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    • 1. 发明申请
    • Motion Compensation Prediction Method and Motion Compensation Prediction Apparatus
    • 运动补偿预测方法和运动补偿预测装置
    • US20080037642A1
    • 2008-02-14
    • US11629537
    • 2005-06-29
    • Toshiharu TsuchiyaToru WadaKazushi SatoMakoto Yamada
    • Toshiharu TsuchiyaToru WadaKazushi SatoMakoto Yamada
    • H04N7/12
    • H04N19/567H04N19/51H04N19/53H04N19/82
    • When motion vector is searched based on hierarchical search by designating any one of reference images of plural frames used every respective motion blocks, which have reference images of plural frames and are obtained by dividing an object frame image to be processed among successive frame images, a thinning unit (12) is operative to thin pixels of the motion compensation block having the largest pixel size caused to be uppermost layer among pixel sizes of the motion compensation block to thereby generate a contracted image of lower layer having a predetermined contraction factor; a reference frame determination unit (15) is operative to determine a contracted reference image on the contracted image; a motion compensation prediction unit (1/N2 resolution) (15) is operative to search motion vector by using the contracted image thus generated to search; with respect to an image before contraction, motion compensation prediction unit (full resolution) (17) is operative to search motion vector and perform motion compensation prediction by using a predetermined retrieval range designated by motion vector which has been searched at the motion compensation prediction unit (1/N2 resolution) (15).
    • 当通过指定使用具有多个帧的参考图像的每个运动块的多个帧的参考图像中的任何一个来搜索运动矢量并且通过在连续的帧图像之间划分要处理的对象帧图像而获得时, 细化单元(12)可操作以将具有最大像素大小的运动补偿块的像素细化为运动补偿块的像素大小中的最上层,从而生成具有预定收缩因子的下层的收缩图像; 参考帧确定单元(15)用于确定收缩图像上的收缩参考图像; 运动补偿预测单元(1 / N 2分辨率)(15)通过使用如此生成的收缩图像来搜索运动矢量; 对于收缩前的图像,运动补偿预测单元(全分辨率)(17)可用于搜索运动矢量并通过使用由运动补偿预测单元搜索的运动矢量指定的预定检索范围来执行运动补偿预测 (1 / N 2分辨率)(15)。
    • 6. 发明授权
    • Detection of improper coating of sealing composition on can end disks
    • 检测罐头上密封组合物的不适当涂层
    • US4498415A
    • 1985-02-12
    • US545357
    • 1983-10-25
    • Toshiharu TsuchiyaMamoru Iwata
    • Toshiharu TsuchiyaMamoru Iwata
    • G01N21/90B05B13/02B21D51/44B21D51/46G01N21/84B05C3/02B05B13/06
    • B21D51/46B05B13/0221
    • Can end disks have annular, curled rims on which a sealing composition is applied as a coat to form airtight seals when the end disks are subsequently attached to can bodies. The sealing composition is sprayed onto the curled rim of each can end disk by an overlying spray nozzle while the disk is being rotated on a rotary rest in a coating machine. For detecting uncoated regions on the curled rim of the can end disk, a photodetector is positioned over the rim of the disk on the rotary rest, with a preassigned angular spacing between the photodetector and the spray nozzle. The detection of uncoated regions is essentially concurrent with the application of the sealing composition. Since the output from the photodetector represents a nonfaulty uncoated region (i.e. a region not yet coated), in addition to a possible faulty uncoated region (i.e. a region accidentally left uncoated), a signal generator such as a proximity detector is provided for invalidating the photodetector output portion representative of the nonfaulty uncoated region. Any can end disk having a faulty uncoated region is rejected while being subsequently conveyed toward the next processing station.
