公开(公告)号：US20100177713A1

公开(公告)日：2010-07-15

申请号：US12376726

申请日：2007-08-07

Applicant: Isamu Yoshii ,  Akihiko Nishio ,  Masaru Fukuoka ,  Kenichi Kuri

Inventor： Isamu Yoshii ,  Akihiko Nishio ,  Masaru Fukuoka ,  Kenichi Kuri

IPC: H04W72/04

CPC classification number: H04L1/1854 ,  H04L1/0027 ,  H04L1/0029 ,  H04L2001/0093 ,  H04W28/06 ,  H04W72/005 ,  H04W72/085

Abstract: Provided is a mobile station capable of increasing the use efficiency of a transmission resource. The mobile station (100) includes: a line quality measuring unit (105) which measures SINR of a pilot symbol; a CQI generation unit (106) which generates a CQI corresponding to the SINR; and a resource allocation unit (107) allocates a subcarrier corresponding to the content of an inputted CQI among a plurality of subcarriers (i.e., a plurality of resources) to the CQI according to a common reference table in a plurality of mobile stations. Accordingly, in a plurality of mobile stations, the CQI having the same content are mapped to the same subcarrier.

Abstract translation: 提供能够提高传输资源的使用效率的移动台。 移动站（100）包括：测量导频符号的SINR的线路质量测量单元（105）; 生成与所述SINR对应的CQI的CQI生成部（106） 并且资源分配单元（107）根据多个移动站中的公共参考表，将多个子载波（即，多个资源）中的输入的CQI的内容相对应的副载波分配给CQI。 因此，在多个移动站中，将具有相同内容的CQI映射到相同的子载波。

公开(公告)号：US07660367B2

公开(公告)日：2010-02-09

申请号：US10550557

申请日：2004-04-02

Applicant: Akihiko Nishio ,  Katsuhiko Hiramatsu ,  Isamu Yoshii

Inventor： Akihiko Nishio ,  Katsuhiko Hiramatsu ,  Isamu Yoshii

IPC: H04Q7/36

CPC classification number: H04B1/713 ,  H04B1/715 ,  H04L1/0003 ,  H04L1/0009 ,  H04L5/0012 ,  H04L5/006 ,  H04W72/0453 ,  H04W72/1231

Abstract: It is possible to use a frequency of a preferable propagation condition while reducing the other cell interference by hopping. A scheduler section (102) performs scheduling for deciding a user to whom data is transmitted, by using the CQI from each communication terminal device, selects a user signal to be transmitted in the next frame, and decides a sub-carrier block by which the transmission is performed. An MCS judgment section (103) selects a modulation method and a coding method from the CQI of the user signal selected. A sub-carrier block selection section (110) selects a sub-carrier block specified by the scheduler section (102) for each user signal. For each of the sub-carrier blocks, the hopping pattern is selected by FH-sequence selection sections (111-1 to 111-n). A sub-carrier mapping section (112) maps the user signal and the control data to the sub-carrier according to the hopping pattern selected.

Abstract translation: 可以使用优选的传播条件的频率，同时通过跳跃减少其他小区的干扰。 调度器部（102）通过使用来自各通信终端装置的CQI进行决定发送数据的用户的调度，选择下一帧要发送的用户信号，并且决定子载波块 进行传输。 MCS判断部（103）从所选择的用户信号的CQI中选择调制方式和编码方式。 子载波块选择部分（110）为每个用户信号选择由调度器部分（102）指定的子载波块。 对于每个子载波块，跳频图案由FH序列选择部分（111-1至111-n）选择。 子载波映射部分（112）根据所选择的跳频图案将用户信号和控制数据映射到子载波。

公开(公告)号：US20090279527A1

公开(公告)日：2009-11-12

申请号：US11720732

申请日：2005-12-01

Applicant: Masaru Fukuoka ,  Isamu Yoshii ,  Kenichi Miyoshi

Inventor： Masaru Fukuoka ,  Isamu Yoshii ,  Kenichi Miyoshi

IPC: H04B7/216

CPC classification number: H04L5/12

Abstract: A wireless transmitting apparatus capable of improving the reception characteristic at a data stream receiving end. In this apparatus, I/Q separating parts (110, 112) each separate first data modulated symbols included in any of a plurality of data streams, which are to be multiplexed, into first in-phase components and first orthogonal components, while separating second data modulated symbols included in the other ones of the plurality of data streams into second in-phase components and second orthogonal components. An I/Q converting part (114) converts the first in-phase components to third orthogonal components, while converting the second orthogonal components to fourth in-phase components. A multi-code multiplexing part multi-code multiplexes the first and third orthogonal components to provide a first multiplexed signal, while multi-code multiplexing the second and fourth in-phase components to provide a second multiplexed signal. An I/Q combining part (124) combines the first and second multiplexed signals to provide a combined signal.

