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    • 1. 发明授权
    • Nonaqueous lithium secondary battery
    • 非水锂二次电池
    • US08338033B2
    • 2012-12-25
    • US12850792
    • 2010-08-05
    • Masao ShimizuYoshiaki Kumashiro
    • Masao ShimizuYoshiaki Kumashiro
    • H01M4/58
    • H01M4/133H01M2/1646H01M4/1393H01M4/505H01M4/62H01M10/0525
    • A nonaqueous lithium secondary battery includes a positive electrode and a negative electrode capable of intercalating and releasing lithium ions and a separator. The negative electrode includes a collector and a negative electrode mixture layer formed on the collector. The negative electrode mixture layer includes at least a negative electrode active material and a binder. Nonconductive particles are buried in a top layer of the negative electrode mixture layer. The nonconductive particles and the negative electrode active material exist as a mixture in the top layer with a depth ranging from 1 to 20 μm. A volume ratio of nonconductive particles having a diameter equal to or less than 20 μm to a total volume of all the nonconductive particles and the negative electrode active material existing in the top layer of the negative electrode mixture layer ranges from 20 to 80%.
    • 非水锂二次电池包括能够插入和释放锂离子的正极和负极和隔膜。 负极包括在集电体上形成的集电体和负极混合层。 负极合剂层至少包含负极活性物质和粘合剂。 非导电颗粒被埋在负极混合物层的顶层中。 非导电粒子和负极活性物质以1〜20μm的深度作为上层的混合物存在。 直径等于或小于20μm的非导电颗粒与存在于负极混合物层顶层中的所有非导电颗粒和负极活性材料的总体积的体积比为20至80%。
    • 5. 发明授权
    • Image-capturing unit and image-capturing apparatus
    • 图像捕获单元和图像捕获装置
    • US08027068B2
    • 2011-09-27
    • US11962129
    • 2007-12-21
    • Masao ShimizuMamoru Noda
    • Masao ShimizuMamoru Noda
    • H04N1/04
    • G03B27/70
    • For an image-capturing unit having a light source and mirrors directing light reflected from a scanned document into a lens condensing the light onto a photoelectrically converting image sensor, a synthetic resin housing. The housing is composed of an open-ended upper frame having a top plate from which sidewalls extend, encompassing an internal space. A mounting surface for anchoring the light-source is formed on the upper side of the upper-frame top plate, and formed on the lower side of the upper-frame top plate is a pedestal on which the lens is supported. Mirror-support projections are formed on the lower side of the upper-frame top plate, or on the upper-frame sidewalls, to support the mirrors from below the lens. With this housing, the influence of heat from the light source on the optics is minimized, improving the mirrors' positional accuracy.
    • 对于具有光源的图像捕获单元和将从扫描的文档反射的光引导到将光聚焦到光电转换图像传感器的透镜中的合成树脂外壳。 壳体由具有顶板的敞开式上框架构成,侧壁延伸,顶盖包围内部空间。 用于固定光源的安装表面形成在上框架顶板的上侧,并且在上框架顶板的下侧形成有支撑透镜的基座。 镜支撑突起形成在上框架顶板的下侧或上框架侧壁上,以从透镜下方支撑镜子。 利用这种外壳,来自光源的热量对光学器件的影响被最小化,从而提高了镜子的位置精度。
    • 6. 发明授权
    • Imaging device and high-resolution processing method of image
    • 成像设备和高分辨率图像处理方法
    • US07990428B2
    • 2011-08-02
    • US11667766
    • 2005-11-15
    • Takahiro YanoTomoyuki NakamuraMasatoshi OkutomiMasao Shimizu
    • Takahiro YanoTomoyuki NakamuraMasatoshi OkutomiMasao Shimizu
    • H04N5/228
    • H04N5/232H04N5/2625
    • An optical system, imaging device and high-resolution processing method precisely generate a high-resolution image by using image data with few pixels. The optical system images an optical image in an imaging unit, the imaged image is spatially discretized so as to be sampled and converted into an image signal, thereby being recorded in a recording unit. A timing at which the image is imaged by the imaging unit is recorded in an imaging timing recording unit. A weight coefficient for the image is calculated by a weight calculating unit by utilizing the timing information obtained by the imaging timing recording unit. A high-resolution processing unit generates a high-resolution image by using the weighted information of the image generated by the weight calculating unit.
