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    • 5. 发明申请
    • Method, device, and base station for transmitting data of hotspot cell coverage
    • 用于传输热点小区覆盖数据的方法,设备和基站
    • US20150103760A1
    • 2015-04-16
    • US14368502
    • 2012-03-07
    • Shuai ZhangJin XuJun Xu
    • Shuai ZhangJin XuJun Xu
    • H04W72/04
    • H04W72/04H04L1/00H04L1/0016H04W28/18
    • Embodiments of the disclosure provides a method for transmitting data of hotspot cell coverage including: step a. a base station adjusts a Modulation and Coding Scheme (MCS) table allowing the same to satisfy a 256 QAM modulation scheme, and acquires layer 1 Transport Block Size (TBS) when the modulation scheme is 256 QAM; step b. on the basis of NPRB, ITBS and the number of Transport Block (TB) mapping layers, the base station determines the TBS currently transmitting data, and transmits data on the basis of the TBS. Embodiments of the disclosure also provides a device and base station for transmitting data. Employment of the method, device, and base station for transmitting the data of hotspot cell coverage of embodiments of the disclosure allows for optimized modulation scheme for the same to support up to 256 QAM, and for improved system throughput, thus solving the problem in hotspot cell coverage of system transmission speed not capable of satisfying actual demand.
    • 本公开的实施例提供了一种用于发送热点小区覆盖的数据的方法,包括:步骤a。 基站调整调制编码方案(MCS)表,使其能够满足256QAM调制方案,并且当调制方案为256QAM时获取层1传输块大小(TBS); 步骤b。 基于NPRB,ITBS和传输块(TB)映射层的数量,基站确定当前正在发送数据的TBS,并且基于TBS发送数据。 本公开的实施例还提供了用于发送数据的设备和基站。 采用用于发送本公开实施例的热点小区覆盖的数据的方法,设备和基站允许优化的调制方案用于支持高达256QAM,并且为了改善系统吞吐量,从而解决了热点中的问题 系统传输速度的小区覆盖率不能满足实际需求。
    • 6. 发明申请
    • DISPERSION COMPENSATION FIBER
    • 分散补偿纤维
    • US20140369639A1
    • 2014-12-18
    • US14009324
    • 2012-03-13
    • Shuqiang ZhangMingfeng FanSong WangJin XuJie LuoBeibei Cao
    • Shuqiang ZhangMingfeng FanSong WangJin XuJie LuoBeibei Cao
    • G02B6/036G02B6/27
    • G02B6/03666G02B6/02214G02B6/02261G02B6/03644
    • A dispersion compensation fiber comprises a fiber core and cladding. The fiber core is a core layer mainly doped with germanium and having a positive relative refractive index difference. The cladding covering the fiber core comprises a trench cladding mainly doped with fluorine, an annular cladding mainly doped with germanium, a matching cladding mainly doped with fluorine, and an outermost mechanical cladding in order. Relative refractive index differences of the fiber core and the claddings are respectively: Δ1% being 1.55% to 2.20%, Δ2% being −0.55% to −0.30%, Δ3% being 0.40% to 0.65%, Δ4% being −0.20% to −0.01%, and Δ5% being 0. Radius ranges, from R1 to R5, of the fiber core and the claddings are respectively: R1 being 1.4 to 1.7 μm, R2 being 4.1 to 4.8 μm, R3 being 6.7 to 8.8 μm, R4 being 10 to 17 μm, and R5 being 38 to 63 μm.
    • 色散补偿光纤包括光纤芯和包层。 纤维芯是主要掺杂锗并且具有正的相对折射率差的芯层。 覆盖纤维芯的包层包括主要掺杂有氟的沟槽包层,主要掺杂有锗的环形包层,主要掺杂有氟的匹配包层以及最外层机械包层。 纤维芯和包层的相对折射率差异分别为:&Dgr; 1%为1.55%至2.20%,&Dgr; 2%为-0.55%至-0.30%,&Dgr; 3%为0.40%至0.65%,&Dgr ; 4%为-0.20%至-0.01%,&Dgr; 5%为0.纤维芯和包层的半径范围为R1至R5分别为:R1为1.4〜1.7μm,R2为4.1〜4.8 μm,R3为6.7〜8.8μm,R4为10〜17μm,R5为38〜63μm。
    • 8. 发明授权
    • Method for secure communication over heterogeneous networks
    • 异构网络安全通信方法
    • US08671277B2
    • 2014-03-11
    • US12797409
    • 2010-06-09
    • Jin XuBiao Chen
    • Jin XuBiao Chen
    • H04L9/32
    • H04L9/0827
    • A method for securely communicating a message from a source node to a destination node over a network can comprise the steps of converting the message into an initial bit sequence, pre-processing the initial bit sequence by a modulo adding the initial bit sequence with an auxiliary key message, constructing a reduced network, determining a multitude of paths from the source node to the destination node over the reduced network, constructing an expanded bit sequence comprising the initial bit sequence and the auxiliary key message, splitting the expanded bit sequence into two or more parts, transmitting the two or more parts of the expanded bit sequence over two or more paths of the multitude of paths, re-assembling the two or more parts of the expanded bit sequence at the destination node, and recovering the initial bit sequence by modulo adding the expanded bit sequence with the auxiliary key message.
