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    • 1. 发明授权
    • Musical performance processing apparatus and storage medium therefor
    • 音乐表演处理装置及其存储介质
    • US07795524B2
    • 2010-09-14
    • US12057905
    • 2008-03-28
    • Miki AraiSatoshi UsaTakeshi Sakai
    • Miki AraiSatoshi UsaTakeshi Sakai
    • G10H7/00
    • G09B15/002G10H1/22G10H1/40G10H2210/076G10H2210/091G10H2220/221
    • A musical performance processing apparatus that provides better assistance for student's practice. The apparatus includes a main unit in which music data including performance information of right- and left hand parts is stored, and a performance terminal having a keyboard divided into two key ranges by a split point. Each key range is set as a tapping or normal performance key range. The main unit generates a musical tone when input with performance information generated by depression of a key in the normal performance key range, and automatically reproduces performance information of designated part of music data for the number of beats corresponding to key depression, when input with performance information generated by depression of a key in the tapping performance key range. Sounding is stopped, if there is a deviation between a tempo of teacher's tapping performance and timing of student's performance.
    • 一种演奏处理装置,为学生的实践提供更好的帮助。 该装置包括主单元,其中存储包括右手部件的性能信息的音乐数据,以及具有通过分割点分成两个键范围的键盘的演奏终端。 每个键范围都设置为敲击或正常的演奏键范围。 主要单元在通过在正常演奏键区域中按下键而产生的演奏信息进行输入时产生乐音,并且当以演奏输入时,自动再现与键按压对应的节拍次数的指定音乐数据部分的演奏信息 通过在按键性能关键范围内按下键来产生的信息。 如果教师的敲击表演速度与学生表演的时间有偏差,则声音停止。
    • 2. 发明申请
    • MUSICAL PERFORMANCE PROCESSING APPARATUS AND STORAGE MEDIUM THEREFOR
    • 音乐表演处理设备及其储存介质
    • US20090031884A1
    • 2009-02-05
    • US12057905
    • 2008-03-28
    • Miki AraiSatoshi UsaTakeshi Sakai
    • Miki AraiSatoshi UsaTakeshi Sakai
    • G10H7/00
    • G09B15/002G10H1/22G10H1/40G10H2210/076G10H2210/091G10H2220/221
    • A musical performance processing apparatus that provides better assistance for student's practice. The apparatus includes a main unit in which music data including performance information of right- and left hand parts is stored, and a performance terminal having a keyboard divided into two key ranges by a split point. Each key range is set as a tapping or normal performance key range. The main unit generates a musical tone when input with performance information generated by depression of a key in the normal performance key range, and automatically reproduces performance information of designated part of music data for the number of beats corresponding to key depression, when input with performance information generated by depression of a key in the tapping performance key range. Sounding is stopped, if there is a deviation between a tempo of teacher's tapping performance and timing of student's performance.
    • 一种演奏处理装置,为学生的实践提供更好的帮助。 该装置包括主单元,其中存储包括右手部件的性能信息的音乐数据,以及具有通过分割点分成两个键范围的键盘的演奏终端。 每个键范围都设置为敲击或正常的演奏键范围。 主要单元在通过在正常演奏键区域中按下键而产生的演奏信息进行输入时产生乐音,并且当以演奏输入时,自动再现与键按压对应的节拍次数的指定音乐数据部分的演奏信息 通过在按键性能关键范围内按下键来产生的信息。 如果教师的敲击表演速度与学生表演的时间有偏差,则声音停止。
    • 3. 发明申请
    • ELECTRIC FIELD MEASURING DEVICE
    • 电场测量装置
    • US20140015541A1
    • 2014-01-16
    • US14008302
    • 2012-03-14
    • Takeshi SakaiMasahito Mure
    • Takeshi SakaiMasahito Mure
    • G01R31/00
    • G01R31/001G01R29/0871G01R29/0885G01R29/10
    • In the electric field measuring device, a DC bias circuit applying a DC bias voltage to an optical intensity modulator is disposed in an area, and a DC bias control portion controlling a DC bias voltage is disposed outside the area. An electrical signal of a DC bias voltage which is output from the DC bias control portion is converted into an optical signal by an electrical-optical converter (E/O) so as to be introduced into the area via an optical fiber, and the optical signal is converted into an electrical signal by an optical-electrical converter (O/E) disposed in the area such that the electrical signal is input to the DC bias circuit.
    • 在电场测量装置中,在一个区域中设置将DC偏置电压施加到光强度调制器的DC偏置电路,并且将控制DC偏置电压的DC偏置控制部分设置在该区域的外部。 从DC偏置控制部输出的直流偏置电压的电信号通过电光转换器(E / O)被转换为光信号,以经由光纤被引入到该区域中,并且光学 信号通过设置在该区域中的光电转换器(O / E)转换成电信号,使得电信号被输入到DC偏置电路。
    • 5. 发明授权
    • Video display device and color temperature correction method for the same
    • 视频显示设备和色温校正方法相同
    • US08111263B2
    • 2012-02-07
    • US12405966
    • 2009-03-17
    • Katsunobu KimuraTakaaki MatonoHaruki TakataTakeshi SakaiWataru Kato
    • Katsunobu KimuraTakaaki MatonoHaruki TakataTakeshi SakaiWataru Kato
    • G09G5/02
    • H04N9/73G09G5/02G09G2320/0666
    • A video display device that allows the color temperature of the signals in white color attributes having high luminance and low chroma saturation to be corrected with high precision is provided with a color temperature correction method so as to visually obtain a desirable white color on display. In some embodiments, the signal processing circuit can include an A/D converter to convert video signals into digitalized signals, a matrix circuit to convert the digitalized signals into luminance signals and at least two color difference signals, a hue conversion circuit to obtain hue signals from the color difference signals, a hue correction circuit to correct hue signals, a chroma saturation conversion circuit to obtain chroma saturation signals from color difference signals, a chroma saturation correction circuit to correct chroma saturation signals and a color temperature correction circuit to perform the color temperature correction on the respective hue and chroma saturation signals.