Abstract translation: 一种能够改善数据流接收端的接收特性的无线发送装置。 在该装置中，I / Q分离部分（110,112）将包含在多路复用的多个数据流中的任何一个中的第一数据调制符号分离成第一同相分量和第一正交分量，同时分离第二数据 包括在多个数据流中的其他数据流中的数据调制符号变为第二同相分量和第二正交分量。 I / Q转换部分（114）将第一同相分量转换为第三正交分量，同时将第二正交分量转换为第四同相分量。 多码复用部分多码复用第一和第三正交分量以提供第一多路复用信号，同时多码复用第二和第四同相分量以提供第二多路复用信号。 I / Q组合部分（124）组合第一和第二复用信号以提供组合信号。

公开(公告)号：US20090279446A1

公开(公告)日：2009-11-12

申请号：US12306485

申请日：2007-06-25

Applicant: Isamu Yoshii ,  Akihiko Nishio

Inventor： Isamu Yoshii ,  Akihiko Nishio

IPC: H04L12/26

CPC classification number: H04L1/0027 ,  H04B17/24 ,  H04B17/336 ,  H04L1/0026 ,  H04L27/2601 ,  H04W24/10

Abstract: It is possible to provide a radio communication device and a CQI generation method capable of reducing the total number of CQI when reporting CQI for each level in a hierarchized RB. In the device and the method, the RB hierarchy is made as follows: a plurality of groups each consisting of the same number of RB are made to be one level, a group consisting of a plenty of RB is made to be a lower level, and a group consisting of a small number of RB is made to be a higher level. UE reports CQI for each level to Node B according to the RB reception quality at a longer cycle for lower level and at a shorter cycle for a higher level.

Abstract translation: 可以提供一种无线电通信装置和CQI生成方法，能够在分层RB中为每个级别报告CQI时减少CQI的总数。 在设备和方法中，RB层次如下：将由相同数量的RB组成的多个组分成一个级别，由大量RB组成的组被做成较低级别， 并且由少量的RB组成的组被做成更高的级别。 UE根据RB接收质量以较低的级别较长的周期和较短的周期为较高级别向节点B报告每个级别的CQI。

公开(公告)号：US20090052576A1

公开(公告)日：2009-02-26

申请号：US11913475

申请日：2005-05-04

Applicant: Alexander Golitschek Edler Von Elbwart ,  Christian Wengerter ,  Isamu Yoshii

Inventor： Alexander Golitschek Edler Von Elbwart ,  Christian Wengerter ,  Isamu Yoshii

IPC: H04L27/36 ,  H04L27/38

CPC classification number: H04L27/34 ,  H04L1/0045

Abstract: The invention relates to methods for transmitting and receiving a data bit stream in a communication system using 16-QAM constellations. Further, an apparatus for performing the methods is provided. To improve the bit-error rate performance of the communication using the 16-QAM constellations the invention suggests the use 16-QAM constellations with specially selected mapping rules together with a special constellation rearrangement for creating different versions of the 16-QAM constellations. Further, the data stream is transmitted according to a diversity scheme employing different versions of the 16-QAM constellations obtained adhering the mapping rules and rearrangement rules defined by the invention.

Abstract translation: 本发明涉及在使用16-QAM星座的通信系统中发送和接收数据比特流的方法。 此外，提供了一种用于执行该方法的装置。 为了提高使用16-QAM星座的通信的误码率性能，本发明建议使用具有特别选择的映射规则的16-QAM星座以及用于创建不同版本的16-QAM星座的特殊星座重排。 此外，数据流是根据采用不同版本的16-QAM星座的分集方案进行传输的，这些版本遵循了本发明所定义的映射规则和重排规则。

公开(公告)号：US20090005109A1

公开(公告)日：2009-01-01

申请号：US11658573

申请日：2005-07-07

Applicant: Akihiko Nishio ,  Kenichi Miyoshi ,  Isamu Yoshii

Inventor： Akihiko Nishio ,  Kenichi Miyoshi ,  Isamu Yoshii

IPC: H04M1/00

CPC classification number: H04L1/0021 ,  H04B17/382 ,  H04L1/0026 ,  H04L5/003 ,  H04L2001/0093 ,  H04W52/32 ,  H04W72/005

Abstract: A wireless transmitter for infallibly delivering data to a wireless receiver, i.e., a multicast or broadcast receiver while increasing the system capacity or the individual channel accommodation capacity. A base station device (100), which is the wireless transmitter, multicasts or broadcasts data addressed to mobile station devices (150) through a common physical channel. In this device, an individual channel receiving section (103) acquires reception quality information on each wireless receiver (150), a common channel subcarrier selecting section (107) sets switchably a subchannel used for multicast or broadcast according to the acquired reception quality information out of the subchannels of the common physical channel, and a transmission power control section (110) controls the transmission power of the set subchannel.

