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    • 1. 发明授权
    • Auto-focus arithmetic device
    • 自动对焦算术装置
    • US4831405A
    • 1989-05-16
    • US104989
    • 1987-10-06
    • Daisuke HataSusumu IguchiYoshimi OhnoKazumasa AokiTakayuki Hatase
    • Daisuke HataSusumu IguchiYoshimi OhnoKazumasa AokiTakayuki Hatase
    • G02B7/34G02B7/28G02B7/36G03B13/36
    • G02B7/36
    • An auto-focus arithmetic device suitable for use in a photographic camera is provided. The device includes a photographic lens which is movable along a predetermined optical axis and a CCD for detecting light coming from a subject of interest through the lens. An arithmetic unit for determining the direction and amount of movement of the lens with respect to the subject of interest based on a detection signal from the CCD is provided. The arithmetic unit includes an integer portion calculating sub-unit for calculating an integer portion of the detection signal and a fractional portion calculating sub-unit for calculating a fractional portion of the detection signal. The fractional portion calculating sub-unit remains deactivated as long as the detected amount of discrepancy from the in-focus condition is larger than a predetermined level; however, it is activated when the detected amount of discrepancy becomes equal to or less than the predetermined level. In this manner, in accordance with the present invention, the integer and fractional portion calculating sub-units are used alternately.
    • 提供适用于照相机的自动对焦运算装置。 该装置包括可沿预定光轴移动的照相镜头和用于检测通过透镜的感兴趣对象的光的CCD。 提供了一种用于基于来自CCD的检测信号确定透镜相对于感兴趣对象的移动方向和移动量的运算单元。 算术单元包括用于计算检测信号的整数部分的整数部分计算子单元和用于计算检测信号的小数部分的分数部分计算子单元。 只要检测到的从对焦条件的差异量大于预定水平,分数部分计算子单元就保持停用。 然而,当检测到的差异量变得等于或小于预定水平时,它被激活。 以这种方式,根据本发明,交替使用整数和分数部分计算子单元。
    • 3. 发明授权
    • Automatic focusing control system
    • 自动对焦控制系统
    • US4777505A
    • 1988-10-11
    • US928164
    • 1986-11-07
    • Daisuke HataSusumu IguchiYoshimi OhnoTakao YamaguchiTakayuki HataseKazumasa Aoki
    • Daisuke HataSusumu IguchiYoshimi OhnoTakao YamaguchiTakayuki HataseKazumasa Aoki
    • G02B7/09G02B7/36G03B13/36G03B3/00
    • G02B7/36
    • An automatic focusing control system includes a focus detecting light detector, a rangefinder, a lens driver, a manual range setting unit, a mode setting unit, and a control unit. When a manual mode is selected by the mode setting unit, the control unit applies a lens driving signal from the manual range setting unit to the lens driver unit to drive a lens. When an automatic mode is selected by the mode setting unit, the control unit operates the lens driver unit to drive the lens based on a measured distance at the time distance measurement is possible, applies the lens driving signal from the manual range setting unit to the lens driver unit at the time distance measurement is impossible, and operates the lens driver unit to drive the lens based on the measured distance at the time distance measurement becomes possible from a condition in which distance measurement is impossible.
    • 自动对焦控制系统包括焦点检测光检测器,测距仪,透镜驱动器,手动量程设置单元,模式设置单元和控制单元。 当通过模式设置单元选择手动模式时,控制单元将来自手动范围设置单元的镜头驱动信号施加到镜头驱动器单元以驱动镜头。 当通过模式设置单元选择自动模式时,控制单元操作透镜驱动单元以在距离测量可能时基于测量距离来驱动透镜,将来自手动范围设置单元的透镜驱动信号应用于 透镜驱动器单元在距离测量不可能的情况下操作,并且在距离测量不可能的条件下,基于测量距离来操作透镜驱动单元以驱动透镜。
    • 7. 发明授权
    • Automatic focusing device for use in a camera
    • 自动对焦装置用于相机
    • US4825237A
    • 1989-04-25
    • US169470
    • 1988-03-17
    • Takayuki HataseYoshimi Ohno
    • Takayuki HataseYoshimi Ohno
    • G02B7/28G03B3/10G03B5/00G03B13/18
    • G02B7/282
    • An automatic focusing device for use in a camera using photographic lenses having a variable power region in which an entire focal length of a variable power optical system comprising a variable power lens group, a focusing lens group and a macro lens group disposed on an identical optical axis can optionally be set by the variable power lens group between a shortest focal length and a longest focal length, a macro region capable of macro photographing by the macro lens group, a variable power focusing region from an infinite position to a nearest position on the optical axis corresponding to an object distance from an infinite distance to a nearest distance and a macro focusing region capable of macro photographing in a predetermined region disposed from a nearest position on a side opposite to an infinite position.
