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    • 31. 发明申请
    • WIRELESS COMMUNICATION SYSTEM AND COMMUNICATION METHOD FOR WIRELESS COMMUNICATION SYSTEM
    • 无线通信系统无线通信系统和通信方法
    • US20130089066A1
    • 2013-04-11
    • US13582597
    • 2011-03-01
    • Hiroko MurakamiHiroki OkadaArinobu KimuraKazuhiro Nakashima
    • Hiroko MurakamiHiroki OkadaArinobu KimuraKazuhiro Nakashima
    • H04W72/04
    • G07C9/00309H04B1/713H04B1/7136H04B1/7143
    • A mobile device includes a transmitting unit that, each time an ON operation of a switch in a first mode is performed, transmits a wireless signal corresponding to the first mode ON operation by changing a frequency band among three or more frequency bands and that, when an ON operation of the switch in a second mode is performed, transmits a wireless signal, corresponding to the second mode ON operation, in the frequency band selected at that time. The transmitting unit includes a frequency band computing unit that selects one of the three or more frequency bands through a computation for changing a communication environment when the second mode ON operation of the switch is repeatedly performed. A receiver of the in-vehicle device receives a wireless signal transmitted from the transmitting unit and recognizes command information allocated in advance in correspondence with each ON operation mode of the switch.
    • 移动设备包括发送单元,每次执行第一模式的交换机的接通操作时,通过改变三个或更多个频带中的频带来发送与第一模式接通操作相对应的无线信号,并且当 执行第二模式中的开关的接通操作,在与此时所选择的频带中发送对应于第二模式接通操作的无线信号。 发送单元包括频带计算单元,当重复执行开关的第二模式接通操作时,通过用于改变通信环境的计算来选择三个或更多个频带中的一个。 车载设备的接收器接收从发送单元发送的无线信号,并根据交换机的每个接通操作模式识别预先分配的命令信息。
    • 33. 发明申请
    • IN-VEHICLE DEVICE CONTROL SYSTEM
    • 车内设备控制系统
    • US20110298580A1
    • 2011-12-08
    • US13145837
    • 2010-01-22
    • Kazuhiro NakashimaHiroko MurakamiHiroki OkadaArinobu Kimura
    • Kazuhiro NakashimaHiroko MurakamiHiroki OkadaArinobu Kimura
    • G05B23/02
    • B60R25/24B60R25/01B60R25/33B60R25/34E05B49/00G05B23/02H04M11/00
    • In an in-vehicle device control system, an in-vehicle device is controlled based on a checkup result of checkup operation, in which a checkup about a portable device is performed by mutual communication of transmitting a request signal from a vehicle-side unit mounted on a vehicle and transmitting in return a response signal from the portable device in response to the request signal. If the checkup is unsuccessful, the mutual communication is performed again by switching the communication frequency to perform the checkup again. When a user operates a door lock sensor, the vehicle-side unit performs an exterior checkup first. If the checkup is successful, a communication frequency, by which the checkup was performed successfully, is stored in a memory. The vehicle-side unit sets the communication frequency stored in the memory as a communication frequency, which is to be designated to the portable device, for performing an interior checkup next time.
    • 在车载设备控制系统中,基于检查操作的检查结果控制车载设备,其中通过相互通信来进行关于便携式设备的检查,所述相互通信是从安装的车辆侧单元发送请求信号 并且响应于请求信号而从便携式设备传回响应信号。 如果检查不成功,则通过切换通信频率再次执行相互通信以再次执行检查。 当用户操作门锁传感器时,车辆侧单元首先执行外部检查。 如果检查成功,则将成功执行检查的通信频率存储在存储器中。 车辆侧单元将存储在存储器中的通信频率设置为指定给便携式设备的通信频率,以便下次进行内部检查。
    • 34. 发明申请
    • PORTABLE EQUIPMENT DETECTING SYSTEM
    • 便携式设备检测系统
    • US20110223868A1
    • 2011-09-15
    • US13047110
    • 2011-03-14
    • Masahito KojimaKazuhiro NakashimaTakeshi Kumazaki
    • Masahito KojimaKazuhiro NakashimaTakeshi Kumazaki
    • H04B17/00
    • G07C9/00309G07C2009/00793G07C2209/63H04B17/27
    • A portable equipment detecting system includes an antenna having a first element of which a longitudinal direction is defined as a running direction of the vehicle, a second element of which longitudinal direction is defined as a direction perpendicular to the running direction of the vehicle and the vertical direction of the vehicle, and a bypass wiring of which one end is connected to a connection point between the first and second elements; and detecting circuit adapted to switch between three power-supplied states of the antenna including a first supplied state, a second supplied state and a third supplied state, and to detect a location of the portable equipment based on an acknowledge signal from the portable equipment when the power-supplied state is switched.
    • 一种便携式设备检测系统,包括具有第一元件的天线,其纵向方向被定义为车辆的行进方向,第二元件的纵向方向被定义为垂直于车辆行驶方向的方向,垂直方向 车辆的方向,以及其一端连接到第一和第二元件之间的连接点的旁路布线; 以及检测电路,其适于在包括第一提供状态,第二提供状态和第三提供状态的天线的三个电力供应状态之间切换,并且基于来自便携式设备的确认信号来检测便携式设备的位置, 电源供应状态被切换。
    • 35. 发明授权
    • Vehicle door control system
    • 车门控制系统
    • US07868735B2
    • 2011-01-11
    • US11340592
    • 2006-01-27
    • Kazuhiro NakashimaIfushi Shimonomoto
    • Kazuhiro NakashimaIfushi Shimonomoto
    • B60R25/00B60R25/10
    • B60R25/24B60R25/2036
    • In a vehicle door control system, a vehicle-side unit communicates with a hand-held device and detects an operation on any one of vehicle doors. When a condition for unlocking the doors is satisfied, the vehicle-side unit unlocks the doors. In addition, the vehicle-side unit also automatically opens some specific doors having an automatic door opening/closing function. Thus, the holder of the hand-held device no longer needs to issue another command to execute an operation to automatically open the specific doors. The vehicle side-unit also detects an operation on any doors and communicates with the hand-held device to automatically close and lock the doors, when the holder of the hand-held device leaves the vehicle.