Abstract translation: 一种无线发射机，用于在增加系统容量或个体信道容纳能力的同时，将数据传输到无线接收机即多播或广播接收机。 作为无线发射机的基站装置（100）通过公共物理信道多播或广播寻址到移动台装置（150）的数据。 在该装置中，各信道接收部（103）取得各无线接收机（150）的接收质量信息，公共信道副载波选择部（107）根据获取的接收质量信息可切换地设置用于组播或广播的子信道 的公共物理信道的子信道，发送功率控制部（110）控制所设定的子信道的发送功率。

公开(公告)号：US20080267316A1

公开(公告)日：2008-10-30

申请号：US11993967

申请日：2005-06-29

Applicant: Alexander Golitschek Edler Von Elbwart ,  Isamu Yoshii ,  Christian Wengerter

Inventor： Alexander Golitschek Edler Von Elbwart ,  Isamu Yoshii ,  Christian Wengerter

IPC: H04L27/36 ,  H04L27/00

CPC classification number: H04L27/34

Abstract: The invention relates to method and apparatus for generating modulation symbols according to a second symbol mapping scheme by a symbol mapping unit being adapted to generate symbols according to a first symbol mapping scheme, wherein the first and second symbol mapping schemes define different mappings of data words of a stream to modulation symbols of a modulation scheme according to the respective symbol mapping scheme. Further, the invention relates to a method and apparatus for generating a mapping of data words to modulation symbols of a square 16 QAM constellation, the modulation symbols being representable by an inphase component and quadrature component. One aspect of the invention is the introduction of a bit sequence transformer unit transforming the data words to be mapped to modulation symbols prior to mapping thereby changing the Hamming distance properties of the mapping. Another aspect of the invention is the generation of a new AICO (Antipodal Inverted COnstellation) mapping scheme.

Abstract translation: 本发明涉及一种用于根据第二符号映射方案通过符号映射单元产生适应于根据第一符号映射方案生成符号的调制符号的方法和装置，其中第一和第二符号映射方案定义数据字的不同映射 根据相应的符号映射方案的调制方案的调制符号的流。 此外，本发明涉及一种用于产生数据字映射到方形16QAM星座的调制符号的方法和装置，调制符号可由同相分量和正交分量表示。 本发明的一个方面是引入一个比特序列变换器单元，在映射之前将要映射到数据字的映射到调制符号变换，从而改变映射的汉明距离属性。 本发明的另一个方面是生成新的AICO（Antipodal Inverted COnstellation）映射方案。

公开(公告)号：US20080232510A1

公开(公告)日：2008-09-25

申请号：US11996964

申请日：2005-07-26

Applicant: Alexander Golitschek Edler Von Elbwart ,  Christian Wengerter ,  Isamu Yoshii

Inventor： Alexander Golitschek Edler Von Elbwart ,  Christian Wengerter ,  Isamu Yoshii

IPC: H04L27/36 ,  H04L27/38

CPC classification number: H04L27/3405 ,  H04L1/02 ,  H04L1/18 ,  H04L25/067 ,  H04L27/38

Abstract: Transmit diversity system in which constellation rearrangement is used. Both diversity signals contain the same data and both are 16-QAM, but the location of the data bits within the constellation is different. This averages the effect of the different levels of reliability of the different constellation points. A method for modifying a quadruple of data bits in a data transmission system using Quadrature. Amplitude Modulation with 16 different modulation states, 16-QAM, using an Antipodal Inverted Constellation AICO) mapping, swapping bits selecting contiguous symbol regions with bits selecting non-contiguous symbol regions. Depending on the particular pre-defined mapping and on the particular permutation of bits, inversion of selected bits may be performed in addition. The quadruples thus obtained are mapped to modulation symbols according to a pre-defined AICO mapping. In the corresponding method for receiving the symbols, likelihood values are swapped and modified in a way which is complementary to the permutation and inversion of bits, before they are combined with likelihood values from other symbols representing the same bits. Method ensures that there is a one to one correspondence between Hamming distance and Euclidian distance for the combined received data. In other words it ensures that, once combined, all 4 bit data words which differ by the same number of bits (Hamming distance) are the same distance apart in the constellation (Euclidian distance).

