Compound-eye imaging device
    1.
    发明授权
    Compound-eye imaging device 有权
    复眼成像装置

    公开(公告)号:US07700904B2

    公开(公告)日:2010-04-20

    申请号:US12175372

    申请日:2008-07-17

    IPC分类号: H01L27/00

    CPC分类号: H04N5/2254

    摘要: A compound-eye imaging device comprises nine optical lenses arranged in a matrix array of three rows and three columns, and a solid-state imaging element for capturing unit images formed by the optical lenses. A stray light blocking member having a rectangular-shaped window is provided on the capture zone side of the optical lenses, eliminating the need to provide, between the solid-state imaging element and the optical lenses, walls by which light propagation paths of lights emitted from the optical lenses are partitioned from each other. The stray light blocking member blocks incident lights in a range outside each effective incident view angle range of each optical lens. This prevents the light entering each optical lens to form a unit image from interfering with other unit images formed by adjacent optical lenses, thereby obtaining a good quality image, without complicating the manufacturing process and increasing the cost thereof.

    摘要翻译: 复眼成像装置包括布置成三行和三列的矩阵阵列的九个光学透镜,以及用于捕获由光学透镜形成的单元图像的固态成像元件。 在光学透镜的捕获区侧设置具有矩形窗口的杂散光阻挡构件,消除了在固态成像元件和光学透镜之间提供发光的光传播路径的壁 从光学透镜彼此分隔开。 杂散光阻挡构件在每个光学透镜的每个有效入射视角范围之外的范围内阻挡入射光。 这防止进入每个光学透镜的光形成单位图像,从而干扰由相邻光学透镜形成的其它单元图像,从而获得高质量的图像,而不会使制造过程复杂化并增加其成本。

    Skin Area Detection Imaging Device
    2.
    发明申请
    Skin Area Detection Imaging Device 审中-公开
    皮肤区域检测成像装置

    公开(公告)号:US20080177185A1

    公开(公告)日:2008-07-24

    申请号:US12018239

    申请日:2008-01-23

    IPC分类号: A61B5/00

    CPC分类号: G06K9/00255 G06K9/2018

    摘要: A skin area detection imaging device for detecting a skin area of a human body as an object comprises: two optical lenses to form two unit images on an imaging element by collecting light from the object illuminated by near-infrared light; a rolling shutter for sequentially reading the unit images; and two LEDs for emitting lights with different wavelengths (850 nm and 940 nm) in the near-infrared range. A microprocessor switches on the two LEDs when reading the two unit images, respectively. The skin area of one read unit image is displayed with brightness different from that of the other unit image based on difference in reflectance to various wavelengths of near-infrared light. The microprocessor compares the two unit images to determine, as a skin area, an area having difference in brightness larger than a predetermined value. This makes it possible to detect the skin area in a short time.

    摘要翻译: 用于检测作为对象的人体的皮肤区域的皮肤区域检测成像装置包括:两个光学透镜,用于通过收集来自被近红外光照射的物体的光而在成像元件上形成两个单位图像; 用于顺序读取单位图像的滚动快门; 和两个LED,用于在近红外范围内发射具有不同波长(850nm和940nm)的光。 分别读取两个单元图像时,微处理器打开两个LED。 基于与近红外光的各种波长的反射率的差异,一个读取单元图像的皮肤区域以与其他单位图像的亮度不同的亮度显示。 微处理器比较两个单位图像,以确定亮度差大于预定值的区域作为皮肤区域。 这使得可以在短时间内检测皮肤区域。

    Motion Detection Imaging Device
    3.
    发明申请
    Motion Detection Imaging Device 审中-公开
    运动检测成像装置

    公开(公告)号:US20080240508A1

    公开(公告)日:2008-10-02

    申请号:US12041339

    申请日:2008-03-03

    IPC分类号: G06K9/00 H04N5/335

    摘要: A motion detection imaging device comprises: plural optical lenses for collecting light from an object so as to form plural single-eye images seen from different viewpoints; a solid-state imaging element for capturing the plural single-eye images formed through the plural optical lenses; a rolling shutter for reading out the plural single-eye images from the solid-state imaging element along a read-out direction; and a microprocessor for detecting movement of the object by comparing the plural single-eye images read out from the solid-state imaging element. The plural optical lenses are arranged so that the positions of the plural single-eye images formed on the solid-state imaging element are displaced from each other by a predetermined distance in the read-out direction, and so that the respective single-eye images formed on the solid-state imaging element partially overlap each other in the read-out direction.

