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    • 1. 发明授权
    • System and method for relay coding
    • 中继编码系统和方法
    • US08281211B2
    • 2012-10-02
    • US12121631
    • 2008-05-15
    • Haifeng WangFang WangTing ZhouShixin Cheng
    • Haifeng WangFang WangTing ZhouShixin Cheng
    • H03M13/00
    • H04L1/0066H04B7/15521H04L1/005H04L1/0059H04L2001/0097
    • Systems and methods for providing relay in communications systems are disclosed. The relay may receive signals from user equipments (UEs) transmitting coded signals. The relay may receive turbo coded signals from the UEs. The relay station may encode a network channel for transmission to the base station using a recursive systematic convolutional (“RSC”) code. The use of RSC for the network code enables the base station to form as well a distributed turbo code as one can with the UE coded signals. In this manner the base station may recover the signal estimates for the UE signals with lower error probability when estimates at the relay station include errors due to imperfect reception. The use of the relay station and the RSC network code enables the base station to receive UE signals with lower error probability even when the transmission path from the UE is imperfect.
    • 公开了在通信系统中提供中继的系统和方法。 中继器可以从发送编码信号的用户设备(UE)接收信号。 中继器可以从UE接收turbo编码信号。 中继站可以使用递归系统卷积码(RSC)编码用于传输到基站的网络信道。 使用RSC作为网络代码使得基站能够形成与UE编码信号一样的分布式turbo码。 以这种方式,当中继站的估计包括由于不完美的接收而引起的错误时,基站可以以较低的错误概率来恢复UE信号的信号估计。 使用中继站和RSC网络代码,即使当来自UE的传输路径不完美时,基站能够接收具有较低错误概率的UE信号。
    • 2. 发明申请
    • SYSTEM AND METHOD FOR RELAY CODING
    • 用于继电器编码的系统和方法
    • US20090287979A1
    • 2009-11-19
    • US12121631
    • 2008-05-15
    • Haifeng WangFang WangTing ZhouShixin Cheng
    • Haifeng WangFang WangTing ZhouShixin Cheng
    • H03M13/05G06F11/08
    • H04L1/0066H04B7/15521H04L1/005H04L1/0059H04L2001/0097
    • Systems and methods for providing relay in communications systems are disclosed. The relay may receive signals from user equipments (UEs) transmitting coded signals. The relay may receive turbo coded signals from the UEs. The relay station may encode a network channel for transmission to the base station using a recursive systematic convolutional (“RSC”) code. The use of RSC for the network code enables the base station to form as well a distributed turbo code as one can with the UE coded signals. In this manner the base station may recover the signal estimates for the UE signals with lower error probability when estimates at the relay station include errors due to imperfect reception. The use of the relay station and the RSC network code enables the base station to receive UE signals with lower error probability even when the transmission path from the UE is imperfect.
    • 公开了在通信系统中提供中继的系统和方法。 中继器可以从发送编码信号的用户设备(UE)接收信号。 中继器可以从UE接收turbo编码信号。 中继站可以使用递归系统卷积码(“RSC”)码对网络信道进行编码以传输到基站。 使用RSC作为网络代码使得基站能够形成与UE编码信号一样的分布式turbo码。 以这种方式,当中继站的估计包括由于不完美的接收而引起的错误时,基站可以以较低的错误概率来恢复UE信号的信号估计。 使用中继站和RSC网络代码,即使当来自UE的传输路径不完美时,基站能够接收具有较低错误概率的UE信号。
    • 3. 发明申请
    • Subcarrier truncating data transmission scheme in OFDM system
    • OFDM系统中子载波截断数据传输方案
    • US20070258352A1
    • 2007-11-08
    • US11415725
    • 2006-05-02
    • Haifeng WangFang WangMing ChenShixin Cheng
    • Haifeng WangFang WangMing ChenShixin Cheng
    • H04J11/00
    • H04W52/42H04L1/0045H04L1/0057H04L5/0007H04L5/0046H04L5/006
    • A multicarrier data transmission scheme is provided. According to the provided scheme, a radio transmitter encodes data bits with different degrees, the degree of an encoded data bit being defined by the number of parity check equations protecting the data bit. The data bits are preferably encoded with an irregular low-density parity check (LDPC) code. The encoded data bits are then mapped to symbols. The symbols are allocated to subcarriers of a multicarrier radio signal on the basis of channel state information obtained from the radio receiver and the degree used with respect to each symbol. On the basis of the channel state information, a number of subcarriers are truncated due to high attenuation, and the number of subcarriers to be truncated relative to the total number of subcarriers is substantially fixed. The available transmit power to the non-truncated subcarriers. The multicarrier signal comprising symbols on the non-truncated subcarriers is then transmitted to the radio receiver.
