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    • 2. 发明公开
    • INSPECTION DEVICE, INSPECTION METHOD, AND PROGRAM
    • 检查装置,检查方法和程序
    • EP3321661A1
    • 2018-05-16
    • EP16824241.0
    • 2016-06-24
    • Sony Corporation
    • MATSUI, AkiraMURAKAMI, Yoshihiro
    • G01N21/27
    • G01N21/314G01N21/27G01N21/276G01N21/359G01N33/0098G01N2021/317
    • The present technology relates an inspection apparatus, an inspection method and a program by which accurate measurement light correction can be performed.
      The inspection apparatus determines, based on a table in which reference spectral information and a correction gain for correcting measurement spectral information of an inspection object obtained by sensing under a measurement light source are associated with each other and measurement spectral information of a reference reflector plate obtained by sensing under the measurement light source, a measurement light source correspondence correction gain corresponding to the measurement light source, and corrects the measurement spectral information of the inspection object obtained by sensing under the measurement light source based on the determined measurement light source correspondence correction gain. The present technology can be applied, for example, to a vegetation inspection apparatus that measures a vegetation index such as a normalized vegetation index (NDVI).
    • 本技术涉及可以执行准确的测量光校正的检查设备,检查方法和程序。 检查设备基于其中参考光谱信息和用于校正由测量光源下的感测获得的检查对象的测量光谱信息的校正增益彼此相关联的表格以及获得的参考反射板的测量光谱信息 通过在测量光源下感测与测量光源相对应的测量光源对应校正增益,并且基于所确定的测量光源对应校正增益来校正通过在测量光源之下进行感测而获得的检查对象的测量光谱信息 。 本技术可以应用于例如测量诸如归一化植被指数(NDVI)的植被指数的植被检查装置。
    • 3. 发明公开
    • INSPECTION DEVICE, INSPECTION METHOD, AND PROGRAM
    • 检查装置,检查方法和程序
    • EP3321660A1
    • 2018-05-16
    • EP16824238.6
    • 2016-06-24
    • Sony Corporation
    • MURAKAMI, YoshihiroTAKASHIMA, MasatoshiMATSUI, Akira
    • G01N21/27
    • G01N21/255G01N21/27G01N21/3563G01N33/0098G01N2021/3196G01N2201/0636
    • The present technology relates an inspection apparatus, an inspection method and a program by which accurate measurement light correction can be performed.
      The inspection apparatus calculates a correction gain of a spectrum based on reference spectral information, under a reference light source, of a reference reflector plate having a characteristic according to an inspection object and measurement spectral information of the reference reflector plate obtained by sensing under a measurement light source, and corrects measurement spectral information of the inspection object obtained by the sensing under the measurement light source based on the calculated correction gain. The present technology can be applied, for example, to a vegetation inspection apparatus that measures a vegetation index of a normalized vegetation index (NDVI) or the like.
    • 本技术涉及可以执行准确的测量光校正的检查设备,检查方法和程序。 检查设备基于参考光源下的基准光谱信息来计算光谱的校正增益,所述参考反射板具有根据检查对象的特性以及通过在测量下感测获得的参考反射板的测量光谱信息 并且基于计算出的校正增益校正通过测量光源下的感测获得的检查对象的测量光谱信息。 本技术可以应用于例如测量归一化植被指数(NDVI)等的植被指数的植被检查设备。
    • 5. 发明公开
    • INSPECTION DEVICE, INSPECTION METHOD, AND PROGRAM
    • 检查装置,检查方法和程序
    • EP3287003A1
    • 2018-02-28
    • EP16783028.0
    • 2016-04-08
    • Sony Corporation
    • TAKASHIMA, MasatoshiOGAWA, TetsuMURAKAMI, YoshihiroMATSUI, Akira
    • A01G7/00G01N21/27G06Q50/02
    • The present disclosure relates to an inspection apparatus, an inspection method, and a program that allow for more accurate inspection results to be acquired.
      The inspection apparatus calculates a vegetation index for inspecting the vegetation of a lawn, an inspection target, by cancelling a grain-dependent component included in a taken image of the lawn from the image. Also, the inspection apparatus cancels an imaging-direction-dependent component from the image by performing a calculation process using two images taken with azimuth angles of imaging directions at the time of taking images in directions opposite to each other. Further, the inspection apparatus cancels an angle-dependent component from the image in accordance with a shining direction of light shone on the lawn by performing a calculation process using two images taken with azimuth angles of the shining direction of light shone on the lawn at the time of taking images in directions opposite to each other. The present technology is applicable, for example, to a vegetation inspection apparatus for inspection lawn vegetation.
    • 本公开涉及允许获取更准确的检查结果的检查设备,检查方法和程序。 检查设备通过从图像中消除包含在草坪的拍摄图像中的颗粒依赖成分来计算用于检查草坪的植被的检查目标的植被指标。 此外,检查设备通过使用在沿彼此相反的方向拍摄图像时利用拍摄方向的方位角拍摄的两个图像执行计算处理,从图像中取消成像方向依赖分量。 此外,检查设备通过使用以照射在草坪上的光的照射方向的方位角拍摄的两个图像执行计算处理,来根据照射在草坪上的光的照射方向从图像中消除与角度有关的成分 在彼此相反的方向拍摄图像的时间。 例如,本技术可应用于用于检查草坪植被的植物检查设备。
    • 7. 发明公开
    • HIGH EFFICIENCY ENCODING/DECODING DEVICE
    • GERÄTZUR KODIERUNG / DEKODIERUNG MIT HOHER WIRKUNG。
    • EP0671816A1
    • 1995-09-13
    • EP94927072.2
    • 1994-09-20
    • SONY CORPORATION
    • MURAKAMI, YoshihiroYADA, AtsuoYOSHINARI, HiromiTOGASHI, HaruoMIYAZAWA, SatoshiKITAMURA, Takuya
    • H04N7/50
    • H04N19/40H04N19/45H04N19/60
    • A high efficiency encoding/decoding device provided with an orthogonal transformer (10) which orthogonally transforms digital signals obtained by A/D-converting analog signals, a quantizer (11) which quantizes the orthogonally-transformed digital signals, a reverse quantizer (21) which reversely quantizes the digital signals before reverse orthogonal transformation, and a reverse orthogonal transformer (20) which performs reverse orthogonal transformation of the orthogonally-transformed digital signals. Rounding in the even-number or odd-number direction is applied to at least the orthogonal transformation or reverse orthogonal transformation. Therefore, the accumulation of rounding errors can be prevented at the time of, for example, direct digital dubbing in which such digital signals as video signals are repeatedly encoded and decoded, and the deterioration of the quality of image having multi-generation characteristics can be prevented.
    • 具有正交变换器(10)的高效率编码/解码装置,其对通过A / D转换模拟信号获得的数字信号进行正交变换;量化器(11),其量化正交变换的数字信号;反向量化器, 其在逆正交变换之前对数字信号进行反向量化;以及正交变换器(20),其执行正交变换的数字信号的反向正交变换。 至少对正交变换或反向正交变换进行偶数或奇数方向的舍入。 因此,在例如直接数字转录时,可以防止舍入误差的积累,其中视频信号的这种数字信号被重复编码和解码,并且具有多代特性的图像的质量的劣化可以是 预防。