    • 一种用于通过网络从源节点到目的地节点安全地传递消息的方法可以包括以下步骤:将消息转换成初始比特序列,通过模数将原始比特序列与辅助 构建减少的网络,通过缩减网络确定从源节点到目的地节点的大量路径,构建包括初始比特序列和辅助密钥消息的扩展比特序列,将扩展比特序列分成两个或 更多的部分,通过多个路径的两个或多个路径发送扩展比特序列的两个或更多个部分,重新​​组合目的地节点处的扩展比特序列的两个或更多个部分,并且通过 使用辅助键消息对扩展的比特序列进行模加法。
    • 9. 发明授权
    • Decoding method for low density generator matrix code
    • 低密度发电机矩阵码的解码方法
    • US08301961B2
    • 2012-10-30
    • US12747936
    • 2008-04-30
    • Zhifeng YuanJun XuJin Xu
    • Zhifeng YuanJun XuJin Xu
    • H03M13/00
    • H03M13/1111H03M13/1102H03M13/373H04L1/0057
    • The present invention provides a method for decoding a low density generator matrix code (LDGC), applied for decoding transmitted original information bits encoded in LDGC code. The method comprises the following steps: A: deleting a part erased by a channel in a received code word sequence R filled by a known bit sequence to obtain an erased code word sequence Re, and deleting the rows corresponding to the erased part from a transposed matrix GIdgct of a generator matrix of the LDGC to obtain the erased generator matrix Ge; B: permuting columns of Ge such that an M-order square matrix with an element in the 0th row and 0th column being a vertex is a triangular matrix to obtain the permuted generator matrix Gf; and C: calculating the original information bits using Gf and Re.
    • 本发明提供一种解码低密度发生器矩阵码(LDGC)的方法,该方法应用于解码以LDGC码编码的发送的原始信息比特。 该方法包括以下步骤:A:删除由已知比特序列填充的接收码字序列R中的信道擦除的部分,以获得被擦除的码字序列Re,并从转置的序列中删除对应于被擦除部分的行 LDGC的发生器矩阵的矩阵GIdgct以获得被擦除的发生器矩阵Ge; B:排列Ge的列,使得具有第0行和第0列中的元素作为顶点的M阶方阵是三角矩阵,以获得置换的发生矩阵Gf; 和C:使用Gf和Re计算原始信息位。
    • 10. 发明授权
    • Decoding method and device for Reed-Solomon code
    • Reed-Solomon码的解码方法和装置
    • US08286063B2
    • 2012-10-09
    • US12988643
    • 2008-08-25
    • Jin XuJun XuZhifeng YuanLiujun Hu
    • Jin XuJun XuZhifeng YuanLiujun Hu
    • H03M13/00
    • H04L1/0071H03M13/15H03M13/27H04L1/0057
    • The present invention provides a decoding method and device for Reed-Solomon (RS) codes. The method includes the following steps: A: filling data to be decoded in a byte interleaver by column in turn; B: performing cyclic shift to data in a check region of the byte interleaver by row and/or by column, so as to make the data of each row in the check region become check data in sequence of data of corresponding row in an information region of the byte interleaver; C: performing RS decoding by row method, and writing information data of each row obtained after decoding into the corresponding row in the information region of the byte interleaver in turn; and D: reading business data of the decoded information data from the information region of the byte interleaver by column. The method and device of the present invention achieve the best interleaving effect.
    • 本发明提供了一种用于里德 - 所罗门(RS)码的解码方法和装置。 该方法包括以下步骤:A:按列依次填充要在字节交织器中解码的数据; B:通过行和/或列对字节交织器的检查区域中的数据进行循环移位,以使检查区域中的每行的数据按照信息区域中的相应行的数据顺序成为检查数据 的字节交织器; C:通过行方法执行RS解码,并且将解码后获得的每行的信息数据依次写入字节交织器的信息区域中的对应行; 并且D:从字节交织器的信息区域中逐列读取解码信息数据的业务数据。 本发明的方法和装置实现了最佳的交织效果。