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    • 1. 发明授权
    • Wireless communication apparatus
    • 无线通信装置
    • US07885344B2
    • 2011-02-08
    • US11724293
    • 2007-03-15
    • Takashi NakayamaMitsuhiro Suzuki
    • Takashi NakayamaMitsuhiro Suzuki
    • H04K1/10
    • H04L27/2601H04B2001/7154
    • A wireless communication apparatus utilizing an orthogonal frequency division multiplexing communication method includes an antenna transmitting and receives a radio-frequency signal; a receiver frequency converter frequency-converting the radio-frequency signal into a baseband signal in accordance with a low-intermediate frequency method; an analog-to-digital converter converting the baseband signal into a digital signal; an orthogonal frequency division multiplexing demodulator acquiring a plurality of subcarriers in a frequency domain; a data reproduction unit reproducing data; a transmission data generator generating transmission data; an orthogonal frequency division multiplexing modulator performing orthogonal frequency division multiplexing modulation of the plurality of subcarriers; a digital-to-analog converter converting the digital orthogonal frequency division multiplexing signal into an analog signal; and a transmitter frequency converter converting the analog transmission baseband signal into a transmission radio-frequency signal in accordance with a zero-intermediate frequency method.
    • 利用正交频分多路复用通信方式的无线通信装置包括发送和接收射频信号的天线; 接收机频率转换器,根据低中频方法将射频信号频率转换为基带信号; 将基带信号转换为数字信号的模数转换器; 在频域中获取多个子载波的正交频分复用解调器; 数据再现单元再现数据; 产生发送数据的发送数据发生器; 正交频分复用调制器,执行所述多个子载波的正交频分复用调制; 将数字正交频分复用信号转换为模拟信号的数/模转换器; 以及根据零中频方法将模拟发送基带信号转换为发送射频信号的发送机频率转换器。
    • 2. 发明申请
    • Wireless communication apparatus
    • 无线通信装置
    • US20070223608A1
    • 2007-09-27
    • US11724293
    • 2007-03-15
    • Takashi NakayamaMitsuhiro Suzuki
    • Takashi NakayamaMitsuhiro Suzuki
    • H04K1/10
    • H04L27/2601H04B2001/7154
    • A wireless communication apparatus utilizing an orthogonal frequency division multiplexing communication method includes an antenna transmitting and receives a radio-frequency signal; a receiver frequency converter frequency-converting the radio-frequency signal into a baseband signal in accordance with a low-intermediate frequency method; an analog-to-digital converter converting the baseband signal into a digital signal; an orthogonal frequency division multiplexing demodulator acquiring a plurality of subcarriers in a frequency domain; a data reproduction unit reproducing data; a transmission data generator generating transmission data; an orthogonal frequency division multiplexing modulator performing orthogonal frequency division multiplexing modulation of the plurality of subcarriers; a digital-to-analog converter converting the digital orthogonal frequency division multiplexing signal into an analog signal; and a transmitter frequency converter converting the analog transmission baseband signal into a transmission radio-frequency signal in accordance with a zero-intermediate frequency method.
    • 利用正交频分多路复用通信方式的无线通信装置包括发送和接收射频信号的天线; 接收机频率转换器,根据低中频方法将射频信号频率转换为基带信号; 将基带信号转换为数字信号的模数转换器; 在频域中获取多个子载波的正交频分复用解调器; 数据再现单元再现数据; 产生发送数据的发送数据发生器; 正交频分复用调制器,执行所述多个子载波的正交频分复用调制; 将数字正交频分复用信号转换为模拟信号的数/模转换器; 以及根据零中频方法将模拟发送基带信号转换为发送射频信号的发送机频率转换器。
    • 5. 发明授权
    • Communication apparatus and communication method
    • 通信设备和通信方法
    • US07983321B2
    • 2011-07-19
    • US12134747
    • 2008-06-06
    • Mitsuhiro Suzuki
    • Mitsuhiro Suzuki
    • H04B1/00H03D1/00
    • H04B1/7183H04B1/692H04B1/707H04B1/719
    • There is provided a communication apparatus compliant with ultra wide band communication systems for improving resistance to interfering waves in combination with DS-SS (direct sequence spread spectrum). There is provided a training section based on short code spread with the same pattern repeated for each symbol length. Actual communication itself is preceded by coherent channel measurement of a transmission channel by using the training section to specify a length of the short code to be a measurement period and using N cycles of a carrier as a time resolution for measurement. A chip timing is controlled at the time resolution for measurement. At all points given by a time resolution for a measurement period, a measured value is obtained by using the short code to despread A/D-converted values from an input signal based on the chip timing.
