Image classification of unlabeled malaria parasites in red blood cells

Zhang, Zheng; Ong, Lee; Kong, Fang; Matthew, Ajay; Dauwels, Justin; Dao, Ming; Asada, H. Harry

doi:10.1109/embc.2016.7591599

Cited by 21 publications

(13 citation statements)

References 12 publications

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“…Preedanan's study [27] collected 15 images with the dimensions of 1360 × 1024 pixels. Zhang's study [28] used 43 images, and Rosado's study [29] used 194 images. After that,…”

Section: Most Used Methods In the Detection Of Plasmodiummentioning

confidence: 99%

A Systematic Review on Automatic Detection of Plasmodium Parasite

Sumi

Nugroho

Hartanto

2021

Int. j. eng. technol. innov.

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Plasmodium parasite is the main cause of malaria which has taken many lives. Some research works have been conducted to detect the Plasmodium parasite automatically. This research aims to identify the development of current research in the area of Plasmodium parasite detection. The research uses a systematic literature review (SLR) approach comprising three stages, namely planning, conducting, and reporting. The search process is based on the keywords which were determined in advance. The selection process involves the inclusion and exclusion criteria. The search yields 45 literatures from five different digital libraries. The identification process finds out that 28 methods are applied and mainly categorizes as machine learning algorithms with performance achievements between 60% and 95%. Overall, the research of Plasmodium parasite detection today has focused on the development with artificial intelligence specifically related to machine and deep learning. These approaches are believed as the most effective approach to detect Plasmodium parasites.

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“…Preedanan's study [27] collected 15 images with the dimensions of 1360 × 1024 pixels. Zhang's study [28] used 43 images, and Rosado's study [29] used 194 images. After that,…”

Section: Most Used Methods In the Detection Of Plasmodiummentioning

confidence: 99%

A Systematic Review on Automatic Detection of Plasmodium Parasite

Sumi

Nugroho

Hartanto

2021

Int. j. eng. technol. innov.

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“…Shan Yang 1, 2 , Yanbing Li , Tuoyu Liu 1, , Haidong Zhang 4 区，RDTs 比血涂片镜检的成本更高 [14] 。因此，目前显微镜检和 RDTs 更多的是相互补充，而不是相互取代。与上述两种方法相比，PCR 分子检测方法具有更高的灵敏度和特异性 [7] ，是所有测试中最准确的方法。PCR 可以检测血液中极低浓度的疟原虫，并能鉴别疟原虫种类。然而， PCR 技术复杂且成本较高，其检测需要经过培训人员进行操作，检测过程需数小时。根据 Tangpukdee 等研究 [7] Otsu 阈值 [15][16][17][18][19][20][21][22][23][24][25][26] 基于图像包含双峰直方图的假设计算最佳阈值 (自适应)直方图阈值 [21,[27][28][29][30][31][32][33][34][35][36][37][38] 难以确定阈值…”

Section: Artificial Intelligence In Malaria Diagnosticsunclassified

“…Hough 变换 [27,28,37] 需测定血细胞弧度，包括半径、形状 K-均值聚类 [46] 无监督学习技术，使用像素特征描述符通过迭代将像素分配给 K 聚类分水岭算法 [22] 提取连续边界区域，但经常出现过度分割标记控制分水岭算法 [15,23,38,[47][48][49][50][51] 主要用于分割相互接触的细胞主动轮廓模型 [47,49,[52][53][54] 基于水平集，确保拓扑灵活性，计算量大基于规则的分割 [55] 需要了解细胞形状、大小、颜色等。基于模糊规则的分割 [56] 当不确定性较高时，制定规则较困难模糊发散分割 [57] 神经网络 [58] 需要判别能力较强的特征来区分前景和背景像素模板匹配 [59] 自适应高斯混合模型距离变换 [60] 距离转换 [61] 自适应提升算法 [62] 查找表 [63] 标准化切割算法 [64] 计算量大表 2 厚血涂片分割算法 Otsu 阈值 [65] 基于图像可分为两类且遵循双峰直方图的假设，计算最佳阈值直方图阈值 [44,66,67] 难以确定阈值，通常与其它方法并用以提高性能形态学运算 [68] 数学形态学运算，包括粒度运算、开运算、闭运算等。用于表征血细胞的弧状外形、大小、边界、骨架、纹理、渐变等。模糊 C-均值 [39] 2.…”

Section: Artificial Intelligence In Malaria Diagnosticsunclassified

Artificial Intelligence in Malaria Diagnostics

Teng

Yang

Li³

et al. 2021

Sci. Sin.-Vitae

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Apart from the ongoing global pandemic of coronavirus disease 2019 (COVID-19), malaria remains one of the major threats to human health. Every year, about 200 million new cases of malaria are diagnosed worldwide, resulting in more than 400,000 deaths. Timely diagnosis of malaria is critical to reducing its transmission and mortality. In order to improve the diagnosis level of malaria in remote rural areas, artificial intelligence models based on deep learning algorithms are gradually applied to the microscope for the malaria detection in blood smears. This review outlines the principles of such technologies, introduces the latest progress of current artificial intelligence models in microscopy for malaria, and looks forward to the application prospects of deep learning and smart phone technology in the field of malaria diagnosis.

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“…Microscopic examination is a technique that often used to detect malaria parasites [3]. Microscopic examination has some limitations, this examination needs a high-quality microscope and it needs an expert who has experienced in using a microscope.…”

Section: Introductionmentioning

confidence: 99%

Implementation of Siamese Convolutional Neural Network from Cell Images for Malaria Disease Identification

Devani¹

2020

IJATCSE

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Malaria is contagious and transmitted through Anopheles mosquito. This disease caused about 435,000 people died in 2017. Therefore, it is considered as a dangerous disease. This research aims to implement Siamese Convolutional Neural Network (SCNN) to identify malaria using a collection ofhuman cell images. SCNN is an architecture that uses two convolutional neural networks with the same configurations. Input data for this network are two paired images, where the first is the reference image and the second one is a test image and will produce a similarity score consisting of the numbers 0-1.The data uses in this research is consisted of two classes, namely, parasitized and uninfected. Based on trials that have been carried out, we decide to create SCNNmodel whichis utilizing a pre-trained ImageNet VGG16and a fully connected network with a single hidden layer. Hyperparameter and parameter used are fixed and not all hyperparameter are used. Testing is done by changing the number of reference images and the number of training images. The best accuracy result obtained by using siamese convolutional neural network model is 94.35%.

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Image classification of unlabeled malaria parasites in red blood cells

Cited by 21 publications

References 12 publications

A Systematic Review on Automatic Detection of Plasmodium Parasite

A Systematic Review on Automatic Detection of Plasmodium Parasite

Artificial Intelligence in Malaria Diagnostics

Implementation of Siamese Convolutional Neural Network from Cell Images for Malaria Disease Identification

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