Automated cell counting and cluster segmentation using concavity detection and ellipse fitting techniques

Kothari, Seema; Chaudry, Qaiser; Wang, May D.

doi:10.1109/isbi.2009.5193169

Cited by 120 publications

(74 citation statements)

References 12 publications

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“…The method is used for counting nuclei in the cells recognized by voxels (three-dimensional equivalents of the pixels) which are used as templates. Kothari et al [12] used for the same purpose spherical templates. The advances in biotechnology led to the need to adapt the microbiological techniques in many fields of applied biology.…”

Section: Exposurementioning

confidence: 99%

Segmentation of microscopic images of bacteria in Bulgarian yoghurt by template matching

Zlatev¹,

Baeva²,

Nikolova³

2016

ARTTE

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Section: Exposurementioning

confidence: 99%

Segmentation of microscopic images of bacteria in Bulgarian yoghurt by template matching

Zlatev¹,

Baeva²,

Nikolova³

2016

ARTTE

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“…It illustrates the intended use of our method. In contrast to approaches that have focused on segmenting individual spots [2,3,4,5], our primary goal is to provide fast, but robust global summary measures that quickly allow the analyst to find trends and outliers in image sets from high-throughput microscopy. This should allow them to identify smaller subsets of images of particular interest, to which more sophisticated segmentation-based approaches or manual segmentation can subsequently be applied.…”

Section: Experiments On Plasma Membrane Protein Clustersmentioning

confidence: 99%

“…Analysis of such images requires counting and measuring the sizes of those spots. Even though methods based on wavelet multiscale product (WMP) operator [2], ellipse fitting [3], modified circular hough transform (CHT) [4], or spectral graph partitioning [5] have been introduced to detect and segment individual spots, practitioners still frequently resort to manual analysis because automated segmentation is not reliable enough in many real-world scenarios. In this work, we introduce a novel approach to this problem that derives per-pixel estimates of spot size and density that do not require reliable delineation of individual spots.…”

Section: Introductionmentioning

confidence: 99%

Segmentation-free quantification of spots on a homogeneous background

Hermann

Klein

Schultz

2014

2014 IEEE Conference on Visual Analytics Science and Technology (VAST)

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A recurrent problem in the analysis of microscopy images is to quantify the number and size of spots on a homogeneous background. Unfortunately, segmenting the individual spots becomes unreliable when they are close together, or when the image contains noise and artifacts. On the other hand, manual counting and line-scan measurements are prone to bias and too time-consuming to be used in high-throughput microscopy. In this work, we derive novel per-pixel measures of spot scale and density from Total Variation Flow, a partial differential equation that changes the intensities of image regions at a rate inverse to their scale. On simulated, phantom, and real-world data from Stimulated Emission Depletion (STED) microscopy, we demonstrate the robustness of our novel method relative to a standard segmentation-based approach.

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“…Nowdays the wide spread of ubiquitous smart space environments can lead the cell counting process applicable to [4]. It is known that morphology itself is not an efficient solution when the shape or size of the cell is inconstant from one class to another and also within a class [5].…”

mentioning

confidence: 99%

An Automatic Mobile Cell Counting System for the Analysis of Biological Image

Seo¹,

Chun²,

Lee³

2015

Journal of Internet Computing and Services

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This paper presents an automatic method to detect and count the cells from microorganism images based on mobile environments. Cell counting is an important process in the field of biological and pathological image analysis. In the past, cell counting is done manually, which is known as tedious and time consuming process. Moreover, the manual cell counting can lead inconsistent and imprecise results. Therefore, it is necessary to make an automatic method to detect and count cells from biological images to obtain accurate and consistent results. The proposed multi-step cell counting method automatically segments the cells from the image of cultivated microorganism and labels the cells by utilizing topological analysis of the segmented cells. To improve the accuracy of the cell counting, we adopt watershed algorithm in separating agglomerated cells from each other and morphological operation in enhancing the individual cell object from the image. The system is developed by considering the availability in mobile environments. Therefore, the cell images can be obtained by a mobile phone and the processed statistical data of microorganism can be delivered by mobile devices in ubiquitous smart space. From the experiments, by comparing the results between manual and the proposed automatic cell counting we can prove the efficiency of the developed system.

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Automated cell counting and cluster segmentation using concavity detection and ellipse fitting techniques

Cited by 120 publications

References 12 publications

Segmentation of microscopic images of bacteria in Bulgarian yoghurt by template matching

Segmentation of microscopic images of bacteria in Bulgarian yoghurt by template matching

Segmentation-free quantification of spots on a homogeneous background

An Automatic Mobile Cell Counting System for the Analysis of Biological Image

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