Identification of Crystals Present in a Urine Sediment based on Adaptive Boosting Algorithm

Carlos C. Hortinela, Jessie R. Balbin, Janette C. Fausto, Kristoffer K. Viray
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引用次数: 5

Abstract

Urinalysis is one of the most common examination being done to check the components present in the urine. A microscopic exam is needed to detect certain components present in urine such as Red blood cells, White blood cells, and crystals. Certain diseases can be seen in the urine through the form of urine crystals. The objective of the study is to detect the urine crystal present in the patient’s urine by image processing after undergoing centrifugation of the urine sample. A microscope was used with a Raspberry Pi 2 mounted on it and a Raspberry Pi camera placed on the eyepiece of the microscope to capture the image of the urine sediment. The process used the application of Harr feature. Adaptive Boosting was used before sending the data to the support vector machine. This study is limited in detecting the urine crystal provided by the medical laboratories in the country. The study will be important in the health sector specifically in detecting urinary tract abnormalities by classifying the type of crystal present in the urine. 30 sample urine images were done by the researchers. The testing gathered an accuracy of 90% when compared to the traditional urinalysis.
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基于自适应增强算法的尿液沉积物晶体识别
尿液分析是一种最常见的检查,用于检查尿液中存在的成分。需要显微镜检查来检测尿液中存在的某些成分,如红细胞、白细胞和晶体。某些疾病可以通过尿晶体的形式在尿液中发现。本研究的目的是在对尿样进行离心处理后,通过图像处理来检测患者尿液中存在的尿晶体。在显微镜上安装了树莓派2,在显微镜目镜上放置了树莓派相机来捕捉尿液沉积物的图像。过程中使用了Harr特征的应用。在将数据发送给支持向量机之前使用自适应增强。本研究仅限于国内医学实验室提供的尿晶检测。这项研究将在卫生部门具有重要意义,特别是通过对尿液中存在的晶体类型进行分类来检测尿路异常。研究人员制作了30张尿样图像。与传统的尿液分析相比,该测试的准确率为90%。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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