会员体验
专利管家(专利管理)
工作空间(专利管理)
风险监控(情报监控)
数据分析(专利分析)
侵权分析(诉讼无效)
联系我们
交流群
官方交流:
QQ群: 891211   
微信请扫码    >>>
现在联系顾问~
热词
    • 1. 发明申请
    • MOBILE STATION, BASE STATION, AND WIRELESS COMMUNICATION METHOD
    • 移动站,基站和无线通信方法
    • US20110189972A1
    • 2011-08-04
    • US13015948
    • 2011-01-28
    • Tomonori SatoToshio Kawasaki
    • Tomonori SatoToshio Kawasaki
    • H04M11/04
    • H04W74/008H04W4/90H04W28/02H04W74/0833H04W76/50
    • A mobile station that performs wireless communication through a base station, includes a first connection setup request unit configured to make a first connection setup request for an emergency call and a normal call when communication performed in the communication region of the base station is in a congestion state, the emergency call and the normal call using a signal sequence that corresponds to a sequence number of a connection setup request signal used when communication performed in a communication region of the base station is in a normal state, and a second connection setup request unit configured to make a second connection setup request for another one of the emergency call and the normal call different from the first connection setup request, using a generated-signal sequence generated from the sequence number, when communication performed in the communication region of the base station is in the congestion state.
    • 通过基站执行无线通信的移动台包括第一连接建立请求单元,被配置为当在基站的通信区域中执行的通信处于拥塞时进行紧急呼叫和正常呼叫的第一连接建立请求 状态,紧急呼叫和使用与在基站的通信区域中执行的通信时所使用的连接建立请求信号的序列号相对应的信号序列的正常呼叫处于正常状态,以及第二连接建立请求单元 被配置为当在所述基站的通信区域中执行的通信时,使用从所述序列号生成的生成信号序列,对与所述第一连接建立请求不同的所述紧急呼叫和所述正常呼叫中的另一个进行第二连接建立请求 处于拥挤状态。
    • 2. 发明授权
    • Calibration apparatus
    • 校准装置
    • US07340248B2
    • 2008-03-04
    • US11188379
    • 2005-07-25
    • Toshio KawasakiChiyoshi AkiyamaTomonori Sato
    • Toshio KawasakiChiyoshi AkiyamaTomonori Sato
    • H04Q7/20
    • H01Q3/267H04B7/0615H04B7/0842H04B17/10H04B17/21
    • In a calibration apparatus, which calibrates the phases of main signals input to each of the antenna elements of an array antenna, a calibration signal generation portion generates calibration signals, which are combined with main signals. An RF switch alternately inputs to a wireless receiving portion the signals radiated from other antenna elements via a first antenna element, and the signals radiated from other antenna elements via a second antenna element, and causes demodulation. The calibration detection portion detects calibration signals from the demodulated signals, and the weight generation portion uses the detected calibration signals to calculate calibration weights, which are set in the phase shifter, to control the phases of main signals for input to each antenna element.
    • 在校准装置中,校准输入到阵列天线的每个天线元件的主信号的相位,校准信号产生部分产生与主信号相组合的校准信号。 RF开关经由第一天线元件交替地向无线接收部分输入从其他天线元件辐射的信号,以及经由第二天线元件从其他天线元件辐射的信号,并且引起解调。 校准检测部分从解调信号中检测校准信号,并且权重产生部分使用检测到的校准信号来计算在移相器中设置的校准权重,以控制用于输入到每个天线元件的主信号的相位。
    • 3. 发明授权
    • Mobile station, base station, and wireless communication method
    • 移动台,基站和无线通信方式
    • US08514801B2
    • 2013-08-20
    • US13015948
    • 2011-01-28
    • Tomonori SatoToshio Kawasaki
    • Tomonori SatoToshio Kawasaki
    • H04W4/22
    • H04W74/008H04W4/90H04W28/02H04W74/0833H04W76/50
    • A mobile station that performs wireless communication through a base station, includes a first connection setup request unit configured to make a first connection setup request for an emergency call and a normal call when communication performed in the communication region of the base station is in a congestion state, the emergency call and the normal call using a signal sequence that corresponds to a sequence number of a connection setup request signal used when communication performed in a communication region of the base station is in a normal state, and a second connection setup request unit configured to make a second connection setup request for another one of the emergency call and the normal call different from the first connection setup request, using a generated-signal sequence generated from the sequence number, when communication performed in the communication region of the base station is in the congestion state.