    • 光学系统,成像装置和高分辨率处理方法通过使用几个像素的图像数据精确地产生高分辨率图像。 光学系统在成像单元中对光学图像进行成像,将成像的图像在空间上离散化,以便被采样并转换为图像信号,从而被记录在记录单元中。 由成像单元将图像成像的定时记录在成像定时记录单元中。 通过利用由成像定时记录单元获得的定时信息,由权重计算单元计算图像的权重系数。 高分辨率处理单元通过使用由权重计算单元生成的图像的加权信息来生成高分辨率图像。
    • 9. 发明授权
    • Multi-parameter highly-accurate simultaneous estimation method in image sub-pixel matching and multi-parameter highly-accurate simultaneous estimation program
    • 多参数高精度同步估计方法在图像子像素匹配和多参数高精度同步估计程序中的应用
    • US07599512B2
    • 2009-10-06
    • US10542329
    • 2003-10-29
    • Masao ShimizuMasatoshi Okutomi
    • Masao ShimizuMasatoshi Okutomi
    • G06K9/00
    • G06K9/46G06T2200/32
    • In consideration of N-dimensional similarity, a multiparameter high precision concurrent estimation method and a multiparameter high precision concurrent estimation program in image subpixel matching, which can estimate a correspondence parameter between images precisely, concurrently, and stably with a small amount of computation at high speed.The method comprises the steps of: determining a sub-sampling position where the N-dimensional similarity value between images obtained at discrete positions is maximum or minimum on a line in parallel with a certain parameter axis, and determining an N-dimensional hyperplane that most approximates the determined sub-sampling position; determining N of the N-dimensional hyperplanes with respect to each parameter axis; determining an intersection point of N of the N-dimensional hyperplanes; and setting the intersection point as a sub-sampling grid estimation position for the correspondence parameter between images that gives a maximum value or a minimum value of N-dimensional similarity in the N-dimensional similarity space.
    • 考虑到N维相似度,图像子像素匹配中的多参数高精度并发估计方法和多参数高精度并行估计程序,其能够以高的计算精度,同时且稳定地估计图像之间的对应参数 速度。 该方法包括以下步骤:确定一个次取样位置,其中在离散位置处获得的图像之间的N维相似度值在与特定参数轴平行的行上是最大或最小的,并且确定最大的N维超平面 近似确定的子采样位置; 确定相对于每个参数轴的N维超平面的N; 确定N维超平面的N的交点; 并且将交点设置为在N维相似度空间中给出N维相似度的最大值或最小值的图像之间的对应参数的子采样网格估计位置。
    • 10. 发明申请
    • IMAGE REGISTRATION METHOD
    • 图像注册方法
    • US20090245692A1
    • 2009-10-01
    • US12293442
    • 2007-03-23
    • Masatoshi OkutomiMasao ShimizuSoonkeun Chang
    • Masatoshi OkutomiMasao ShimizuSoonkeun Chang
    • G06K9/32
    • G06T7/32
    • The present invention provides a region-selection-based image registration method for estimating motions between an image of interest in an image sequence and a reference image in the image sequence which can be applied to the registration of the object having every geometry and by which the high-precision image registration with robustness to illumination variation and occlusion can be conducted.An image registration method for conducting a high-precision image registration between a reference image in an image sequence capturing an object and an image of interest in said image sequence, the method characterized in that a predetermined region on the reference image is set as a region of interest, when conducting the high-precision image registration, a motion parameter is estimated based on pixels of a mask image representing a region where the registration is performed precisely by a predetermined transformation within the region of interest that is set. The mask image is generated by utilizing the similarity evaluation between images.
    • 本发明提供了一种用于估计图像序列中感兴趣的图像与图像序列中的参考图像之间的运动的区域选择的图像配准方法,其可以应用于具有每个几何形状的对象的登记, 可以进行对照明变化和遮挡的鲁棒性的高精度图像配准。 一种用于在拍摄对象的图像序列中的参考图像与所述图像序列中的感兴趣的图像之间进行高精度图像配准的图像配准方法,其特征在于,将参考图像上的预定区域设置为区域 感兴趣的是,当进行高精度图像配准时,基于所设置的感兴趣区域内的预定变换精确地表示表示注册的区域的掩模图像的像素来估计运动参数。 通过利用图像之间的相似性评估来生成掩模图像。