    摘要翻译: 运动检测成像装置包括:多个光学透镜,用于收集来自物体的光,以形成从不同视点看到的多个单眼图像; 用于捕获通过所述多个光学透镜形成的多个单眼图像的固态成像元件; 滚动快门,用于沿着读出方向从固态成像元件读出多个单眼图像; 以及微处理器,用于通过比较从固态成像元件读出的多个单眼图像来检测物体的移动。 多个光学透镜被布置成使得形成在固态成像元件上的多个单眼图像的位置在读出方向上彼此偏移预定距离,并且使得各个单眼图像 形成在固态成像元件上的部分在读出方向上彼此重叠。

    Compound-Eye Imaging Device
    4.
    发明申请
    Compound-Eye Imaging Device 有权
    复合眼成像装置

    公开(公告)号:US20090021837A1

    公开(公告)日:2009-01-22

    申请号:US12175372

    申请日:2008-07-17

    IPC分类号: G02B27/10

    CPC分类号: H04N5/2254

    摘要: A compound-eye imaging device comprises nine optical lenses arranged in a matrix array of three rows and three columns, and a solid-state imaging element for capturing unit images formed by the optical lenses. A stray light blocking member having a rectangular-shaped window is provided on the capture zone side of the optical lenses, eliminating the need to provide, between the solid-state imaging element and the optical lenses, walls by which light propagation paths of lights emitted from the optical lenses are partitioned from each other. The stray light blocking member blocks incident lights in a range outside each effective incident view angle range of each optical lens. This prevents the light entering each optical lens to form a unit image from interfering with other unit images formed by adjacent optical lenses, thereby obtaining a good quality image, without complicating the manufacturing process and increasing the cost thereof

    摘要翻译: 复眼成像装置包括布置成三行和三列的矩阵阵列的九个光学透镜,以及用于捕获由光学透镜形成的单元图像的固态成像元件。 在光学透镜的捕获区侧设置具有矩形窗口的杂散光阻挡构件,消除了在固态成像元件和光学透镜之间提供发光的光传播路径的壁 从光学透镜彼此分隔开。 杂散光阻挡构件在每个光学透镜的每个有效入射视角范围之外的范围内阻挡入射光。 这防止了进入每个光学透镜的光以形成单位图像,从而干扰由相邻光学透镜形成的其它单元图像,从而获得高质量的图像,而不会使制造过程复杂化并增加成本

    COMPOUND-EYE IMAGING DEVICE
    5.
    发明申请
    COMPOUND-EYE IMAGING DEVICE 有权
    化合物成像装置

    公开(公告)号:US20090225203A1

    公开(公告)日:2009-09-10

    申请号:US12395971

    申请日:2009-03-02

    IPC分类号: H04N5/225

    摘要: A compound-eye imaging device comprises an imaging device body having 9 optical lenses and a solid-state imaging element for imaging unit images formed by the optical lenses. Assuming that the combination of each of the optical lenses with a corresponding divided area of the solid-state imaging element to image each of the corresponding unit images is an imaging unit, thereby forming multiple imaging units, the respective imaging units have randomly different optical imaging conditions. For example, the focal lengths of the 9 optical lenses are set to have random values in which the optical lenses are arranged to have random distances between adjacent ones thereof in a direction parallel to the major surface of the solid-state imaging element. This compound-eye imaging device substantially prevents unit images formed by respective imaging units from being the same, making it possible to easily increase the definition of a reconstructed image.

    摘要翻译: 复眼成像装置包括具有9个光学透镜的成像装置主体和用于对由光学透镜形成的单元图像进行成像的固态成像元件。 假设每个光学透镜与固态成像元件的对应的分割区域的组合以对相应的单位图像进行成像,则成像单元,从而形成多个成像单元,各个成像单元具有随机地不同的光学成像 条件。 例如,9个光学透镜的焦距被设定为具有随机值,其中光学透镜被布置成在与固态成像元件的主表面平行的方向上具有相邻光学透镜之间的随机距离。 该复眼成像装置基本上防止由各个成像单元形成的单位图像相同,使得可以容易地增加重建图像的清晰度。

    Panoramic Imaging Device
    6.
    发明申请
    Panoramic Imaging Device 有权
    全景影像设备

