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    • 1. 发明授权
    • Displacement measuring apparatus
    • 位移测量仪
    • US09116163B2
    • 2015-08-25
    • US13041742
    • 2011-03-07
    • Yasumichi ArimitsuYasuyuki Miyaoka
    • Yasumichi ArimitsuYasuyuki Miyaoka
    • G01P3/36G01B11/00G01P3/68G01D5/245G01D5/347G03G15/00G01P3/486
    • G01P3/68G01D5/2451G01D5/34746G01P3/486G03G15/5054G03G2215/0158
    • A displacement measuring apparatus including: a first light detector including a first emitter illuminating optically identifiable marks disposed on a moving body, and a first light receiver detecting light through the marks; a second light detector including a second emitter illuminating the marks and a second light receiver detecting light through the marks, wherein the second light detector is arranged at a predetermined interval from the first light detector in a moving direction of the moving body; an identical point detecting unit detecting a first timing at which the first and second light detector detecting an identical mark among the marks, and a second timing; a velocity calculating unit calculating a velocity of the moving body by using the first and second timing determined by the identical point detecting unit; and a time-sharing light emitting unit allowing the first and second emitter to emit the light in a time-sharing manner.
    • 1.一种位移测量装置,包括:第一光检测器,包括第一发射器,其照射设置在移动体上的光学识别标记;以及第一光接收器,用于检测通过所述标记的光; 第二光检测器,包括照射标记的第二发射体和通过标记检测光的第二光接收器,其中所述第二光检测器沿所述移动体的移动方向以与所述第一光检测器预定的间隔布置; 相同点检测单元,检测第一和第二光检测器检测到标记之间的相同标记的第一定时和第二定时; 速度计算单元,通过使用由同一点检测单元确定的第一和第二定时来计算移动体的速度; 以及允许第一和第二发射器以分时方式发光的分时发光单元。
    • 2. 发明授权
    • Velocity detection apparatus having two detectors
    • 具有两个检测器的速度检测装置
    • US08805022B2
    • 2014-08-12
    • US12953736
    • 2010-11-24
    • Yasumichi ArimitsuYasuyuki MiyaokaMasahiko Igaki
    • Yasumichi ArimitsuYasuyuki MiyaokaMasahiko Igaki
    • G06K9/00G06K9/52
    • G01P3/68
    • A velocity detection apparatus detects a position of a moving object at a first timing and a second timing to detect a velocity of the moving object based on a difference between the first timing and the second timing. The first timing is a timing at which an identifiable mark position of the moving object is detected by a first detector and the second timing is a timing at which the mark position is detected by a second detector. The velocity detection apparatus includes a light source and first and second detectors which detects the mark position based on light obtained by illuminating the moving object using the light source. A vertical projection position of the light source onto a plane which is parallel to a main surface of the first or second detector is located between vertical projection positions of the first and the second detector onto the plane.
    • 速度检测装置基于第一定时和第二定时之间的差异,在第一定时和第二定时检测运动物体的位置,以检测运动物体的速度。 第一定时是由第一检测器检测运动物体的可识别标记位置的定时,并且第二定时是由第二检测器检测到标记位置的定时。 速度检测装置包括光源以及基于使用光源照射移动物体获得的光来检测标记位置的第一和第二检测器。 光源在与第一或第二检测器的主表面平行的平面上的垂直投影位置位于第一和第二检测器的垂直投影位置之间。
    • 4. 发明申请
    • VELOCITY DETECTION APPARATUS HAVING TWO DETECTORS
    • 具有两个检测器的速度检测装置
    • US20110150288A1
    • 2011-06-23
    • US12953736
    • 2010-11-24
    • Yasumichi ArimitsuYasuyuki MiyaokaMasahiko Igaki
    • Yasumichi ArimitsuYasuyuki MiyaokaMasahiko Igaki
    • G06K9/00
    • G01P3/68
    • A velocity detection apparatus detects a position of a moving object at a first timing and a second timing to detect a velocity of the moving object based on a difference between the first timing and the second timing. The first timing is a timing at which an identifiable mark position of the moving object is detected by a first detector and the second timing is a timing at which the mark position is detected by a second detector. The velocity detection apparatus includes a light source and first and second detectors which detects the mark position based on light obtained by illuminating the moving object using the light source. A vertical projection position of the light source onto a plane which is parallel to a main surface of the first or second detector is located between vertical projection positions of the first and the second detector onto the plane.
