Aggregated model for tumor identification and 3D reconstruction of lung using CT-Scan

IF 0.9 Q3 ENGINEERING, MULTIDISCIPLINARY 3c Tecnologia Pub Date : 2020-04-30 DOI:10.17993/3ctecno.2020.specialissue5.159-179
Syed Abbas Ali, N. Tariq, Sallar Khan, Asif Raza, Syed Muhammad Faza-ul-Karim, Muhammad Usman
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Abstract

This paper facilitates radiologists in diagnosis of lung tumor and provides with a probability to differentiate between the types of tumor through automated analysis and increase in accuracy. The system is aggregated model for tumor identification and 3D reconstruction of lung using (computed Tomography) CT-scan images in Digital Imaging and Communications in Medicine (DICOM) format to identify the lung tumor (Benign or Malignant) using learning algorithm. The proposed system is capable to reconstruct the 3D model of lung tumor using CT-scan medical images and identify tumor (Benign or Malignant) including location of tumor (Attached to wall or parenchyma) with significant accuracy. The proposed diagnostic software provides significant results with bright CT scans to identify lungs tissue with different orientations by rotating it and reduces the enormous false positive rate by increasing the efficiency and accuracy of the diagnostic procedure. Whereas, CT-scan image is below required brightness or if CT-scan is done in a dark room than the module does not shows considerable results of segmentation. The proposed computer aided diagnosis can help the radiologists to detect tumor at early stage, decrease the enormous false positive rate, and the overall cost of the diagnostic procedure; thus, bringing windfall benefits in the field of medical imaging.
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CT扫描用于肺部肿瘤识别和三维重建的聚集模型
本论文为放射科医师对肺肿瘤的诊断提供了便利,并通过自动化分析提供了区分肿瘤类型的可能性,提高了准确性。该系统是用于肿瘤识别和肺部三维重建的聚合模型,使用数字成像和医学通信(DICOM)格式的ct扫描图像,使用学习算法识别肺肿瘤(良性或恶性)。该系统能够利用ct扫描医学图像重建肺肿瘤的三维模型,并以显著的准确性识别肿瘤(良性或恶性),包括肿瘤的位置(附着于壁或实质)。该诊断软件通过旋转明亮的CT扫描来识别不同方向的肺组织,提供了显著的结果,并通过提高诊断程序的效率和准确性来减少巨大的假阳性率。然而,ct扫描图像低于要求的亮度,或者如果ct扫描在暗室中进行,则该模块没有显示出相当大的分割结果。提出的计算机辅助诊断可以帮助放射科医生在早期发现肿瘤,减少巨大的假阳性率,降低诊断过程的总体成本;从而为医学影像领域带来意外的收益。
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来源期刊
3c Tecnologia
3c Tecnologia ENGINEERING, MULTIDISCIPLINARY-
自引率
33.30%
发文量
16
审稿时长
12 weeks
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