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    • 1. 发明申请
    • INFORMATION PROCESSING APPARATUS AND OPERATION METHOD OF INFORMATION PROCESSING APPARATUS
    • 信息处理装置的信息处理装置和操作方法
    • US20110279373A1
    • 2011-11-17
    • US13086684
    • 2011-04-14
    • Daiki YOKOYAMAYasutaka Fujii
    • Daiki YOKOYAMAYasutaka Fujii
    • G06F3/02
    • G06F3/017G06F1/1616G06F1/1694G06F3/0483G06F2200/1637
    • An information processing apparatus includes: an apparatus body including a body having a keyboard and a display unit attached to the body so as to be opened and closed; an acceleration sensor mounted on the apparatus body; a gesture motion determination unit mounted on the apparatus body and determining a reference posture of a holding state of the apparatus body taken when a user executes a given gesture function while holding the apparatus body based on acceleration detected by the acceleration sensor as well as determining a gesture motion executed by the user by detecting posture change of the apparatus body from the reference posture based on acceleration detected by the acceleration sensor; and an operation execution unit mounted on the apparatus body and executing a given operation corresponding to the gesture motion executed by the user based on the determination result in the gesture motion determination unit.
    • 一种信息处理装置,包括:装置主体,包括具有键盘的主体和附接到所述主体以便打开和关闭的显示单元; 安装在装置本体上的加速度传感器; 姿势运动确定单元,其安装在所述装置主体上,并且基于所述加速度传感器检测到的加速度来确定当用户执行给定手势功能时所拍摄的所述装置主体的保持状态的参考姿态,同时保持所述装置主体, 基于由所述加速度传感器检测到的加速度,通过从所述基准姿势检测所述装置主体的姿势变化来执行用户的手势运动; 以及操作执行单元,其安装在所述装置主体上,并且基于所述手势运动确定单元中的确定结果来执行与由用户执行的手势运动相对应的给定操作。
    • 2. 发明授权
    • Information processing apparatus and operation method of information processing apparatus
    • 信息处理装置和信息处理装置的操作方法
    • US08947359B2
    • 2015-02-03
    • US13086684
    • 2011-04-14
    • Daiki YokoyamaYasutaka Fujii
    • Daiki YokoyamaYasutaka Fujii
    • G06F3/02G06F1/16G06F3/01
    • G06F3/017G06F1/1616G06F1/1694G06F3/0483G06F2200/1637
    • An information processing apparatus includes: an apparatus body including a body having a keyboard and a display unit attached to the body so as to be opened and closed; an acceleration sensor mounted on the apparatus body; a gesture motion determination unit mounted on the apparatus body and determining a reference posture of a holding state of the apparatus body taken when a user executes a given gesture function while holding the apparatus body based on acceleration detected by the acceleration sensor as well as determining a gesture motion executed by the user by detecting posture change of the apparatus body from the reference posture based on acceleration detected by the acceleration sensor; and an operation execution unit mounted on the apparatus body and executing a given operation corresponding to the gesture motion executed by the user based on the determination result in the gesture motion determination unit.
    • 一种信息处理装置,包括:装置主体,包括具有键盘的主体和附接到所述主体以便打开和关闭的显示单元; 安装在装置本体上的加速度传感器; 姿势运动确定单元,其安装在所述装置主体上,并且基于所述加速度传感器检测到的加速度来确定当用户执行给定手势功能时所拍摄的所述装置主体的保持状态的参考姿态,同时保持所述装置主体, 基于由所述加速度传感器检测到的加速度,通过从所述基准姿势检测所述装置主体的姿势变化来执行用户的手势运动; 以及操作执行单元,其安装在所述装置主体上,并且基于所述手势运动确定单元中的确定结果来执行与由用户执行的手势运动相对应的给定操作。
    • 6. 发明授权
    • Apparatus for matching impedance in an electrostatic sensor
    • 用于匹配静电传感器中的阻抗的装置
    • US5325067A
    • 1994-06-28
    • US67393
    • 1993-05-25
    • Noboru MasudaTetsuo OosawaYasutaka Fujii
    • Noboru MasudaTetsuo OosawaYasutaka Fujii
    • G01R29/24G01R27/26H03K17/955
    • H03K17/955G01R27/2688
    • It is an object of the present invention to prevent variations in sensitivity of the sensor circuits of the respective channels by equalizing the power of oscillation frequency signals to be distributed/supplied from one oscillation circuit to the sensor circuits of the respective channels. Multi-channel sensor circuits are arranged with a common oscillation circuit. A high-impedance conversion circuit is connected to the output terminal of the oscillation circuit. A first impedance matching circuit for performing impedance matching of resonance circuits of the respective channels with reference to the oscillation circuit is arranged on the output side of the high-impedance conversion circuit. Second impedance matching circuits for performing impedance matching of the oscillation circuit with reference to the resonance circuits are connected at the input terminals of the resonance circuits of the respective channels. The first impedance matching circuit is connected to the second impedance matching circuits through coaxial cables.
    • 本发明的目的是通过将从一个振荡电路分配/提供的振荡频率信号的功率均衡到各个通道的传感器电路来防止各个通道的传感器电路的灵敏度的变化。 多通道传感器电路配有一个共同的振荡电路。 高阻抗转换电路连接到振荡电路的输出端。 在高阻抗转换电路的输出侧配置有用于根据振荡电路进行各通道的谐振电路的阻抗匹配的第一阻抗匹配电路。 用于相对于谐振电路执行振荡电路的阻抗匹配的第二阻抗匹配电路连接在各个通道的谐振电路的输入端。 第一阻抗匹配电路通过同轴电缆连接到第二阻抗匹配电路。
    • 10. 发明授权
    • Variable capacitor
    • 可变电容器
    • US5901031A
    • 1999-05-04
    • US594771
    • 1996-01-31
    • Tsutomu IshigeYasuhiro NegoroYuji IyodaYasutaka FujiiKatsuhiko Tanaka
    • Tsutomu IshigeYasuhiro NegoroYuji IyodaYasutaka FujiiKatsuhiko Tanaka
    • H01G5/16H01G5/00
    • H01G5/16
    • A reference electrode is fixed on the bottom of a concave portion of a substrate. A movable electrode is provided so that its electrode face faces that of the reference electrode at an interval to form a capacitor by the movable and reference electrodes. A driving electrode for driving the movable electrode is fixed on the substrate at an interval from the movable electrode. The distance 2L between the driving and movable electrodes is twice the distance L between the movable and reference electrodes. An external bias voltage is applied between the driving and movable electrodes to deflect the movable electrode. This doubles the range of the displacement of the movable electrode, thereby increasing the capacity change rate of the variable capacitor.
    • 参考电极固定在基板的凹部的底部。 设置可动电极,使得其电极面与参考电极的电极表面间隔一定距离,以通过可移动和参考电极形成电容器。 用于驱动可动电极的驱动电极以可动电极的间隔固定在基板上。 驱动电极和可动电极之间的距离2L是可移动电极和参考电极之间的距离L的两倍。 在驱动电极和可动电极之间施加外部偏置电压以使可动电极偏转。 这使可动电极的位移范围翻倍,从而增加了可变电容器的容量变化率。