscopic Hyperspectral Imaging Technology",

abstract = "Red blood cell counts have been proven to be one of the most frequently performed blood tests and are valuable for early diagnosis of some diseases. This paper describes an automated red blood cell counting method based on microscopic hyper-spectral imaging technology. Unlike the light microscopy-based red blood count methods, a combined spatial and spectral algorithm is proposed to identify red blood cells by integrating active contour models and automated two-dimensional k-means with spectral angle mapper algorithm. Experimental results show that the proposed algorithm has better performance than spatial based algorithm because the new algorithm can jointly use the spatial and spectral information of blood cells.",

keywords = "Microscopic hyperspectral imaging, Peripheral blood, Red blood cell count, Segmentation",

author = "Qingli Li and Mei Zhou and Hongying Liu and Yiting Wang and Fangmin Guo",

note = "Publisher Copyright: {\textcopyright} 2015 Society for Applied Spectroscopy.",

year = "2015",

month = dec,

doi = "10.1366/14-07766",

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T1 - Red Blood Cell Count Automation Using Microscopic Hyperspectral Imaging Technology

AU - Li, Qingli

AU - Zhou, Mei

AU - Liu, Hongying

AU - Wang, Yiting

AU - Guo, Fangmin

PY - 2015/12

Y1 - 2015/12

N2 - Red blood cell counts have been proven to be one of the most frequently performed blood tests and are valuable for early diagnosis of some diseases. This paper describes an automated red blood cell counting method based on microscopic hyper-spectral imaging technology. Unlike the light microscopy-based red blood count methods, a combined spatial and spectral algorithm is proposed to identify red blood cells by integrating active contour models and automated two-dimensional k-means with spectral angle mapper algorithm. Experimental results show that the proposed algorithm has better performance than spatial based algorithm because the new algorithm can jointly use the spatial and spectral information of blood cells.

AB - Red blood cell counts have been proven to be one of the most frequently performed blood tests and are valuable for early diagnosis of some diseases. This paper describes an automated red blood cell counting method based on microscopic hyper-spectral imaging technology. Unlike the light microscopy-based red blood count methods, a combined spatial and spectral algorithm is proposed to identify red blood cells by integrating active contour models and automated two-dimensional k-means with spectral angle mapper algorithm. Experimental results show that the proposed algorithm has better performance than spatial based algorithm because the new algorithm can jointly use the spatial and spectral information of blood cells.

KW - Microscopic hyperspectral imaging

KW - Peripheral blood

KW - Red blood cell count

KW - Segmentation

UR - https://www.scopus.com/pages/publications/84988517936

U2 - 10.1366/14-07766

DO - 10.1366/14-07766

M3 - 文章

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SN - 0003-7028

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EP - 1380

JO - Applied Spectroscopy

JF - Applied Spectroscopy

IS - 12

ER -

Red Blood Cell Count Automation Using Microscopic Hyperspectral Imaging Technology

Abstract

Keywords

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