    • 一种用于摄像机的自动对焦装置,其使用具有可变功率区域的摄影透镜,其中包括可变功率透镜组,聚焦透镜组和微透镜组的可变光焦度系统的整个焦距设置在相同的光学 轴可以由可变功率透镜组在最短焦距和最长焦距之间设置,可由宏观透镜组进行宏观拍摄的宏观区域,从无限位置到最近位置的可变焦距区域 对应于从无限距离到最近距离的物体距离的光轴,以及能够在与无限位置相反的一侧上的最近位置设置的预定区域中的宏观拍摄的微距聚焦区域。
    • 8. 发明授权
    • Device and method for detecting a focusing state with reliability
checking
    • 用可靠性检查检测聚焦状态的装置和方法
    • US4960986A
    • 1990-10-02
    • US404568
    • 1989-09-08
    • Yoshimi OhnoTakayuki Hatase
    • Yoshimi OhnoTakayuki Hatase
    • G03B13/36G02B7/34
    • G02B7/34
    • A focus detecting device gathers first image data by a couple of linear arrays of photo diodes in a CCD, which are disposed oppositely with respect to an optical axis of an objective, and second image data by a couple of photo diodes arrayed disposed close to one of the photo diode arrays. A CPU calculates a integer part and fractional part of a displacement of first and second images represented by the first image data, and checks if the calculation results are reliable for focus detection, by using the first and second image data. A counter contained in the CPU counts the number of decisions of unreliable. When a count of counter reaches a preset value and when the latest decision of unreliability is made for the integer part calculation result, a subsequent lens drive is prohibited, and the integration by the CCD, and the integer part calculation are repeated, while presenting a display of "Unmeasurable". Further, an additional reliability check is made of the result of the latest integer part calculation. If the additional reliability check shows a satisfactory reliability, the CPU goes out of the repetitive operation of the integration and the integer part calculation, and removes the prohibition of the lens drive.
    • 焦点检测装置通过在相对于物镜的光轴相对设置的CCD中的一对光电二极管线阵列来收集第一图像数据,并且通过布置成接近于一个的一对光二极管排列第二图像数据 的光电二极管阵列。 CPU计算由第一图像数据表示的第一和第二图像的位移的整数部分和小数部分,并且通过使用第一和第二图像数据来检查计算结果是否可靠地进行焦点检测。 CPU中包含的计数器计数不可靠的决定数。 当计数器的计数达到预设值时,当对整数部分计算结果进行不可靠的最新决定时,禁止随后的镜头驱动,并且重复进行CCD的积分和整数部分的计算,同时呈现 显示“不可测量”。 此外,对最新整数部分计算的结果进行额外的可靠性检查。 如果附加的可靠性检查显示令人满意的可靠性,则CPU不再进行积分和整数部分计算的重复操作,并且消除了对镜头驱动器的禁止。
    • 9. 发明授权
    • Variable focal lens device
    • 可变焦距镜头装置
    • US4861146A
    • 1989-08-29
    • US146394
    • 1988-01-21
    • Takayuki HataseYoshimi Ohno
    • Takayuki HataseYoshimi Ohno
    • G02B7/10
    • G02B7/102
    • A variable focal lens device having an optical system comprising a variable power lens group and a focusing lens group disposed on one identical optical axis in which a deviation of a focusing position is resulted with an identical object when the focusing lens group is set at a predetermined focusing position from a nearest position to an infinite position on the optical axis corresponding too an object distance from a nearest distance to an infinite distance and then moving the variable power lens group along the optical axis thereby renewing an entire system focal length of the variable power optical system from a first focal length to a second focal length.
    • 一种可变焦距透镜装置,其具有光学系统,该光学系统包括可变功率透镜组和聚焦透镜组,所述聚焦透镜组设置在聚焦位置的偏差由聚焦透镜组设定在预定的相同对象上的同一光轴上 聚焦位置从光轴上的最近位置到无限位置对应于从最近距离到无限距离的物体距离,然后沿着光轴移动可变功率透镜组,从而更新可变功率的整个系统焦距 光学系统从第一焦距到第二焦距。
    • 10. 发明授权
    • Device and method for reading image, and recording medium for image reading program
    • 用于读取图像的装置和方法,以及用于图像读取程序的记录介质
    • US06810158B2
    • 2004-10-26
    • US09923833
    • 2001-08-07
    • Takayuki HataseMasayuki Arase
    • Takayuki HataseMasayuki Arase
    • G06K710
    • G06K9/2054G06T1/0007
    • An image reading device reads an image of an electronic part as an image pickup object with camera 8 having a line sensor. The line sensor comprises a plurality of pixels having a photoelectric transfer element arranged in series. The image reading device selects pixels periodically one by one and outputs image signals. The pixels for outputting image signals are set based on width data of an image pickup area stored on image pickup area storage 10. The image reading device monitors a relative positional relation between the image pickup object and the line sensor using a pulse of encoder 4A, and controls writing of the image signal into an image storage 15 with a storage controller 12 based on length data of the image pickup area. This process can remove uselessness of outputting the image signal from an unnecessary range and storing it, and improve efficient image reading.
    • 图像读取装置使用具有线传感器的摄像机8读取作为摄像对象的电子部件的图像。 线传感器包括具有串联布置的光电转移元件的多个像素。 图像读取装置周期性地逐个选择像素并输出图像信号。 用于输出图像信号的像素是基于存储在图像拾取区域存储器10上的图像拾取区域的宽度数据来设置的。图像读取装置使用编码器4A的脉冲监视图像拾取对象和线传感器之间的相对位置关系, 并且基于图像拾取区域的长度数据,控制用存储控制器12将图像信号写入图像存储器15。 该过程可以消除从不必要的范围输出图像信号的无用性并将其存储,并且提高效率的图像读取。