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    • 1. 发明授权
    • Optical power monitoring apparatus, optical power monitoring method, and light receiving device
    • 光功率监测装置,光功率监测方法和光接收装置
    • US07313293B2
    • 2007-12-25
    • US11076018
    • 2005-03-10
    • Kiyotaka MurashimaAkira InoueTakeo Komiya
    • Kiyotaka MurashimaAkira InoueTakeo Komiya
    • G02B6/12
    • G02B6/4203G02B6/4206G02B6/4207G02B6/4249
    • An optical power monitoring apparatus according to an aspect of the present invention has an input optical waveguide, a light receiver, and an output optical waveguide. The input optical waveguide has a light entrance end and a light exit end. The input optical waveguide accepts light from the exterior through the light entrance end and outputs the light from the light exit end. The light receiver absorbs part of the light from the light exit end of the input optical waveguide and transmits the other part of the light. The output optical waveguide has a light entrance end and a light exit end. The output optical waveguide accepts the light transmitted by the light receiver, through the light entrance end, and outputs the light from the light exit end. The light receiver is provided on an optical path from the light exit end of the input optical waveguide to the light entrance end of the output optical waveguide.
    • 根据本发明的一个方面的光功率监测装置具有输入光波导,光接收器和输出光波导。 输入光波导具有光入射端和光出射端。 输入光波导通过光入射端从外部接收光,并从光出射端输出光。 光接收器从输入光波导的光出射端吸收一部分光,并透射光的另一部分。 输出光波导具有光入射端和光出射端。 输出光波导通过光入射端接收由光接收器透射的光,并输出来自光出射端的光。 光接收器设置在从输入光波导的光出射端到输出光波导的光入射端的光路上。
    • 2. 发明申请
    • Optical power monitoring apparatus, optical power monitoring method, and light receiving device
    • 光功率监测装置,光功率监测方法和光接收装置
    • US20050232534A1
    • 2005-10-20
    • US11076018
    • 2005-03-10
    • Kiyotaka MurashimaAkira InoueTakeo Komiya
    • Kiyotaka MurashimaAkira InoueTakeo Komiya
    • G02B6/10G02B6/12G02B6/42H04B10/02
    • G02B6/4203G02B6/4206G02B6/4207G02B6/4249
    • An optical power monitoring apparatus according to an aspect of the present invention has an input optical waveguide, a light receiver, and an output optical waveguide. The input optical waveguide has a light entrance end and a light exit end. The input optical waveguide accepts light from the exterior through the light entrance end and outputs the light from the light exit end. The light receiver absorbs part of the light from the light exit end of the input optical waveguide and transmits the other part of the light. The output optical waveguide has a light entrance end and a light exit end. The output optical waveguide accepts the light transmitted by the light receiver, through the light entrance end, and outputs the light from the light exit end. The light receiver is provided on an optical path from the light exit end of the input optical waveguide to the light entrance end of the output optical waveguide.
    • 根据本发明的一个方面的光功率监测装置具有输入光波导,光接收器和输出光波导。 输入光波导具有光入射端和光出射端。 输入光波导通过光入射端从外部接收光,并从光出射端输出光。 光接收器从输入光波导的光出射端吸收一部分光,并透射光的另一部分。 输出光波导具有光入射端和光出射端。 输出光波导通过光入射端接收由光接收器透射的光,并输出来自光出射端的光。 光接收器设置在从输入光波导的光出射端到输出光波导的光入射端的光路上。
    • 4. 发明授权
    • Information presentation system and in-vehicle apparatus
    • 信息呈现系统和车载设备
    • US09037345B2
    • 2015-05-19
    • US14001070
    • 2012-03-08
    • Akira Inoue
    • Akira Inoue
    • G06F3/14H04M1/725
    • G06F3/1423H04M1/7253H04M1/72577
    • A mobile terminal displays a screen image provided by an image data which is produced. An in-vehicle apparatus is fixed to a vehicle or is mounted on the vehicle to be portable. The mobile terminal sends the image data to the in-vehicle apparatus through communication such that a vehicle display portion of the in-vehicle apparatus displays a screen image provided by the image data. In a case where a communication between the in-vehicle apparatus and the mobile terminal is established, when one of the mobile terminal or the in-vehicle apparatus, in which an input operation has been performed prior to the other of the mobile terminal or the in-vehicle apparatus, is in operation, only the one of the mobile terminal or the in-vehicle apparatus is operable.
