曲波变换的应用综述

Shachi Sinha, E. Teli, R. Sivakumar
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引用次数: 0

摘要

通常从计算机断层扫描(CT)或磁共振成像(MRI)扫描仪收集的人体三维图像文件的使用和检查,用于诊断疾病,指导手术计划等医疗操作或用于研究目的,被称为医学图像处理。它允许在非侵入性的情况下对内部解剖结构进行全面的研究。可以建立和研究感兴趣的解剖结构的3D模型,以改善患者的治疗效果,开发更好的医疗设备和药物输送系统,并获得更准确的诊断。它最近已成为医疗改进的最重要的工具之一。结果表明,曲线变换对医学数据的处理效果优于其他变换。在测试中,Curvelet极大地提高了扫描中异常组织的分类,并降低了周围的噪声。本文概述了包括曲波变换和数字减影血管造影在内的当代进展和技术。该研究还讨论了小波变换和脊波变换的使用,以及启发使用曲线变换改进图像可视化的缺点。
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Applications of Curvelet Transform: A Review
The use and examination of 3D picture files of the human body, generally gathered from a Computed Tomography (CT) or Magnetic Resonance Imaging (MRI) scanner, to diagnose diseases, guide medical operations such as surgery planning, or for research purposes, is known as medical image processing. It allows for a comprehensive study of the internal anatomy while being non-invasive. 3D models of anatomical structures of interest can be built and studied in order to improve patient treatment outcomes, develop better medical equipment and drug delivery systems, and arrive at more accurate diagnoses. It has recently become one of the most essential instruments for medical improvement. It was shown that curvelet transformations performed better than other transforms on medical data. In tests, Curvelet greatly improves the classification of aberrant tissues in scans and reduces the surrounding noise. We gave an overview of contemporary advances and technologies including curvelet transform as well as digital subtraction angiography in this paper. The study also discusses the uses of wavelet and ridglet transforms, as well as the drawbacks that inspired the use of the curvelet transform for improved image visualisation.
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