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    • 1. 发明申请
    • Video signal processing method and device
    • 视频信号处理方法和装置
    • US20050002637A1
    • 2005-01-06
    • US10492381
    • 2003-08-15
    • Seiko ImaiToshio SarugakuNaoki KanekoTakaya Hoshino
    • Seiko ImaiToshio SarugakuNaoki KanekoTakaya Hoshino
    • H04N5/20H04N5/208H04N7/01H04N5/783
    • H04N5/20H04N5/208H04N7/01H04N7/012
    • To enable a satisfactory suppression of overemphasized component after converting the number of scanning lines of video signal, when the video signal is converted in the number of scanning lines and a high-frequency component at least in a vertical direction of the converted video signal is emphasized, signals delayed by a plurality of stages of time equal to or more than a time required for converting the number of scanning lines are obtained by a delay circuit 18, and an appropriate delay signal is selected from among the plurality of delay signals by a selection circuit 19. The selected delay signal is compared with the emphasized video signal in emphasized-component detector circuits 16a, 16b and the overemphasized component is detected. Processing to suppress the emphasis is performed by suppressor circuits 13a, 13b with respect to a portion where the overemphasized signal component is detected.
    • 为了在转换视频信号的扫描线数量之后,当视频信号被转换成扫描线数量和至少在转换的视频信号的垂直方向上的高频分量被强调时,能够令人满意地抑制过高的分量 通过延迟电路18获得延迟等于或大于转换扫描线数所需时间的多个时间段的信号,并且通过选择从多个延迟信号中选择适当的延迟信号 所选择的延迟信号与强调分量检测器电路16a,16b中的强调视频信号进行比较,并且检测到过高的分量。 通过抑制电路13a,13b对被检测到过高的信号成分的部分进行抑制处理。
    • 2. 发明授权
    • Video signal processing method and device
    • 视频信号处理方法和装置
    • US07221404B2
    • 2007-05-22
    • US10492381
    • 2003-08-15
    • Seiko ImaiToshio SarugakuNaoki KanekoTakaya Hoshino
    • Seiko ImaiToshio SarugakuNaoki KanekoTakaya Hoshino
    • H04N5/00H04N5/21H04N7/01H04N11/20
    • H04N5/20H04N5/208H04N7/01H04N7/012
    • To enable a satisfactory suppression of overemphasized component after converting the number of scanning lines of video signal, when the video signal is converted in the number of scanning lines and a high-frequency component at least in a vertical direction of the converted video signal is emphasized, signals delayed by a plurality of stages of time equal to or more than a time required for converting the number of scanning lines are obtained by a delay circuit 18, and an appropriate delay signal is selected from among the plurality of delay signals by a selection circuit 19. The selected delay signal is compared with the emphasized video signal in emphasized-component detector circuits 16a, 16b and the overemphasized component is detected. Processing to suppress the emphasis is performed by suppressor circuits 13a, 13b with respect to a portion where the overemphasized signal component is detected.
    • 为了在转换视频信号的扫描线数量之后,当视频信号被转换成扫描线数量和至少在转换的视频信号的垂直方向上的高频分量被强调时,能够令人满意地抑制过高的分量 通过延迟电路18获得延迟等于或大于转换扫描线数所需时间的多个时间段的信号,并且通过选择从多个延迟信号中选择适当的延迟信号 电路19。 所选择的延迟信号与强调分量检测器电路16a,16b中的强调视频信号进行比较,并且检测到过高的分量。 通过抑制电路13a,13b相对于检测到过高的信号成分的部分来进行抑制强调的处理。
    • 3. 发明授权
    • Video signal processing apparatus, video signal processing method and video source determining method
    • 视频信号处理装置,视频信号处理方法和视频源确定方法
    • US07283174B2
    • 2007-10-16
    • US10475732
    • 2002-04-23
    • Masaharu TokuharaToshio SarugakuNaoki KanekoSeiko Imai
    • Masaharu TokuharaToshio SarugakuNaoki KanekoSeiko Imai
    • H04N7/01H04N11/20
    • H04N7/0112H04N7/012Y10S348/911
    • There is provided a video signal processing apparatus that makes it possible to realize a favorable display of pictures by increasing the detection accuracy of the video source of an input video signal and by using an appropriate scanning method for an output video signal in accordance with the determined type of video source. The video signal processing apparatus includes video source determining means for determining whether the video source of a video signal is a film source, calculating means for calculating a degree of difference between a picture of a field of the video signal and a picture of a field of a delayed video signal, threshold setting means, comparison means for comparing the degree of difference and a threshold and determining whether the pictures of each field match, and a signal pattern detecting means for detecting a signal pattern of a signal outputted by the comparison means and determining whether the video source is a film source, with the threshold setting means outputting respectively different thresholds in a state where the video source is determined to be a film source and a state where the video source is not determined to be a film source.
