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    • 6. 发明申请
    • RADIO COMMUNICATION METHOD AND RADIO COMMUNICATION DEVICE
    • 无线电通信方法和无线电通信设备
    • US20100103919A1
    • 2010-04-29
    • US12523497
    • 2008-01-18
    • Yutaka MurakamiNaoya Yosoku
    • Yutaka MurakamiNaoya Yosoku
    • H04B7/208
    • H04L1/06H04J11/00H04L1/0003H04L1/0041H04L1/0071H04L1/1893H04L5/003H04L5/006H04W72/0453
    • When the SC-FDMA method is used in combination with the multi-antenna transmission technique, a radio transmission method effectively improves the frequency use efficiency by performing appropriate frequency allocation to a plurality of antennas while suppressing degradation of the reception quality caused by interference. In the radio transmission method of the SC-FDMA type, according to the number of terminals simultaneously accessing a base station within a usable frequency band, it is possible to allocate all the transmission signals (transmission stream) to be transmitted by different antennas to different frequency bands or to use the MIMO transmission in combination. Moreover, according to the number of terminals making an access, the number of terminals which perform the MIMO transmission can be varied.
    • 当将SC-FDMA方法与多天线​​传输技术结合使用时,通过对多个天线进行适当的频率分配,同时抑制由干扰引起的接收质量的劣化,无线传输方法有效地提高了频率使用效率。 在SC-FDMA类型的无线电传输方法中,根据在可用频带内同时访问基站的终端数量,可以将由不同天线发送的所有传输信号(传输流)分配给不同的天线 频带或组合使用MIMO传输。 此外,根据进行接入的终端的数量,可以改变执行MIMO传输的终端的数量。
    • 7. 发明授权
    • Radio communication method and radio communication device
    • 无线电通信方法和无线电通信装置
    • US08681715B2
    • 2014-03-25
    • US12523497
    • 2008-01-18
    • Yutaka MurakamiNaoya Yosoku
    • Yutaka MurakamiNaoya Yosoku
    • H04W4/00H04W72/00
    • H04L1/06H04J11/00H04L1/0003H04L1/0041H04L1/0071H04L1/1893H04L5/003H04L5/006H04W72/0453
    • When the SC-FDMA method is used in combination with the multi-antenna transmission technique, a radio transmission method effectively improves the frequency use efficiency by performing appropriate frequency allocation to a plurality of antennas while suppressing degradation of the reception quality caused by interference. In the radio transmission method of the SC-FDMA type, according to the number of terminals simultaneously accessing a base station within a usable frequency band, it is possible to allocate all the transmission signals (transmission stream) to be transmitted by different antennas to different frequency bands or to use the MIMO transmission in combination. Moreover, according to the number of terminals making an access, the number of terminals which perform the MIMO transmission can be varied.
    • 当将SC-FDMA方法与多天线​​传输技术结合使用时,通过对多个天线进行适当的频率分配,同时抑制由干扰引起的接收质量的劣化,无线传输方法有效地提高了频率使用效率。 在SC-FDMA类型的无线电传输方法中,根据在可用频带内同时访问基站的终端数量,可以将由不同天线发送的所有传输信号(传输流)分配给不同的天线 频带或组合使用MIMO传输。 此外,根据进行接入的终端的数量,可以改变执行MIMO传输的终端的数量。
    • 8. 发明申请
    • ERROR CORRECTING DECODING DEVICE AND ERROR CORRECTING DECODING METHOD
    • 错误纠正解码设备和错误修正解码方法
    • US20130139038A1
    • 2013-05-30
    • US13814219
    • 2011-08-03
    • Naoya YosokuShutai Okamura
    • Naoya YosokuShutai Okamura
    • H03M13/13
    • H03M13/13H03M13/1111H03M13/1131H03M13/1137H03M13/116H03M13/1188H03M13/616H03M13/6527
    • The error correcting decoding device of the present invention performs Low-Density Parity-Check (LDPC) decoding which accommodates a plurality of code rates while sharing circuits to suppress increase in circuit scale. If the set code rate is a second code rate which is a higher code rate than a first code rate, a column processing and row processing calculating unit (120A) uses a distributed submatrix in which a number of columns are selected and combined, wherein the number of columns is equal in number to the number of columns with which a first submatrix is constructed from a distributed check matrix corresponding to a second check matrix which accommodates the second code rate. At this time, the column processing and row processing calculating unit (120A) uses a distributed submatrix such that the row degree is less than or equal to the row degree of the first submatrix.
    • 本发明的纠错解码装置执行低密度奇偶校验(LDPC)解码,该解码容纳多个码率,同时共享电路以抑制电路规模的增加。 如果设定码率是比第一码率高的码率的第二码率,列处理和行处理计算单元(120A)使用其中选择并组合列数的分布子矩阵,其中, 列数与从适应第二代码率的第二校验矩阵相对应的分布式校验矩阵构成第一子矩阵的列数相等。 此时,列处理和行处理计算单元(120A)使用分散子矩阵,使得行度小于或等于第一子矩阵的行度。
    • 9. 发明申请
    • RADIO COMMUNICATION SYSTEM, RADIO BASE STATION DEVICE, AND TRANSMISSION CONTROL METHOD
    • 无线电通信系统,无线基站设备和传输控制方法
    • US20100222003A1
    • 2010-09-02
    • US12678099
    • 2008-09-25
    • Isamu YoshiiAtsushi SumasuTomohiro ImaiNaoya YosokuHidenori Kayama
    • Isamu YoshiiAtsushi SumasuTomohiro ImaiNaoya YosokuHidenori Kayama
    • H04B15/00
    • H04W72/082H04L5/0032H04W52/243H04W72/0413
    • It is possible to provide a transmission control method, a radio communication system, and a radio base station device which can reduce the time required until an inter-cell interference is reduced so as to improve the system throughput. A base station (200) includes: an FFT unit (210) which receives an interference report transmitted by using a common radio resource common to adjacent cells from a plurality of radio terminals (100) existing in different adjacent cells; and an adaptive FFR processing unit (230) which controls adaptive FFR processing in a downstream line of the local cell according to the reception interference report. Thus, by receiving an interference report directly from the radio terminals (100) existing in adjacent cells, it is possible to modify the transmission mode by considering the interference state in the adjacent cells. This eliminates the need of sending a report on a transmission mode modification which has been conventionally sent between adjacent base stations (200). This reduces the signaling required in the system, which improves the system throughput.
    • 可以提供一种传输控制方法,无线电通信系统和无线电基站装置,其可以减少小区间干扰减少所需的时间,从而提高系统吞吐量。 基站(200)包括:FFT单元(210),其接收通过使用来自存在于不同相邻小区中的多个无线终端(100)的相邻小区共用的公共无线资源来发送的干扰报告; 以及根据接收干扰报告来控制本地小区的下游线路中的自适应FFR处理的自适应FFR处理单元(230)。 因此,通过直接从相邻小区中存在的无线终端(100)接收干扰报告,可以通过考虑相邻小区中的干扰状态来修改发送模式。 这消除了发送关于传统上在相邻基站(200)之间发送的传输模式修改的报告的需要。 这减少了系统中所需的信令,这提高了系统吞吐量。