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    • 6. 发明授权
    • Communication device, base station, communication system, and communication method
    • 通信设备,基站,通信系统和通信方式
    • US08625573B2
    • 2014-01-07
    • US12921549
    • 2009-03-12
    • Yoshiko SaitoAyako HoriuchiSeigo NakaoKatsuhiko HiramatsuYuichi KobayakawaMegumi Ichikawa
    • Yoshiko SaitoAyako HoriuchiSeigo NakaoKenichi MiyoshiKatsuhiko HiramatsuYuichi Kobayakawa
    • H04L12/28
    • H04L5/003H04B7/022H04B7/026H04B7/15592H04B7/2606H04L1/1812H04L1/1893H04L5/0035H04L2001/0097H04W72/0406H04W84/047
    • There are provided a communication device, a base station, a communication system, and a communication method that make it possible to yield a diversity effect by cooperative relay without involvement of disproportionateness in data received by an eNB even when one of parties has unsuccessfully exchanged data. After received an ACK signal from a repeater 1, a repeater 2 which has transmitted a NACK signal in procedure 7 transmits data S2 to the eNB by use of its own resource, thereby making its own resource available for the repeater 1 (the repeater 2 does not use its own resource, and the repeater 1 uses the resource of the repeater 2). In procedures 8, the repeater 1 has received the NACK signal from the repeater 2 and subsequently transmits data S1 to the eNB by use of its own resource. Subsequently, the repeater 1 which has received the MACK signal in procedure 9 determines that the resource of the repeater 2 is available and transmits data P1 to the eNB by use of the resource of the repeater 2. In procedure 10, the repeater 1 transmits previously-generated data P2 to the eNB by use of its own resource.
    • 提供了一种通信设备,基站,通信系统和通信方法,其可以通过协同中继产生分集效应,而不涉及由eNB接收的数据中的不成比例,即使当一方有成功交换的数据 。 在从中继器1接收到ACK信号之后,在过程7中发送了NACK信号的中继器2通过使用其自己的资源向eNB发送数据S2,从而使其自己的资源可用于中继器1(中继器2 不使用自己的资源,中继器1使用中继器的资源2)。 在过程8中,中继器1已经从中继器2接收到NACK信号,并且随后利用自己的资源向eNB发送数据S1。 随后,在过程9中接收到MACK信号的中继器1确定中继器2的资源可用,并且通过使用中继器2的资源将数据P1发送到eNB。在过程10中,中继器1先前 生成的数据P2通过使用其自己的资源到eNB。
    • 7. 发明授权
    • Frequency band allocation method and transmission device
    • 频段分配方法和传输设备
    • US08588173B2
    • 2013-11-19
    • US13057254
    • 2009-08-06
    • Ayako HoriuchiKatsuhiko HiramatsuSeigo NakaoYasuaki Yuda
    • Ayako HoriuchiKatsuhiko HiramatsuSeigo NakaoYasuaki Yuda
    • H04W4/00H04W72/04H04L5/00
    • H04W72/0446H04L5/0007H04L5/0066H04L5/143H04L27/2614H04W16/12
    • Disclosed is a frequency band allocation method which reduces PAPR (peak to average power ratio) when performing a single carrier transmission in the uplink line of an LTE+ (LTE Advanced) system in a system using both of an LTE (Long Term Evolution) system and the LTE+ system. In the frequency band allocation method, a UL band for the LTE is arranged adjacently in a lower frequency band than the UL band for the LTE+. With this arrangement, it is possible to prevent division of the band for the LTE+ by the uplink line control channel (such as PUCCH) transmitted by an LTE mobile station and to allocate a wide band continuously with the LTE+ mobile station. Especially when the LTE+ mobile station performs a single carrier transmission with the uplink line, the PAPR can be reduced since it is possible to allocate a band continuous with the single carrier signal.