    • 在车门控制系统中,车辆侧单元与手持装置通信,并且检测车门中的任何一个的操作。 当满足用于解锁门的条件时,车辆侧单元解锁门。 此外,车辆侧单元还自动打开具有自动开门/关闭功能的特定门。 因此,手持装置的保持器不再需要发出另一命令来执行自动打开特定门的操作。 当手持装置的保持器离开车辆时,车辆侧单元还检测任何门上的操作并与手持装置通信以自动关闭和锁定门。
    • 36. 发明授权
    • Rain shelter control system and method for doorway
    • 防雨棚控制系统及门禁方法
    • US07641259B2
    • 2010-01-05
    • US11416244
    • 2006-05-03
    • Kentaro TeshimaKazuhiro NakashimaTakeshi KumazakiHaruyuki Tsuzuki
    • Kentaro TeshimaKazuhiro NakashimaTakeshi KumazakiHaruyuki Tsuzuki
    • B60J9/00
    • B60J7/0573B60J5/0494Y10S160/04
    • In a rain shelter control system for vehicular doorways, an electronic key ECU causes exterior signal transmitters to periodically transmit request signals. When a portable device receives the request signal in an arrival range of the request signals, the portable device generates a response signal responsive to the request signal. When a receiver receives the response signal from the portable device, the electronic key ECU operates to automatically open any of rain shelters near the portable device, so that a holder of the portable device and passengers fold their umbrellas under the opened rain shelters, so that they can get into a vehicle without being exposed to rain. Besides, the electronic key ECU operates to automatically open the rain shelter when they get off the vehicle.
    • 在用于车门口的雨棚控制系统中,电子钥匙ECU使得外部信号发射器周期性地发送请求信号。 当便携式设备在请求信号的到达范围内接收到请求信号时,便携式设备响应于请求信号产生响应信号。 当接收器从便携式设备接收到响应信号时,电子钥匙ECU操作以自动打开便携式设备附近的任何雨棚,使得便携式设备的座位和乘客将遮阳伞折叠在敞开的雨棚下方,使得 他们可以进入车辆而不被暴露在雨中。 此外,电子钥匙ECU在下车时自动打开雨棚。
    • 39. 发明申请
    • On-vehicle equipment control system
    • 车载设备控制系统
    • US20070120645A1
    • 2007-05-31
    • US11604219
    • 2006-11-27
    • Kazuhiro Nakashima
    • Kazuhiro Nakashima
    • G05B19/00
    • G07C9/00309G07C2009/00547G07C2209/63
    • When vehicle doors have been opened and closed, request signals are transmitted from external transmitters and an internal transmitter to perform mutual communication with a portable device. At this time, when matching of an ID code of the portable device is OK, this matching result is stored. In mutual communication of one of when the vehicle doors are opened and closed, and when door lock switches are operated, if matching of the ID code is OK, the vehicle doors are automatically locked. In this way, by increasing chances of mutual communication between a vehicle unit and the portable device, it becomes more likely that the vehicle doors can be locked.
    • 当车门打开和关闭时,请求信号从外部发射机和内部发射机传输,以便与便携式设备进行相互通信。 此时,当便携式设备的ID码的匹配为OK时,存储该匹配结果。 在车门打开和关闭之一以及当门锁开关被操作时的相互通信中,如果ID代码的匹配是OK,则车门被自动锁定。 以这种方式,通过增加车辆单元和便携式设备之间的相互通信的机会,车门更可能被锁定。
    • 40. 发明申请
    • On-board illumination controlling system and method
    • 车载照明控制系统及方法
    • US20070030136A1
    • 2007-02-08
    • US11485456
    • 2006-07-13
    • Kentaro TeshimaKazuhiro NakashimaHaruyuki Tsuzuki
    • Kentaro TeshimaKazuhiro NakashimaHaruyuki Tsuzuki
    • B60Q11/00
    • B60Q1/323B60Q3/80B60Q2400/40
    • An on-board illumination controlling system includes a mobile communicator and an on-board unit. The mobile communicator receives one of request signals and transmits, in response to the received request signal, a response signal. The on-board unit includes: multiple transmitters, a receiver, a comparison ECU and a control ECU. The multiple transmitters are installed, respectively, to different portions of the vehicle. The multiple transmitters transmit, respectively, the request signals to different communication areas. The receiver receives the response signal from the mobile communicator. The comparison ECU specifies one of the multiple transmitters which has transmitted the one of the request signals. The control ECU turns on one of multiple lighting devices in the vehicle corresponding to the specified one of the multiple transmitters.
    • 车载照明控制系统包括移动通信器和车载单元。 移动通信器接收一个请求信号,并响应于接收的请求信号发送响应信号。 车载单元包括:多个发射器,接收器,比较ECU和控制ECU。 多个发射机分别安装到车辆的不同部分。 多个发射机分别将请求信号发送到不同的通信区域。 接收机从移动通信器接收响应信号。 比较ECU指定已经发送了请求信号之一的多个发射机之一。 控制ECU接通对应于多个发射机中指定的一个的车辆中的多个照明装置中的一个。