Shared terminal of an image sensor system for transferring image data and control signals
    2.
    发明授权
    Shared terminal of an image sensor system for transferring image data and control signals 有权
    用于传送图像数据和控制信号的图像传感器系统的共享终端

    公开(公告)号:US09319603B2

    公开(公告)日:2016-04-19

    申请号:US14543483

    申请日:2014-11-17

    Abstract: An image sensor system includes an image sensor and a host controller. The image sensor includes a power input terminal, a data terminal, a clock input terminal, and a ground terminal. The host controller is coupled to the power input terminal to provide power to the image sensor, the data terminal to receive analog image data from the image sensor, the clock input terminal to provide a clock signal to the image sensor, and the ground terminal. The ground terminal serves as a common reference between the image sensor and one or more circuits of the host controller. The system also includes logic that is configured to transfer the analog image data from the image sensor to the host controller through the data terminal of the image sensor and to transfer one or more digital control signals between the image sensor and the host controller through the data terminal.

    Abstract translation: 图像传感器系统包括图像传感器和主机控制器。 图像传感器包括电源输入端子,数据端子,时钟输入端子和接地端子。 主机控制器耦合到电源输入端以向图像传感器提供电力,数据终端接收来自图像传感器的模拟图像数据,时钟输入端子以向图像传感器和接地端子提供时钟信号。 接地端子用作图像传感器和主机控制器的一个或多个电路之间的公共参考。 该系统还包括被配置为通过图像传感器的数据端将模拟图像数据从图像传感器传送到主机控制器并且通过数据传送图像传感器和主机控制器之间的一个或多个数字控制信号的逻辑 终奌站。

    LENS-FREE IMAGING SYSTEM AND METHOD FOR DETECTING PARTICLES IN SAMPLE DEPOSITED ON IMAGE SENSOR
    3.
    发明申请
    LENS-FREE IMAGING SYSTEM AND METHOD FOR DETECTING PARTICLES IN SAMPLE DEPOSITED ON IMAGE SENSOR 有权
    用于检测图像传感器中存储的样品中的颗粒的无镜像成像系统和方法

    公开(公告)号:US20160041094A1

    公开(公告)日:2016-02-11

    申请号:US14455182

    申请日:2014-08-08

    Inventor: Junzhao Lei

    Abstract: A lens-free imaging system for detecting particles in a sample deposited on image sensor includes a fluidic chamber for holding a sample and an image sensor for imaging the sample, wherein the image sensor has a light receiving surface and a plurality of photosensitive pixels disposed underneath the light receiving surface, and wherein the fluidic chamber formed at least in part by the light receiving surface. A method for detecting particles of interest in a sample deposited on an image sensor, through lens-free imaging using the image sensor, includes (ii) generating an image of the sample, deposited on a light receiving surface of the image sensor, by illuminating the sample, and (ii) detecting the particles of interest in the image.

    Abstract translation: 用于检测沉积在图像传感器上的样品中的颗粒的无镜头成像系统包括用于保持样品的流体室和用于对样品成像的图像传感器,其中图像传感器具有光接收表面和设置在下面的多个感光像素 光接收表面,并且其中流体室至少部分地由光接收表面形成。 一种用于通过使用图像传感器的无透镜成像来检测沉积在图像传感器上的样品中的感兴趣的粒子的方法,包括:(ii)通过照射产生沉积在图像传感器的光接收表面上的样品的图像 样品,和(ii)检测图像中感兴趣的颗粒。

    Fluorescence imaging module
    4.
    发明授权
    Fluorescence imaging module 有权
    荧光成像模块

    公开(公告)号:US08785885B1

    公开(公告)日:2014-07-22

    申请号:US13753887

    申请日:2013-01-30

    CPC classification number: G01N21/6458

    Abstract: A fluorescence imaging module includes an image sensor and a lens disposed between a fluorescence sample and the image sensor to focus a fluorescence image of the fluorescence sample onto the image sensor. The fluorescence sample is to be positioned an object distance away from the lens. The lens is positioned an image distance away from the image sensor. The image distance is greater than the object distance. An illuminating device is disposed between the fluorescence sample and the lens. The illuminating device includes a light source and an optical element. The light source is adapted to emit light in a first direction towards the optical element. The optical element is optically coupled to receive the light and redirect the light in a second direction towards the fluorescence sample to illuminate the fluorescence sample.

