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    • 2. 发明授权
    • Control method of radio communication system, radio communication system, and radio communication apparatus
    • 无线电通信系统,无线电通信系统和无线电通信装置的控制方法
    • US08811907B2
    • 2014-08-19
    • US13505692
    • 2010-11-02
    • Kenichi HosoyaKenichi MaruhashiNaoyuki Orihashi
    • Kenichi HosoyaKenichi MaruhashiNaoyuki Orihashi
    • H04B1/00
    • H04B7/06H01Q3/24H04B1/44H04B7/0408H04B7/0695H04B7/088H04B17/373
    • A communication device 1 (transceivers 400) transmits a training signal from its own transmitting antenna while performing beam scanning, and a communication device 2 (transceivers 500) receives this training signal in a state where a quasi-omni pattern is generated in its own receiving antenna. Further, the device 1 transmits a training signal in a state where a quasi-omni pattern is generated in the transmitting antenna, and the device 2 receives this training signal by the receiving antenna while performing beam scanning. The device 1 and 2 detects, from respective reception results, transmitting-antenna-setting candidates of the device 1 and receiving-antenna-setting candidates of the device 2,and determines antenna-setting pairs (combinations of antenna-setting candidates). The above-described processes are also performed for a receiving antenna of the device 1 and a transmitting antenna of the device 2. The device 1 and 2 communicates by using the obtained antenna-setting pairs. In this way, when radio communication is performed by using beam forming, the time necessary for finding and setting a beam direction is reduced, thereby reducing the transmission-disconnected time.
    • 通信设备1(收发器400)在执行波束扫描时从其自身的发送天线发送训练信号,并且通信设备2(收发器500)在其自身接收中产生准全向模式的状态下接收该训练信号 天线。 此外,设备1在发射天线中产生准全向模式的状态下发送训练信号,并且设备2在执行波束扫描时由接收天线接收该训练信号。 设备1和2从相应的接收结果中检测设备1的发射天线设置候选和设备2的接收天线设置候选,并且确定天线设置对(天线设置候选的组合)。 对于设备1的接收天线和设备2的发射天线也执行上述处理。设备1和2通过使用所获得的天线设置对进行通信。 以这种方式,当通过使用波束形成执行无线电通信时,减少了发现和设置波束方向所需的时间,从而减少了传输断开时间。
    • 3. 发明申请
    • METHOD OF CONTROLLING WIRELESS COMMUNICATION SYSTEM AND WIRELESS COMMUNICATION SYSTEM
    • 无线通信系统和无线通信系统的控制方法
    • US20120142288A1
    • 2012-06-07
    • US13356093
    • 2012-01-23
    • Kenichi HosoyaKenichi MaruhashiNaoyuki Orihashi
    • Kenichi HosoyaKenichi MaruhashiNaoyuki Orihashi
    • H04B1/40
    • H04B7/0617H04B7/086
    • A first device transmits a training signal with a fixed beam pattern, a second device receives the training signal while scanning a beam direction, and then it obtains first AWVs each having a main beam or sub-beam beam direction in an incoming direction in the second device. Next, the first device transmits a training signal while scanning a beam direction, the second device receives the training signal with a fixed beam pattern, and then it obtains second AWVs each having a main beam or sub-beam direction in an emitting direction in the first communication device. The roles of these two devices are interchanged and similar processes are performed in order to obtain third and fourth AWVs, and then one of first AWV combinations from first and second AWVs and one of second AWV combinations from third and fourth AWVs are used for wireless communication between these devices.
