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    • 1. 发明专利
    • Noxious insect capture device and suction apparatus equipped with the noxious insect capture device
    • 装备有异味插入装置的异味插入装置和抽吸装置
    • JP2008263875A
    • 2008-11-06
    • JP2007112658
    • 2007-04-23
    • 誠 ▲高▼野Makoto Takano
    • TAKANO MAKOTO
    • A01M1/06
    • PROBLEM TO BE SOLVED: To provide a noxious insect capture device comfortably operated without widely spreading bad smell in suctioning noxious insects and the like.
      SOLUTION: The noxious insect capture device 1 is equipped with: a cylindrical body 2 having a device-connecting port 21 for connecting to a suction device on one end and a noxious insect-suctioning port 22 for suctioning noxious insects on the other end; a deodorization filter 3 installed to the inside of the cylindrical body 2 so as to partition the inside space of the cylindrical body 2 into a side of the device-connecting port 21 and a side of the noxious insect-suctioning port 22; and a noxious insect-stopping member 4 installed to the inside of the cylindrical body 2 locating closer to the noxious insect-suctioning port 22 than to the deodorizing filter 3. The noxious insect capture device 1 preferably has a perfuming means 5 installed in the inside of the cylindrical body 2 at a location closer to the device-connecting port 21 than to the deodorization filter 3.
      COPYRIGHT: (C)2009,JPO&INPIT
    • 要解决的问题:提供一种易于操作的有害昆虫捕获装置,而不会在吸入有害昆虫等时广泛传播不良气味。 解决方案:有害昆虫捕获装置1装备有:具有用于连接到一端的抽吸装置的装置连接端口21和用于吸入另外的有害昆虫的有害昆虫吸入口22的圆柱体2 结束; 安装在圆筒体2的内部以将圆筒体2的内部空间分隔成装置连接口21的侧面和有害昆虫吸入口22侧的除臭过滤器3; 以及安装在比除臭过滤器3更靠近有害昆虫吸入口22的圆筒体2的内侧的有害的防虫构件4.有害昆虫捕获装置1优选地具有安装在内部的加香装置5 (C)2009,JPO&INPIT(2009),JPO&INPIT
    • 2. 发明授权
    • Control of plant flowering time by regulation of phytochrome c expression
    • 通过调节植物色素C表达控制植物开花时间
    • US07566815B2
    • 2009-07-28
    • US10488672
    • 2002-08-30
    • Makoto TakanoHirohiko HirochikaAkio Miyao
    • Makoto TakanoHirohiko HirochikaAkio Miyao
    • C12N15/82A01H5/00A01H5/10
    • C12N15/827
    • Rice phyC mutants were isolated using a mutant panel isolation method. When the mutants were grown under long-day photoperiodic conditions, it was found that they flowered (exposed their panicles (heads)) about one week earlier than the control rice. The results indicate that suppression of PHYC gene expression can promote plant flowering under long-day conditions. Utilization of the PHYC gene for promoting plant flowering will contribute substantially to breed improvement, for example, by facilitating the creation of useful agricultural crops and decorative plants that have a new characteristic adaptable for other cultivation areas and times. The rice phyC mutants described herein, which promote flowering under long-day conditions, will be highly prized as a new early-harvest rice cultivar.
    • 使用突变体板分离方法分离水稻phyC突变体。 当突变体在长时间的光周期条件下生长时,发现它们比对照稻早一周开花(暴露它们的穗(头))。 结果表明,抑制PHYC基因表达可以在长时间条件下促进植物开花。 用于促进植物开花的PHYC基因的利用将大大促进品种改良,例如通过促进有用的农作物和具有适合于其他种植区域和时代的新特征的装饰植物的创造。 本文所述的促进在长日照条件下开花的水稻phyC突变体作为新的早熟水稻品种将被高度评价。
    • 3. 发明申请
    • DATA PROCESSOR AND GRAPHIC DATA PROCESSING DEVICE
    • 数据处理器和图形数据处理设备
    • US20090015590A1
    • 2009-01-15
    • US12237112
    • 2008-09-24
    • HIROTAKA HARAHiroyuki HamasakiMitsuhiro SaekiKazuhiro HiradeMakoto Takano
    • HIROTAKA HARAHiroyuki HamasakiMitsuhiro SaekiKazuhiro HiradeMakoto Takano
    • G06T15/00
    • G06T11/203G06T1/20
    • An object of the present invention is to improve efficiency of transfer of control information, graphic data, and the like for drawing and display control in a graphic data processor. A graphic data processor includes: a CPU; a first bus coupled to the CPU; a DMAC for controlling a data transfer using the first bus; a bus bridge circuit for transmitting/receiving data to/from the first bus; a three-dimensional graphics module for receiving a command from the CPU via the first bus and performing a three-dimensional graphic process; a second bus coupled to the bus bridge circuit and a plurality of first circuit modules; a third bus coupled to the bus bridge circuit and second circuit modules; and a memory interface circuit coupled to the first and second buses and the three-dimensional graphic module and connectable to an external memory, wherein the bus bridge circuit can control a direct memory access transfer between an external circuit and the second bus.