    • 速度检测装置基于第一定时和第二定时之间的差异,在第一定时和第二定时检测运动物体的位置,以检测运动物体的速度。 第一定时是由第一检测器检测运动物体的可识别标记位置的定时,并且第二定时是由第二检测器检测到标记位置的定时。 速度检测装置包括光源以及基于使用光源照射移动物体获得的光来检测标记位置的第一和第二检测器。 光源在与第一或第二检测器的主表面平行的平面上的垂直投影位置位于第一和第二检测器的垂直投影位置之间。
    • 5. 发明申请
    • DISPLACEMENT MEASURING APPARATUS
    • 位移测量装置
    • US20120069323A1
    • 2012-03-22
    • US13041742
    • 2011-03-07
    • Yasumichi ArimitsuYasuyuki Miyaoka
    • Yasumichi ArimitsuYasuyuki Miyaoka
    • G01P3/36G01B11/00
    • G01P3/68G01D5/2451G01D5/34746G01P3/486G03G15/5054G03G2215/0158
    • A displacement measuring apparatus including: a first light detector including a first emitter illuminating optically identifiable marks disposed on a moving body, and a first light receiver detecting light through the marks; a second light detector including a second emitter illuminating the marks and a second light receiver detecting light through the marks, wherein the second light detector is arranged at a predetermined interval from the first light detector in a moving direction of the moving body; an identical point detecting unit detecting a first timing at which the first and second light detector detecting an identical mark among the marks, and a second timing; a velocity calculating unit calculating a velocity of the moving body by using the first and second timing determined by the identical point detecting unit; and a time-sharing light emitting unit allowing the first and second emitter to emit the light in a time-sharing manner.
    • 1.一种位移测量装置,包括:第一光检测器,包括第一发射器,其照射设置在移动体上的光学识别标记;以及第一光接收器,用于检测通过所述标记的光; 第二光检测器,包括照射标记的第二发射体和通过标记检测光的第二光接收器,其中所述第二光检测器沿所述移动体的移动方向以与所述第一光检测器预定的间隔布置; 相同点检测单元,检测第一和第二光检测器检测到标记之间的相同标记的第一定时和第二定时; 速度计算单元,通过使用由同一点检测单元确定的第一和第二定时来计算移动体的速度; 以及允许第一和第二发射器以分时方式发光的分时发光单元。
    • 6. 发明授权
    • Method of adjusting spherical aberration and focus offset and information recording/reproduction apparatus using the same
    • 调整球面像差和聚焦偏移的方法以及使用其的信息记录/再现装置
    • US07782722B2
    • 2010-08-24
    • US11844124
    • 2007-08-23
    • Yasuyuki Miyaoka
    • Yasuyuki Miyaoka
    • G11B7/00
    • G11B7/0945G11B7/094
    • A method of adjusting spherical aberration correction and focus offset of a light beam. A first approximate straight line is detected indicating a first relationship between the spherical aberration correction and the focus offset according to a first evaluation index indicating a quality of cross-track signal. A second approximate straight line is detected indicating a second relationship between the spherical aberration correction and the focus offset according to a second evaluation index indicating a quality of a reproduced signal. A spherical aberration correction value and a focus offset value, to be adjusted, are determined from an intersection of the first approximate straight line and the second approximate straight line.
    • 调整光束的球面像差校正和聚焦偏移的方法。 根据指示交叉轨道信号的质量的第一评估指标,检测第一近似直线,指示球面像差校正和聚焦偏移之间的第一关系。 根据指示再现信号的质量的第二评价指标,检测出第二近似直线,指示球面像差校正和聚焦偏移之间的第二关系。 根据第一近似直线和第二近似直线的交点确定要调整的球面像差校正值和聚焦偏移值。
    • 7. 发明申请
    • Information reproducing method and information recording reproducing apparatus with maximum likelihood decoding
    • 具有最大似然解码的信息再现方法和信息记录再现装置
    • US20060015797A1
    • 2006-01-19
    • US11131194
    • 2005-05-18
    • Yasuyuki Miyaoka
    • Yasuyuki Miyaoka
    • H03M13/03
    • G11B20/10009G11B20/10111G11B20/10296G11B20/10481G11B20/1833
    • To provide a regenerative signal evaluation method in which the transition of polarity of a regenerative signal, or the change of polarity in a record mark sequence, is dealt with employing an index in correlation with an error ratio of binarization result by a maximum likelihood decoding. The method comprises detecting a recording series on a state transition path having a certain Euclid distance by the maximum likelihood decoding corresponding to a change of polarity of record code in the recording series, acquiring a likelihood difference between the most probable state transition path and the secondly probable state transition path from branch of state transition paths to merge of state transition paths in the detected recording series, and conducting a statistical processing for the likelihood difference individually corresponding to the change of polarity in the recording series to evaluate the quality of reproducing signal.