    • 移动终端显示由所生成的图像数据提供的屏幕图像。 车载设备固定在车辆上或安装在车辆上以便携带。 移动终端通过通信将图像数据发送到车载设备,使得车载设备的车辆显示部分显示由图像数据提供的屏幕图像。 在建立车载设备与移动终端之间的通信的情况下,当移动终端或车载设备中的一个在移动终端或另一个移动终端之前进行了输入操作时 车载设备正在操作中,只有移动终端或车载设备中的一个可操作。
    • 9. 发明申请
    • NITRIDE SEMICONDUCTOR LIGHT-EMITTING ELEMENT AND MANUFACTURING METHOD THEREFOR
    • 氮化物半导体发光元件及其制造方法
    • US20130214288A1
    • 2013-08-22
    • US13880027
    • 2012-05-02
    • Toshiya YokogawaJunko IwanagaAkira Inoue
    • Toshiya YokogawaJunko IwanagaAkira Inoue
    • H01L33/32
    • H01L33/32H01L33/02H01L33/16
    • A nitride-based semiconductor light-emitting device of an embodiment includes a semiconductor multilayer structure having a growing plane which is an m-plane and being made of a GaN-based semiconductor. The semiconductor multilayer structure includes a n-type semiconductor layer, a p-type semiconductor layer, a p-side electrode provided on the p-type semiconductor layer, and an active layer interposed between the n-type semiconductor layer and the p-type semiconductor layer. The ratio of the thickness of the active layer to the thickness of the n-type semiconductor layer, D, is in the range of 1.8×10−4≦D≦14.1×10−4. The area of the p-side electrode, S, is in the range of 1×102 μm2≦S≦9×104 μm2. A maximum current density which leads to 88% of a maximum of the external quantum efficiency is not less than 2 A/mm2.
    • 实施方式的氮化物系半导体发光元件具有半导体层叠结构,该半导体层叠结构具有作为m面的生长面并由GaN系半导体构成。 半导体多层结构包括n型半导体层,p型半导体层,设置在p型半导体层上的p侧电极以及介于n型半导体层和p型半导体层之间的有源层 半导体层。 有源层的厚度与n型半导体层的厚度D之比在1.8×10 -4 @ D @ 14.1×10 -4的范围内。 p侧电极S的面积在1×102mum2 @ S @ 9×104mum2的范围内。 导致外部量子效率最大值的88%的最大电流密度不小于2A / mm2。
    • 10. 发明授权
    • Image correction method, image correction device, and program
    • 图像校正方法,图像校正装置和程序
    • US08494265B2
    • 2013-07-23
    • US12739777
    • 2008-10-17
    • Satoshi KatohAkira Inoue
    • Satoshi KatohAkira Inoue
    • G06T5/00
    • H04N9/68G06K9/00684H04N1/60
    • An image correction device includes a scene belonging rate computation unit that computes, from the feature value of an input image, a plurality of scene belonging rates each of which prescribes a probability with which the input image belongs to each category scene; an unknown scene belonging rate specification unit that specifies an unknown scene belonging rate prescribing a probability with which the input image belongs to an unknown scene; a by-scene correction parameter memory unit that stores by-scene correction parameters; a correction parameter combination unit that computes a combined correction parameter that is the weighted average of the correction parameters using the plurality of scene belonging rates and the unknown scene belonging rate; and an image correction unit that performs image correction processing for the input image using the combined correction parameter.
    • 图像校正装置包括场景归属率计算单元,其从输入图像的特征值计算多个场景归属率,每个场景归属率规定输入图像属于每个类别场景的概率; 未知场景属性率指定单元,其指定输入图像属于未知场景的概率的未知场景归属率; 存储逐场校正参数的逐场校正参数存储单元; 校正参数组合单元,其使用所述多个场景归属率和所述未知场景归属率来计算作为所述校正参数的加权平均的组合校正参数; 以及图像校正单元,其使用组合校正参数对输入图像执行图像校正处理。