    Abstract translation: 荧光成像模块包括图像传感器和设置在荧光样品和图像传感器之间的透镜,以将荧光样品的荧光图像聚焦到图像传感器上。 荧光样品要远离镜头放置一个物体距离。 镜头的距离远离图像传感器的图像距离。 图像距离大于物体距离。 照明装置设置在荧光样品和透镜之间。 照明装置包括光源和光学元件。 光源适于沿朝向光学元件的第一方向发光。 光学元件被光学耦合以接收光并将光朝向荧光样品的第二方向重定向以照亮荧光样品。

    Automated Cell Growth/Migration Detection System And Associated Methods
    5.
    发明申请
    Automated Cell Growth/Migration Detection System And Associated Methods 有权
    自动细胞生长/迁移检测系统及相关方法

    公开(公告)号:US20160060676A1

    公开(公告)日:2016-03-03

    申请号:US14471890

    申请日:2014-08-28

    Inventor: Junzhao Lei

    Abstract: An automated cell growth/migration detection system includes: a container for containing a cell growth/migration matrix/medium into which deposited cells form a cell surface; an image sensor for capturing images; an actuator for incrementally varying distance between the image sensor lens and the cell surface such that the images correspond to varying imaging depths; and an image data processor for processing the images to determine cell growth/migration. An automated cell growth/migration detection method includes: capturing a first image series of a cell surface within a first imaging cycle corresponding to a sequence of imaging depths between the cell surface and an image sensor; capturing an additional image series of the cell surface within each of at least one additional imaging cycle and corresponding to the same sequence of imaging depths; processing each image series for each imaging cycle to determine a clearest-looking image; and determining cell growth/migration from the clearest-looking image.

    Abstract translation: 自动细胞生长/迁移检测系统包括:用于容纳沉积的细胞形成细胞表面的细胞生长/迁移基质/培养基的容器; 用于捕获图像的图像传感器; 致动器,用于逐渐改变图像传感器透镜和单元表面之间的距离,使得图像对应于变化的成像深度; 以及用于处理图像以确定细胞生长/迁移的图像数据处理器。 自动细胞生长/迁移检测方法包括:在对应于细胞表面和图像传感器之间的成像深度序列的第一成像周期内捕获细胞表面的第一图像序列; 在至少一个附加成像周期的每一个内捕获细胞表面的附加图像序列,并对应于相同的成像深度序列; 处理每个成像周期的每个图像系列以确定最清晰的图像; 并从最清晰的图像中确定细胞生长/迁移。

    FLUORESCENCE IMAGING MODULE
    6.
    发明申请
    FLUORESCENCE IMAGING MODULE 有权
    荧光成像模块

    公开(公告)号:US20140209815A1

    公开(公告)日:2014-07-31

    申请号:US13753887

    申请日:2013-01-30

    CPC classification number: G01N21/6458

    Abstract: A fluorescence imaging module includes an image sensor and a lens disposed between a fluorescence sample and the image sensor to focus a fluorescence image of the fluorescence sample onto the image sensor. The fluorescence sample is to be positioned an object distance away from the lens. The lens is positioned an image distance away from the image sensor. The image distance is greater than the object distance. An illuminating device is disposed between the fluorescence sample and the lens. The illuminating device includes a light source and an optical element. The light source is adapted to emit light in a first direction towards the optical element. The optical element is optically coupled to receive the light and redirect the light in a second direction towards the fluorescence sample to illuminate the fluorescence sample.

