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    • 21. 发明申请
    • IMAGE PROCESSING APPARATUS, IMAGE PROCESSING PROGRAM, IMAGE PROCESSING METHOD, AND IMAGE-PICKUP APPARATUS
    • 图像处理装置,图像处理程序,图像处理方法和图像拾取装置
    • US20120218433A1
    • 2012-08-30
    • US13404060
    • 2012-02-24
    • Takashi Okada
    • Takashi Okada
    • H04N5/228
    • H04N9/045
    • An image processing apparatus configured to process an image taken by an image-pickup unit includes a memory configured to store a relationship between a color shift amount at positions that are symmetrical with respect to an origin of an image and a blur amount relating to a curvature of field at the positions symmetrical with respect to the origin of the image, a detector configured to detect a color shift amount at the positions that are symmetrical with respect to the origin of the image, an acquirer configured to acquire the blur amount relating to the curvature of field corresponding to the color shift amount detected by the detector based on the relationship stored in the memory, and a processor configured to execute image processing that is asymmetrical with respect to the origin so as to correct the blur amount relating to the curvature of field acquired by the acquirer.
    • 被配置为处理由摄像单元拍摄的图像的图像处理装置包括:存储器,被配置为存储与图像的原点对称的位置处的色移量与与曲率的原点相关的模糊量之间的关系 在相对于图像的原点对称的位置处的检测器,被配置为检测在相对于图像的原点对称的位置处的色移量的检测器,被配置为获取与图像的原点相关的模糊量的获取器 基于存储在存储器中的关系,由检测器检测到的色移量对应的场景曲率,以及被配置为执行相对于原点不对称的图像处理的处理器,以便校正与曲率相关的模糊量 由收购方收购的现场。
    • 24. 发明授权
    • Semiconductor memory apparatus
    • 半导体存储装置
    • US07939927B2
    • 2011-05-10
    • US12396017
    • 2009-03-02
    • Takashi Okada
    • Takashi Okada
    • H01L25/065H01L23/48
    • H01L25/18H01L27/11551H01L27/11578H01L2224/48145H01L2225/06506H01L2225/0651H01L2924/01078H01L2924/00012
    • The semiconductor memory apparatus related to an embodiment of the present invention includes a wiring substrate arranged with a device mounting part and connection pads aligned along one exterior side of the wiring substrate, a plurality of semiconductor memory devices including electrode pads which are arranged along one external side of the wiring substrate, a semiconductor memory device group in which the plurality of semiconductor memory devices are stacked on the device mounting part of the wiring substrate so that pad arrangement sides all face in the same direction, and a controller device including the electrode pads arranged along at least one external side of the wiring substrate, wherein the electrode pads of the plurality of semiconductor memory devices and the electrode pads of the controller device are arranged parallel to an arrangement position of the connection pads of the wiring substrate.
    • 与本发明的实施方式有关的半导体存储装置具备配置有沿着配线基板的一个外侧配置的器件安装部和连接焊盘的布线基板,具有沿着一个外部配置的电极焊盘的多个半导体存储器件 所述半导体存储装置组中,所述多个半导体存储装置堆叠在所述布线基板的所述装置安装部上,使得所述焊盘排列侧均朝向相同的方向,以及控制装置,所述控制装置包括所述电极焊盘 沿着布线基板的至少一个外侧布置,其中多个半导体存储器件的电极焊盘和控制器装置的电极焊盘平行于布线基板的连接焊盘的布置位置布置。
    • 25. 发明申请
    • MEMORY CELL ARRAY, NONVOLATILE STORAGE DEVICE, MEMORY CELL, AND METHOD OF MANUFACTURING MEMORY CELL ARRAY
    • 存储单元阵列,非易失存储器件,存储器单元及其制造存储器单元阵列的方法
    • US20110103133A1
    • 2011-05-05
    • US13001695
    • 2010-05-28
    • Takashi OkadaTakumi MikawaKoji Arita
    • Takashi OkadaTakumi MikawaKoji Arita
    • G11C11/00H01L45/00H01L21/02
    • H01L27/101H01L27/2418H01L45/08H01L45/1233H01L45/146H01L45/1625
    • A method of manufacturing a memory cell array in which first conductive layers (2) and second conductive layers (14) extend above a semiconductor substrate (1) and three-dimensionally cross with each other, and memory cells each of which includes a current steering element (10) and a variable resistance element (23) electrically connected in series to each other is provided at a corresponding one of three-dimensional cross points between the first conductive layers (2) and the second conductive layers (14). The method includes: forming a first interlayer insulating film (3); forming a contact hole in the interlayer insulating film (3); depositing a first plug material (4) in the contact hole and on the first interlayer insulating film (3); performing a first polishing in which the first plug material (4) is polished until the first interlayer insulating film (3) is exposed; depositing a conductive film (6a) that becomes a first electrode (6) of the current steering element (10), on the first plug material (4) and the first interlayer insulating film (3) after the first polishing; and performing a second polishing in which a surface of the conductive film (6a) is polished.