    公开(公告)号:US20090195639A1

    公开(公告)日:2009-08-06

    申请号:US12417818

    申请日:2009-04-03

    IPC分类号: H04N7/00

    摘要: A panoramic imaging device comprises: a photodetector array; a lens array having, on one plane, a center lens for receiving light in a front range of 36° to form a central unit image on the photodetector array, and left and right side lenses for receiving lights in left and right ranges each of 72° in capture angle of 180°; and four prisms in two pairs placed facing the side lenses. The two pairs of left and right prisms (more inclined and less inclined pairs) collect lights in divided two pairs of left and right ranges each of 36° in the 72° range (pairs closer to, and farther from, the front range), respectively, to form four side unit images on the photodetector array which are combined with the central unit image to reproduce a panoramic image without using wide-angle lenses or complex image correction process.

    摘要翻译: 全景成像装置包括:光电检测器阵列; 一个透镜阵列,在一个平面上具有一个中心透镜,用于在前面的范围36°接收光,以在光电检测器阵列上形成一个中心单元图像;以及左右右侧透镜,用于在左右范围内接收72 °在捕获角度为180°; 并且面对侧透镜放置的两对棱镜四个。 两对左右棱镜(更倾斜和更小的倾斜对)以72°范围内的36°(分别靠近,远离前范围)分成两对左右范围收集光, 分别在光电检测器阵列上形成与中央单元图像组合的四个侧面单位图像,以再现全景图像而不使用广角镜头或复杂图像校正处理。

    Panoramic Imaging Device
    7.
    发明申请
    Panoramic Imaging Device 审中-公开
    全景影像设备

    公开(公告)号:US20080068452A1

    公开(公告)日:2008-03-20

    申请号:US11846806

    申请日:2007-08-29

    IPC分类号: H04N7/00

    摘要: A panoramic imaging device comprises: a lens array with lenses in a matrix; an imaging element; and prisms for mirror-reflecting lights entering in left/right ranges in a capture range to guide them to side lenses in left/right columns. Light in a front range is inverted up/down by center lenses and formed as up/down inverted images on the imaging element. Lights in the left/right ranges are inverted up/down and left/right by the prisms with the side lenses and formed as up/down and left/right inverted images on the imaging element. The images in the left/right ranges are read in one direction. The images in the front range are read in an opposite direction. The read images are combined as is, without inverting the images, to reproduce a panoramic image. This can prevent the entire device from becoming large in volume, and imaging processing from becoming complex.

    摘要翻译: 全景成像装置包括:透镜阵列,其具有矩阵中的透镜; 成像元件; 以及用于镜像反射光的棱镜,以在捕获范围内进入左/右范围,以将它们引导到左/右列中的侧透镜。 正面范围的光由中心透镜上下颠倒,并在成像元件上形成上/下反转图像。 在左/右范围内的光线由具有侧面透镜的棱镜向上/向下和向左/向右反转,并且在成像元件上形成上/下和左/右反转图像。 左/右范围内的图像在一个方向读取。 正面范围内的图像以相反的方向读取。 读取的图像按原样组合,而不反转图像,以再现全景图像。 这可以防止整个设备体积变大,并且成像处理变得复杂。

    Object Distance Deriving Device
    8.
    发明申请
    Object Distance Deriving Device 审中-公开
    物体距离推导装置

    公开(公告)号:US20100103259A1

    公开(公告)日:2010-04-29

    申请号:US12582501

    申请日:2009-10-20

    IPC分类号: H04N9/47

    摘要: An object distance deriving device comprises: a compound-eye imaging device having imaging units with optical lenses randomly arranged for the respective imaging units; and a distance calculation unit to calculate an object distance using images captured by the compound-eye imaging device. The distance calculation unit: sets temporary distances z (S1); calculates an imaging process matrix [Hz] according to a temporary distance z (S2); estimates a high-resolution image by super-resolution processing using the imaging process matrix [Hz] (S3); uses the estimated high-resolution image to calculate an evaluation value distribution E for evaluating the temporary distance z (S4); repeats steps S2 to S4 for all temporary distances z (S5); and determines, as an object distance, one temporary distance z giving a minimum evaluation value in the evaluation value distributions E. This makes it possible to accurately derive the object distance even if the baseline length of the compound-eye imaging device is limited.