    • 第一设备以固定波束图案发送训练信号,第二设备在扫描波束方向时接收训练信号,然后在第二设备中获得在入射方向上具有主波束或子波束束方向的第一AWV 设备。 接下来,第一设备在扫描波束方向时发送训练信号,第二设备以固定波束图案接收训练信号,然后获得第二AWV,其中每个AWV在发射方向上具有主波束或子波束方向 第一通信设备。 这两个装置的作用被互换,并且执行类似的处理以获得第三和第四AWV,然后使用来自第一和第二AWV的第一AWV组合之一和来自第三和第四AWV的第二AWV组合之一用于无线通信 在这些设备之间。
    • 4. 发明授权
    • Image data display apparatus in which image data are displayed on terminal display unit and NTSC system display unit
    • 图像数据显示装置,其中图像数据显示在终端显示单元和NTSC系统显示单元上
    • US06529205B2
    • 2003-03-04
    • US09217852
    • 1998-12-21
    • Kenichi Hosoya
    • Kenichi Hosoya
    • G09G504
    • G06F3/1431G09G5/18G09G5/39G09G5/395H04N9/641
    • An image data display apparatus includes a terminal display unit, an NTSC display unit, and a frame memory having a first port and a second port, for storing an image data. A display timing control unit generates a terminal display timing signal and an NTSC display timing signal. A frame memory control unit generates a first read control signal in response to the terminal display timing signal such that the image data is read out from the first port of the frame memory, and a second read control signal in response to the NTSC display timing signal such that at least a part of the image data is read out from the second port of the frame memory. A first converting unit converts the image data read out from the first port of the frame memory into a terminal display signal such that the read out image data is displayed on the terminal display unit. Also, a second converting unit converts the at least a part of the image data read out from the second port of the frame memory into an NTSC display signal such that the at least a part of the image data is displayed on the NTSC display unit.
    • 图像数据显示装置包括终端显示单元,NTSC显示单元和具有第一端口和第二端口的帧存储器,用于存储图像数据。 显示定时控制单元生成终端显示定时信号和NTSC显示定时信号。 帧存储器控制单元响应于终端显示定时信号产生第一读控制信号,使得从帧存储器的第一端口读出图像数据,并响应于NTSC显示定时信号产生第二读控制信号 使得至少一部分图像数据从帧存储器的第二端口读出。 第一转换单元将从帧存储器的第一端口读出的图像数据转换成终端显示信号,使得读出的图像数据被显示在终端显示单元上。 此外,第二转换单元将从帧存储器的第二端口读出的图像数据的至少一部分转换成NTSC显示信号,使得至少一部分图像数据被显示在NTSC显示单元上。
    • 5. 发明授权
    • Control method of radio communication system, radio communication system, and radio communication apparatus
    • 无线电通信系统,无线电通信系统和无线电通信装置的控制方法
    • US09184821B2
    • 2015-11-10
    • US13505992
    • 2010-11-02
    • Kenichi HosoyaKenichi MaruhashiNaoyuki Orihashi
    • Kenichi HosoyaKenichi MaruhashiNaoyuki Orihashi
    • H04B7/06H04B7/08
    • H04B7/0617H04B7/0408H04B7/061H04B7/0695H04B7/086H04B7/088H04L5/0048
    • When communication is to be performed between communication devices having a directivity control function, a plurality of antenna-setting pairs available for the communication are stored by an initial training, and the communication is started by using one of the plurality of antenna-setting pairs. When the communication quality is deteriorated, firstly, a training signal is transmitted while successively setting each one of the plurality of antenna-setting candidates determined in the initial training in a transmitting antenna of one of the communication devices (400), and the training signal is received in a state where a quasi-omni pattern is generated in a receiving antenna of the other communication device (500). In this way, in radio communication performing beam forming, it is possible to ensure the time synchronization between the communication devices when communication is disconnected or communication quality is deteriorated due to shielding or the like.
