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    • 5. 发明申请
    • Communication device, communication method, and recording medium
    • 通信设备,通信方式和记录介质
    • US20100020682A1
    • 2010-01-28
    • US12310955
    • 2007-09-12
    • Yuichi Yamada
    • Yuichi Yamada
    • G06F11/00
    • H04L1/0014H04L65/4084H04L65/607H04L65/608H04L65/80
    • In transmitting data between a server device and a client device or between communication terminals, a data transfer rate is set in response to an available bandwidth, an application of the data, and the like not to cause waste of the network. A controlling portion detects a packet loss caused per transmission of data, and then chooses a compression mode whose data transfer rate is low when the packet loss is detected. In contrast, the controlling portion counts a time required from the data transmission (a reciprocation delay time) in such a situation that no packet loss is caused, and chooses a compression mode whose data transfer rate is high when the reciprocation delay time is sufficiently small. As the method of choosing the compression mode, for example, the method of switching a codec into another codec or changing a compression ratio being set in the codec may be employed.
    • 在服务器设备和客户端设备之间或通信终端之间传输数据时,响应于可用带宽,数据的应用等而设置数据传输速率,不会造成网络浪费。 控制部分检测每次数据传输引起的分组丢失,然后选择当检测到分组丢失时数据传输速率低的压缩模式。 相反,控制部分在不发生分组丢失的情况下对从数据传输所需的时间(往复延迟时间)进行计数,并且当往复延迟时间足够小时选择数据传输速率高的压缩模式 。 作为选择压缩模式的方法,例如,可以采用将编解码器切换到另一编解码器的方法或改变在编解码器中设置的压缩比。
    • 7. 发明申请
    • GAS SENSOR AND MANUFACTURING METHOD THEREOF
    • 气体传感器及其制造方法
    • US20080277282A1
    • 2008-11-13
    • US12099516
    • 2008-04-08
    • Makoto KumeYuichi Yamada
    • Makoto KumeYuichi Yamada
    • G01N27/26B23P11/00
    • G01N27/4077Y10T29/49826
    • There is provided a gas sensor, which includes a sensor element extending axially of the gas sensor and having a gas sensing portion at a front end thereof and an electrode portion at a rear end thereof, a cylindrical metal shell retaining therein the sensor element with the gas sensing portion and the electrode portion protruding from front and rear ends of the metal shell, respectively, and having a flange portion and a rear end portion located on a rear side of the flange portion, a cylindrical protection cover having a front end fitted onto the rear end portion of the metal shell so as to cover the electrode portion and a weld joint through which the entire circumference of the front end of the protection cover is joined through the metal shell. The weld joint extends from an end face of the protection cover to the metal shell.
    • 提供了一种气体传感器,其包括传感器元件,该传感器元件沿气体传感器轴向延伸并且在其前端具有气体感测部分和在其后端处的电极部分,其中保持传感器元件的圆柱形金属壳体具有 气体检测部分和电极部分分别从金属壳的前端和后端突出,并且具有位于凸缘部分的后侧上的凸缘部分和后端部分的圆柱形保护盖,前端装配到 金属壳体的后端部分覆盖电极部分和焊接接头,保护盖前端的整个周边通过金属壳体接合。 焊接接头从保护盖的端面延伸到金属外壳。
    • 8. 发明申请
    • GAS SENSOR
    • 气体传感器
    • US20080028831A1
    • 2008-02-07
    • US11832855
    • 2007-08-02
    • Takashi NAKASHIMAYuichi Yamada
    • Takashi NAKASHIMAYuichi Yamada
    • G01N7/10
    • G01N27/4077
    • In a protector (100) for protecting a detecting portion (11) of a sensor element (10) of a gas sensor (1), the opening area of individual inner introduction holes (130) and (140) formed in an inner protector (120) is 3.5 mm2 or less. In this manner, the amount and size of water droplets able to pass through the inner introduction holes (130) and (140) and to adhere to the sensor element (10) is restricted. In order to ensure good gas replaceability between the interior and the exterior of the inner protector (120) so as to attain quick gas response, the total opening area of the inner introduction holes (130) and (140) is 10 mm2 or more.
    • 在用于保护气体传感器(1)的传感器元件(10)的检测部分(11)的保护器(100)中,形成在内部保护器(1)中的各个内部引入孔(130)和(140) 120)为3.5mm 2以下。 以这种方式,可以限制能够穿过内部引入孔(130)和(140)并粘附到传感器元件(10)的水滴的量和尺寸。 为了确保内部保护器(120)的内部和外部之间的良好的气体可更换性,以便获得快速的气体响应,内部引入孔(130)和(140)的总开口面积为10mm, 2以上。
    • 9. 发明授权
    • Surface position detecting method and scanning exposure method using the
same
    • 表面位置检测方法及使用其的扫描曝光方法
    • US6081614A
    • 2000-06-27
    • US687986
    • 1996-07-29
    • Yuichi YamadaShigeyuki Uzawa
    • Yuichi YamadaShigeyuki Uzawa
    • G03F7/20G03F7/207G03F9/00H01L21/027G06K9/00
    • G03F9/7026G03F7/70358G03F7/70716G03F7/70725G03F9/7011
    • A surface position detecting method, wherein, while an object having a region with a pattern structure is scanned relative to a surface position detecting system in a scan direction, different from a surface position detecting direction of the surface position detecting system, the surface position detecting system performs surface position detection sequentially at a plurality of detection points, which are disposed within the region and along the scan direction. The method includes steps of measuring beforehand errors to be produced with respect to the detection points due to a difference in pattern structure among the detection points disposed along the scan direction and correcting, when the surface position detection is sequentially performed by the surface position detecting system at the detection points along the scan direction while the object is scanned in the scan direction relative to the surface position detecting system, a result of the detection by the surface position detecting system at each detection point, on the basis of a measured error corresponding to that detection point, measured in the measuring step.
    • 一种表面位置检测方法,其特征在于,在与表面位置检测系统的表面位置检测方向不同的扫描方向上相对于表面位置检测系统扫描具有图案结构的区域的物体时,表面位置检测 系统在设置在该区域内并且沿扫描方向的多个检测点依次执行表面位置检测。 该方法包括以下步骤:由于由沿着扫描方向设置的检测点之间的图案结构的差异而预先产生的关于检测点的误差,并且当通过表面位置检测系统顺序执行表面位置检测时, 在沿着扫描方向的检测点处,在相对于表面位置检测系统的扫描方向上扫描物体时,根据表面位置检测系统在每个检测点处的检测结果,基于对应于 该检测点,在测量步骤中测量。