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    • 4. 发明授权
    • Focused plenoptic camera employing different apertures or filtering at different microlenses
    • 聚焦全光照相机采用不同的孔径或在不同的微透镜进行过滤
    • US08228417B1
    • 2012-07-24
    • US12503803
    • 2009-07-15
    • Todor G. GeorgievAndrew Lumsdaine
    • Todor G. GeorgievAndrew Lumsdaine
    • H04N5/225G03B13/00G03B3/00G03B7/099G02B21/00
    • H04N5/2355G02B3/005G03B11/00G03B17/00G03B35/10H04N5/23229H04N9/045
    • Methods and apparatus for capturing and rendering images with focused plenoptic cameras employing different filtering at different microlenses. In a focused plenoptic camera, the main lens creates an image at the focal plane. That image is re-imaged on the sensor multiple times by an array of microlenses. Different filters that provide different levels and/or types of filtering may be combined with different ones of the microlenses. A flat captured with the camera includes multiple microimages captured according to the different filters. Multiple images may be assembled from the microimages, with each image assembled from microimages captured using a different filter. A final image may be generated by appropriately combining the images assembled from the microimages. Alternatively, a final image, or multiple images, may be assembled from the microimages by first combining the microimages and then assembling the combined microimages to produce one or more output images.
    • 用不同微透镜进行不同滤波的聚焦全光照相机拍摄和渲染图像的方法和装置。 在一个集中的全景相机中,主镜头在焦平面上创建一个图像。 该图像通过微透镜阵列在传感器上重新成像多次。 提供不同级别和/或类型的滤波器的不同滤波器可以与不同的微透镜组合。 用相机拍摄的平面包括根据不同滤镜捕获的多个微图像。 可以从微图像组装多个图像,每个图像由使用不同滤光片捕获的微图像组装。 可以通过适当地组合从微图像组装的图像来生成最终图像。 或者,可以通过首先组合微图像然后组合组合的微图像以产生一个或多个输出图像,从微图像组装最终图像或多个图像。
    • 5. 发明授权
    • Sub mirror and image pick-up apparatus having the same
    • 具有相同的副镜和摄像装置
    • US08135272B2
    • 2012-03-13
    • US12560806
    • 2009-09-16
    • Kyong-Tae ParkShitao Deng
    • Kyong-Tae ParkShitao Deng
    • G03B7/099
    • G03B13/36G02B7/34
    • An image pick-up apparatus which is capable of increasing an AF area is provided. The image pick-up apparatus includes a photographing lens to focus light received from a subject, a main mirror that passes a portion of light passing through the photographing lens and that reflects the remaining portion of the light, an auto focus module to detect the state of focus the photographing lens and a sub-mirror having a plurality of reflective areas that reflect respectively divided portions of the light passing through the main mirror and that guide the divided light portions to the auto focus module.
    • 提供了能够增加AF区域的图像拾取装置。 图像拾取装置包括:用于聚焦从被摄体接收的光的拍摄镜头,通过穿过拍摄镜头的光的一部分并反射光的剩余部分的主镜;自动聚焦模块,用于检测状态 拍摄镜头和副镜具有多个反射区域,该多个反射区域分别反射穿过主镜的光的分割部分,并将分割的光部分引导到自动对焦模块。
    • 6. 发明申请
    • METHOD AND APPARATUS FOR RADIANCE CAPTURE BY MULTIPLEXING IN THE FREQUENCY DOMAIN
    • 在频域中通过多路复用的辐射捕获的方法和装置
    • US20110305447A1
    • 2011-12-15
    • US13209852
    • 2011-08-15
    • Todor G. GeorgievChintan Intwala
    • Todor G. GeorgievChintan Intwala
    • G03B7/099G03B7/00
    • H04N5/225
    • An external mask-based radiance camera may be based on an external, non-refractive mask located in front of the main camera lens. The mask modulates, but does not refract, light. The camera multiplexes radiance in the frequency domain by optically mixing different spatial and angular frequency components of light. The mask may, for example, be a mesh of opaque linear elements, which collectively form a grid, an opaque medium with transparent openings, such as circles, or a pinhole mask. Other types of masks may be used. Light may be modulated by the mask and received at the main lens of a camera. The main lens may be focused on a plane between the mask and the main lens. The received light is refracted by the main lens onto a photosensor of the camera. The photosensor may capture the received light to generate a radiance image of the scene.
