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    • 1. 发明授权
    • Eye optical characteristic measuring apparatus
    • 眼睛光学特性测量仪器
    • US07677731B2
    • 2010-03-16
    • US11940886
    • 2007-11-15
    • Toshifumi MihashiYoko HiroharaTakashi FujikadoNaoyuki Maeda
    • Toshifumi MihashiYoko HiroharaTakashi FujikadoNaoyuki Maeda
    • A61B3/10A61B3/00
    • A61B3/1015A61B3/10
    • Scattering can be measured by using an optical system having a Hartman-Shack wave-surface sensor. An eye optical characteristic measuring instrument comprises a light source unit 10 for emitting a light beam of a wavelength in the near-infrared region, an illumination optical system 40 for illuminating a small area of the retinal of an eye to be measured with the light beam from the light source unit 10, a light-receiving optical system 20 for receiving a part of the reflected beam of the light beam from the light source unit 10 reflected from the retina through a converting member for converting the part of the reflected light beam into at least substantially 17 light beams, a light-receiving section 23 for receiving the received light beam directed by the light-receiving optical system 20 and generating a signal, and a calculating unit for determining the wavefront aberration of the light beam entering the light-receiving optical system 20 and the degree of scattering of the received light beam on the basis of the signal from the light-receiving section 23.
    • 可以通过使用具有Hartman-Shack波表面传感器的光学系统来测量散射。 眼睛光学特性测量仪器包括用于发射近红外区域的波长的光束的光源单元10,用于用光束照射待测眼睛的视网膜的小区域的照明光学系统40 来自光源单元10的光接收光学系统20,用于接收来自光源单元10的光束的反射光束的一部分,该光源单元10从视网膜反射通过转换部件,用于将部分反射光束转换成 至少基本上17个光束,用于接收由光接收光学系统20引导的接收光束并产生信号的光接收部分23,以及用于确定进入发光装置的光束的波前像差的计算单元, 基于来自光接收部23的信号,接收光学系统20和接收光束的散射程度。
    • 2. 发明授权
    • Ophthalmologic measuring apparatus
    • 眼科测量仪器
    • US07677728B2
    • 2010-03-16
    • US11723624
    • 2007-03-21
    • Yoko HiroharaToshifumi Mihashi
    • Yoko HiroharaToshifumi Mihashi
    • A61B3/14
    • A61B3/101
    • A subject is placed in a more natural state or is encouraged to blink at specified intervals to obtain a measurement result under a fixed condition, and the judgment of the degree of dry eye is facilitated. A measurement part obtains, based on a reflected light flux from a subject eye, optical characteristic data of a two-dimensional vector form representing the time course of each optical characteristic of the subject eye in an blink interval from a certain blink to a next blink with respect to the first to the nth blink intervals. An analysis part one-dimensionally arranges each of the optical characteristic data with respect to the first to the nth blink intervals measured by the measurement part, and arranges the one-dimensional arrangement of the optical characteristic in a p-th blink interval at a p column to create a two-dimensional array, and performs a principal component analysis processing on the two-dimensional array.
    • 受试者处于更自然的状态,或鼓励以规定的间隔眨眼以在固定条件下获得测量结果,并且便于对干眼度的判断。 测量部件基于来自被检眼的反射光通量,从在特定的闪烁到下一次闪烁的眨眼间隔中获得表示被检眼的每个光学特性的时间过程的二维矢量形状的光学特性数据 相对于第一到第n个闪烁间隔。 分析部分对由测量部分测量的第一至第N闪烁间隔的每个光学特性数据进行一维排列,并将光学特性的一维布置在第p个闪烁间隔中排列在ap列 创建二维阵列,并对二维​​阵列进行主成分分析处理。
    • 3. 发明申请
    • Visual target presenting optical device
    • 视觉目标呈现光学设备
    • US20070153667A1
    • 2007-07-05
    • US11607855
    • 2006-12-04
    • Toshifumi MihashiYoko Hirohara
    • Toshifumi MihashiYoko Hirohara
    • G11B7/00
    • A61B3/032
    • A visual target presenting optical system has a light source that illuminates a visual target to be viewed by a subject, and a visual target presentation state changing unit that can change the direction in which the visual target will be presented to the subject. An alignment luminous flux casting unit casts an alignment luminous flux toward a subject eye at timing prior to the presentation of the visual target. An alignment light receiving optical system and a light receiving unit receive a reflected luminous flux from the subject eye reflecting the luminous flux. A change control unit instructs the visual target presentation state changing unit to change the visual target presenting direction on the basis of the light receiving position of the reflected luminous fluxes received by the light receiving unit.