    • 提供了一种视频信号处理装置,其可以通过增加输入视频信号的视频源的检测精度并根据确定的输出视频信号使用适当的输出视频信号的扫描方法来实现图像的良好显示 视频源的类型 视频信号处理装置包括:视频源确定装置,用于确定视频信号的视频源是否是电影源;计算装置,用于计算视频信号的场的图像与场的图像之间的差异程度; 延迟视频信号,阈值设定装置,用于比较差异度和阈值并确定每个场的图像是否匹配的比较装置,以及用于检测由比较装置输出的信号的信号模式的信号模式检测装置,以及 确定视频源是否是电影源,其中阈值设置装置在视频源被确定为电影源的状态和视频源未被确定为电影源的状态下分别输出不同的阈值。
    • 5. 发明申请
    • SIGNAL PROCESSING APPARATUS
    • 信号处理装置
    • US20100220954A1
    • 2010-09-02
    • US12681782
    • 2008-10-07
    • Toshiyuki SekiyaKen HayakawaKazuo HaraokaMasaaki HattoriNaoki KanekoTetsujiro Kondo
    • Toshiyuki SekiyaKen HayakawaKazuo HaraokaMasaaki HattoriNaoki KanekoTetsujiro Kondo
    • G02B6/42
    • G02B6/43H04B10/801
    • In the sending and receiving of a signal through an optical waveguide, an unknown substrate connected to the optical waveguide can be recognized. A signal processing apparatus 1A is provided with an optical waveguide 2A in which the light input from an arbitrary position on an outer circumference is output in an entire circumference direction at a level in accordance with a positional relation with the input location, a master substrate 3M arranged on the outer circumference of the optical waveguide 2A, a single or a plurality of slave substrates 3S arranged at any of a plurality of mount locations at different positions along the outer circumference of the optical waveguide 2A, in which as the light is output from A laser diodes 30S of all the slave substrates 3S connected to the optical waveguide 2A, from a level of a light transmitted through the optical waveguide 2A and input to the photo detector 31M of the master substrate 3M in accordance with the arrangement of the slave substrate 3S, the master substrate 3M recognizes the mount positions and number of the slave substrates 3S.
    • 在通过光波导发送和接收信号时,可以识别连接到光波导的未知基板。 信号处理装置1A设置有光波导2A,其中从外周上的任意位置输入的光在整个圆周方向上以与输入位置的位置关系一级输出,母板3M 布置在光波导2A的外周上的单个或多个从基板3S,其沿着光波导2A的外周在不同位置处设置在多个安装位置中的任一个处,其中当光从光波导2A输出时, 根据从基板的布置,从通过光波导2A透射的光的水平和与主基板3M的光电检测器31M输入的所有从基板3S的激光二极管30S连接到光波导2A, 如图3S所示,主基板3M识别从基板3S的安装位置和数量。
    • 8. 发明授权
    • Hollow reflecting optical element and scanning optical device
    • 中空反射光学元件和扫描光学器件
    • US08427726B2
    • 2013-04-23
    • US13257546
    • 2010-02-04
    • Shinichiro HaraNaoki KanekoHiroshi Takagi
    • Shinichiro HaraNaoki KanekoHiroshi Takagi
    • G02B26/08
    • G02B26/126B29C45/1704B29C45/7613B29C45/762B29C2945/76167B29C2945/76257B29C2945/76381B29C2945/76411B29C2945/76454B29C2945/76474B29C2945/76488B29C2945/76585B29C2945/76943B29D11/00596B29L2011/0058B41J2/471G02B27/0031
    • Provided are a resinous reflecting optical element that achieves high mirror surface precision by mitigating the warping effects associated with contraction during resin hardening and suppressing the distortion of a mirror surface that results from resistance to mold release, and a scanning optical device that uses said reflecting optical element. The reflecting optical element is characterized by having a long, tabular substrate (3), a mirror surface section (2) positioned on one surface of the substrate (3), and a hollow portion (4) positioned within the interior of the substrate (3), and is also characterized in that, as a result of configuring so that the hollow portion (4) is longer than the mirror surface section (2), warping and sink marks which form due to contraction during resin hardening are mitigated across the entire mirror surface section (2), and in that the entire mirror surface section (2) protrudes above the surface of the substrate (3), thereby suppressing the increase in resistance to mold release that occurs when a metallic mold is gripped by the molding during resin contraction, and preventing distortion of the mirror surface section (2) that is caused by resistance to mold release.
