会员体验
专利管家(专利管理)
工作空间(专利管理)
风险监控(情报监控)
数据分析(专利分析)
侵权分析(诉讼无效)
联系我们
交流群
官方交流:
QQ群: 891211   
微信请扫码    >>>
现在联系顾问~
热词
    • 1. 发明授权
    • Low-density parity check convolution code (LDPC-CC) encoder and LDPC-CC decoder
    • 低密度奇偶校验卷积码(LDPC-CC)编码器和LDPC-CC解码器
    • US08423876B2
    • 2013-04-16
    • US12668655
    • 2008-07-11
    • Shutai OkamuraYutaka MurakamiMasayuki Orihashi
    • Shutai OkamuraYutaka MurakamiMasayuki Orihashi
    • H03M13/03
    • H03M13/118H03M13/1111H03M13/1154H03M13/23H03M13/235H03M13/6362
    • It is possible to provide and an LDPC-CC (Low-Density Parity-Check Convolution Codes) encoder and an LDPC-CC decoder which performs an error correction encoding and decoding while reducing the amount of a termination sequence required for encoding/decoding the LDPC-CC encoding/decoding and suppressing degradation of the transmission efficiency. The LDPC-CC encoder (400) includes a weight control unit (470) which stores a weight pattern (475) based on an LDPC-CC inspection matrix (100); and a weight pattern (476) based on a check matrix (300) obtained by deforming an LDPC-CC inspection matrix (100). The weight control unit (470) controls a weight to be multiplied onto the outputs of a plurality of shift registers (410-1 to 410-M, 430-1 to 430-M) by using the weight pattern (475) when the input bit is an information sequence, and using a weight pattern (476) which makes a weight value to be multiplied by an inspection bit v2,t to be 0 when the input bit is a termination sequence.
    • 可以提供LDPC-CC(低密度奇偶校验卷积码)编码器和LDPC-CC解码器,该LDPC-CC解码器在减少LDPC编码/解码所需的终止序列的量的同时进行纠错编码和解码 -CC编码/解码并抑制传输效率的降低。 LDPC-CC编码器(400)包括:权重控制单元(470),其基于LDPC-CC检查矩阵(100)存储权重模式(475); 以及基于通过使LDPC-CC检查矩阵(100)变形而获得的校验矩阵(300)的权重模式(476)。 权重控制单元(470)通过使用加权模式(475)来控制要乘以多个移位寄存器(410-1至410-M,430-1至430-M)的输出的权重 位是信息序列,并且当输入比特是终止序列时,使用使加权值乘以检查比特v2的加权模式(476),t为0。
    • 5. 发明申请
    • ENCODER, DECODER, ENCODING METHOD, AND DECODING METHOD
    • 编码器,解码器,编码方法和解码方法
    • US20100269009A1
    • 2010-10-21
    • US12745216
    • 2008-12-18
    • Shutai OkamuraYutaka MurakamiMasayuki Orihashi
    • Shutai OkamuraYutaka MurakamiMasayuki Orihashi
    • H03M13/05G06F11/10
    • H03M13/255H03M13/1128H03M13/116H03M13/118H03M13/23H03M13/6362H03M13/6502H03M13/6527
    • There is provided an encoder that provides a termination sequence with a simple structure for LDPC-CC encoding and reduces an amount of the termination sequence transmitted to a transmission line. The LDPC-CC encoder (200) connects a first encoder (230) to a second encoder (240) to perform encoding and thereby carry out LDPC-CC encoding, the first encoder (230) performing encoding based on an partial parity check matrix for information bits (110) obtained by extracting a sequence corresponding to the information bits in a parity check matrix (100) and the second encoder (240) performing encoding based on a partial parity check matrix for parity bits (120) obtained by extracting a sequence corresponding to the parity bits in the parity check matrix (100). A termination sequence generator (210) generates a termination sequence including the same number of bits as the memory length of the first encoder (230) and provides the generated termination sequence as an input sequence.
    • 提供了一种编码器,其提供具有用于LDPC-CC编码的简单结构的终止序列,并减少发送到传输线的终止序列的量。 LDPC-CC编码器(200)将第一编码器(230)连接到第二编码器(240)以执行编码,从而执行LDPC-CC编码,第一编码器(230)基于部分奇偶校验矩阵执行编码, 通过提取与奇偶校验矩阵(100)中的信息比特相对应的序列获得的信息比特(110)和基于通过提取序列获得的奇偶校验比特(120)的部分奇偶校验矩阵执行编码的第二编码器(240) 对应于奇偶校验矩阵(100)中的奇偶校验位。 终止序列生成器(210)生成包括与第一编码器(230)的存储器长度相同数量的位的终止序列,并且将生成的终止序列提供为输入序列。
    • 6. 发明申请
    • TRANSMITTING DEVICE AND TRANSMITTING METHOD
    • 发送设备和发送方法
    • US20100192047A1
    • 2010-07-29
    • US12668829
    • 2008-07-11
    • Yutaka MurakamiShutai OkamuraMasayuki Orihashi
    • Yutaka MurakamiShutai OkamuraMasayuki Orihashi
    • H03M13/03G06F11/00
    • H04L1/0057H03M13/1111H03M13/235H03M13/2707H03M13/353H03M13/6306H04L1/0059H04L1/1812H04L5/0007H04L5/0042
    • A transmitting device and method enabling improvement of the reception quality on the receiving side when the LDPC-CC (Low-Density Parity-Check Convolutional Codes) encoding is used. The transmitting device (100) comprises an LDPC-CC encoding section (102), a sorting section (121) for sorting the encoded data (120) acquired by the LDPC-CC encoding section (102) into a first encoded data set (103_A) corresponding to the column number of the column containing “1” in a part of an LDPC-CC check matrix H from which a protograph is excluded and a second encoded data set (103_B) corresponding to the column numbers of the columns other than that, and a frame constructing section (a control section (106)) for constructing a transmission frame where the first and second encoded data sets (103_A, 103_B) are arranged in positions different in time or frequency in the transmission frame.