    • 视觉目标呈现光学系统具有照亮被摄体观看的视觉目标的光源,以及可以改变目标被呈现给对象的方向的视觉目标呈现状态改变单元。 对准光通量投射单元在呈现视觉目标之前的定时向对象眼投射对准光束。 对准光接收光学系统和光接收单元接收来自反射光束的来自被摄体的反射光束。 改变控制单元指示视觉目标呈现状态改变单元基于由光接收单元接收的反射光束的光接收位置来改变视觉目标呈现方向。
    • 4. 发明申请
    • Eye characteristics measuring system
    • 眼睛特征测量系统
    • US20060146285A1
    • 2006-07-06
    • US10529150
    • 2003-09-25
    • Yoko HiroharaTatsuo Yamaguchi
    • Yoko HiroharaTatsuo Yamaguchi
    • A61B3/10
    • A61B3/1005A61B3/10A61B3/1015A61B3/107A61B3/12
    • The optical characteristics of an eye to be tested having a large amount of aberration can be measured accurately. A first illuminating optical system (10) illuminates an eye to be tested (100) with a wide beam by using a light flux from a light source (11). A first light receiving unit (21A) receives reflection light fluxes from the eye to be tested that have been converted into practically at least 17 beams by a first conversion member (22A). A first compensation optical unit (60A), disposed in the first illuminating optical system (10), compensates an illuminating light flux to the eye to be tested (100) for aberration. A second compensation optical unit (60B), disposed in a first light receiving optical system (20A), compensates a reflection light flux from the eye to be tested (100) for aberration. An operation unit determines, based on an output from the first light receiving unit (21A), a compensation amount for canceling out aberration to deform the first and second compensation optical units (60A, 60B) and hence compensate for aberration. In addition, the operation unit determines the optical characteristics of the eye (100), based on optical characteristics based on an output from the first light receiving unit (21A) after compensation, and on compensated optical characteristics.
    • 可以精确地测量具有大量像差的待测眼睛的光学特性。 第一照明光学系统(10)通过使用来自光源(11)的光通量以宽光束照射要测试的眼睛(100)。 第一光接收单元(21A)从第一转换构件(22A)接收已被转换成实际上至少17个光束的待测眼睛的反射光束。 设置在第一照明光学系统(10)中的第一补偿光学单元(60A)补偿要被测试的眼睛(100)的像差的照明光通量。 设置在第一光接收光学系统(20A)中的第二补偿光学单元(60B)补偿来自被测试眼的反射光通量(100)以用于像差。 操作单元基于来自第一光接收单元(21a)的输出确定用于消除像差以使第一和第二补偿光学单元(60A,60B)变形的补偿量,从而补偿像差。 此外,操作单元基于补偿后来自第一光接收单元(21A)的输出的光学特性以及补偿的光学特性来确定眼睛(100)的光学特性。
    • 5. 发明授权
    • Optical characteristics measuring device
    • 光学特性测量装置
    • US06905209B2
    • 2005-06-14
    • US10399612
    • 2001-10-16
    • Toshifumi MihashiYoko HiroharaNaoyuki Maeda
    • Toshifumi MihashiYoko HiroharaNaoyuki Maeda
    • A61B3/10A61B3/103A61B3/107
    • A61B3/1015A61B3/10A61B3/107
    • Measurement data (measured results) obtained under a plurality of conditions and image data and/or numerical data corresponding to the measured results are displayed collectively or selectively. An optical characteristics measuring device (100) measures/displays, for example, the optical characteristics of an eye to be measured (60) as an object. A first lighting optical system (10) includes a first light source (11) for applying an optical flux of a specified pattern to the eye to be measured (60). A first light receiving optical system (20) includes a first light receiving unit (23) for receiving light reflected from the eye (60). A light transmitting/receiving optical system (30) mainly conducts an alignment adjustment, and includes a second light receiving unit (35) for receiving light reflected from the eye (60). A common optical system (40) is disposed on the optical axis of a light flux emitted from the first lighting optical system (10), and is commonly included in the first lighting.
