A projection-based method for motion-compensated noise suppression

Philips Journal of Research Pub Date : 1998-01-01 DOI:10.1016/S0165-5817(98)00006-0

M. Grass, V. Rasche, K.M. Lüdeke, R. Proksa, T. Schäffter

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引用次数: 2

Abstract

The diagnostic value of medical images significantly depends on the signal-to-noise ratio (SNR). Especially in fluoroscopic tomography, the SNR is limited by the radiation dose (Computer Tomography), or by the suitable acquisition techniques (Magnetic Resonance Imaging). The purpose of this paper is to introduce a projection-based method for the motion-compensated SNR enhancement applied in Radon space. It is based on a projection-based motion estimation with subsequent motion-compensated, edge-preserving filtering of the measured projections. The effect of temporal filtering as well as spatial filtering will be presented. In contrast to the recently introduced image-based approach, this method allows a very efficient computational implementation, likely to be used in real time imaging. It will be shown that a significant increase of the SNR can be achieved without introducing additional motion artifacts or blurring in the reconstructed images. The proposed technique has the potential to be used for SNR enhancement in low-dose fluoroscopy applications in CT as well as for SNR improvements in MR fluoroscopy using projection reconstruction based techniques.

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基于投影的运动补偿噪声抑制方法

医学图像的诊断价值很大程度上取决于信噪比(SNR)。特别是在透视断层扫描中，信噪比受到辐射剂量(计算机断层扫描)或合适的采集技术(磁共振成像)的限制。本文的目的是介绍一种基于投影的Radon空间运动补偿信噪比增强方法。它基于基于投影的运动估计，并对测量的投影进行随后的运动补偿、边缘保持滤波。本文将介绍时间滤波和空间滤波的效果。与最近引入的基于图像的方法相比，该方法允许非常有效的计算实现，可能用于实时成像。这将表明，信噪比的显著增加可以实现没有引入额外的运动伪影或模糊重建图像。所提出的技术有潜力用于CT低剂量透视应用的信噪比增强，以及基于投影重建技术的MR透视信噪比改善。

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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Philips Journal of Research

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