    • 公开了一种频带分配方法,其在使用LTE(长期演进)系统和LTE(长期演进)系统的系统中,在LTE +(LTE高级)系统的上行线路中进行单载波传输时,降低PAPR(峰均功率比) LTE +系统。 在频带分配方法中,与LTE +的UL频带相比,用于LTE的UL频带相邻布置。 通过这种布置,可以防止由LTE移动台发送的上行线路控制信道(例如PUCCH)对LTE +的频带进行分频,并且与LTE +移动台连续分配宽带。 特别是当LTE +移动台利用上行链路进行单载波传输时,可以减少PAPR,因为可以分配与单载波信号连续的频带。
    • 8. 发明申请
    • RADIO COMMUNICATION DEVICE AND RADIO COMMUNICATION SYSTEM
    • 无线电通信设备和无线电通信系统
    • US20110170425A1
    • 2011-07-14
    • US12993595
    • 2009-05-13
    • Ayako HoriuchiSeigo NakaoKenichi MiyoshiKatsuhiko HiramatsuHiroaki Morino
    • Ayako HoriuchiSeigo NakaoKenichi MiyoshiKatsuhiko HiramatsuHiroaki Morino
    • H04L12/26H04J3/08
    • H04L1/1867H04B7/026H04B7/155H04B7/15592H04L2001/0097H04W40/22H04W72/08H04W84/047
    • Disclosed is a radio communication device capable of improving the usage efficiency of resources in multi-stage relay to reduce the amount of delay of a relay signal and improving the reception quality of signals by a relay station or a base station. A transmission determining unit 16 determines whether to transmit the relay signal and whether to transmit ACK/NACK on the basis of whether there is an error in the relay signal, and on the basis of ACK/NACK received from a one-hop-downstream radio communication device. An MCS determining unit 17 provided in the transmission determining unit 16 determines an MCS for the relay signal. A transmission instruction generated by the transmission determining unit 16 is output to a buffer 11 and an ACK/NACK generating unit 19. The determined MCS is output to an error correction coding unit 12 and a modulation unit 13. The ACK/NACK generating unit 19 generates ACK when there is no error in the relay signal, and generates NACK when there is an error in the relay signal.
    • 公开了能够提高多级继电器中的资源的使用效率的无线通信装置,以减少中继信号的延迟量,并且提高中继站或基站对信号的接收质量。 传输确定单元16基于中继信号中是否存在错误,并且基于从一跳下行无线电接收的ACK / NACK来确定是否发送中继信号以及是否发送ACK / NACK 通讯装置 设在发送判定部16中的MCS判定部17判定为继电器信号的MCS。 由发送确定单元16产生的发送指令被输出到缓冲器11和ACK / NACK生成单元19.所确定的MCS被输出到纠错编码单元12和调制单元13. ACK / NACK生成单元19 当继电器信号没有错误时,产生ACK,当继电器信号发生错误时,产生NACK。
    • 9. 发明授权
    • Radio communication device and radio communication system
    • 无线电通信设备和无线电通信系统
    • US08743769B2
    • 2014-06-03
    • US12993595
    • 2009-05-13
    • Ayako HoriuchiSeigo NakaoKenichi MiyoshiKatsuhiko HiramatsuHiroaki Morino
    • Ayako HoriuchiSeigo NakaoKenichi MiyoshiKatsuhiko HiramatsuHiroaki Morino
    • H04B7/14
    • H04L1/1867H04B7/026H04B7/155H04B7/15592H04L2001/0097H04W40/22H04W72/08H04W84/047
    • Disclosed is a radio communication device capable of improving the usage efficiency of resources in multi-stage relay to reduce the amount of delay of a relay signal and improving the reception quality of signals by a relay station or a base station. A transmission determining unit 16 determines whether to transmit the relay signal and whether to transmit ACK/NACK on the basis of whether there is an error in the relay signal, and on the basis of ACK/NACK received from a one-hop-downstream radio communication device. An MCS determining unit 17 provided in the transmission determining unit 16 determines an MCS for the relay signal. A transmission instruction generated by the transmission determining unit 16 is output to a buffer 11 and an ACK/NACK generating unit 19. The determined MCS is output to an error correction coding unit 12 and a modulation unit 13. The ACK/NACK generating unit 19 generates ACK when there is no error in the relay signal, and generates NACK when there is an error in the relay signal.
    • 公开了能够提高多级继电器中的资源的使用效率的无线通信装置,以减少中继信号的延迟量,并且提高中继站或基站对信号的接收质量。 传输确定单元16基于中继信号中是否存在错误,并且基于从一跳下行无线电接收的ACK / NACK来确定是否发送中继信号以及是否发送ACK / NACK 通讯装置 设在发送判定部16中的MCS判定部17判定为继电器信号的MCS。 由发送确定单元16产生的发送指令被输出到缓冲器11和ACK / NACK生成单元19.所确定的MCS被输出到纠错编码单元12和调制单元13. ACK / NACK生成单元19 当继电器信号没有错误时,产生ACK,当继电器信号发生错误时,产生NACK。