    • 在多个条件下获得的测量数据(测量结果)和对应于测量结果的图像数据和/或数值数据被集体地或选择性地显示。 光学特性测量装置(100)测量/显示例如作为对象的待测眼(60)的光学特性。 第一照明光学系统(10)包括用于将特定图案的光通量施加到被测量眼(60)的第一光源(11)。 第一光接收光学系统(20)包括用于接收从眼睛(60)反射的光的第一光接收单元(23)。 光发射/接收光学系统(30)主要进行对准调整,并且包括用于接收从眼睛(60)反射的光的第二光接收单元(35)。 普通光学系统(40)设置在从第一照明光学系统(10)发射的光束的光轴上,并且通常包括在第一照明中。
    • 6. 发明授权
    • Apparatus and method for measuring spectrum image data of eyeground
    • 用于测量眼底光谱图像数据的装置和方法
    • US07850305B2
    • 2010-12-14
    • US11292277
    • 2005-12-02
    • Yoko HiroharaTatsuo YamaguchiToshifumi MihashiHiroyuki AokiYasuko Tsuruga
    • Yoko HiroharaTatsuo YamaguchiToshifumi MihashiHiroyuki AokiYasuko Tsuruga
    • A61B3/14A61B3/10
    • A61B3/152A61B3/0025A61B5/14555
    • The object of the invention is to provide a favorable spectral characteristic that reduces variation depending on the frequency of received light intensity, and that is gentle on a subject eye. It also eliminates displacement between positions of respective spectral images of the same part even if a change in alignment occurs between the eye and apparatus with the lapse of time. An apparatus 1 for measuring spectral fundus image data of this invention comprises: an illumination optical system 10 having an illumination light source 11 that emits a light beam in a specified wavelength range; a light receiving optical system 20 for forming a fundus image on the light receiving surface of a photographing section 4; a liquid crystal wavelength tunable filter 32 capable of choosing a wavelength of a transmitted light beam in a specified wavelength range; a spectral characteristic correction filter 13 having wavelength characteristic for correcting the wavelength characteristic of the emitted light intensity of the illumination light source 11 and the transmission wavelength characteristic of the wavelength tunable filter 32 so that the received light intensity on the light receiving surface is kept within the specified range; and a data measuring section 7 for taking the spectral fundus image data from the light receiving surface while changing the wavelength of the light beam passing through the wavelength tunable filter 32.
    • 本发明的目的是提供一种有利的光谱特性,其可以根据接收的光强度的频率减小变化,并且对被摄体的眼睛是温和的。 即使随着时间的推移在眼睛和装置之间发生对准改变,也消除了相同部分的各个光谱图像的位置之间的位移。 用于测量本发明的光谱眼底图像数据的装置1包括:照明光学系统10,其具有发射特定波长范围内的光束的照明光源11; 用于在拍摄部分4的光接收表面上形成眼底图像的光接收光学系统20; 能够选择特定波长范围内的透射光束的波长的液晶波长可调滤波器32; 具有用于校正照明光源11的发射光强度的波长特性和波长可调滤光器32的透射波长特性的波长特性的光谱特性校正滤光器13,使得受光面上的接收光强度保持在 指定范围; 以及数据测量部分7,用于在改变通过波长可调滤波器32的光束的波长的同时从光接收表面获取光谱眼底图像数据。
    • 7. 发明授权
    • Device and method for optometry
    • 验光装置及方法
    • US07806529B2
    • 2010-10-05
    • US12056617
    • 2008-03-27
    • Toshifumi MihashiYoko HiroharaMariko Kobayashi
    • Toshifumi MihashiYoko HiroharaMariko Kobayashi
    • A61B3/02A61B3/10
    • A61B3/1015A61B3/032A61B3/08
    • An eye examination apparatus 100 of the present invention comprises, a refractive power measuring section 50 for measuring refractive powers of subject eyes E of a subject in a binocular viewing state, an eye chart presenting section 30 for presenting a subjective measurement eye chart to be observed by the subject, a correcting section 40 for correcting the subject eyes by referring to data on the refractive powers measured with the refractive power measuring section 50 and using the subjective measurement eye chart presented in the eye chart presenting section 30 and an optical characteristics measuring section 10 for subjectively measuring an optical characteristic of the subject eyes E corrected or being corrected with the correcting section 40 in a state where the subject is binocularly viewing the subjective measurement eye chart.
    • 本发明的眼睛检查装置100包括:用于测量双目观察状态下的被检体的被检眼E的屈光度的屈光力测量部50,用于呈现观察到的主观测量眼图的眼图呈现部30 通过参照由屈光度测量部件50测量的折射力的数据并使用在眼图表示部分30中呈现的主观测量眼图来校正被检眼的校正部分40以及光学特性测量部分 10,用于主观地测量在被检体双眼观看主观测量眼图的状态下用校正部40校正或正在校正的被检眼E的光学特性。
    • 8. 发明申请
    • EYE OPTICAL CHARACTERISTIC MEASURING APPARATUS
    • 眼睛光学特性测量装置
    • US20080123053A1
    • 2008-05-29
    • US11940886
    • 2007-11-15
    • Toshifumi MihashiYoko HiroharaTakashi FujikadoNaoyuki Maeda
    • Toshifumi MihashiYoko HiroharaTakashi FujikadoNaoyuki Maeda
    • A61B3/10
    • A61B3/1015A61B3/10
    • Scattering can be measured by using an optical system having a Hartman-Shack wave-surface sensor. An eye optical characteristic measuring instrument comprises a light source unit 10 for emitting a light beam of a wavelength in the near-infrared region, an illumination optical system 40 for illuminating a small area of the retinal of an eye to be measured with the light beam from the light source unit 10, a light-receiving optical system 20 for receiving a part of the reflected beam of the light beam from the light source unit 10 reflected from the retina through a converting member for converting the part of the reflected light beam into at least substantially 17 light beams, a light-receiving section 23 for receiving the received light beam directed by the light-receiving optical system 20 and generating a signal, and a calculating unit for determining the wavefront aberration of the light beam entering the light-receiving optical system 20 and the degree of scattering of the received light beam on the basis of the signal from the light-receiving section 23.