    • 为了提供一种再生信号评估方法,其中再现信号的极性的转变或记录标记序列中的极性的变化通过最大似然解码采用与二值化结果的误差比相关的指数来处理。 该方法包括:检测具有某一欧几里德距离的状态转换路径上的记录序列与对应于记录序列中的记录码极性变化的最大似然解码,获取最可能状态转换路径与第二次可能状态转换路径之间的似然差 从状态转移路径分支到状态转移路径合并的检测记录序列的可能状态转移路径,并且对与记录序列中的极性变化分别对应的似然度差进行统计处理,以评估再现信号的质量。
    • 9. 发明授权
    • Magneto-optical recording-reproducing method utilizing domain wall
displacement, and apparatus therefor
    • 利用畴壁位移的磁光记录再现方法及其装置
    • US5953289A
    • 1999-09-14
    • US86308
    • 1998-05-27
    • Yasuyuki Miyaoka
    • Yasuyuki Miyaoka
    • G11B11/10G11B11/105G11B20/10G11B11/00
    • G11B11/10515G11B11/10595G11B20/10009
    • A method for reproducing information on a magneto-optical medium comprises causing temperature distribution on the magneto-optical medium by projection of a light beam and displacing domain walls by the temperature gradient, wherein a detected reproduction signal is corrected by subtraction therefrom of a signal derived by delaying the detected reproduction signal by a prescribed time .beta. and multiplying the delayed signal by an amplitude gain .alpha.. An apparatus for reproducing information on a magneto-optical medium with regard to the above method comprises a first circuit for generating reproduced signals from reflection of the light beam, a second circuit for generating a modified signal derived by delaying the reproduction signal by a prescribed delay time .beta. and multiplying an amplitude gain .alpha., and a third circuit for subtracting the modified signal from the reproduced signal.
    • 一种用于在磁光介质上再现信息的方法包括通过投射光束并将畴壁移位温度梯度来引起磁光介质上的温度分布,其中通过从其中减去所检测到的信号来校正检测到的再现信号 通过将检测到的再现信号延迟预定时间β并将延迟的信号乘以振幅增益α。 关于上述方法,用于再现关于磁光介质的信息的装置包括:用于从光束的反射产生再现信号的第一电路;产生通过将再现信号延迟预定延迟而导出的修正信号的第二电路 时间β并乘以振幅增益α,以及用于从再现信号中减去修正信号的第三电路。
    • 10. 发明授权
    • Optical disk recording power adjustment method and optical disk apparatus adapted to operate with the same
    • 光盘记录功率调整方法和适于与其一起操作的光盘装置
    • US07466638B2
    • 2008-12-16
    • US11760462
    • 2007-06-08
    • Yasuyuki Miyaoka
    • Yasuyuki Miyaoka
    • G11B7/00
    • G11B7/1267
    • A recording power row P(i) is selected and a signal is recorded in a recording test region of an optical disk, while shifting a recording power, to detect a reproduced signal amplitude row m(i) that corresponds to the recording power row P(i). The relation of the recording power row P(i) and the row of multiplication products P(i)×m(i) is linearly approximated and the intersection of the linear approximation straight line and the recording power axis is computationally determined as recording threshold power Pthr, for at least three recording power rows Pj(i) that are centered at Pf(j) in the recording power row P(i) within a defined range. Then, the recording power Pt(j) is computed as a multiplication product of the recording threshold power Pthr(j) and a factor κ contained in the disk information, for each recording power row Pj(i). Finally, the optimum recording power Pwopt is computationally determined according to the at least three recording powers Pt(j).
    • 选择记录功率行P(i),并且在移动记录功率的同时将信号记录在光盘的记录测试区域中,以检测对应于记录功率行P的再现信号振幅行m(i) (一世)。 记录功率行P(i)与乘积P(i)×m(i)的行的关系被线性近似,并且计算地将线性近似直线与记录功率轴的交点确定为记录阈值功率Pthr 对于记录功率行P(i)中以Pf(j)为中心的至少三个记录功率行Pj(i)在限定范围内。 然后,对于每个记录功率行Pj(i),记录功率Pt(j)被计算为记录阈值功率Pthr(j)和包含在盘信息中的因子kappa的乘积。 最后,根据至少三个记录功率Pt(j)计算确定最佳记录功率Pwopt。