    • 当在具有方向性控制功能的通信设备之间进行通信时,通过初始训练来存储可用于通信的多个天线设置对,并且通过使用多个天线设置对之一来开始通信。 当通信质量恶化时,首先,在通信装置(400)中的一个的发送天线中连续设置在初始训练中确定的多个天线设定候补中的每一个天线设定候补的训练信号,并且训练信号 在其他通信设备(500)的接收天线中产生准全向模式的状态下被接收。 以这种方式,在执行波束形成的无线电通信中,当通信断开或通信质量由于屏蔽等而劣化时,可以确保通信装置之间的时间同步。
    • 7. 发明授权
    • Voltage controlled oscillator and frequency control method of the voltage controlled oscillator
    • 压控振荡器和压控振荡器的频率控制方法
    • US07652544B2
    • 2010-01-26
    • US11885859
    • 2006-01-26
    • Kenichi HosoyaShigeki Wada
    • Kenichi HosoyaShigeki Wada
    • H03B5/12
    • H03B5/1231H03B5/1212H03B5/1215H03B5/124H03B5/1265H03B5/1293H03B2201/025H03J2200/10
    • A voltage controlled oscillator of the present invention includes power supply terminal (101), control terminal (2) for controlling an output frequency, output terminals (3a, 3b), cross-coupled transistors (5a, 5b), capacitances (6a, 6b, 7a, 7b), LC tanks (10a, 10b), resistor (117), grounding capacitance (18) and center frequency control circuit (16). Center frequency control circuit (16) includes resistors (11a, 11b), grounding capacitance (12), center frequency control terminal (4) for controlling a center frequency of the output frequency, and voltage-divider circuit (15). Resistors (11a, 11b) are connected to the base terminals of cross-coupled transistors (5a, 5b), the other ends of resistors (11a, 11b) are connected to each other, and, to this connecting point, one end of grounding capacitance (12) and one end of voltage-divider circuit (15) are connected. The other end of voltage-divider circuit (15) is connected to center frequency control terminal (4).
    • 本发明的压控振荡器包括电源端子(101),用于控制输出频率的控制端子(2),输出端子(3a,3b),交叉耦合晶体管(5a,5b),电容(6a,6b) ,7a,7b),LC箱(10a,10b),电阻器(117),接地电容(18)和中心频率控制电路(16)。 中心频率控制电路(16)包括用于控制输出频率的中心频率的电阻器(11a,11b),接地电容(12),中心频率控制端子(4)和分压电路(15)。 电阻器(11a,11b)连接到交叉耦合晶体管(5a,5b)的基极端子,电阻器(11a,11b)的另一端彼此连接,并且在该连接点的一端 电容(12)和分压电路(15)的一端连接。 分压器电路(15)的另一端连接到中心频率控制端子(4)。
    • 8. 发明申请
    • Reflection loss suppression circuit
    • 反射损耗抑制电路
    • US20060238269A1
    • 2006-10-26
    • US11447838
    • 2006-06-07
    • Kenichi Hosoya
    • Kenichi Hosoya
    • H01P1/26
    • H03F3/605H03F1/22
    • An object is to suppress a reflection loss in any desired frequency band outside a required band, without affecting circuit characteristics in the required frequency band. The output impedance of a circuit in a specified frequency band is transformed into a high impedance by a transmission line 15. A resistance grounding circuit 18 having a frequency selectivity is connected in parallel. The resistance grounding circuit 18 is constructed of a resistor 16 which has a resistance close to a load resistance, a capacitance C which is selected so as to satisfy an equation Im[tanh{γ(λ/2−δ)}]=−ω0CZ0 at an angular frequency ω0 included in the frequency band, and a (λ/2−δ)-long end-open stub.