Abstract translation: 使用星座重排的发射分集系统。 两个分集信号都包含相同的数据，并且都是16-QAM，但星座内的数据位的位置是不同的。 这平均了不同星座点的不同可靠性水平的影响。 一种用于使用Quadrature修改数据传输系统中的四倍数据位的方法。 使用16个不同调制状态的幅度调制，16-QAM，使用Antipodal反向星座AICO）映射，交换选择具有选择不连续符号区域的位的连续符号区的位。 根据特定的预定义映射和位的特定置换，可以另外执行所选位的反转。 根据预定义的AICO映射将由此获得的四倍数映射到调制符号。 在用于接收符号的相应方法中，在将它们与表示相同比特的其他符号的似然值组合之前，以与位的置换和反相互补的方式交换和修改似然值。 方法确保了组合接收数据的汉明距离和欧氏距离之间有一对一的对应关系。 换句话说，它确保一旦组合，通过相同位数（汉明距离）不同的所有4位数据字在星座（欧几里得距离）中是相同的距离。

公开(公告)号：US20080144729A1

公开(公告)日：2008-06-19

申请号：US11722827

申请日：2005-12-26

Applicant: Kenichi Miyoshi ,  Akihiko Nishio ,  Isamu Yoshii

Inventor： Kenichi Miyoshi ,  Akihiko Nishio ,  Isamu Yoshii

IPC: H04L27/28

CPC classification number: H04L5/006 ,  H04L1/0066 ,  H04L1/0086 ,  H04L1/08 ,  H04L5/0007 ,  H04L5/0046

Abstract: An OFDM communication apparatus that can set an optimum repetition number to data to be transmitted, thereby improving the error rate characteristic and hence the communication quality. In this apparatus, a repetition number deciding part (153) decides, based on quality information outputted from a quality information extracting part (152), a required repetition number. A systematic bit repetition number deciding part (154) decides, based on the repetition number notified of by the repetition number deciding part (153), an optimum repetition number for the systematic bit. A parity bit repetition number deciding part (155) operates similarly. Repetition parts (103-1, 103-2) repeat the bits in accordance with instructions from the systematic bit repetition number deciding part (154) and from the parity bit repetition number deciding part (155).

Abstract translation: 一种OFDM通信装置，其可以将要发送的数据设置为最佳重复数，从而提高错误率特性，从而提高通信质量。 在该装置中，重复次数判定部（153）根据从质量信息提取部（152）输出的质量信息，决定所需重复次数。 系统比特重复数决定部（154）根据重复数决定部（153）通知的重复次数，决定系统比特的最佳重复次数。 奇偶校验位重复数决定部（155）的动作类似。 重复部分（103-1,103-2）根据来自系统位重复数决定部分（154）的指令和奇偶校验位重复次数确定部分（155）重复这些位。

公开(公告)号：US20070291671A1

公开(公告)日：2007-12-20

申请号：US11718578

申请日：2005-11-02

Applicant: Isamu Yoshii

Inventor： Isamu Yoshii

IPC: H04B7/00

CPC classification number: H04L1/0018 ,  H04L1/0003 ,  H04L1/0009 ,  H04L1/0026 ,  H04L1/0039 ,  H04L1/0065 ,  H04L1/0066 ,  H04L1/0069 ,  H04L5/0007 ,  H04L5/0042 ,  H04L5/0046 ,  H04L25/0228 ,  H04L27/0012 ,  H04L27/2626 ,  H04L27/2647

Abstract: Radio communication equipment by which reproduction of application data is not interrupted nor disabled even when the application data requiring a high throughput is transmitted by radio. In the equipment, an MCS deciding section (113) has, for example, an MCS setting table shown in table 1, selects an MCS having the best propagation path characteristics based on channel quality information inputted from a reception RF section (111) compares the delay time of the selected MCS with an application data allowable delay time informed from a delay time calculating part (112), and decides the MCS whose delay time is equal to the application data allowable delay time or shorter.

Abstract translation: 即使通过无线电发送需要高吞吐量的应用数据，也不会中断或禁止再现应用数据的无线电通信设备。 在该设备中，MCS判定部113具有例如表1所示的MCS设定表，基于从接收RF部输入的信道质量信息，选择具有最佳传播路径特性的MCS， 从延迟时间计算部（112）通知应用数据允许延迟时间的所选MCS的延迟时间，并且确定延迟时间等于应用数据允许延迟时间或更短的MCS。