    • 提供了一种符合超宽带通信系统的通信设备,用于与DS-SS(直接序列扩频)结合来提高对干扰波的抗性。 提供了基于短代码扩展的训练部分,对于每个符号长度重复相同的模式。 通过使用训练部分将短码的长度指定为测量周期并且使用载波的N个周期作为测量的时间分辨率,在实际通信本身之前进行传输信道的相干信道测量。 在测量的时间分辨率下控制芯片定时。 在由测量周期的时间分辨率给出的所有点处,通过使用短码来基于芯片定时从输入信号中解码A / D转换值来获得测量值。
    • 7. 发明授权
    • Transmission device, transmission method, and storage medium
    • 传输设备,传输方式和存储介质
    • US07864872B2
    • 2011-01-04
    • US10528473
    • 2004-08-12
    • Mitsuhiro Suzuki
    • Mitsuhiro Suzuki
    • H04K1/10
    • H04L27/2602H04B1/7163H04L27/261
    • Disclosed is a method that preferably performs transmission processing to a time sequence signal of a known pattern as the pre-amble and an OFDM transmitted signal.In data communications, the general practice defines the pre-amble and detects the peaks of the mutual correlation to thereby detect synchronization. The pre-amble here is defined by the binary value in most cases for simplification of a correlation detecting device. In this case, the spectrum becomes irregular with sharp peaks and dips, which deteriorates the correlation characteristic. The method of the invention forcibly adjusts the spectrum amplitude of the pre-amble pattern on the transmitting side while retaining the phase information thereof, and thereby the method improves the spectrum and correlation characteristics while securing simplification of a correlation detecting device on the receiving side.
    • 公开了一种优选对已知模式的时序信号作为前同步码和OFDM发送信号进行发送处理的方法。 在数据通信中,一般做法定义了前同步码并检测相互关联的峰值,从而检测同步。 这里的前导码在大多数情况下由二进制值定义,用于简化相关检测装置。 在这种情况下,光谱变得不规则,具有尖峰和倾斜,这降低了相关特性。 本发明的方法在保持其相位信息的同时强制地调整发送侧的前置码模式的频谱幅度,从而在确保接收侧的相关检测装置的简化的同时,提高了频谱和相关特性。
    • 8. 发明申请
    • COMMUNICATION APPARATUS AND COMMUNICATION SYSTEM
    • 通信设备和通信系统
    • US20100035559A1
    • 2010-02-11
    • US12441721
    • 2007-09-21
    • Masahiro NakanoKazuhiro SatoMitsuhiro SuzukiTaketoshi Shimizu
    • Masahiro NakanoKazuhiro SatoMitsuhiro SuzukiTaketoshi Shimizu
    • H04B7/00
    • G08C17/00G08C2201/50
    • Remote control data is securely transmitted to a device under control. A remote control device transmits an acknowledge request for A ch to the device under control (S21). When the device under control has assigned A ch as the reception channel, acknowledge ACK is received. A ch is assigned as the transmission channel (S23), and a command frame is transmitted through A ch (S24). When acknowledge ACK has not been received, an acknowledge request for B ch is transmitted to the device under control (S25). When the device under control has assigned B ch as the reception channel, acknowledge ACK is received. B ch is assigned as the transmission channel (S27), and a command frame is transmitted through B ch (S28). The remote control device can transmits a command through a channel through which the device under control can receive the command, so that secure remote control can be accomplished.
    • 遥控数据被安全传输到受控制的设备。 遥控装置向控制装置(S21)发送对A ch的确认请求。 当控制器件分配了A ch作为接收通道时,接收到确认ACK。 将ch指定为发送信道(S23),通过A ch发送命令帧(S24)。 当未接收到确认ACK时,对控制的设备(S25)发送对Bch的确认请求。 当被控制的设备分配了BCH作为接收通道时,接收到确认ACK。 B ch被指定为传输信道(S27),并且通过B ch(S28)发送命令帧。 遥控装置可以通过控制装置可以接收命令的通道发送命令,从而可以实现安全的遥控。
    • 10. 发明授权
    • Frequency combining apparatus and frequency combining method
    • 频率组合装置和频率组合方法
    • US07593471B2
    • 2009-09-22
    • US10575082
    • 2004-10-08
    • Mitsuhiro SuzukiSachio Iida
    • Mitsuhiro SuzukiSachio Iida
    • H04L27/28
    • H04B1/7136H04B1/71635H04B2001/71365H04L27/18
    • A reference frequency of 4224 MHz is divided into ½ to obtain a sampling frequency of 2112 MHz, and further the frequency division into ½ is sequentially performed and the values of three bits outputted by the ½, ¼ and ⅛ frequency division are decoded in response to frequency selection. From one set of nonlinear 2-bit DA converters which output amplitudes {−1.7, −0.7, 0.7, 1.7} using these decoded values as input, complex amplitudes corresponding to eight phases in a complex plane are outputted, so that complex sine waves are generated. Using these complex sine waves, the frequency switching is performed. Center frequencies of respective bands can be obtained without a phase error or an amplitude error.
    • 4224MHz的参考频率被分成1/2以获得2112MHz的采样频率,并且进一步分频成1/2,并且由1/2,1/4和1/8分频输出的三位的值被解码为 响应频率选择。 从使用这些解码值作为输入输出幅度{-1.7,-0.7,0.7,1.7}的一组非线性2位DA转换器,输出对应于复平面中的八个相位的复振幅,使得复数正弦波为 生成。 使用这些复杂的正弦波,进行频率切换。 可以在没有相位误差或振幅误差的情况下获得各个频带的中心频率。