    • 通过基站执行无线通信的移动台包括第一连接建立请求单元,被配置为当在基站的通信区域中执行的通信处于拥塞时进行紧急呼叫和正常呼叫的第一连接建立请求 状态,紧急呼叫和使用与在基站的通信区域中执行的通信时所使用的连接建立请求信号的序列号相对应的信号序列的正常呼叫处于正常状态,以及第二连接建立请求单元 被配置为当在所述基站的通信区域中执行的通信时,使用从所述序列号生成的生成信号序列,对与所述第一连接建立请求不同的所述紧急呼叫和所述正常呼叫中的另一个进行第二连接建立请求 处于拥挤状态。
    • 5. 发明授权
    • Calibration apparatus and method for array antenna
    • 阵列天线校准装置及方法
    • US07248216B2
    • 2007-07-24
    • US11235052
    • 2005-09-27
    • Chiyoshi AkiyamaToshio KawasakiTomonori Sato
    • Chiyoshi AkiyamaToshio KawasakiTomonori Sato
    • H01Q3/00
    • H01Q3/267
    • The present invention relates to a calibration apparatus for an array antenna having a plurality of antenna elements. The calibration apparatus comprises a conversion unit detecting a calibration signal from an output of a transmission unit to convert the detected calibration signal into a predetermined reception radio frequency and outputting the converted calibration signal together with a reception main signal to a reception unit, a detecting unit detecting the calibration signal from an output of the reception unit for each of the antenna elements to obtain a relative phase difference between the calibration signals, and a phase correcting unit correcting a phase difference with respect to one of or both a transmission main signal and a reception main signal based on the obtained relative phase difference. This configuration can eliminate the need for a radio transmitter-receiver dedicated to a calibration signal, thus facilitating the calibrations.
    • 本发明涉及一种具有多个天线元件的阵列天线校准装置。 所述校准装置包括:转换单元,检测来自发送单元的输出的校准信号,将检测出的校准信号转换为预定的接收射频,并将转换的校准信号与接收主信号一起输出到接收单元;检测单元 从每个天线元件的接收单元的输出端检测校准信号,以获得校准信号之间的相对相位差;相位校正单元,相对于发送主信号和 接收主信号基于获得的相对相位差。 这种配置可以消除对专用于校准信号的无线电发射机 - 接收机的需要,从而便于校准。
    • 6. 发明申请
    • Calibration apparatus and method for array antenna
    • 阵列天线校准装置及方法
    • US20060279459A1
    • 2006-12-14
    • US11235052
    • 2005-09-27
    • Chiyoshi AkiyamaToshio KawasakiTomonori Sato
    • Chiyoshi AkiyamaToshio KawasakiTomonori Sato
    • H01Q3/26H04B17/00
    • H01Q3/267
    • The present invention relates to a calibration apparatus for an array antenna having a plurality of antenna elements. The calibration apparatus comprises a conversion unit detecting a calibration signal from an output of a transmission unit to convert the detected calibration signal into a predetermined reception radio frequency and outputting the converted calibration signal together with a reception main signal to a reception unit, a detecting unit detecting the calibration signal from an output of the reception unit for each of the antenna elements to obtain a relative phase difference between the calibration signals, and a phase correcting unit correcting a phase difference with respect to one of or both a transmission main signal and a reception main signal based on the obtained relative phase difference. This configuration can eliminate the need for a radio transmitter-receiver dedicated to a calibration signal, thus facilitating the calibrations.
    • 本发明涉及一种具有多个天线元件的阵列天线校准装置。 所述校准装置包括:转换单元,检测来自发送单元的输出的校准信号,将检测出的校准信号转换为预定的接收射频,并将转换的校准信号与接收主信号一起输出到接收单元;检测单元 从每个天线元件的接收单元的输出端检测校准信号,以获得校准信号之间的相对相位差;相位校正单元,相对于发送主信号和 接收主信号基于获得的相对相位差。 这种配置可以消除对专用于校准信号的无线电发射机 - 接收机的需要,从而便于校准。
    • 7. 发明申请
    • Calibration apparatus
    • 校准装置
    • US20060234694A1
    • 2006-10-19
    • US11188379
    • 2005-07-25
    • Toshio KawasakiChiyoshi AkiyamaTomonori Sato
    • Toshio KawasakiChiyoshi AkiyamaTomonori Sato
    • H04Q7/20
    • H01Q3/267H04B7/0615H04B7/0842H04B17/10H04B17/21
    • In a calibration apparatus, which calibrates the phases of main signals input to each of the antenna elements of an array antenna, a calibration signal generation portion generates calibration signals, which are combined with main signals. An RF switch alternately inputs to a wireless receiving portion the signals radiated from other antenna elements via a first antenna element, and the signals radiated from other antenna elements via a second antenna element, and causes demodulation. The calibration detection portion detects calibration signals from the demodulated signals, and the weight generation portion uses the detected calibration signals to calculate calibration weights, which are set in the phase shifter, to control the phases of main signals for input to each antenna element.