    • 当使用LDPC-CC(低密度奇偶校验卷积码)编码时,能够提高接收侧的接收质量的发送装置和方法。 发送设备(100)包括LDPC-CC编码部分(102),用于将由LDPC-CC编码部分(102)获取的编码数据(120)分类为第一编码数据集(103_A)的排序部分 )对应于从其排除原型图的LDPC-CC校验矩阵H的一部分中包含“1”的列的列号,以及对应于除此之外的列的列号的第二编码数据集(103_B) ,以及用于构造传输帧的帧构造部(控制部(106)),其中第一和第二编码数据集(103_A,103_B)被布置在传输帧中的时间或频率不同的位置。
    • 7. 发明申请
    • MIMO RECEIVER AND MIMO COMMUNICATION SYSTEM
    • MIMO接收机和MIMO通信系统
    • US20100172421A1
    • 2010-07-08
    • US12294804
    • 2007-03-30
    • Shutai OkamuraMasayuki OrihashiTakaaki KishigamiYutaka Murakami
    • Shutai OkamuraMasayuki OrihashiTakaaki KishigamiYutaka Murakami
    • H04L27/28H04L27/06
    • H04B7/04H04B7/0697H04B7/0854H04L1/0625H04L1/0631H04L1/0643
    • An MIMO receiver and MIMO communication system which can have a small hardware scale even if the number of antennas used for MIMO communication. In a radio communication device (200), a receiving section (220) receives a spatially multiplexed signal generated by mutually-different and spatially multiplexing transmission signals, a first signal demultiplexing section (230) subjects a linear operation to the received spatial multiplexed signal to demultiplex the spatial multiplexed signal, and a second signal demultiplexing section (240) demultiplexer the demultiplexed spatially multiplexed signal into the transmission signals. When the received signal is demultiplexed by a single demultiplexing, as the number of multiplexed spatial multiplexed signal increases, the demultiplexer becomes complicated, and the hardware scale increases. When the received signal is demultiplexed by a plurality of demultiplexings, the hardware scale is relatively small.
    • 即使用于MIMO通信的天线数量,MIMO接收机和MIMO通信系统也可以具有小的硬件规模。 在无线通信装置(200)中,接收部(220)接收通过相互不同的空间复用的发送信号生成的空间复用信号,第一信号解复用部(230)对所接收的空间复用信号进行线性运算 解复用空间多路复用信号,第二信号解复用部分(240)将解复用的空间多路复用信号解复用为传输信号。 当接收到的信号被单解复用解复用时,随着多路复用信号的复用信号数量的增加,解复用器变得复杂,硬件规模增大。 当接收到的信号被多路解复用时,硬件比例相对较小。
    • 8. 发明授权
    • Transmitter apparatus
    • 变送器装置
    • US08219865B2
    • 2012-07-10
    • US13190158
    • 2011-07-25
    • Yutaka MurakamiShutai OkamuraKiyotaka KobayashiMasayuki Orihashi
    • Yutaka MurakamiShutai OkamuraKiyotaka KobayashiMasayuki Orihashi
    • H03M13/00G06F11/00
    • H04L1/0041H03M13/13H03M13/255H03M13/2721H03M13/2909H04L1/0003H04L1/0057H04L1/0071H04L1/0656H04L5/0023
    • A transmitter apparatus wherein a relatively simple structure is used to suppress burst errors without changing the block sizes of encoded blocks even when the number of modulation multi-values is increased. An encoding part subjects transport data to a block encoding process to form block encoded data. A modulating part modulates the block encoded data to form data symbols; and an arranging (interleaving) part arranges (interleaves) the block encoded data in such a manner that the intra-block encoded data of the encoded blocks, which include their respective single different data symbol, get together, and then supplies the arranged (interleaved) block encoded data to the modulating part. In this way, there can be provided a transmitter apparatus wherein a relatively simple structure is used to suppress burst errors without changing the block sizes of encoded blocks even when the number of modulation multi-values is increased.
    • 一种发射机装置,即使当调制多值的数量增加时,使用相对简单的结构来抑制突发错误,而不改变编码块的块大小。 编码部分将传输数据转移到块编码处理以形成块编码数据。 调制部分调制块编码数据以形成数据符号; 并且排列(交织)部分以这样的方式布置(交织)块编码数据,使得包括它们各自的单个不同数据符号的编码块的块内编码数据在一起,然后提供所安排的(交织的 )块编码数据到调制部分。 以这种方式,可以提供一种发射机装置,即使当调制多值的数量增加时,使用相对简单的结构来抑制突发错误,而不改变编码块的块大小。