Pneumatic Tire
    2.
    发明申请
    Pneumatic Tire 审中-公开

    公开(公告)号:US20080087363A1

    公开(公告)日:2008-04-17

    申请号:US11791249

    申请日:2005-12-28

    申请人: Masashi Wakatsuki

    发明人: Masashi Wakatsuki

    IPC分类号: B60C15/06

    CPC分类号: B60C15/06 B60C15/0607

    摘要: Disclosed is a pneumatic tire capable of enhancing durability and reducing rolling resistance while maintaining lateral stiffness. The pneumatic tire of the present invention is provided with at least one carcass ply laid therein so as to extend between a pair of bead portions and formed of organic fiber cords. The tire has a casing structure where a bead filler is arranged to an outer periphery of a bead core buried in the bead portion. Additionally, an air pressure corresponding to the maximum load capacity of the tire is in a range from 350 to 650 kPa. The pneumatic tire is characterized in that the bead filler includes a plurality of rubber layers stacked in a radial direction of the tire, and a cross-sectional area S1, a hardness Hs1, and a loss tangent tan δ1 of the rubber layer on the outermost peripheral side; a cross-sectional area S2, a hardness Hs2, and a loss tangent tan δ2 of the rubber layer on the innermost peripheral side; and a ratio of a bead filler height BFH to a tire cross-sectional height SH are set to have the following relations (1) to (5): (S1×tan δ1)/[(S1×tan δ1)+(S2×tan δ2)]=0.25 to 0.40,  (1) (S1×Hs1)/[(S1×Hs1)+(S2×Hs2)]=0.35 to 0.50,  (2) BFH/SH=0.25 to 0.60,  (3) Hs2−Hs1=10 to 25, and  (4) tan δ1≦0.1 and tan δ2−tan δ1≦0.1  (5).

    IMAGING APPARATUS, IMAGING CONTROL METHOD, AND IMAGING CONTROL PROGRAM
    3.
    发明申请
    IMAGING APPARATUS, IMAGING CONTROL METHOD, AND IMAGING CONTROL PROGRAM 失效
    成像设备,成像控制方法和成像控制程序

    公开(公告)号:US20100182451A1

    公开(公告)日:2010-07-22

    申请号:US12664412

    申请日:2008-06-05

    IPC分类号: H04N5/235

    摘要: Imaging signal obtained through exposure for divided exposure times is A/D converted to digital imaging signal. Dark current component is subtracted from the digital imaging signal. The result of subtraction is accumulated and stored in a first memory. Next, exposure for divided exposure times is performed with the imaging device shielded from light. The obtained imaging signal is A/D converted to digital imaging signal. Dark current component is subtracted from the digital imaging signal. The result of subtraction is accumulated and stored sequentially in a second memory. The digital imaging signal stored in the second memory is subtracted from the digital imaging signal stored in the first memory. Then the result of subtraction is output. The word length allocated to one pixel in the first and second memories is longer than the word length of one A/D converted pixel.

    摘要翻译: 通过曝光获得的分割曝光时间的成像信号被A / D转换为数字成像信号。 从数字成像信号中减去暗电流分量。 减法的结果被累积并存储在第一存储器中。 接下来,用遮光的成像装置进行分割曝光时间的曝光。 所获得的成像信号被A / D转换成数字成像信号。 从数字成像信号中减去暗电流分量。 减法的结果累积并顺序存储在第二存储器中。 存储在第二存储器中的数字成像信号从存储在第一存储器中的数字成像信号中减去。 然后输出减法的结果。 分配给第一和第二存储器中的一个像素的字长比一个A / D转换像素的字长长。

    Imaging apparatus, imaging control method, and imaging control program
    4.
    发明授权
    Imaging apparatus, imaging control method, and imaging control program 失效
    成像设备,成像控制方法和成像控制程序

    公开(公告)号:US08237812B2

    公开(公告)日:2012-08-07

    申请号:US12664412

    申请日:2008-06-05

    摘要: Imaging signal obtained through exposure for divided exposure times is A/D converted to digital imaging signal. Dark current component is subtracted from the digital imaging signal. The result of subtraction is accumulated and stored in a first memory. Next, exposure for divided exposure times is performed with the imaging device shielded from light. The obtained imaging signal is A/D converted to digital imaging signal. Dark current component is subtracted from the digital imaging signal. The result of subtraction is accumulated and stored sequentially in a second memory. The digital imaging signal stored in the second memory is subtracted from the digital imaging signal stored in the first memory. Then the result of subtraction is output. The word length allocated to one pixel in the first and second memories is longer than the word length of one A/D converted pixel.

    摘要翻译: 通过曝光获得的分割曝光时间的成像信号被A / D转换为数字成像信号。 从数字成像信号中减去暗电流分量。 减法的结果被累积并存储在第一存储器中。 接下来,用遮光的成像装置进行分割曝光时间的曝光。 所获得的成像信号被A / D转换成数字成像信号。 从数字成像信号中减去暗电流分量。 减法的结果累积并顺序存储在第二存储器中。 存储在第二存储器中的数字成像信号从存储在第一存储器中的数字成像信号中减去。 然后输出减法的结果。 分配给第一和第二存储器中的一个像素的字长比一个A / D转换像素的字长长。