    Abstract translation: 荧光成像模块包括图像传感器和设置在荧光样品和图像传感器之间的透镜,以将荧光样品的荧光图像聚焦到图像传感器上。 荧光样品要远离镜头放置一个物体距离。 镜头的距离远离图像传感器的图像距离。 图像距离大于物体距离。 照明装置设置在荧光样品和透镜之间。 照明装置包括光源和光学元件。 光源适于沿朝向光学元件的第一方向发光。 光学元件被光学耦合以接收光并将光朝向荧光样品的第二方向重定向以照亮荧光样品。

    ACQUIRING GLOBAL SHUTTER-TYPE VIDEO IMAGES WITH CMOS PIXEL ARRAY BY STROBING LIGHT DURING VERTICAL BLANKING PERIOD IN OTHERWISE DARK ENVIRONMENT
    7.
    发明申请
    ACQUIRING GLOBAL SHUTTER-TYPE VIDEO IMAGES WITH CMOS PIXEL ARRAY BY STROBING LIGHT DURING VERTICAL BLANKING PERIOD IN OTHERWISE DARK ENVIRONMENT 有权
    采用CMOS像素阵列获取全球快照类型的视频图像,在其他深色环境中的垂直空白期间通过光线照射

    公开(公告)号:US20140078277A1

    公开(公告)日:2014-03-20

    申请号:US13622976

    申请日:2012-09-19

    Abstract: Introduce CMOS pixel array into dark environment and acquiring video image frames. During a first frame, reset each row of pixels sequentially, and one row at a time, and then read each row of pixels sequentially, and one row at a time. During a second frame, reset each row of pixels sequentially, and one row at a time, and then read each row of pixels sequentially, and one row at a time. Control a light source to illuminate the dark environment during at least a portion of a vertical blanking period between the reading of the last row during the first frame and the reading of the first row during the second frame. Control the light source to not illuminate the dark environment: (a) between the reading the first and last rows during the first frame; and (b) between the reading the first and last rows during the second frame.

    Abstract translation: 将CMOS像素阵列引入黑暗环境并获取视频图像帧。 在第一帧期间,顺序地重置每行像素,一次重复一行,然后依次读取每行像素,并一次读取一行。 在第二帧期间,顺序地重置每行像素,并且每次重复一行,然后依次读取每行像素,并一次读取一行。 控制光源以在第一帧期间在最后一行的读取和第二帧期间的第一行的读取期间的垂直消隐周期的至少一部分期间照亮黑暗环境。 控制光源不照亮黑暗环境:(a)在第一帧读取第一行和最后一行; 和(b)在第二帧期间读取第一行和最后一行之间。

    Lens-free imaging system and method for detecting particles in sample deposited on image sensor
    8.
    发明授权
    Lens-free imaging system and method for detecting particles in sample deposited on image sensor 有权
    用于检测沉积在图像传感器上的样品中的颗粒的无镜头成像系统和方法

    公开(公告)号:US09574989B2

    公开(公告)日:2017-02-21

    申请号:US14455182

    申请日:2014-08-08

    Inventor: Junzhao Lei

    Abstract: A lens-free imaging system for detecting particles in a sample deposited on image sensor includes a fluidic chamber for holding a sample and an image sensor for imaging the sample, wherein the image sensor has a light receiving surface and a plurality of photosensitive pixels disposed underneath the light receiving surface, and wherein the fluidic chamber formed at least in part by the light receiving surface. A method for detecting particles of interest in a sample deposited on an image sensor, through lens-free imaging using the image sensor, includes (ii) generating an image of the sample, deposited on a light receiving surface of the image sensor, by illuminating the sample, and (ii) detecting the particles of interest in the image.

