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    • 31. 发明授权
    • Radio base station apparatus and transmission rate notifying method
    • 无线基站装置和传输速率通知方法
    • US08068475B2
    • 2011-11-29
    • US11579373
    • 2005-04-22
    • Hitoshi IochiHidetoshi Suzuki
    • Hitoshi IochiHidetoshi Suzuki
    • H04J1/00
    • H04W28/22
    • A radio base station apparatus wherein the consumption of transmission power resources in a high-rate packet transmission can be suppressed. In the apparatus, a scheduling part (31) limits the candidates of an upstream line packet transmission rate to part of a plurality of transmission rates indicated by transmission rate combination information, selects an upstream line packet transmission rate from among the limited transmission rate candidates, and creates scheduling result information including transmission rate information indicative of the selected transmission rate. The scheduling result information is wireless transmitted from an antenna (108) to a communication terminal that is permitted to transmit upstream line packets.
    • 能够抑制高速率分组发送中的发送功率资源的消耗的无线基站装置。 在该装置中,调度部(31)将上行线路分组传输速率的候补限制为由传输速率组合信息表示的多个传输速率的一部分,从有限传输速率候选中选择上行线路分组传输速率, 并创建包括表示所选传输速率的传输速率信息的调度结果信息。 调度结果信息从天线(108)无线发送到允许发送上行线路分组的通信终端。
    • 34. 发明申请
    • BASE STATION, TERMINAL, BAND ALLOCATION METHOD, AND DOWNLINK DATA COMMUNICATION METHOD
    • 基站,终端,带分配方法和下行链路数据通信方法
    • US20110194639A1
    • 2011-08-11
    • US13056615
    • 2009-08-03
    • Seigo NakaoHidetoshi SuzukiAkihiko NishioTakahisa AoyamaKatsuhiko Hiramatsu
    • Seigo NakaoHidetoshi SuzukiAkihiko NishioTakahisa AoyamaKatsuhiko Hiramatsu
    • H04B7/02
    • H04W56/001H04L5/001H04L5/0023H04L5/0048H04L5/0053H04L27/2601H04L27/2647H04W72/0406H04W72/0413H04W72/042H04W72/048H04W72/0493
    • Provided are a base station, a terminal, a band allocation method, and a downlink data communication method in which a mapping method for synchronization signals and report signals is implemented with high resource usage efficiency when a first system in which an independent single communication is allocated to a unit band co-exists with a second system in which a plurality of unit bands can be allocated to a single communication. In a base station (200), an OFDM signal generation unit (225) maps primary synchronization channel (P-SCH), secondary synchronization channel (S-SCH), primary broadcast channel (P-BCH), and dynamic broadcast channel (D-BCH), which can be decoded by both an LTE terminal and an LTE+ terminal, to some of a plurality of unit bands available to the station itself. The OFDM signal generation unit (225) also maps D-BCH+, which can be decoded only by an LTE+ terminal, to all of the plurality of unit bands to produce a multiplexed transmission signal. When the terminal which has transmitted terminal capability information is an LTE+ terminal, a control unit (265) transmits a band movement indication which indicates changes in the reception band to that terminal.