    • 一种制造存储单元阵列的方法,其中第一导电层(2)和第二导电层(14)在半导体衬底(1)上方延伸并且彼此三维交叉,并且每个存储单元包括电流转向 在第一导电层(2)和第二导电层(14)之间的三维交叉点中的相应一个处提供元件(10)和彼此串联电连接的可变电阻元件(23)。 该方法包括:形成第一层间绝缘膜(3); 在层间绝缘膜(3)中形成接触孔; 在所述接触孔和所述第一层间绝缘膜(3)上沉积第一插塞材料(4); 执行抛光所述第一插塞材料(4)直到所述第一层间绝缘膜(3)露出的第一抛光; 在第一次抛光之后,在第一插头材料(4)和第一层间绝缘膜(3)上沉积成为当前操舵元件(10)的第一电极(6)的导电膜(6a) 并进行抛光导电膜(6a)的表面的第二研磨。
    • 26. 发明授权
    • Zoom lens and image pickup apparatus having the same
    • 具有相同的变焦镜头和摄像装置
    • US07911707B2
    • 2011-03-22
    • US12511946
    • 2009-07-29
    • Takashi Okada
    • Takashi Okada
    • G02B15/14H04N5/262
    • G02B15/177
    • A zoom lens includes, in order from an object side to an image side, a first lens unit having a negative refractive power, a second lens unit having a positive refractive power, a third lens unit having a negative refractive power, and a fourth lens unit having a positive refractive power. In the zoom lens, an interval between every adjacent ones of the first through fourth lens units varies during zooming, the second lens unit includes at least one negative lens, and the third lens unit includes at least one positive lens. An Abbe number and a relative partial dispersion of a material of the at least one negative lens (νd2N, θgF2N) and an Abbe number and a relative partial dispersion of a material of the at least one positive lens (νd3P, θgF3P) are appropriately set.
    • 变焦透镜从物体侧到像侧依次包括具有负屈光力的第一透镜单元,具有正折光力的第二透镜单元,具有负折光力的第三透镜单元和第四透镜 具有正屈光力的单元。 在变焦透镜中,第一至第四透镜单元中的每个相邻的透镜单元之间的间隔在变焦期间变化,第二透镜单元包括至少一个负透镜,并且第三透镜单元包括至少一个正透镜。 所述至少一个负透镜(&ngr; d2N,&het; gF2N)的材料的阿贝数和阿贝数和相对部分色散以及所述至少一个正透镜(&ngr; d3P)的材料的阿贝数和相对部分色散 ,&thetas; gF3P)。
    • 27. 发明授权
    • Zoom lens system and camera including the same
    • 变焦镜头系统和相机包括相同
    • US07872808B2
    • 2011-01-18
    • US12476571
    • 2009-06-02
    • Takashi Okada
    • Takashi Okada
    • G02B15/14
    • G02B15/161G02B15/173
    • A zoom lens system includes, in order from an object side to an image side, a first lens unit having positive optical power, a second lens unit having negative optical power, and a rear unit including at least one lens unit. During zooming, at least two lens units move so that intervals between the lens units adjacent to each other change. In such a zoom lens system, the second lens unit consists of a negative lens component formed of at least one material and a positive lens element, which are arranged in the stated order from the object side to the image side. A refractive index and an Abbe number of the at least one material forming the negative lens component and a refractive index of a material forming the positive lens element are appropriately set, whereby high optical performance is obtained.
    • 变焦透镜系统从物体侧到像侧依次包括具有正光焦度的第一透镜单元,具有负光焦度的第二透镜单元和包括至少一个透镜单元的后单元。 在变焦期间,至少两个透镜单元移动,使得彼此相邻的透镜单元之间的间隔变化。 在这样的变焦透镜系统中,第二透镜单元由从物体侧到像侧按顺序排列的由至少一种材料和正透镜元件形成的负透镜部件组成。 适当地设定形成负透镜成分的至少一种材料的折射率和阿贝数以及形成正透镜元件的材料的折射率,从而获得高的光学性能。
    • 30. 发明申请
    • MOBILE COMMUNICATION TERMINAL AND CONTROL METHOD THEREFOR
    • 移动通信终端及其控制方法
    • US20100208784A1
    • 2010-08-19
    • US12707189
    • 2010-02-17
    • Hidetoshi SUZUKITakashi OkadaShinsuke OgawaShinya Oka
    • Hidetoshi SUZUKITakashi OkadaShinsuke OgawaShinya Oka
    • H04B17/00H04K1/10
    • H04W52/029Y02D70/00
    • A determiner determines whether or not a mobile communication terminal is in a standby mode. A fast Fourier transform calculator demodulates a signal which is received at the mobile communication terminal. A controller causes the fast Fourier transform calculator to vary at least one of a frequency range for fast Fourier transform or a number of frequency samples used by the fast Fourier transform calculator, depending on determination by the determiner. Preferably, the controller is adapted to cause the fast Fourier transform calculator to vary at least one of the frequency range for fast Fourier transform or the number of frequency samples used by the fast Fourier transform calculator based on information about frequencies used in communication from a radio base station to the mobile communication terminal and notified from the radio base station.
    • 确定器确定移动通信终端是否处于待机模式。 快速傅里叶变换计算器解调在移动通信终端处接收的信号。 取决于确定器的确定,控制器使快速傅里叶变换计算器改变用于快速傅里叶变换的频率范围或快速傅里叶变换计算器使用的频率样本数中的至少一个。 优选地,控制器适于使快速傅里叶变换计算器基于关于来自无线电的通信中使用的频率的信息来改变快速傅里叶变换的频率范围或快速傅立叶变换计算器使用的频率样本的数量中的至少一个 基站到移动通信终端,并从无线基站通知。