    Abstract translation: 用于检测沉积在图像传感器上的样品中的颗粒的无镜头成像系统包括用于保持样品的流体室和用于对样品成像的图像传感器,其中图像传感器具有光接收表面和设置在下面的多个感光像素 光接收表面,并且其中流体室至少部分地由光接收表面形成。 一种用于通过使用图像传感器的无透镜成像来检测沉积在图像传感器上的样品中的感兴趣的粒子的方法,包括:(ii)通过照射产生沉积在图像传感器的光接收表面上的样品的图像 样品,和(ii)检测图像中感兴趣的颗粒。

    Systems and Methods for Controlling Lighting Strength of a Camera System by Time-Matched Intermittent Illumination
    9.
    发明申请
    Systems and Methods for Controlling Lighting Strength of a Camera System by Time-Matched Intermittent Illumination 审中-公开
    通过时间匹配的间歇照明来控制摄像机系统的照明强度的系统和方法

    公开(公告)号:US20140078278A1

    公开(公告)日:2014-03-20

    申请号:US14019137

    申请日:2013-09-05

    Inventor: Junzhao Lei

    CPC classification number: A61B1/0661 A61B1/00006 A61B1/045

    Abstract: A camera system with lighting strength control includes: an image sensor for capturing images of a scene; a light source for illumination of the scene; and a signal generator, in communication with the image sensor and the light source, for generation of (a) a first signal for controlling image capture by the image sensor and (b) a second signal for controlling a duty cycle of the light source. A method for controlling the lighting strength of a camera system, which includes an image sensor, an associated light source, and an associated signal generator, includes: (a) generating, using the signal generator, a first signal that controls image capture by the image sensor, and (b) generating, using the signal generator, a second signal that controls a duty cycle of the light source.

    Abstract translation: 具有照明强度控制的相机系统包括:用于捕获场景图像的图像传感器; 用于照明场景的光源; 以及与图像传感器和光源通信的信号发生器,用于产生(a)用于控制图像传感器的图像捕获的第一信号和(b)用于控制光源的占空比的第二信号。 一种用于控制照相机系统的照明强度的方法,包括图像传感器,相关联的光源和相关联的信号发生器,包括:(a)使用信号发生器产生控制图像捕获的第一信号, 图像传感器,以及(b)使用信号发生器产生控制光源占空比的第二信号。

    Automated cell growth/migration detection system and associated methods
    10.
    发明授权
    Automated cell growth/migration detection system and associated methods 有权
    自动细胞生长/迁移检测系统及相关方法

    公开(公告)号:US09347082B2

    公开(公告)日:2016-05-24

    申请号:US14471890

    申请日:2014-08-28

    Inventor: Junzhao Lei

    Abstract: An automated cell growth/migration detection system includes: a container for containing a cell growth/migration matrix/medium into which deposited cells form a cell surface; an image sensor for capturing images; an actuator for incrementally varying distance between the image sensor lens and the cell surface such that the images correspond to varying imaging depths; and an image data processor for processing the images to determine cell growth/migration. An automated cell growth/migration detection method includes: capturing a first image series of a cell surface within a first imaging cycle corresponding to a sequence of imaging depths between the cell surface and an image sensor; capturing an additional image series of the cell surface within each of at least one additional imaging cycle and corresponding to the same sequence of imaging depths; processing each image series for each imaging cycle to determine a clearest-looking image; and determining cell growth/migration from the clearest-looking image.

    Abstract translation: 自动细胞生长/迁移检测系统包括:用于容纳沉积的细胞形成细胞表面的细胞生长/迁移基质/培养基的容器; 用于捕获图像的图像传感器; 致动器,用于逐渐改变图像传感器透镜和单元表面之间的距离,使得图像对应于变化的成像深度; 以及用于处理图像以确定细胞生长/迁移的图像数据处理器。 自动细胞生长/迁移检测方法包括:在对应于细胞表面和图像传感器之间的成像深度序列的第一成像周期内捕获细胞表面的第一图像序列; 在至少一个附加成像周期的每一个内捕获细胞表面的附加图像序列,并对应于相同的成像深度序列; 处理每个成像周期的每个图像系列以确定最清晰的图像; 并从最清晰的图像中确定细胞生长/迁移。

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