    • 本发明的一个目的是提高图形数据处理器中绘图和显示控制的控制信息,图形数据等的传送效率。 图形数据处理器包括:CPU; 耦合到CPU的第一个总线; 用于使用第一总线控制数据传输的DMAC; 用于向/从第一总线发送/接收数据的总线桥电路; 三维图形模块,用于经由第一总线从CPU接收命令并执行三维图形处理; 耦合到总线桥电路的第二总线和多个第一电路模块; 耦合到总线桥电路和第二电路模块的第三总线; 以及耦合到第一和第二总线和三维图形模块并且可连接到外部存储器的存储器接口电路,其中总线桥电路可以控制外部电路和第二总线之间的直接存储器访问传输。
    • 4. 发明申请
    • Control of plant flowering time by regulating the expression of phytochrome c
    • 通过调节植物色素c的表达控制植物开花时间
    • US20050066393A1
    • 2005-03-24
    • US10488672
    • 2002-08-30
    • Makoto TakanoHirohiko HirochikaAkio Miyao
    • Makoto TakanoHirohiko HirochikaAkio Miyao
    • C12N15/29C12N15/82A01H1/00C07H21/04
    • C12N15/827
    • Rice phyC mutants were isolated using a mutant panel isolation method. When the mutants were grown under long-day photoperiodic conditions, it was found that they flowered (exposed their panicles (heads)) about one week earlier than the control rice. The results indicate that suppression of PHYC gene expression can promote plant flowering under long-day conditions. Utilization of the PHYC gene for promoting plant flowering will contribute substantially to breed improvement, for example, by facilitating the creation of useful agricultural crops and decorative plants that have a new characteristic adaptable for other cultivation areas and times. The rice phyC mutants described herein, which promote flowering under long-day conditions, will be highly prized as a new early-harvest rice cultivar.
    • 使用突变体板分离方法分离水稻phyC突变体。 当突变体在长时间的光周期条件下生长时,发现它们比对照稻早一周开花(暴露它们的穗(头))。 结果表明,抑制PHYC基因表达可以在长时间条件下促进植物开花。 用于促进植物开花的PHYC基因的利用将大大促进品种改良,例如通过促进有用的农作物和具有适合于其他种植区域和时代的新特征的装饰植物的创造。 本文所述的促进在长日照条件下开花的水稻phyC突变体作为新的早熟水稻品种将被高度评价。
    • 5. 发明申请
    • 3D IMAGING DEVICE AND 3D REPRODUCTION DEVICE
    • 3D成像装置和3D生成装置
    • US20120113226A1
    • 2012-05-10
    • US13287129
    • 2011-11-02
    • Keisuke NakataMakoto Takano
    • Keisuke NakataMakoto Takano
    • H04N13/02G06T15/00
    • H04N13/128H04N13/183H04N13/356
    • A 3D imaging device is provided that includes an identification unit, a parallax information decision unit, a display position decision unit, and a 3D display control unit. The identification unit calculates parallax information with respect to an object image based on a first image signal and a second image signal. The identification unit also sets identification information for identifying an object image. The identification unit further outputs first parallax information and identification information. The parallax information decision unit decides on second parallax information based on first parallax information so that identification information is visually recognizable at a depth separate from the object image. The 3D display control unit is coupled to at least one of the identification unit, the parallax information decision unit, and the display position decision unit. The 3D display control unit displays identification information superimposed on the first second image signals based on second parallax information.
    • 提供了一种3D成像装置,其包括识别单元,视差信息决定单元,显示位置决定单元和3D显示控制单元。 识别单元基于第一图像信号和第二图像信号来计算关于对象图像的视差信息。 识别单元还设置用于识别对象图像的识别信息。 识别单元还输出第一视差信息和识别信息。 视差信息判定单元基于第一视差信息来决定第二视差信息,使得识别信息在与对象图像分离的深度可视觉识别。 3D显示控制单元耦合到识别单元,视差信息决定单元和显示位置决定单元中的至少一个。 3D显示控制单元基于第二视差信息显示叠加在第一第二图像信号上的识别信息。