    • 目的是抑制所需频带外的任何期望频带的反射损耗,而不影响所需频带中的电路特性。 通过传输线15将特定频带中的电路的输出阻抗变换为高阻抗。具有频率选择性的电阻接地电路18并联连接。 电阻接地电路18由电阻16构成,电阻16具有接近负载电阻的电阻,电容C被选择以满足方程式Im [tanh {gamma(λ/ 2-δ)}] =ω 包括在频带中的角频率ω0 <0>和<0> 0 0 和(λ/ 2-δ)长端 存根。
    • 9. 发明申请
    • RADIO COMMUNICATION APPARATUS, TRANSMITTER, AND RADIO COMMUNICATION METHOD
    • 无线电通信设备,发射机和无线电通信方法
    • US20120280861A1
    • 2012-11-08
    • US13517021
    • 2010-10-14
    • Shuya KishimotoKenichi MaruhashiKenichi Hosoya
    • Shuya KishimotoKenichi MaruhashiKenichi Hosoya
    • H01Q3/00
    • H04B7/0682G01S7/2813H01Q3/2611H01Q3/2629H01Q21/22H04B7/0408
    • In a phased array antenna radio communication apparatus including a plurality of antennas, a radio communication apparatus is provided which can reduce an influence of the local leak signals on the radiation direction of transmission signals. Local signal phase shifters 11-1 to 11-h are used to control phases of local signals to be input to quadrature modulators 13-1 to 13-h, and baseband signal phase shifters 12-1 to 12-h are used to control phases of baseband signals to be input to the quadrature modulators 13-1 to 13-h. The radiation direction of the local leak signals to be sent from transmission antennas 15-1 to 15-h can be controlled by the local signal phase shifters 11-1 to 11-h, and the radiation direction of the transmission signals can be controlled by both of the local signal phase shifters 11-1 to 11-h and the baseband signal phase shifters 12-1 to 12-h.
    • 在包括多个天线的相控阵天线无线电通信装置中,提供一种能够减少局部泄漏信号对发射信号的辐射方向的影响的无线电通信装置。 本地信号移相器11-1至11-h用于控制要输入到正交调制器13-1至13-h的本地信号的相位,基带信号移相器12-1至12-h用于控制相位 的基带信号输入到正交调制器13-1至13-h。 可以由本地信号移相器11-1至11-h控制从发送天线15-1至15-h发送的局部泄漏信号的辐射方向,并且可以通过以下方式来控制发送信号的辐射方向 本地信号移相器11-1至11-h以及基带信号移相器12-1至12-h。
    • 10. 发明申请
    • CONTROL METHOD OF WIRELESS COMMUNICATION SYSTEM, WIRELESS COMMUNICATION SYSTEM, TRANSMITTING APPARATUS, AND RECEIVING APPARATUS
    • 无线通信系统,无线通信系统,发送设备和接收设备的控制方法
    • US20110105032A1
    • 2011-05-05
    • US13003653
    • 2009-05-13
    • Kenichi MaruhashiNaoyuki OrihashiKenichi Hosoya
    • Kenichi MaruhashiNaoyuki OrihashiKenichi Hosoya
    • H04B7/04
    • H04B7/0617
    • A channel response matrix is obtained by performing a training process between a transmitter 401 and a receiver 402 to obtain optimal signal phases of the antenna array. Next, a singular-value decomposition (SVD) process is performed to decompose the channel response matrix into a correlation matrix and eigenvalues. Next, a diagonal matrix having square roots of the eigenvalues as its components is obtained. Next, all but one of diagonal components included in the diagonal matrix are replaced with zeros, and optimal setting of the amplitudes and phases of signals to be applied to the antenna array (antenna weight vector) for use in wireless communication between the transmitter and the receiver is obtained based on a channel response matrix that is reconstructed by using the component-replaced diagonal matrix. In this way, when wireless communication is implemented by performing beam forming, the time necessary to find and set a beam direction can be reduced.
    • 通过执行发射机401和接收机402之间的训练处理来获得信道响应矩阵,以获得天线阵列的最佳信号相位。 接下来,执行奇异值分解(SVD)处理,以将信道响应矩阵分解为相关矩阵和特征值。 接下来,获得具有特征值的平方根作为其分量的对角矩阵。 接下来,由对角线矩阵中包括的对角线组件中除一个之外的所有部分都被替换为零,并且将适用于天线阵列(天线权重向量)的信号的幅度和相位的最佳设置用于发射机和发射机之间的无线通信 基于通过使用组件替换对角矩阵重建的信道响应矩阵获得接收机。 以这种方式,当通过执行波束形成来实现无线通信时,可以减少查找和设置波束方向所需的时间。