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    • 2. 发明申请
    • METHOD AND APPARATUS FOR PARALLAX CORRECTION IN FUSED ARRAY IMAGING SYSTEMS
    • 融合阵列成像系统中PARALLAX校正的方法和装置
    • US20120188389A1
    • 2012-07-26
    • US13110252
    • 2011-05-18
    • Peng LinScott SmithRobert A. Black
    • Peng LinScott SmithRobert A. Black
    • H04N5/225
    • H04N5/23232G06T5/006G06T7/55G06T2207/10024H04N5/2258H04N5/2628H04N5/3415
    • Electronic devices may include camera modules. A camera module may include an array camera having an array of lenses and an array of corresponding image sensors. Parallax correction and depth mapping methods may be provided for array cameras. A parallax correction method may include a global and a local parallax correction. A global parallax correction may be determined based on one-dimensional horizontal and vertical projections of edge images. Local parallax corrections may be determined using a block matching procedure. Further improvements to local parallax corrections may be generated using a relative block color saturation test, a smoothing of parallax correction vectors and, if desired, using a cross-check between parallax correction vectors determined for multiple image sensors. Three dimensional depth maps may be generated based on parallax correction vectors.
    • 电子设备可以包括相机模块。 相机模块可以包括具有透镜阵列和相应图像传感器阵列的阵列相机。 可以为阵列相机提供视差校正和深度映射方法。 视差校正方法可以包括全局和局部视差校正。 可以基于边缘图像的一维水平和垂直投影来确定全局视差校正。 可以使用块匹配过程来确定局部视差校正。 可以使用相对块颜色饱和度测试,视差校正向量的平滑以及如果需要使用为多个图像传感器确定的视差校正矢量之间的交叉检查来产生对局部视差校正的进一步改进。 可以基于视差校正矢量生成三维深度图。
    • 3. 发明授权
    • Imaging systems with array cameras for depth sensing
    • 具有阵列相机的成像系统用于深度感测
    • US08717467B2
    • 2014-05-06
    • US13149818
    • 2011-05-31
    • Robert A. BlackScott SmithPeng Lin
    • Robert A. BlackScott SmithPeng Lin
    • H04N9/09
    • H04N5/2258H04N5/2253H04N9/09H04N13/239H04N13/243
    • Electronic devices may include camera modules. A camera module may be formed from an array of lenses and corresponding image sensors. The array of image sensors may include three color image sensors for color imaging and a fourth image sensor positioned to improve image depth mapping. Providing a camera module with a fourth image sensor may increase the baseline distance between the two most distant image sensors, allowing parallax and depth information to be determined for objects a greater distance from the camera than in a conventional electronic device. The fourth image sensor may be a second green image sensor positioned at a maximal distance from the green color image sensor used for color imaging. The fourth image sensor may also be a clear image sensor, allowing capture of improved image depth information and enhanced image resolution and low-light performance.
    • 电子设备可以包括相机模块。 相机模块可以由透镜阵列和对应的图像传感器形成。 图像传感器阵列可以包括用于彩色成像的三个彩色图像传感器和定位成改善图像深度映射的第四图像传感器。 提供具有第四图像传感器的相机模块可以增加两个最远的图像传感器之间的基线距离,从而相对于常规的电子设备,可以确定距离照相机更远的物体的视差和深度信息。 第四图像传感器可以是位于与用于彩色成像的绿色图像传感器最大距离的第二绿色图像传感器。 第四图像传感器也可以是清晰的图像传感器,允许捕获改进的图像深度信息和增强的图像分辨率和低光性能。
    • 4. 发明授权
    • Method and apparatus for parallax correction in fused array imaging systems
    • 融合阵列成像系统中视差校正的方法和装置
    • US08581995B2
    • 2013-11-12
    • US13110252
    • 2011-05-18
    • Peng LinScott SmithRobert A. Black
    • Peng LinScott SmithRobert A. Black
    • H04N5/225
    • H04N5/23232G06T5/006G06T7/55G06T2207/10024H04N5/2258H04N5/2628H04N5/3415
    • Electronic devices may include camera modules. A camera module may include an array camera having an array of lenses and an array of corresponding image sensors. Parallax correction and depth mapping methods may be provided for array cameras. A parallax correction method may include a global and a local parallax correction. A global parallax correction may be determined based on one-dimensional horizontal and vertical projections of edge images. Local parallax corrections may be determined using a block matching procedure. Further improvements to local parallax corrections may be generated using a relative block color saturation test, a smoothing of parallax correction vectors and, if desired, using a cross-check between parallax correction vectors determined for multiple image sensors. Three dimensional depth maps may be generated based on parallax correction vectors.
    • 电子设备可以包括相机模块。 相机模块可以包括具有透镜阵列和相应图像传感器阵列的阵列相机。 可以为阵列相机提供视差校正和深度映射方法。 视差校正方法可以包括全局和局部视差校正。 可以基于边缘图像的一维水平和垂直投影来确定全局视差校正。 可以使用块匹配过程来确定局部视差校正。 可以使用相对块颜色饱和度测试,视差校正向量的平滑以及如果需要使用为多个图像传感器确定的视差校正矢量之间的交叉检查来产生对局部视差校正的进一步改进。 可以基于视差校正矢量生成三维深度图。
    • 5. 发明申请
    • IMAGING SYSTEMS WITH ARRAY CAMERAS FOR DEPTH SENSING
    • 具有阵列相机的成像系统用于深度感测
    • US20120188420A1
    • 2012-07-26
    • US13149818
    • 2011-05-31
    • Robert A. BlackScott SmithPeng Lin
    • Robert A. BlackScott SmithPeng Lin
    • H04N9/04
    • H04N5/2258H04N5/2253H04N9/09H04N13/239H04N13/243
    • Electronic devices may include camera modules. A camera module may be formed from an array of lenses and corresponding image sensors. The array of image sensors may include three color image sensors for color imaging and a fourth image sensor positioned to improve image depth mapping. Providing a camera module with a fourth image sensor may increase the baseline distance between the two most distant image sensors, allowing parallax and depth information to be determined for objects a greater distance from the camera than in a conventional electronic device. The fourth image sensor may be a second green image sensor positioned at a maximal distance from the green color image sensor used for color imaging. The fourth image sensor may also be a clear image sensor, allowing capture of improved image depth information and enhanced image resolution and low-light performance.
    • 电子设备可以包括相机模块。 相机模块可以由透镜阵列和对应的图像传感器形成。 图像传感器阵列可以包括用于彩色成像的三个彩色图像传感器和定位成改善图像深度映射的第四图像传感器。 提供具有第四图像传感器的相机模块可以增加两个最远的图像传感器之间的基线距离,从而相对于常规的电子设备,可以确定距离照相机更远的物体的视差和深度信息。 第四图像传感器可以是位于与用于彩色成像的绿色图像传感器最大距离的第二绿色图像传感器。 第四图像传感器也可以是清晰的图像传感器,允许捕获改进的图像深度信息和增强的图像分辨率和低光性能。