    • 在校准装置中,校准输入到阵列天线的每个天线元件的主信号的相位,校准信号产生部分产生与主信号相组合的校准信号。 RF开关经由第一天线元件交替地向无线接收部分输入从其他天线元件辐射的信号,以及经由第二天线元件从其他天线元件辐射的信号,并且引起解调。 校准检测部分从解调信号中检测校准信号,并且权重产生部分使用检测到的校准信号来计算在移相器中设置的校准权重,以控制用于输入到每个天线元件的主信号的相位。
    • 8. 发明授权
    • Antenna installation method in a multiple input multiple output communication method
    • 天线安装方法在多输入多输出通信方式
    • US08503951B2
    • 2013-08-06
    • US12704501
    • 2010-02-11
    • Toshio Kawasaki
    • Toshio Kawasaki
    • H04B1/02H04B1/06
    • H04B7/04H01Q21/28H04B7/0413Y10T29/49016
    • A communication system includes a first communication apparatus and a second communication apparatus. The second communication apparatus transmits different signals from first and second antennas, and first and second antennas of the first communication apparatus receive the signals, respectively. An angle formed by a first line connecting the first communication apparatus and the first antenna of the second communication apparatus and a second line connecting the first communication apparatus and the second antenna of the second communication apparatus is set to be equal to or smaller than 180 degrees. A distance between the first and second antennas of the first communication apparatus is set to a specified value, which is determined by a signal wavelength and the angle formed by the first line and the second line.
    • 通信系统包括第一通信装置和第二通信装置。 第二通信装置从第一和第二天线发送不同的信号,第一通信装置的第一和第二天线分别接收信号。 由连接第一通信装置的第一线和第二通信装置的第一天线形成的角度和连接第二通信装置的第一通信装置和第二天线的第二线路之间的角度被设定为等于或小于180度 。 将第一通信装置的第一和第二天线之间的距离设置为由信号波长和由第一线和第二线形成的角度确定的指定值。
    • 9. 发明申请
    • FREQUENCY CONTROL DEVICE, FREQUENCY CONTROL METHOD, AND BASE TRANSCEIVER STATION
    • 频率控制装置,频率控制方法和基站收发站
    • US20100248743A1
    • 2010-09-30
    • US12728418
    • 2010-03-22
    • Toshio Kawasaki
    • Toshio Kawasaki
    • H04W64/00
    • H04B7/01H04L27/0014
    • A frequency control device receiving a signal transmitted from each of a plurality of mobile stations, the frequency control device includes a first detecting unit to detect a frequency deviation generated from the signal, a second detecting unit to acquire information about at least a current position or movement of each of the mobile stations as classification information, and a classifying unit to classify mobile stations estimated to be moving in a same moving direction with a same moving speed as a first mobile station based on the classification information. The frequency control device includes a first calculating unit to calculate a first frequency deviations of a signal received from the first mobile station, and a compensation unit to compensate the frequency deviation of the signal received from the first mobile station based on the first frequency deviation.
    • 一种频率控制装置,接收从多个移动站中的每一个发送的信号,所述频率控制装置包括检测从所述信号产生的频率偏差的第一检测单元,第二检测单元,获取关于至少当前位置的信息, 每个移动站的移动作为分类信息,以及分类单元,用于基于分类信息,以与第一移动站相同的移动速度将估计移动的移动站以相同的移动方向进行分类。 频率控制装置包括:第一计算单元,计算从第一移动站接收的信号的第一频率偏差;以及补偿单元,用于基于第一频率偏差补偿从第一移动站接收的信号的频率偏差。
    • 10. 发明申请
    • Communications system, transmitter, receiver, and communications method thereof
    • 通信系统,发射机,接收机及其通信方法
    • US20070274201A1
    • 2007-11-29
    • US11802987
    • 2007-05-29
    • Toshio Kawasaki
    • Toshio Kawasaki
    • H04J11/00H03K5/159H04K1/10H04J1/00
    • H04L27/2614
    • Sample signals P0(0) to P0(N−1) are input for each symbol of a multiplexed transmission sample or transmission chip. The sum of a particular pair of sample signals (for example, a pair of P0(0) and P0(N/2)) is obtained by an adder for each pair of sample signals, and a signal the power of which is halved by attenuating the sum with an attenuator is generated and output as a dispersion signal P1(N/2). Additionally, a difference between the pair of the sample signals is obtained by a subtractor, and a signal the power of which is halved by attenuating the difference with an attenuator is generated and output as a dispersion signal P1(0). The dispersion signals P1(0) and P1(N/2) are made to respectively correspond to first and second subsymbols, which are configured by partitioning the symbol.
    • 针对多路传输采样或传输芯片的每个符号输入采样信号P 0(0)至P 0(N-1)。 通过加法器为每对采样信号获得特定的一对采样信号(例如,一对P 0(0)和P 0(N / 2))的和,并且其功率为 产生通过用衰减器衰减和减半,并作为色散信号P 1(N / 2)输出。 此外,通过减法器获得一对采样信号之间的差异,并且产生通过衰减与衰减器的差来减弱其功率的信号,并将其输出作为色散信号P 1(0)输出。 分散信号P 1(0)和P 1(N / 2)分别对应于通过划分符号来配置的第一和第二子符号。