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    • 4. 发明申请
    • SIGNAL DETECTION DEVICE AND SIGNAL DETECTION METHOD
    • 信号检测装置和信号检测方法
    • US20130148766A1
    • 2013-06-13
    • US13817668
    • 2012-03-07
    • Yoshio UrabeKazuhiro AndoMasataka IrieHiroshi Takahashi
    • Yoshio UrabeKazuhiro AndoMasataka IrieHiroshi Takahashi
    • H04L27/26
    • H04L27/2649H04B7/0828H04B17/327
    • In this signal detection device (100), a delaying unit (101) delays a first distributed signal or a second distributed signal distributed from a received signal for a period of time of T1 to form a first multiplication signal, and delays the one for a period of time of T2 (T2>T1) to form a second multiplication signal. An integrator (104) calculates a first correlation value by integrating the result of multiplying the first distributed signal and the first multiplication signal. An integrator (105) calculates a second correlation value by integrating the result of multiplying the second distributed signal and the second multiplication signal. An evaluation unit (108) evaluates whether the signal to be detected, which is a periodic signal with a period of T1 or a periodic signal with a period of T2, exists or not, on the basis of the first correlation value and the second correlation value.
    • 在该信号检测装置(100)中,延迟单元(101)将从接收信号分配的第一分布信号或第二分布信号延迟T1的时间段,以形成第一乘法信号,并将其延迟 T2(T2> T1)的时间段,形成第二个乘法信号。 积分器(104)通过对乘以第一分布式信号和第一乘法信号的结果进行积分来计算第一相关值。 积分器(105)通过对乘以第二分布信号和第二乘法信号的结果进行积分来计算第二相关值。 评估单元(108)基于第一相关值和第二相关性来评估是否存在周期为T1的周期信号或周期为T2的周期信号的被检测信号是否存在 值。
    • 6. 发明授权
    • Wireless communication apparatus and wireless communication method
    • 无线通信装置和无线通信方法
    • US08040837B2
    • 2011-10-18
    • US11916884
    • 2006-06-08
    • Yoshio UrabeKenji MiyanagaKazuhiro AndoChalermphol ApichaichalermwongseTsutomu Mukai
    • Yoshio UrabeKenji MiyanagaKazuhiro AndoChalermphol ApichaichalermwongseTsutomu Mukai
    • H04Q7/00
    • H04W74/0808H04W56/002H04W72/1205
    • When communicating with a second wireless station, a first wireless station judges, based on link-related information received form the second wireless station and link-related information extracted from a signal transmitted by a fourth wireless station, whether a transmission link from the third wireless station to the fourth wireless station and a transmission link from the first wireless station to the second wireless station can be concurrently established without interference with each other. If judging affirmatively, the first wireless station transmits a signal to the second wireless station in synchronization with a signal transmitted by the third wireless station to the fourth wireless station. Preferably, when the first wireless station having a concurrent transmission control function communicates with the second wireless station having a interference reduction function, the first wireless station controls the interference reduction function of the second wireless station based on the link-related information received from the second wireless station and interference information, such that the transmission link from the third wireless station to the fourth wireless station and the transmission link from the first wireless station to the second wireless station can be established at the same time without interference with each other. If judging that the concurrent transmission is available, the first wireless station transmits a signal to the second wireless station according to a timing that overlaps transmission of a signal from the third wireless station to the fourth wireless station.
    • 当与第二无线站通信时,第一无线站基于从第二无线站接收到的链路相关信息和从由第四无线站发送的信号提取的链路相关信息来判断来自第三无线站的传输链路 可以同时建立到第四无线站的站和从第一无线站到第二无线站的传输链路,而不会彼此干扰。 如果肯定地判断,则第一无线站与第三无线站向第四无线站发送的信号同步地向第二无线站发送信号。 优选地,当具有并发传输控制功能的第一无线站与具有干扰减少功能的第二无线站通信时,第一无线站基于从第二无线站接收到的链路相关信息来控制第二无线站的干扰减少功能 无线站和干扰信息,使得可以同时建立从第三无线站到第四无线站的传输链路和从第一无线站到第二无线站的传输链路,而不会彼此干扰。 如果判断并发传输可用,则第一无线站根据与从第三无线站到第四无线站的信号的传输重叠的定时向第二无线站发送信号。
    • 7. 发明授权
    • Data transmission method and data reception method
    • 数据传输方法和数据接收方法
    • US07702027B2
    • 2010-04-20
    • US10573044
    • 2005-03-09
    • Naganori ShirakataYasuo HaradaKoichiro TanakaTomohiro KimuraShuya HosokawaYoshio Urabe
    • Naganori ShirakataYasuo HaradaKoichiro TanakaTomohiro KimuraShuya HosokawaYoshio Urabe
    • H04B7/02
    • H04L27/2657H04L25/0204H04L27/2613H04L27/2675
    • In a transfer apparatus to which MIMO-OFDM is applied, a data transmission method and a data reception method are provided in which, even when there are frequency errors varying among transfer paths, the precision of estimation of an inverse propagation coefficient function can be improved, thereby making it possible to suppress a degradation in characteristics. Among symbols composed of a plurality of subcarriers orthognal to each other, the transfer apparatus uses, as a synchronization symbol, a symbol in which predetermined amplitudes and phases are assigned to a plurality of subcarriers spaced at predetermined frequency intervals. The synchronization symbol is divided into transmission antennas to generate a plurality of synchronization subsymbols, which are in turn simultaneously transmitted from a plurality of transmission antennas. A reception apparatus estimates a frequency error for each transfer path based on synchronization subsymbols included in signals received by a plurality of reception antennas, and based on the estimated frequency errors, corrects the received signals.
