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    • 2. 发明授权
    • Apparatus and method for detecting and locating rare cells
    • 用于检测和定位稀有细胞的装置和方法
    • US07277569B2
    • 2007-10-02
    • US10616366
    • 2003-07-09
    • Richard H. BruceDouglas N. CurryRobert T. KrivacicHuangpin B. Hsieh
    • Richard H. BruceDouglas N. CurryRobert T. KrivacicHuangpin B. Hsieh
    • G06K9/00
    • B82Y20/00B82Y5/00B82Y10/00G01N15/1468G01N2015/0065
    • In accordance with one aspect of the present application, an imager and method for detecting and locating rare cells in a sample is disclosed. An imager stage supports the sample. A fiber optic bundle has a proximate bundle end of first fiber ends arranged to define an input aperture viewing the sample on the translation stage. The fiber optic bundle further has a distal bundle end of second fiber ends arranged to define an output aperture shaped differently from the input aperture and disposed away from the imager stage. A scanning radiation source is arranged in fixed relative position to the input aperture. The scanning radiation source scans a radiation beam on the sample within a viewing area of the input aperture. The radiation beam interacts with the sample to produce a light signal that is reflected, scattered, transmitted, re-emitted, or otherwise collected and received by the input aperture and transmitted via the fiber optic bundle to the output aperture. The scanning radiation source rasters the radiation beam over a selected area of the sample. A photodetector is arranged to detect the light signal at the distal bundle end, and a processor processes the detected light signals.
    • 根据本申请的一个方面,公开了一种用于检测和定位样品中的稀有细胞的成像器和方法。 成像器台支持样品。 光纤束具有布置成限定观察平移台上的样品的输入孔的第一光纤端的近端束端。 光纤束还具有设置成限定与输入孔不同的形状的输出孔并远离成像器台设置的第二纤维端的远端束端。 扫描辐射源被布置在与输入孔相对的固定相对位置。 扫描辐射源在输入孔的观察区域内扫描样品上的辐射束。 辐射束与样品相互作用以产生被信号反射,散射,透射,再发射或以其它方式收集和接收的光信号,并通过光纤束传输到输出孔。 扫描辐射源将辐射束照射在样品的选定区域上。 光检测器被设置为检测远端束端处的光信号,并且处理器处理检测到的光信号。
    • 3. 发明授权
    • Method of scanning and light collection for a rare cell detector
    • 稀有细胞检测器的扫描和光采集方法
    • US07280261B2
    • 2007-10-09
    • US11017440
    • 2004-12-20
    • Douglas N. CurryRichard H. BruceRobert T. Krivacic
    • Douglas N. CurryRichard H. BruceRobert T. Krivacic
    • G02B26/08
    • G01N21/6456G01N21/6428G01N2021/6484G01N2201/1085
    • An apparatus images a surface. An imager stage has a planar surface for supporting a sample. A fiber optic bundle has a first end of parallel first fiber ends that are arranged to define an input aperture for viewing the sample on the imager stage. A distal bundle end is arranged to define an output aperture disposed away from the imager stage. A scanning radiation source scans a radiation beam along a path that is perpendicular to the sample on the imager stage. The input aperture of the fiber optic bundle receives a light signal that is produced by the radiation source scan of the imager stage sample. The light signal is transmitted to the bundle output aperture. A photodetector detects the light signal at the distal bundle end, and a processor processes the detected light.
    • 装置对表面进行成像。 成像器台具有用于支撑样品的平坦表面。 光纤束具有平行的第一光纤端的第一端,其布置成限定用于观察成像器台上的样品的输入孔。 远侧束端布置成限定远离成像器台布置的输出孔。 扫描辐射源沿着与成像器台上的样品垂直的路径扫描辐射束。 光纤束的输入孔径接收由成像器台样品的辐射源扫描产生的光信号。 光信号被传输到束输出孔径。 光电检测器检测远侧束端处的光信号,并且处理器处理检测到的光。
    • 7. 发明授权
    • Light source modulator
    • 光源调制器
    • US06707481B1
    • 2004-03-16
    • US09487544
    • 2000-01-19
    • Robert T. KrivacicAlan G. BellDouglas N. Curry
    • Robert T. KrivacicAlan G. BellDouglas N. Curry
    • B41J247
    • H04N1/40043G06K15/1223H04N1/40037
    • A light source modulator and method of modulating a light source use a lower bandwidth input signal during rendering of image data, which is less susceptible to systematic error. The modulation scheme improves the efficiency of use of high speed memory by limiting a number of intensity level transitions to a single transition per output pixel. In conjunction with the limitation of transitions per rendering of each output pixel, data is provided to the modulator that indicates an intensity level to be provided by the modulator and a timing of a transition to that intensity level. In accordance with the exemplary embodiments of the invention, an intensity level may be a minimum intensity level, a maximum intensity level and at least one intermediate intensity level which is intermediate between the minimum and maximum intensity levels.
    • 光源调制器和调制光源的方法在渲染图像数据期间使用较低带宽的输入信号,其不太容易受到系统误差的影响。 调制方案通过将多个强度电平转换限制到每个输出像素的单个转换来提高使用高速存储器的效率。 结合每个输出像素的每个渲染的转换的限制,数据被提供给调制器,其指示要由调制器提供的强度水平和转换到该强度水平的定时。 根据本发明的示例性实施例,强度水平可以是最小强度水平,最大强度水平和处于最小和最大强度水平之间的至少一个中间强度水平。
    • 10. 发明申请
    • Single-Pass Imaging Method Using Spatial Light Modulator And Anamorphic Projection Optics
    • 使用空间光调制器和变形投影光学的单程成像方法
    • US20130050779A1
    • 2013-02-28
    • US13216877
    • 2011-08-24
    • Timothy David StoweDouglas N. CurryPatrick Y. Maeda
    • Timothy David StoweDouglas N. CurryPatrick Y. Maeda
    • H04N1/04
    • B41J2/465B41J2/447B41J2/45
    • Substantially one-dimensional scan line images at 1200 dpi or greater are generated in response to predetermined scan line image data. A substantially uniform two-dimensional homogenous light field is modulated using a spatial light modulator in accordance with the predetermined scan line image data such that the modulated light forms a two-dimensional modulated light field. The modulated light field is then anamorphically imaged and concentrated to form the substantially one-dimensional scan line image. The spatial light modulator includes light modulating elements arranged in a two-dimensional array. The light modulating elements are disposed such that each modulating element receives an associated homogenous light portion, and is individually adjustable between an “on” modulated state and an “off” modulated state, whereby in the “on” modulated state each modulating element directs its received light portion onto a corresponding region of the anamorphic optical system, and in the “off” state blocks or diverts the light portion.
    • 响应于预定的扫描线图像数据,产生基于1200dpi或更大的一维扫描线图像。 使用根据预定扫描线图像数据的空间光调制器调制基本上均匀的二维均匀光场,使得调制光形成二维调制光场。 然后将调制的光场变形成像并集中以形成基本上一维的扫描线图像。 空间光调制器包括以二维阵列布置的光调制元件。 光调制元件被布置成使得每个调制元件接收相关联的均匀光部分,并且可以在调制状态和去调制状态之间单独调节,由此在调制状态下,每个调制元件将其接收的光部分引导到对应的 变形光学系统的区域,并且在关闭状态下阻挡或转移光部分。