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    • 1. 发明申请
    • WIRELESS COMMUNICATION MOBILE STATION DEVICE AND DISTRIBUTION AND PLACEMENT METHOD FOR RESOURCE ELEMENTS
    • 无线通信移动站设备及资源分配与配置方法
    • US20110069671A1
    • 2011-03-24
    • US12993404
    • 2009-05-22
    • Seigo NakaoHidetoshi SuzukiAkihiko NishioKenichi Kuri
    • Seigo NakaoHidetoshi SuzukiAkihiko NishioKenichi Kuri
    • H04W72/04
    • H03M13/27H03M13/09H03M13/6525H04B7/12H04L1/0061H04L1/0071H04L5/0007H04L5/0044H04L25/03159H04L27/0008H04L2025/03414
    • Provided is a mobile station which can obtain an equivalent diversity effect in each communication scheme while keeping to an minimum the increase in the circuit scale of a mobile station even when the mobile station is compatible with a plurality of communication schemes. In a mobile station (100) which performs either single-carrier frequency-division multiple access (SC-FDMA) communication or orthogonal frequency division multiple access (OFDMA) communication, an interleaving unit (103) interleaves a plurality of resource elements, which are divided into a plurality of code blocks, in a plurality of code blocks when either SC-FDMA or OFDMA communication is performed. In addition, only when OFDMA communication is performed, a serial-to-parallel (SIP) converter (107) converts the data symbols to parallel streams and generates the OFDM symbols. A shifter (108) provides a different frequency shift to each OFDM symbol for the OFDM symbols input from the S/P converter (107), and distributes and places the plurality of resource elements of each plurality of code blocks after interleaving in the frequency domain.
    • 提供了一种能够在每个通信方案中获得等效分集效应的移动站,即使当移动台与多种通信方案兼容时,也能够将移动台的电路规模的增加最小化。 在执行单载波频分多址(SC-FDMA)通信或正交频分多址(OFDMA)通信的移动台(100)中,交织单元(103)对多个资源元素进行交织, 当执行SC-FDMA或OFDMA通信时,在多个码块中分成多个码块。 此外,只有在执行OFDMA通信时,串行到并行(SIP)转换器(107)将数据符号转换为并行流并生成OFDM符号。 移位器(108)对于从S / P转换器(107)输入的OFDM符号为每个OFDM符号提供不同的频移,并且在频域中分配并放置每个多个码块的多个资源元素 。
    • 2. 发明申请
    • WIRELESS COMMUNICATION DEVICE AND CIRCULAR BUFFER CONTROL METHOD
    • 无线通信设备和循环缓冲器控制方法
    • US20100199157A1
    • 2010-08-05
    • US12680162
    • 2008-09-30
    • Shinsuke TakaokaKenichi KuriSeigo NakaoAkihiko Nishio
    • Shinsuke TakaokaKenichi KuriSeigo NakaoAkihiko Nishio
    • H03M13/09G06F11/00
    • H04L1/1874H04L1/1819
    • There is provided a wireless communication device capable of improving a decoding performance by using an optimal selection criterion for a start address and a read direction in a circular buffer. An interlacer (13) writes an interleaved and interlaced bit sequence into a circular buffer (14). An RV decision unit (109) decides the read start address and read direction of the circular buffer (14) based on the number of non-transmitted systematic bits, the number of non-transmitted important parity bits, and/or the number of non-transmitted unimportant parity bits. A read control unit (110) controls the read start address and read end address of the circular buffer (14). A read unit (15) is controlled by the read control unit (110) to continuously read encoded bits from the circular buffer (14).
    • 提供一种能够通过在循环缓冲器中使用用于开始地址和读取方向的最佳选择标准来提高解码性能的无线通信设备。 交错器(13)将交错和隔行比特序列写入循环缓冲器(14)。 RV判定单元(109)基于未发送的系统比特数,未发送的重要奇偶校验位的数量和/或非发送的重要奇偶校验位的数量来决定循环缓冲器(14)的读取开始地址和读取方向, 发送不重要的奇偶校验位。 读取控制单元(110)控制循环缓冲器(14)的读取开始地址和读取结束地址。 读取单元(15)由读取控制单元(110)控制以从循环缓冲器(14)连续读取编码的位。
    • 3. 发明申请
    • RADIO COMMUNICATION APPARATUS, RADIO COMMUNICATION SYSTEM, AND RADIO COMMUNICATION METHOD
    • 无线电通信设备,无线电通信系统和无线电通信方法
    • US20110096862A1
    • 2011-04-28
    • US12672576
    • 2008-07-14
    • Kenichi KuriAkihiko NishioSeigo Nakao
    • Kenichi KuriAkihiko NishioSeigo Nakao
    • H04L27/00H03K9/00
    • H04L1/1819H04L1/005H04L1/0066H04L1/0067H04L1/0071H04L5/0007H04L5/0037H04L5/0048H04L5/0053
    • Even when a CCFI error has arisen, there is prevented occurrence of a packet error, which would otherwise be caused during the first receiving operation for reasons of erroneous storage of data into a buffer, and data are prevented from being synthesized while deviated during retransmission. A transmission Circular Buffer sequentially reads encode word data to be transmitted in reverse order from end to top like D—12, D—11, D—1. After the data have been modulated by a modulator, a multiplexer allocates modulated data symbols D—12 to D—1 to OFDM symbols from the third OFDM symbol #3 subsequent to a control channel CCH in accordance with a CCFI value (=2). After demodulating received data symbols, a receiving side rearranges the demodulated information from its end to top in reverse order from a predetermined data start point, and stores the thus-rearranged information in a receiving Circular Buffer. As a result, there is avoided receiving error, which would otherwise be caused by gap of data stored in the receiving Circular Buffer and loss of the first data.