    • 提供一种树脂反射光学元件,其通过减轻与树脂硬化期间的收缩相关的翘曲效应并抑制由于抵抗脱模导致的反射镜表面的变形而实现高镜面精度;以及扫描光学装置,其使用所述反射光学 元件。 反射光学元件的特征在于具有长的平板状基板(3),位于基板(3)的一个表面上的镜面部分(2)和位于基板内部的中空部分(4) 3),其特征还在于,通过构造使得中空部分(4)比镜面部分(2)长,由于在树脂硬化期间由于收缩而形成的翘曲和凹痕被缓和 整个镜面部分(2),并且整个镜面部分(2)突出在基底(3)的表面上方,从而抑制当通过模制夹持金属模具时发生的抗脱模性的增加 在树脂收缩期间,并且防止由于抵抗脱模而引起的镜面部分(2)的变形。
    • 9. 发明申请
    • Hollow Reflecting Optical Element and Scanning Optical Device
    • 中空反射光学元件和扫描光学器件
    • US20120008184A1
    • 2012-01-12
    • US13257546
    • 2010-02-04
    • Shinichiro HaraNaoki KanekoHiroshi Takagi
    • Shinichiro HaraNaoki KanekoHiroshi Takagi
    • G02B26/12G02B5/08
    • G02B26/126B29C45/1704B29C45/7613B29C45/762B29C2945/76167B29C2945/76257B29C2945/76381B29C2945/76411B29C2945/76454B29C2945/76474B29C2945/76488B29C2945/76585B29C2945/76943B29D11/00596B29L2011/0058B41J2/471G02B27/0031
    • Provided are a resinous reflecting optical element that achieves high mirror surface precision by mitigating the warping effects associated with contraction during resin hardening and suppressing the distortion of a mirror surface that results from resistance to mold release, and a scanning optical device that uses said reflecting optical element. The reflecting optical element is characterized by having a long, tabular substrate (3), a mirror surface section (2) positioned on one surface of the substrate (3), and a hollow portion (4) positioned within the interior of the substrate (3), and is also characterized in that, as a result of configuring so that the hollow portion (4) is longer than the mirror surface section (2), warping and sink marks which form due to contraction during resin hardening are mitigated across the entire mirror surface section (2), and in that the entire mirror surface section (2) protrudes above the surface of the substrate (3), thereby suppressing the increase in resistance to mold release that occurs when a metallic mold is gripped by the molding during resin contraction, and preventing distortion of the mirror surface section (2) that is caused by resistance to mold release.
    • 提供一种树脂反射光学元件,其通过减轻与树脂硬化期间的收缩相关的翘曲效应并抑制由于抵抗脱模导致的反射镜表面的变形而实现高镜面精度;以及扫描光学装置,其使用所述反射光学 元件。 反射光学元件的特征在于具有长的平板状基板(3),位于基板(3)的一个表面上的镜面部分(2)和位于基板内部的中空部分(4) 3),其特征还在于,通过构造使得中空部分(4)比镜面部分(2)长,由于在树脂硬化期间由于收缩而形成的翘曲和凹痕被缓和 整个镜面部分(2),并且整个镜面部分(2)突出在基底(3)的表面上方,从而抑制当通过模制夹持金属模具时发生的抗脱模性的增加 在树脂收缩期间,并且防止由于抵抗脱模而引起的镜面部分(2)的变形。