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    • 1. 发明授权
    • Beam forming device
    • 梁形成装置
    • US4780860A
    • 1988-10-25
    • US826413
    • 1986-02-05
    • Toyoki SasakuraYasuhiko Endo
    • Toyoki SasakuraYasuhiko Endo
    • G10K11/34H04R17/08H04B17/00H04R17/00
    • G10K11/348H04R17/08Y10S367/905
    • The present invention relates to a beam forming device for forming a uniform radiation beam and/or a reception beam. In radiation, the transducer is vibrated in such a way that the pressure of a sound wave produced from each point of the vibrating surface of the transducer is determined based on a weight function, thereby forming a radiation beam. In reception, electric signals are derived based on the sound energy received in a manner that the amplitude level of an electric signal produced based on the sound energy received by each point of the vibrating surface of the transducer is determined based on a weight function, and the derived signals are combined with one another to form a reception beam.
    • 本发明涉及用于形成均匀的辐射束和/或接收光束的光束形成装置。 在辐射中,换能器以这样的方式振动,即基于重量函数确定从换能器的振动表面的每个点产生的声波的压力,由此形成辐射束。 在接收中,基于以基于权重函数确定基于由换能器的振动表面的每个点接收的声能产生的电信号的振幅电平的方式,基于接收的声能导出电信号,以及 导出的信号彼此组合以形成接收波束。
    • 3. 发明授权
    • High resolution measuring method and apparatus
    • 高分辨率测量方法和装置
    • US5412617A
    • 1995-05-02
    • US39298
    • 1993-04-22
    • Hideharu MorimatsuToyoki Sasakura
    • Hideharu MorimatsuToyoki Sasakura
    • G01S7/526G01S7/52G01S13/28G01S15/06G01S15/87G01S15/89G01S13/90
    • G01S15/8904G01S15/87G01S7/52003
    • An underwater sonar measuring method using synthetic aperture technique which radiates an ultrasonic signal to targets by a transmission transducer unit (1B), receives echo signals reflected by the targets by moving reception transducer units (1A, 1B, 1C) at a plurality of points, adjusts a plurality of signals received in phase and combines the resultant phase-shifted signals. The reception transducer units are moved over a distance less than the length "L" of the transmission transducer unit during a period for an ultrasonic signal going to and returning from a target. The signals received and phase-combined during this period are multiplyed by the radiated signals so that there are eliminated grating lobes appearing on both sides of the main lobe when an aperture synthesis is performed, and thus a high resolution measurement is made.
    • PCT No.PCT / JP92 / 00817 Sec。 371日期:1993年4月22日 102(e)日期1993年4月22日PCT申请1992年6月26日。使用合成孔径技术的水下声纳测量方法,其通过发射换能器单元(1B)向目标辐射超声信号,接收目标反射的回波信号 通过在多个点处移动接收换能器单元(1A,1B,1C),调整相位接收的多个信号,并组合所得到的相移信号。 接收传感器单元在超声信号进入目标和从目标返回的时段期间移动小于发送换能器单元的长度“L”的距离。 在此期间接收和相位合成的信号乘以辐射信号,使得当执行孔径合成时,消除了主瓣两侧出现的栅瓣,从而进行高分辨率测量。
    • 5. 发明授权
    • Function-limiting device and function-limiting method
    • 功能限制装置和功能限制方法
    • US07292843B2
    • 2007-11-06
    • US11109630
    • 2005-04-20
    • Hironori IshikawaMitsuru MurataToyoki SasakuraKenichi Miyamoto
    • Hironori IshikawaMitsuru MurataToyoki SasakuraKenichi Miyamoto
    • H04Q7/20
    • H04W8/245H04W48/02
    • Non-reception-controlled area information is stored in the non-reception-controlled area storage section of the reception control device for each mobile device ID. When the reception control device receives the disconnection signal and position information from the mobile device in accordance with the mobile device moving away from the key terminal, the presence/absence determination section determines whether or not the mobile device is within the aforementioned area. As a result of the determination, if the current position of the mobile device is within the aforementioned area, control for enabling reception for the mobile device is performed, and if the current position is outside the aforementioned area, control for disabling reception for the mobile device is performed.
    • 非接收控制区域信息存储在每个移动设备ID的接收控制设备的非接收控制区域存储部分中。 当接收控制装置根据移动装置从密钥终端离开时从移动装置接收到断开信号和位置信息时,有/无判断部确定移动装置是否在上述区域内。 作为确定的结果,如果移动设备的当前位置在上述区域内,则执行对于移动设备的接收的控制,并且如果当前位置在上述区域之外,则禁止对移动设备的接收的控制 设备被执行。
    • 7. 发明授权
    • Home security system
    • 家庭安全系统
    • US07561019B2
    • 2009-07-14
    • US11229707
    • 2005-09-20
    • Toyoki SasakuraKenichi Miyamoto
    • Toyoki SasakuraKenichi Miyamoto
    • H04W12/00G08B13/00
    • H04L12/2803G05B15/02H04L12/2823H04L67/12H04L2012/285H04M11/007H04W8/26H04W12/06H04W76/10
    • A security system capable of safely performing home device state check or operation. In the security system, a mobile telephone module of a mobile telephone transmits M-series data (call signal) to home device modules provided in home devices such as a door lock and home electric appliances. In response to this call, the home device module returns a home device ID to the mobile telephone module. The mobile telephone module authenticates the home device module according to the home device ID and after authentication, returns a mobile telephone ID and state check or operation command to the home device module. The home device module authenticates the mobile telephone module according to the mobile telephone ID. When this mutual authentication is complete, the home device module performs the home device state check or operation according to the command and returns the result to the mobile telephone module. Thus, the state check or operation is performed after mutual authentication and it is possible to prevent an unauthorized access of a third person.
    • 一种能够安全地执行家庭设备状态检查或操作的安全系统。 在安全系统中,移动电话的移动电话模块将M系列数据(呼叫信号)发送到诸如门锁和家用电器的家用设备中提供的家用设备模块。 响应于该呼叫,家庭设备模块向移动电话模块返回家庭设备ID。 移动电话模块根据家庭设备ID认证家庭设备模块,并且在认证之后,向家庭设备模块返回移动电话ID和状态检查或操作命令。 家庭设备模块根据移动电话ID认证移动电话模块。 当该相互认证完成时,家庭设备模块根据该命令执行家庭设备状态检查或操作,并将结果返回到移动电话模块。 因此,在相互认证之后执行状态检查或操作,并且可以防止第三人的未经授权的访问。