    摘要翻译: 物体距离导出装置包括:具有成像单元的复眼成像装置,其具有随机地布置用于各个成像单元的光学透镜; 以及距离计算单元,使用由复眼成像装置拍摄的图像来计算对象距离。 距离计算单元:设定临时距离z(S1); 根据临时距离z(S2)计算成像过程矩阵[Hz]; 使用成像处理矩阵[Hz](S3)通过超分辨率处理估计高分辨率图像; 使用估计的高分辨率图像来计算用于评估临时距离z的评估值分布E(S4); 对于所有临时距离z重复步骤S2至S4(S5); 并且将评估值分布E中给出最小评估值的一个临时距离z确定为对象距离。这使得即使限制复眼目标成像装置的基线长度,也可以准确地导出对象距离。

    Compound-eye imaging device having a light shielding block with a stack of multiple flat unit plates
    9.
    发明授权
    Compound-eye imaging device having a light shielding block with a stack of multiple flat unit plates 失效
    具有具有多个平板单元板堆叠的遮光块的复眼成像装置

    公开(公告)号:US07525081B2

    公开(公告)日:2009-04-28

    申请号:US11645700

    申请日:2006-12-27

    IPC分类号: H01L27/00

    摘要: A compound-eye imaging device comprises: an optical lens array with integrated multiple optical lenses; a photodetector array for imaging images formed by the optical lenses; and a light shielding block placed between the two arrays for partitioning a space between the two arrays into a matrix of spaces as seen on a plane perpendicular to the optical axis of each optical lens so as to prevent lights emitted from the optical lenses from interfering each other. The light shielding block is formed of flat unit plates of two kinds having different thicknesses and stacked between the optical lens array and the photodetector array. Since the light shielding block is formed of stacked flat unit plates, it is easy to manufacture a light shielding block having apertures with dense structure having a small distance between adjacent apertures, and also easy to adapt to variations in focal length of the optical lenses.

    摘要翻译: 复眼成像装置包括:具有集成的多个光学透镜的光学透镜阵列; 用于对由所述光学透镜形成的图像进行成像的光电检测器阵列; 以及放置在两个阵列之间的遮光块,用于将两个阵列之间的空间分隔成在垂直于每个光学透镜的光轴的平面上看到的空间矩阵,以便防止从光学透镜发射的光干扰每个 其他。 光屏蔽块由具有不同厚度的两种平面单元板形成,并且堆叠在光学透镜阵列和光电检测器阵列之间。 由于遮光块由堆叠的平板单元板形成,因此容易制造具有密相结构的孔的相邻孔之间的距离小的遮光块,并且也容易适应于光学透镜的焦距的变化。

    Compound-eye imaging device
    10.
    发明授权
    Compound-eye imaging device 失效
    复眼成像装置

    公开(公告)号:US07501610B2

    公开(公告)日:2009-03-10

    申请号:US11550068

    申请日:2006-10-17

    IPC分类号: H01L27/00 H04N7/18

    摘要: A compound-eye imaging device comprising: an optical lens array with multiple integrated optical lenses having mutually parallel optical axes; a photodetector array placed at a predetermined distance from the optical lens array for imaging multiple images (referred to as single-eye images) formed by the optical lenses; and a microprocessor for reading the single-eye images imaged by the photodetector array. The image reading mode of the microprocessor is switchable between an all-read mode in which all the single-eye images on the photodetector array are sequentially read, and a partial-read mode in which a part of the single-eye images thereon are selectively read. The image reading speed of the microprocessor is changeable. The compound-eye imaging device enables a high frame rate and a high resolution imaging while reducing an increase in a clock frequency for the frame rate and thus reducing an increase in power consumption.

    摘要翻译: 一种复眼成像装置,包括:具有多个具有相互平行的光轴的集成光学透镜的光学透镜阵列; 放置在与光学透镜阵列预定距离处的光电检测器阵列,用于对由光学透镜形成的多个图像(称为单眼图像)进行成像; 以及用于读取由光电检测器阵列成像的单眼图像的微处理器。 微处理器的图像读取模式可以在其中顺序地读取光电检测器阵列上的所有单眼图像的全读取模式和其中的单眼图像的一部分选择性的部分读取模式之间切换 读。 微处理器的图像读取速度是可变的。 复眼成像装置能够实现高帧率和高分辨率成像,同时减少帧速率的时钟频率的增加,从而减少功耗的增加。