    • 使用色温校正方法,可以在显示器上目视获得所期望的白色,使具有高亮度和低色度饱和度的白色属性信号的色温被高精度地校正的视频显示装置。 在一些实施例中,信号处理电路可以包括将视频信号转换为数字化信号的A / D转换器,用于将数字化信号转换为亮度信号和至少两个色差信号的矩阵电路,色调转换电路以获得色调信号 从色差信号中校正色调信号的色调校正电路,色度饱和度转换电路,从色差信号获得色度饱和度信号,色度饱和度校正电路校正色饱和度信号,色温校正电路执行色彩 对各个色调和色度饱和度信号进行温度校正。
    • 6. 发明申请
    • Electric field measuring device
    • 电场测量装置
    • US20110227559A1
    • 2011-09-22
    • US12998762
    • 2009-11-27
    • Norikazu MiyazakiTakeshi Sakai
    • Norikazu MiyazakiTakeshi Sakai
    • G01R31/00
    • G01R29/0885G01R29/0871G01R33/032
    • The electric field measuring device measures an electric field intensity of an electromagnetic wave generated from equipment under test 8 in an area for detecting an electromagnetic wave. An antenna 1 and an optical intensity modulator having a Mach-Zehnder type optical waveguide are inside the area and an output signal of the antenna is supplied to a modulation electrode of the optical intensity modulator. A light source unit, a light receiving unit, and a DC bias control unit controlling a DC bias voltage supplied to the optical intensity modulator are outside the area. An optical wave is guided to the optical intensity modulator from the light source unit, and is guided to the light receiving unit from the optical intensity modulator via an optical fiber 4. The DC bias voltage is supplied to the optical intensity modulator from the DC bias control unit via a power supply line 4.
    • 电场测量装置测量用于检测电磁波的区域中由被测设备8产生的电磁波的电场强度。 天线1和具有马赫 - 曾德尔型光波导的光强度调制器在该区域内,天线的输出信号被提供给光强度调制器的调制电极。 控制提供给光强度调制器的DC偏置电压的光源单元,光接收单元和DC偏置控制单元在该区域之外。 光波从光源单元被引导到光强度调制器,并通过光纤4从光强度调制器被引导到光接收单元.DC偏压由DC偏压提供给光强度调制器 控制单元经由电源线4。
    • 7. 发明申请
    • Liquid crystal display device
    • 液晶显示装置
    • US20090224247A1
    • 2009-09-10
    • US12379874
    • 2009-03-03
    • Takuo KaitohHidekazu MiyakeTakeshi SakaiTerunori Saitou
    • Takuo KaitohHidekazu MiyakeTakeshi SakaiTerunori Saitou
    • H01L33/00
    • H01L29/78696H01L27/1229H01L27/1251
    • In a bottom-gate-type thin film transistor used in a liquid crystal display device in which a poly-Si layer and an a-Si layer are stacked, a quantity of an ON current which flows in the thin film transistor can be increased. A poly-Si layer and an a-Si layer are stacked on a gate electrode as an active layer by way of a gate insulation film therebetween in order of the poly-Si layer and the a-Si layer. An n+Si layer and a source/drain layer are formed on the a-Si layer thus forming a thin film transistor. A forward current which flows in the thin film transistor mainly flows in the poly-Si layer. To decrease contact resistance against the forward current between the poly-Si layer and the n+Si layer, an edge portion of the a-Si layer and an edge portion of the poly-Si layer assume a concavo-convex shape thus particularly increasing a contact area between the poly-Si layer and the n+Si layer whereby the contact resistance against the forward current can be decreased leading to the increase of a quantity of an ON current.
    • 在层叠多晶硅层和a-Si层的液晶显示装置中使用的底栅型薄膜晶体管中,可以增加流入薄膜晶体管的导通电流量。 按照多晶硅层和a-Si层的顺序,通过栅绝缘膜将多晶Si层和a-Si层层叠在作为有源层的栅电极上。 在a-Si层上形成n + Si层和源/漏层,从而形成薄膜晶体管。 在薄膜晶体管中流动的正向电流主要在多晶硅层中流动。 为了降低与多晶硅层和n + Si层之间的正向电流的接触电阻,a-Si层的边缘部分和多晶硅层的边缘部分呈现凹凸形状,因此特别增加了 多晶硅层和n + Si层之间的接触面积,由此可以减小与正向电流的接触电阻,导致导通电流的增加。