    • 提供一种基站,终端,频带分配方法和下行链路数据通信方法,其中当分配独立单个通信的第一系统时,以高资源使用效率实现同步信号和报告信号的映射方法 到单位频带与其中可以将多个单位频带分配给单个通信的第二系统共存。 在基站(200)中,OFDM信号生成部(225)将主同步信道(P-SCH),辅同步信道(S-SCH),主广播信道(P-BCH)和动态广播信道 -BCH),其可以由LTE终端和LTE +终端解码到站本身可用的多个单位频带中的一些。 OFDM信号生成单元(225)还将仅能由LTE +终端解码的D-BCH +映射到所述多个单位频带的全部以产生复用的发送信号。 当具有发送终端能力信息的终端是LTE +终端时,控制单元(265)向该终端发送指示接收频带的变化的频带移动指示。
    • 35. 发明申请
    • RADIO RECEIVING APPARATUS, AND EXTRA-USE-UNIT-BAND REFERENCE SIGNAL MEASUREMENT METHOD
    • 无线电接收装置和外部参考信号参考信号测量方法
    • US20110105048A1
    • 2011-05-05
    • US13001538
    • 2009-07-14
    • Seigo NakaoHidetoshi Suzuki
    • Seigo NakaoHidetoshi Suzuki
    • H04B17/00
    • H04W36/0088
    • A radio receiving apparatus and a reference signal on an unused unit band measurement method wherein QoS can be maintained and measured in a wireless communication system that simultaneously uses first and second frequency bands, each of which includes a plurality of unit bands, to transmit a series of data signal sequences. In a terminal (100), a measurement executing part (150-1) measures, during a first measurement interval overlapping with the second data reception interval and time-divided together with the first data reception interval, the reception power of a reference signal on an unused unit band transmitted over a unit band other than a first used unit band in the first frequency band. In this way, the terminal (100) can execute a data communication with a source base station (200) over any one of the frequency bands at any timing, which can reduce the delay of a downstream signal transmission. That is, a terminal (100) can be realized which can maintain and measure QoS.
    • 一种无线接收装置和参考信号,其中,在无线通信系统中可以维持和测量其中的QoS,该无线通信系统同时使用包括多个单位频带的第一和第二频带,以发送一系列 的数据信号序列。 在终端(100)中,测量执行部(150-1)在与第二数据接收间隔重叠的第一测量间隔中与第一数据接收间隔一起测量参考信号的接收功率 通过第一频带中的第一使用单位频带以外的单位频带发送的未使用单位频带。 以这种方式,终端(100)可以在任何定时通过任何一个频带执行与源基站(200)的数据通信,这可以减少下游信号传输的延迟。 也就是说,可以实现可以维护和测量QoS的终端(100)。
    • 39. 发明申请
    • RADIO TRANSMITTING APPARATUS AND MULTICARRIER SIGNAL GENERATING METHOD
    • 无线电发射装置和多功能信号发生方法
    • US20100232542A1
    • 2010-09-16
    • US12159376
    • 2006-12-25
    • Kenichi MiyoshiHidetoshi SuzukiAkihiko NishioDaichi Imamura
    • Kenichi MiyoshiHidetoshi SuzukiAkihiko NishioDaichi Imamura
    • H04L27/00
    • H04L1/0041H04L1/0067H04L1/0071H04L1/04H04L1/08H04L5/0007H04L5/0046H04L27/2647
    • A base station allowing mobile stations to efficiently remove interference signals. In this base station (100), an encoding part (101) performs an error correction encoding of transport data to generate a bit sequence comprising systematic bits and parity bits; a repetition part (102) repeats, as a repetition subject, only the parity bits out of the plurality of bits included in the bit sequence, which is generated by the encoding part (101), so as to perform a rate matching; a modulating part (103) modulates, after the repetition, the bit sequence to generate symbols; an S/P part (104) parallel converts the symbols serially inputted from the modulating part (103) and then outputs them to an IFFT part (105); and the IFFT part (105) performs an IFFT processing of the symbols inputted from the S/P part (104) and then maps them onto subcarriers in accordance with a predetermined mapping pattern, thereby generating OFDM symbols.
    • 基站允许移动台有效地去除干扰信号。 在该基站(100)中,编码部(101)进行传输数据的纠错编码,生成包含系统比特和奇偶校验位的比特序列; 重复部分(102)作为重复对象重复由编码部分(101)生成的比特序列中包括的多个比特中的奇偶校验位,以便执行速率匹配; 调制部分(103)在重复之后调制比特序列以产生符号; S / P部分(104)并行转换从调制部分(103)串行输入的符号,然后将其输出到IFFT部分(105); 并且IFFT部分(105)对从S / P部分(104)输入的符号进行IFFT处理,然后根据预定的映射模式将它们映射到子载波上,从而生成OFDM符号。