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    • 4. 发明申请
    • IMAGING APPARATUS, CALIBRATION ASSEMBLY, DEVICE AND METHOD FOR OBTAINING A MONOCHROMATIC FLOW OF X-RAY RADIATION, AND METHODS OF CALIBRATING A DETECTOR ELEMENT
    • 成像装置,校准装置,用于获得X射线辐射的单色流动的装置和方法,以及校准检测元件的方法
    • WO2009072044A3
    • 2009-08-13
    • PCT/IB2008054997
    • 2008-11-28
    • KONINKL PHILIPS ELECTRONICS NVPHILIPS INTELLECTUAL PROPERTYSCHLOMKA JENS-PETERROESSL EWALD
    • SCHLOMKA JENS-PETERROESSL EWALD
    • G21K1/06
    • G21K1/06G21K2201/062G21K2201/067
    • An imaging apparatus based on the detection of X-ray photons, in particular for medical use, is described. The imaging apparatus comprises a radiation source (16) for generating a flow (18) of X-ray radiation, a detector (20) for detecting X-ray radiation, a control unit adapted to control the radiation source (16), to read out information from the detector (20) and to process the information into a visual image, and a device (10) for obtaining a monochromatic flow (12) of X-ray radiation. Furthermore, a device (10) is described, which comprises a positioning apparatus (34) and a crystalline element (36) mounted on the positioning apparatus (34), wherein the positioning apparatus (34) is adapted to position the crystalline element (36) relative to a flow (18) of X-ray radiation generated by a radiation source (16) such that the crystalline element (36) reflects a monochromatic flow (12) of X-ray radiation according to Bragg' s law. Finally, a corresponding calibration assembly, a method of obtaining a monochromatic flow (12) of X-ray radiation and methods of calibrating a detector element (42) of a detector (20) are described.
    • 描述了基于X射线光子的检测,特别是用于医疗用途的成像装置。 成像装置包括用于产生X射线辐射流(18)的辐射源(16),用于检测X射线辐射的检测器(20),适于控制辐射源(16)的控制单元 (20)的信息和将信息处理成可视图像的装置(10),以及用于获得X射线辐射的单色流(12)的装置(10)。 此外,描述了一种装置(10),其包括定位装置(34)和安装在定位装置(34)上的结晶元件(36),其中定位装置(34)适于将结晶元件(36) )相对于由辐射源(16)产生的X射线辐射的流(18),使得结晶元件(36)根据布拉格定律反射X射线辐射的单色流(12)。 最后,描述了相应的校准组件,获得X射线辐射的单色流(12)的方法和校准检测器(20)的检测器元件(42)的方法。
    • 7. 发明申请
    • DIFFERENTIAL PHASE-CONTRAST IMAGING WITH FOCUSSING DEFLECTION STRUCTURE PLATES
    • 聚焦偏转结构板的微分相位对比成像
    • WO2012104770A2
    • 2012-08-09
    • PCT/IB2012050418
    • 2012-01-30
    • KONINKL PHILIPS ELECTRONICS NVPHILIPS INTELLECTUAL PROPERTYROESSL EWALDKOEHLER THOMAS
    • ROESSL EWALDKOEHLER THOMAS
    • G21K1/06
    • G21K1/065G01N23/04G21K1/06G21K2207/005
    • The present invention relates to X-ray differential phase-contrast imaging, in particular to a deflection device for X-ray differential phase-contrast imaging. In order to provide differential phase-contrast imaging with improved dose efficiency, a deflection device (28) for X-ray differential phase-contrast imaging is provided, comprising a deflection structure (41) with a first plurality (44) of first areas (46), and a second plurality (48) of second areas (50). The first areas are provided to change the phase and/or amplitude of an X- ray radiation; and wherein the second areas are X-ray transparent. The first and second areas are arranged periodically such that, in the cross section, the deflection structure is provided with a profile arranged such that the second areas are provided in form of groove-like recesses (54) formed between first areas provided as projections (56). The adjacent projections form respective side surfaces (58)partly enclosing the respective recess arranged in between. The side surfaces of each recess have a varying distance (60) across the depth (62) of the recess.