    • 在应用MIMO-OFDM的传送装置中,提供数据传输方法和数据接收方法,其中即使在传输路径之间存在频率误差变化的情况下,也可以提高反向传播系数函数的估计精度 ,从而可以抑制特性的劣化。 在由彼此正交的多个子载波组成的符号之中,传送装置使用将预定的幅度和相位分配给以预定频率间隔隔开的多个子载波的符号作为同步符号。 同步符号被分成发送天线以产生多个同步子符号,这些同步子符号又从多个发送天线同时发送。 接收装置基于由多个接收天线接收的信号中包含的同步子符号估计每个传送路径的频率误差,并且基于估计的频率误差来校正接收到的信号。
    • 9. 发明授权
    • Reception device
    • 接收设备
    • US07545870B1
    • 2009-06-09
    • US10582765
    • 2005-04-12
    • Naganori ShirakataYukihiro OmotoYoshio UrabeYasuo Harada
    • Naganori ShirakataYukihiro OmotoYoshio UrabeYasuo Harada
    • H04L7/00H04L27/28
    • H04L27/266H04L27/2613H04L27/2642H04L27/2659H04L27/2662H04L27/2675H04L27/2679H04L2027/0067H04L2027/0095
    • A reception device according to the present invention receives a transmission frame including a synchronization symbol string, having a synchronization symbol repeated multiple times, inserted before a data symbol string. The synchronization symbol is obtained by synthesizing a plurality of sub band symbols which are mutually orthogonal and having different carrier frequencies. The carrier frequencies of the sub band symbols are located at an equal predetermined frequency interval. The synchronization symbol includes a repeated synchronization pattern. The reception device detects a rough carrier frequency error from a phase difference of a synchronization pattern correlation value to correct the frequency, and then detects a residual frequency error from an inter-symbol phase difference of each sub band to correct the frequency. The reception device detects a sampling clock frequency error from an inter-sub band phase difference to correct the frequency. Thus, the demodulation error of the data symbol is reduced.
    • 根据本发明的接收装置在数据符号串之前接收包括具有重复多次的同步符号的同步符号串的传输帧。 通过合成相互正交且具有不同载波频率的多个子带符号来获得同步符号。 子带符号的载波频率位于相等的预定频率间隔。 同步符号包括重复的同步模式。 接收装置根据同步模式相关值的相位差检测粗略载波频率误差,以校正频率,然后从每个子带的符号间相位差检测残留频率误差,以校正频率。 接收装置从子频带相位差检测采样时钟频率误差,以校正频率。 因此,减少数据符号的解调错误。
    • 10. 发明授权
    • Waveform shaping method and equipment
    • 波形整形方法和设备
    • US5901179A
    • 1999-05-04
    • US657959
    • 1996-06-04
    • Yoshio UrabeShouichi KogaHitoshi TakaiKoji KaiHidetoshi Yamasaki
    • Yoshio UrabeShouichi KogaHitoshi TakaiKoji KaiHidetoshi Yamasaki
    • H03G3/30H04L25/03H04L27/20H04L27/36H04L27/00
    • H03G3/3089H03G3/3047H04L25/03859H04L27/2067H04L27/362
    • In the transmitter which carries out burst transmission using information data as a packet, if the status is divided into four modes, namely, burst stop mode, burst rising mode, burst continuous mode, and burst falling mode, a waveform shaping equipment designed to read out shaped waveform data for each mode from outputs of either of the two memory tables, the first memory table which holds waveform data for specific data patterns used in common in burst rising mode and burst falling mode and the second memory table which holds waveform data for all data patterns used in the burst continuous mode, or a waveform shaping equipment comprising the third memory table which holds waveform data corresponding to all the data patterns used in the burst rising mode and the fourth memory table which holds waveform data corresponding to all data patterns used in the burst falling mode and generating shaped waveform data by synthesizing the two outputs of the third and the fourth memory tables at the time of burst continuous mode.
    • 在使用信息数据作为分组执行突发传输的发送机中,如果状态被分为四种模式,即突发停止模式,突发上升模式,突发连续模式和突发下降模式,设计为读取的波形整形设备 从两个存储器表中的任一个的输出中输出每个模式的形状波形数据,第一存储表保存用于突发上升模式和突发下降模式中共同使用的特定数据模式的波形数据,以及第二存储器表,其保存用于 在脉冲串连续模式中使用的所有数据模式,或波形整形设备,包括保存与突发上升模式中使用的所有数据模式对应的波形数据的第三存储器表,以及保存对应于所有数据模式的波形数据的第四存储器表 用于突发下降模式,并通过在t处合成第三和第四存储器表的两个输出来产生形状波形数据 他连续时间连续模式。