    • 即使出现CCFI错误,也避免了由于数据错误地存入缓冲器的原因而在第一次接收操作期间引起的分组错误的发生,并且防止在重传期间数据被合成而偏离。 传输循环缓冲器从D到12,D-11,D-1顺序读取从顶到顶以相反顺序发送的编码字数据。 在通过调制器调制数据之后,多路复用器根据CCFI值(= 2)将控制信道CCH之后的第三OFDM符号#3中的调制数据符号D-12至D-1分配给OFDM符号。 在对接收到的数据符号进行解调之后,接收端从预定的数据起始点以相反的顺序将解调信息从其端到端重新排列,并将这样重新排列的信息存储在接收循环缓冲器中。 因此,避免了接收错误,否则将由存储在接收循环缓冲器中的数据的间隙和第一数据的丢失引起。
    • 4. 发明授权
    • Wireless communication device and circular buffer control method
    • 无线通信设备和循环缓冲器控制方法
    • US08560910B2
    • 2013-10-15
    • US12680162
    • 2008-09-30
    • Shinsuke TakaokaKenichi KuriSeigo NakaoAkihiko Nishio
    • Shinsuke TakaokaKenichi KuriSeigo NakaoAkihiko Nishio
    • H04L29/14
    • H04L1/1874H04L1/1819
    • There is provided a wireless communication device capable of improving a decoding performance by using an optimal selection criterion for a start address and a read direction in a circular buffer. An interlacer (13) writes an interleaved and interlaced bit sequence into a circular buffer (14). An RV decision unit (109) decides the read start address and read direction of the circular buffer (14) based on the number of non-transmitted systematic bits, the number of non-transmitted important parity bits, and/or the number of non-transmitted unimportant parity bits. A read control unit (110) controls the read start address and read end address of the circular buffer (14). A read unit (15) is controlled by the read control unit (110) to continuously read encoded bits from the circular buffer (14).
    • 提供一种能够通过在循环缓冲器中使用用于开始地址和读取方向的最佳选择标准来提高解码性能的无线通信设备。 交错器(13)将交错和隔行比特序列写入循环缓冲器(14)。 RV判定单元(109)基于未发送的系统比特数,未发送的重要奇偶校验位的数量和/或非发送的重要奇偶校验位的数量来决定循环缓冲器(14)的读取开始地址和读取方向, 发送不重要的奇偶校验位。 读取控制单元(110)控制循环缓冲器(14)的读取开始地址和读取结束地址。 读取单元(15)由读取控制单元(110)控制以从循环缓冲器(14)连续读取编码的位。
    • 10. 再颁专利
    • Integrated circuit
    • 集成电路
    • USRE45125E1
    • 2014-09-09
    • US13802120
    • 2013-03-13
    • Tomohiro ImaiAyako HoriuchiAkihiko NishioKenichi KuriHiroaki Morino
    • Tomohiro ImaiAyako HoriuchiAkihiko NishioKenichi KuriHiroaki Morino
    • H04B15/00H04B7/15
    • H04B7/15557H04B7/2606H04L1/0003H04L1/0009H04L2001/0092
    • A wireless communication system enabling multihop communication while maintaining the system throughput and preventing degradation of the user throughput. In the system, a BS (base station) determines the relaying method (whether an RS performs reproduction relay or nonreproduction relay) of the RS (relaying station) and the MCS of multihop communication according to the reception quality (the line quality among an MS2, the RS, and the BS) of the pilot for nonreproduction relay, the reception quality (the line quality between the RS and the BS) of the pilot 2 for reproduction relay, and the line quality (the line quality between the MS2 and the RS) measured at the RS. The determination result is transmitted as relay information to the RS and to the MS2 (a mobile station (2)) through the RS. The MS2 encodes and modulates the uplink data with the MCS based on the relay information and transmits the data to the RS. The RS relays the uplink data while selecting nonreproduction relay or reproduction relay according to the relay information.
    • 一种能够实现多跳通信同时维持系统吞吐量并防止用户吞吐量恶化的无线通信系统。 在该系统中,BS(基站)根据接收质量(MS2中的线路质量)确定RS(中继站)的RS中继方法(RS是否执行再生中继或不再生中继) 用于非再生继电器的导频的RS,和BS),用于再现中继的导频2的接收质量(RS与BS之间的线路质量)和线路质量(MS2与 RS)。 确定结果通过RS作为中继信息发送到RS和MS2(移动台(2))。 MS2通过基于中继信息的MCS对上行数据进行编码和调制,并将数据发送给RS。 RS根据中继信息选择非再生继电器或再生继电器时中继上行数据。