    • X射线差分相位对比成像技术领域本发明涉及X射线差分相位对比成像,尤其涉及一种用于X射线差分相位对比成像的偏转装置。 为了提供具有改善的剂量效率的差分相衬成像,提供了用于X射线差分相衬成像的偏转装置(28),其包括具有第一多个(44)第一区域(44)的偏转结构(41) 46)和第二多个(48)第二区域(50)。 提供第一区域以改变X射线辐射的相位和/或振幅; 并且其中第二区域是X射线透明的。 第一区域和第二区域周期性地布置,使得在该横截面中,偏转结构设置有轮廓,该轮廓布置成使得第二区域以形成在作为凸起设置的第一区域之间的凹槽状凹部(54) 56)。 相邻的凸出部分形成相应的侧表面(58),部分地包围设置在其间的相应凹槽。 每个凹槽的侧表面在凹槽的深度(62)上具有变化的距离(60)。
    • 8. 发明申请
    • COUNTING DETECTOR
    • 计数器
    • WO2009133481A3
    • 2010-06-10
    • PCT/IB2009051192
    • 2009-03-20
    • KONINKL PHILIPS ELECTRONICS NVPHILIPS INTELLECTUAL PROPERTYMARKS AVIVHERRMANN CHRISTOPHROESSL EWALD
    • MARKS AVIVHERRMANN CHRISTOPHROESSL EWALD
    • G01T1/17
    • G01T1/17
    • A pulse shaper (124) includes an integrator (202) with a feedback capacitor (208) that stores integrated charge of a charge pulse indicative of a detected photon. An output pulse of the integrator includes a peak amplitude indicative of the detected photon. An end pulse identifier (214) identifies the end of the charge pulse. A controller (216) generates a control signal that invokes a reset of the integrator (202) when the end of the 5 pulse is identified. An energy discriminator (128) includes a chain of comparators (132) connected in series. An output of each of the comparators (702, 704) is influenced by an output of a previous one of the comparators (702, 704). A decision component (706) determines an output of the comparators (702, 704), and a controller component (708) triggers the decision component (706) to store the output of the comparators (702, 704) 10 after lapse of a charge collection time.
    • 脉冲整形器(124)包括具有反馈电容器(208)的积分器(202),该反馈电容器存储指示检测到的光子的电荷脉冲的积分电荷。 积分器的输出脉冲包括指示检测到的光子的峰值振幅。 结束脉冲识别器(214)识别充电脉冲的结束。 当识别出5脉冲的结束时,控制器(216)产生调用积分器(202)的复位的控制信号。 能量鉴别器(128)包括串联连接的比较器链(132)。 每个比较器(702,704)的输出受到前一个比较器(702,704)的输出的影响。 判定部件(706)确定比较器(702,704)的输出,并且控制器部件(708)触发判定部件(706),以在经过充电之后存储比较器(702,704)10的输出 收集时间。
    • 9. 发明申请
    • DYNAMIC OPTIMIZATION OF THE SIGNAL-TO-NOISE RATIO OF DUAL-ENERGY ATTENUATION DATA FOR RECONSTRUCTING IMAGES
    • 用于重建图像的双能量衰减数据的信号噪声比的动态优化
    • WO2007110796A2
    • 2007-10-04
    • PCT/IB2007050884
    • 2007-03-15
    • PHILIPS INTELLECTUAL PROPERTYKONINKL PHILIPS ELECTRONICS NVZIEGLER ANDYROESSL EWALD
    • ZIEGLER ANDYROESSL EWALD
    • G01T1/2985
    • It is described a method for dynamically optimizing the signal-to-noise ratio of attenuation data related to two different X-ray energies for reconstructing an image of an object under examination. The method comprises (a) estimating the thickness and the material composition of the object at a plurality of different projection angles, (b) for each of the various projection angles calculating for a variety of combinations of different first and second X-ray energies a corresponding common signal-to-noise ratio, (c) for each of the various projection angles choosing the first and the second X-ray energy causing the maximum corresponding common signal-to-noise ratio, and (d) for each of the various projection angles acquiring X-ray attenuation data of the object whereby the two X-ray energies are the X-ray energies causing a maximum signal-to-noise ratio assigned to the respective projection angle.
    • 描述了一种用于动态优化与两个不同X射线能量相关的衰减数据的信噪比的方法,用于重建被检查物体的图像。 该方法包括:(a)以多个不同的投影角度估计物体的厚度和材料成分,(b)对于针对不同的第一和第二X射线能量的各种组合计算的各种投影角度中的每一个 相应的公共信噪比,(c)对于选择第一和第二X射线能量的各种投影角度中的每一个引起最大对应的公共信噪比,(d)对于各种 投影角度获取物体的X射线衰减数据,由此两个X射线能量是分配给各个投影角度的最大信噪比的X射线能量。
    • 10. 发明申请
    • SPECTRAL IMAGING
    • 光谱成像
    • WO2010061307A2
    • 2010-06-03
    • PCT/IB2009054884
    • 2009-11-03
    • KONINKL PHILIPS ELECTRONICS NVPHILIPS INTELLECTUAL PROPERTYROESSL EWALD
    • ROESSL EWALD
    • G01T1/1647
    • A spectral processor (118) includes a first processing channel (120) that generates a first spectral signal derived from a detector signal, wherein the first spectral signal includes first spectral information about the detector signal, and a second processing channel (120) that generates a second spectral signal derived from the detector signal, wherein the second spectral signal includes second spectral information about the detector signal, wherein the first and second spectral signals are used to spectrally resolve the detector signal, and wherein the detector signal is indicative of detected polychromatic radiation.
    • 光谱处理器(118)包括产生从检测器信号导出的第一光谱信号的第一处理信道(120),其中第一光谱信号包括关于检测器信号的第一光谱信息,以及产生第二光谱信号 从所述检测器信号导出的第二光谱信号,其中所述第二光谱信号包括关于所述检测器信号的第二光谱信息,其中所述第一和第二光谱信号用于对所述检测器信号进行光谱解析,并且其中所述检测器信号指示检测到的多色 辐射。