    • 罐端盘具有环形卷曲的轮缘,当端盘随后附接到罐体时,其上施加有密封组合物作为涂层以形成气密密封。 密封组合物通过上覆的喷嘴喷射到每个罐端盘的卷曲边缘上,同时盘在旋涂机中旋转。 为了检测罐端盘的卷曲边缘上的未涂覆区域,光电检测器被放置在旋转托盘上的盘边缘上方,在光电检测器和喷嘴之间具有预分配的角度间隔。 未涂覆区域的检测与密封组合物的应用基本上并行。 由于来自光电检测器的输出表示非故障的未涂覆区域(即,未被涂覆的区域),除了可能的故障未涂覆区域(即,意外地未涂覆的区域)之外,还提供诸如接近检测器的信号发生器,以使 光电检测器输出部分代表非故障未涂覆区域。 任何具有错误的未涂覆区域的罐头盘被拒绝,同时随后向下一个处理站传送。
    • 8. 发明授权
    • Motion prediction compensating device and its method
    • 运动预测补偿装置及其方法
    • US07746930B2
    • 2010-06-29
    • US10832085
    • 2004-04-26
    • Kazushi SatoToshiharu TsuchiyaYoichi Yagasaki
    • Kazushi SatoToshiharu TsuchiyaYoichi Yagasaki
    • H04N7/18
    • H04N19/523H04N19/533H04N19/56
    • An object of the invention is to provide a prediction compensation device and its method in which the processing efficiency of the overall coding process is enhanced. The address of an object pixel block serving as a pixel block of prediction object among a plurality of pixel blocks is detected, a first search range or a second search range narrower than the first search range is decided as the search range of a motion vector for the object pixel block on the reference frame according to the detected address, and the motion vector is searched for from the decided search range around the predictor of the motion vector based on the surrounding pixel blocks adjacent to the object pixel block.
    • 本发明的目的是提供一种预测补偿装置及其方法,其中提高了整体编码处理的处理效率。 检测用作多个像素块中的预测对象的像素块的对象像素块的地址,将比第一搜索范围窄的第一搜索范围或第二搜索范围确定为运动矢量的搜索范围, 根据检测到的地址在参考帧上的对象像素块,并且基于与对象像素块相邻的周围像素块,从运动矢量的预测器周围的决定的搜索范围中搜索运动矢量。
    • 9. 发明授权
    • Noncontact type IC card
    • 非接触型IC卡
    • US06950074B2
    • 2005-09-27
    • US10239755
    • 2002-01-24
    • Shigeru ArisawaOsamu IshiiToshiharu Tsuchiya
    • Shigeru ArisawaOsamu IshiiToshiharu Tsuchiya
    • B42D15/10G06K17/00G06K19/07G06K19/077H01Q1/22H01Q1/38H01Q1/52H01Q7/00H01Q21/28H01Q23/00
    • H01Q1/2225G06K19/07749G06K19/07796H01Q1/22H01Q1/526H01Q7/00H01Q21/28
    • The present invention relates to an electronic device that suppresses reduction in reception sensitivity and occurrence of distortion when IC cards are used while stacked. A loop antenna equipped on the IC card has up to four turns, and is designed so that one turn, for example, has a first linear portion, a first curved line portion, a second linear portion, and a second curved line portion. When two electronic devices having a first loop antenna and a second loop antenna, respectively, are stacked onto one another, the corners of the loop antennas do not overlap. For example, the corner formed by first curved line portion and the second linear portion of the first loop antenna is overlapped with the first curved line portion of the second loop antenna. The first and second loop antennas are shaped such that when two electronic devices are stacked, their respective loop antennas are superimposed in the opposite direction so that the corners are not overlapped and the amount of overlap as a whole is reduced. The present invention may be applied to an IC card for receiving/transmitting data under non-contact state.
    • 本发明涉及一种在堆叠时使用IC卡时抑制接收灵敏度降低和失真发生的电子设备。 设置在IC卡上的环形天线具有多达四匝,并且被设计成使得一匝例如具有第一线性部分,第一曲线部分,第二直线部分和第二曲线部分。 当分别具有第一环形天线和第二环形天线的两个电子装置彼此堆叠时,环形天线的角部不重叠。 例如,由第一环形天线的第一曲线部分和第二直线部分形成的角部与第二环形天线的第一曲线部分重叠。 第一和第二环形天线被成形为使得当两个电子器件被堆叠时,它们各自的环形天线在相反的方向上叠加,使得角部不重叠,并且整体上的重叠量减小。 本发明可以应用于在非接触状态下接收/发送数据的IC卡。