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    • 12. 发明授权
    • Endoscope apparatus
    • 内窥镜装置
    • US08531512B2
    • 2013-09-10
    • US11711846
    • 2007-02-27
    • Kazuhiro GonoMutsumi OhshimaShoichi AmanoKenji Yamazaki
    • Kazuhiro GonoMutsumi OhshimaShoichi AmanoKenji Yamazaki
    • A61B1/04
    • A61B1/0638A61B1/00009A61B1/063A61B1/0646A61B1/0669
    • In an endoscope apparatus of the present invention, while observing a body cavity tissue under narrowband light via a second filter group of a rotating filter, a G2 filter section, B2 filter section, and shading filter section change illumination light to narrowband surface-sequential light of two bands of discrete spectral characteristics, and an image-capturing signal captured by a CCD via the B filter section constitutes a band image having superficial layer tissue information, and an image-capturing signal captured by a CCD via the G filter section constitutes a band image having intermediate layer tissue information. This produces tissue information of a desired depth in the vicinity of a superficial portion of a mucous membrane using an inexpensive and simple configuration.
    • 在本发明的内窥镜装置中,在通过旋转滤波器的第二滤波器组观察窄带光下的体腔组织的同时,G2滤波器部分B2滤波器部分和遮光滤波器部分将照明光改变成窄带表面序列光 的离散光谱特性的两个频带,并且由CCD通过B滤波器部分拍摄的图像捕获信号构成具有表层组织信息的带图像,并且由CCD通过G滤波器部分捕获的图像捕获信号构成 带图像具有中间层组织信息。 这使用廉价且简单的构造在粘膜的浅表部分附近产生期望深度的组织信息。
    • 14. 发明申请
    • BIOLOGICAL OBSERVATION APPARATUS
    • 生物观察装置
    • US20090091614A1
    • 2009-04-09
    • US11914347
    • 2006-03-07
    • Kazuhiro GonoShoichi AmanoTomoya TakahashiMutsumi Ohshima
    • Kazuhiro GonoShoichi AmanoTomoya TakahashiMutsumi Ohshima
    • A61B1/06
    • G01J3/50A61B1/00186A61B1/045A61B1/0638A61B1/0646A61B5/0075A61B5/0084A61B5/7203G01J3/32G01J3/501G01J3/513G01J2003/1213G01J2003/1221G01N21/255G01N2201/08G01N2201/0846G02B23/2446G02B23/2469H04N2005/2255
    • A biological observation apparatus comprising: an illuminating section that irradiates light to a living body that is a subject to be examined; an image pickup section that photoelectrically converts light reflected from the living body based on the irradiating light and creates an image pickup signal; and a signal processing control section that controls operations of the illuminating section and/or the image pickup section and outputs the image pickup signal to a display device, wherein the signal processing control section includes: a spectral signal creating section that creates a spectral signal corresponding to an optical wavelength narrowband image from the image pickup signal through signal processing; and a color adjusting section that, when outputting the spectral signal to the display device, allocates a different color tone for each of a plurality of bands forming the spectral signal, further wherein the biological observation apparatus further comprises an image quality adjusting section that adjusts an image quality of a signal to be outputted to the display device, or, with the exception of at least the spectral signal creating section and the color adjusting section, the other signal processing sections are shared for respective signal processing on the image pickup signal and on the spectral signal.
    • 一种生物观察装置,其特征在于,包括:照射部,其将光照射到作为被检体的生物体; 摄像部,其根据所述照射光对从所述生物体反射的光进行光电转换,并产生摄像信号; 信号处理控制部分,其控制照明部分和/或图像拾取部分的操作,并将图像拾取信号输出到显示装置,其中信号处理控制部分包括:频谱信号产生部分,其产生相应的频谱信号 通过信号处理从图像拾取信号到光波长窄带图像; 以及颜色调整部,其在向所述显示装置输出所述频谱信号时,为形成所述频谱信号的多个频带中的每一个分配不同的色调,其中,所述生物观察装置还包括图像质量调整部, 要输出到显示装置的信号的图像质量,或者除了至少频谱信号产生部分和颜色调整部分之外,其他信号处理部分被共享用于对摄像信号的各个信号处理, 光谱信号。
    • 15. 发明申请
    • Endoscope apparatus
    • 内窥镜装置
    • US20070153542A1
    • 2007-07-05
    • US11711846
    • 2007-02-27
    • Kazuhiro GonoMutsumi OhshimaShoichi AmanoKenji Yamazaki
    • Kazuhiro GonoMutsumi OhshimaShoichi AmanoKenji Yamazaki
    • A61B1/04A61B1/06
    • A61B1/0638A61B1/00009A61B1/063A61B1/0646A61B1/0669
    • In an endoscope apparatus of the present invention, while observing a body cavity tissue under narrowband light via a second filter group of a rotating filter, a G2 filter section, B2 filter section, and shading filter section change illumination light to narrowband surface-sequential light of two bands of discrete spectral characteristics, and an image-capturing signal captured by a CCD via the B filter section constitutes a band image having superficial layer tissue information, and an image-capturing signal captured by a CCD via the G filter section constitutes a band image having intermediate layer tissue information. This produces tissue information of a desired depth in the vicinity of a superficial portion of a mucous membrane using an inexpensive and simple configuration.
    • 在本发明的内窥镜装置中,在通过旋转滤波器的第二滤波器组观察窄带光下的体腔组织的同时,G 2滤波器部分,B 2滤波器部分和遮光滤波器部分将照明光改变为窄带表面 - 离散频谱特性的两个频带的顺序光,以及由CCD通过B滤波器部分拍摄的图像捕获信号构成具有表层组织信息的带图像,以及由CCD通过G滤波器部分捕获的图像捕获信号 构成具有中间层组织信息的带图像。 这使用廉价且简单的构造在粘膜的浅表部分附近产生期望深度的组织信息。