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    • 1. 发明授权
    • Methods for analytic reconstruction for mult-source inverse geometry CT
    • 多源逆几何CT分析重建方法
    • US07778386B2
    • 2010-08-17
    • US11741359
    • 2007-04-27
    • Zhye YinJed Douglas PackBruno K. B. De ManNorbert J. Pelc
    • Zhye YinJed Douglas PackBruno K. B. De ManNorbert J. Pelc
    • A61B6/03
    • G06T11/006G06T2211/416G06T2211/421
    • Disclosed are embodiments of methods for reconstructing x-ray projection data (e.g., one or more sinograms) acquired using a multi-source, inverse-geometry computed tomography (“IGCT”) scanner. One embodiment of a first method processes an IGCT sinogram by rebinning first in “z” and then in “xy,” with feathering applied during the “xy” rebinning. This produces an equivalent of a multi-axial 3rd generation sinogram, which may be further processed using a parallel derivative and/or Hilbert transform. A TOM-window (with feathering) technique and a combines backprojection technique may also be applied to produce a reconstructed volume. An embodiment of a second method processes an IGCT sinogram using a parallel derivative and/or redundancy weighting. The second method may also use signum weighting, TOM-windowing (with feathering), backprojection, and a Hilbert Inversion to produce another reconstructed volume.
    • 公开了用于重建使用多源反相几何计算机断层摄影(“IGCT”)扫描仪获取的x射线投影数据(例如,一个或多个正弦图)的方法的实施例。 第一种方法的一个实施例通过在“z”中首先重新组合,然后在“xy”中重新组合来处理IGCT正弦图,在“xy”重组期间应用羽化。 这产生等效的多轴第三代正弦图,其可以使用平行导数和/或希尔伯特变换进一步处理。 TOM窗口(具有羽化)技术和组合的反投影技术也可以应用于产生重建体积。 第二种方法的实施例使用并行导数和/或冗余加权处理IGCT正弦图。 第二种方法还可以使用信号加权,TOM窗口(具有羽化),反投影和希尔伯特反演来产生另一个重建的体积。
    • 4. 发明授权
    • X-ray source and detector configuration for a non-translational x-ray diffraction system
    • 用于非平移x射线衍射系统的X射线源和检测器配置
    • US07742563B2
    • 2010-06-22
    • US12207641
    • 2008-09-10
    • Peter Michael EdicGeoffrey HardingBruno K. B. De ManHelmut Rudolf Strecker
    • Peter Michael EdicGeoffrey HardingBruno K. B. De ManHelmut Rudolf Strecker
    • G01N23/20G01N23/04
    • G01N23/20
    • A system and method for scanning objects using a non-translational x-ray diffraction (XRD) system is disclosed. The system includes a scanning area through which an object to be scanned traverses and a distributed x-ray source having a plurality of focal spot locations. The distributed x-ray source is affixed on the scanning area and is configured to emit x-rays towards the object as a series of parallel x-ray beams. A stationary detector arrangement is affixed on another side of the scanning area generally opposite the distributed x-ray source and is configured to measure a coherent scatter spectra of the x-rays after passing through the object. A data acquisition system (DAS) is connected to the detector arrangement and is configured to measure the coherent scatter spectra, which is utilized to generate XRD data and determine a material composition of at least a portion of the object from the XRD data.
    • 公开了一种使用非平移X射线衍射(XRD)系统扫描物体的系统和方法。 该系统包括扫描区域,待扫描物体穿过该扫描区域以及具有多个焦点位置的分布式X射线源。 分布式X射线源被固定在扫描区域上并且被配置为以一系列平行的X射线束朝向物体发射X射线。 固定检测器装置固定在扫描区域的与分布式x射线源大致相对的另一侧,并且被配置成测量穿过物体之后的x射线的相干散射光谱。 数据采集​​系统(DAS)连接到检测器装置,并且被配置为测量相干散射光谱,其被用于产生XRD数据并且根据XRD数据确定物体的至少一部分的材料组成。