    • 外部基于掩模的辐射照相机可以基于位于主相机镜头前面的外部非折射掩模。 面罩调制,但不折射光。 相机通过光学混合光的不同空间和角频率分量来复用频域中的辐射。 掩模可以是例如共同形成网格的不透明线性元件的网格,具有透明开口的不透明介质,例如圆形或针孔掩模。 可以使用其他类型的掩模。 光可以被掩模调制并被接收在相机的主镜头上。 主透镜可以聚焦在掩模和主透镜之间的平面上。 所接收的光被主透镜折射到照相机的光传感器上。 光电传感器可以捕获所接收的光以产生场景的辐射图像。
    • 7. 发明授权
    • Optical system of a focus detection apparatus
    • 焦点检测装置的光学系统
    • US07817912B2
    • 2010-10-19
    • US12116453
    • 2008-05-07
    • Moriyasu Kanai
    • Moriyasu Kanai
    • G02B7/28G03B7/099
    • G02B7/34G02B7/008G02B13/18G02B13/22G03B13/32
    • An optical system of a focus detection apparatus includes a condenser lens positioned behind an expected focal plane of a photographing lens; an auxiliary lens group positioned behind the condenser lens to be coaxial therewith; and a pair of separator lenses positioned behind the auxiliary lens group in close vicinity thereof and integrally molded from resin. An object image formed on the expected focal plane is divided into two images by the pair of separator lenses to be reformed on a pair of areas on a sensor, respectively, and the auxiliary lens group includes a negative lens element made of resin, and a positive lens element made of glass.
    • 焦点检测装置的光学系统包括位于拍摄镜头的预期焦平面后面的聚光透镜; 位于聚光透镜后方的与其同轴的辅助透镜组; 以及位于辅助透镜组后方的一对分隔透镜,并且在树脂附近形成一体。 形成在预期焦平面上的物体图像分别由一对分离透镜分成两个图像,以分别在传感器上的一对区域上重新形成,并且辅助透镜组包括由树脂制成的负透镜元件,并且 由玻璃制成的正透镜元件。
    • 9. 发明授权
    • Imaging apparatus
    • 成像设备
    • US07697835B2
    • 2010-04-13
    • US11806978
    • 2007-06-05
    • Yoshiyuki Sasaki
    • Yoshiyuki Sasaki
    • G03B15/03G03B7/099
    • H04N5/2354G03B15/05G03B2215/05H04N2101/00
    • An imaging apparatus includes an emission device for illuminating a subject, a preliminary emission control device for controlling preliminary emission before photographing, a photometry device for measuring a reflected light volume from the subject in the preliminary emission so as to obtain a photometric result, and a main emission control device for controlling main emission when photographing, the main emission control device has a first emission control for conducting emission by adjusting emission volume by using the photometric result, and a second emission control for conducting emission until the reflected light volume from the subject reaches a predetermined volume, the main emission control device conducts an emission control by either the first emission control or the second emission control according to the photometric result.
    • 一种成像装置,包括用于照射被摄体的发射装置,用于控制拍摄前的初步发射的初步发射控制装置,用于在初步发射中测量来自被摄体的反射光体积的光度测量装置,以获得测光结果,以及 主要发光控制装置,用于在拍摄时控制主要发射,主发射控制装置具有通过使用测光结果调节发射体积进行发射的第一发射控制和用于发射的第二发射控制,直到来自被摄体的反射光量 主排放控制装置根据测光结果通过第一排放控制或第二排放控制进行排放控制。
    • 10. 发明授权
    • Image taking apparatus and lens apparatus
    • 摄像装置和镜头装置
    • US07414664B2
    • 2008-08-19
    • US10770437
    • 2004-02-04
    • Yasuo Suda
    • Yasuo Suda
    • H04N5/225G03B7/099G03B19/12G03B13/00G02B7/28
    • G03B13/36G03B19/12H04N5/2253H04N5/23212
    • An image taking apparatus performs a focusing operation quickly and includes a light splitting unit which splits a light flux from an image-taking lens into a plurality of light fluxes, a view finder optical system observing an object image formed by the light flux from the lens, an image pickup element which photoelectrically converts the object image to an electrical signal and a focus detector detecting the focusing state of the lens according to a phase difference detector. Here, the light splitting unit changes between a first state for directing the light flux to the view finder optical system and the focus detector, a second state for directing the light flux to the image pickup element and the focus detector, and a third state in which the light flux is directed only to the image pickup element.
    • 摄像装置快速进行聚焦操作,并且包括将来自摄像镜头的光束分解成多个光束的分光单元,观察由来自透镜的光束形成的物体图像的取景器光学系统 ,将对象图像光电转换成电信号的图像拾取元件和根据相位差检测器检测透镜的聚焦状态的聚焦检测器。 这里,分光单元在用于将光束引导到取景器光学系统和焦点检测器的第一状态之间改变,用于将光束引导到图像拾取元件和焦点检测器的第二状态,以及第三状态 光通量仅被引导到图像拾取元件。