    • 可以通过使用具有Hartman-Shack波表面传感器的光学系统来测量散射。 眼睛光学特性测量仪器包括用于发射近红外区域的波长的光束的光源单元10,用于用光束照射待测眼睛的视网膜的小区域的照明光学系统40 来自光源单元10的光接收光学系统20,用于接收来自光源单元10的光束的反射光束的一部分,该光源单元10从视网膜反射通过转换部件,用于将部分反射光束转换成 至少基本上17个光束,用于接收由光接收光学系统20引导的接收光束并产生信号的光接收部分23,以及用于确定进入发光装置的光束的波前像差的计算单元, 基于来自光接收部23的信号,接收光学系统20和接收光束的散射程度。
    • 9. 发明申请
    • Apparatus and method for spectrally measuring fundus
    • 用于光学测量眼底的装置和方法
    • US20080007692A1
    • 2008-01-10
    • US11812081
    • 2007-06-14
    • Toshifumi MihashiYoko HiroharaHiroyuki AokiYasuko Tsuruga
    • Toshifumi MihashiYoko HiroharaHiroyuki AokiYasuko Tsuruga
    • A61B3/14
    • A61B3/10
    • To provide a spectroscopic fundus measuring apparatus capable of identifying each part in spectral fundus images easily and accurately based on its spectral characteristic and a measuring method therefor. A spectral fundus image measuring apparatus 1 of the present invention includes: an illumination optical system 10 having an illumination light source 11 for illuminating a fundus; a light receiving optical system 20 for receiving a wavelength-tunable light beam reflected from the illuminated fundus to photograph a series of spectral fundus images of different wavelengths; an image processing section 7 for processing the spectral fundus images; a storage section 7A for storing the spectral fundus images; and a display section 7B for displaying the spectral fundus images. The image processing section 7 has a position correcting section 72 for correcting the series of spectral fundus images photographed by the light receiving optical system 20 to match the positions of the same parts therein, and an image extracting section 74 for extracting spectral fundus images in wavelength ranges predetermined for respective specific parts from the series of spectral fundus images corrected in the position correcting section 72.
    • 提供一种能够基于其光谱特性容易且准确地识别光谱眼底图像中的每个部分的光谱眼底测量装置及其测量方法。 本发明的光谱眼底图像测量装置1包括:具有用于照射眼底的照明光源11的照明光学系统10; 光接收光学系统20,用于接收从发光眼睛反射的波长可调光束,以拍摄不同波长的一系列光谱眼底图像; 用于处理光谱眼底图像的图像处理部分7; 用于存储频谱眼底图像的存储部分7A; 以及用于显示频谱眼底图像的显示部分7B。 图像处理部分7具有位置校正部分72,用于校正由光接收光学系统20拍摄的一系列光谱眼底图像,以匹配其中相同部分的位置;以及图像提取部分74,用于提取波长的光谱眼底图像 从位置校正部分72中校正的一系列频谱眼底图像中的各个特定部分预定的范围。
    • 10. 发明授权
    • Eye characteristic measuring apparatus
    • 眼睛特征测量仪器
    • US07249852B2
    • 2007-07-31
    • US10648827
    • 2003-08-27
    • Toshifumi MihashiYoko Hirohara
    • Toshifumi MihashiYoko Hirohara
    • A61B3/10
    • A61B3/1015
    • Measurement of an eye characteristic is performed more accurately and at high speed by setting a measurement condition of a light receiving optical system with a long focal point or high sensitivity on the basis of an optical characteristic measured by a light receiving optical system with a short focal point or low sensitivity or high density. The optical characteristic of the subject eye is obtained on the basis of an output of a first light receiving part and/or a second light receiving part, and a change direction of the beam is estimated on the basis of an output signal from the second light receiving part.
    • 基于由具有短焦点的光接收光学系统测量的光学特性,通过设置具有长焦点或高灵敏度的光接收光学系统的测量条件,更准确地并且高速地执行眼睛特性的测量 点或低灵敏度或高密度。 基于第一光接收部分和/或第二光接收部分的输出获得被检眼的光学特性,并且基于来自第二光的输出信号来估计光束的改变方向 接收部分。