    • 提供了一种多载波数据传输方案。 根据所提供的方案,无线电发射机对不同程度的数据比特进行编码,编码数据比特的程度由保护数据比特的奇偶校验方程数定义。 数据比特优选地用不规则的低密度奇偶校验(LDPC)码进行编码。 编码数据位然后映射到符号。 基于从无线电接收机获得的信道状态信息和相对于每个符号使用的程度,将符号分配给多载波无线电信号的子载波。 基于信道状态信息,由于高衰减而使多个子载波被截断,并且相对于子载波的总数而要被截断的子载波的数量基本上是固定的。 对非截断子载波的可用传输功率。 然后,将包括非截断子载波上的符号的多载波信号发送到无线电接收机。
    • 5. 发明授权
    • Subcarrier truncating data transmission scheme in OFDM system
    • OFDM系统中子载波截断数据传输方案
    • US08102882B2
    • 2012-01-24
    • US11415725
    • 2006-05-02
    • Haifeng WangFang WangMing ChenShixin Cheng
    • Haifeng WangFang WangMing ChenShixin Cheng
    • H04J1/00
    • H04W52/42H04L1/0045H04L1/0057H04L5/0007H04L5/0046H04L5/006
    • A multicarrier data transmission scheme is provided. According to the provided scheme, a radio transmitter encodes data bits with different degrees, the degree of an encoded data bit being defined by the number of parity check equations protecting the data bit. The data bits are preferably encoded with an irregular low-density parity check (LDPC) code. The encoded data bits are then mapped to symbols. The symbols are allocated to subcarriers of a multicarrier radio signal on the basis of channel state information obtained from the radio receiver and the degree used with respect to each symbol. On the basis of the channel state information, a number of subcarriers are truncated due to high attenuation, and the number of subcarriers to be truncated relative to the total number of subcarriers is substantially fixed. The available transmit power to the non-truncated subcarriers. The multicarrier signal comprising symbols on the non-truncated subcarriers is then transmitted to the radio receiver.
    • 提供了一种多载波数据传输方案。 根据所提供的方案,无线电发射机对不同程度的数据比特进行编码,编码数据比特的程度由保护数据比特的奇偶校验方程数定义。 数据比特优选地用不规则的低密度奇偶校验(LDPC)码进行编码。 编码数据位然后映射到符号。 基于从无线电接收机获得的信道状态信息和相对于每个符号使用的程度,将符号分配给多载波无线电信号的子载波。 基于信道状态信息,由于高衰减而使多个子载波被截断,并且相对于子载波的总数而要被截断的子载波的数量基本上是固定的。 对非截断子载波的可用传输功率。 然后,将包括非截断子载波上的符号的多载波信号发送到无线电接收机。
    • 6. 发明授权
    • Delayed branch decision in quadrature decomposition with M-searching
    • 通过M搜索在正交分解中延迟分支决策
    • US07844008B2
    • 2010-11-30
    • US11706821
    • 2007-02-12
    • Wei LiHaifeng WangJorma LillebergMing ChenShixin Cheng
    • Wei LiHaifeng WangJorma LillebergMing ChenShixin Cheng
    • H04L5/12H04L23/02
    • H04L25/03216H04L2025/03426
    • A QRD-M decomposition includes a first and a sequential second stage, at least. In the first stage, M branches are selected from among more than M branches entering the first stage as survive branches from which multiple decompositions are calculated. In the second stage, more than M branches are selected from among those branches entering the second stage as survive branches from which multiple decompositions are calculated. The symbol of the received signal is decided from a branch that is a survive branch of both the first and second stages. The second stage may be within a window that may include additional stages at which the pruning decision down to M survive branches is delayed. One or more windows may be used in a single QRD-M decomposition. In an embodiment, all branches entering the second stage are survive branches. It is shown that the marginal increased computational load increases accuracy.
    • QRD-M分解至少包括第一和第二阶段。 在第一阶段,从分支进入第一阶段的M个分支中选出M个分支作为计算多个分解的生存分支。 在第二阶段,从进入第二阶段的那些分支中选出超过M个分支作为计算多重分解的生存分支。 接收信号的符号由作为第一和第二级的存活分支的分支决定。 第二阶段可能在一个窗口内,可能包括另外一个阶段,在此阶段,由M延续出来的剪枝决定被延迟。 单个QRD-M分解中可以使用一个或多个窗口。 在一个实施例中,进入第二阶段的所有分支都是能够分支的。 显示边际增加的计算负载提高了精度。
    • 9. 发明申请
    • Recursive Sequence Generation For Selected Mapping In Multi-Carrier Systems
    • 在多载波系统中选择映射的递归序列生成
    • US20070291860A1
    • 2007-12-20
    • US11664446
    • 2004-10-28
    • Haifeng WangBingyang WuMing ChenShixin Cheng
    • Haifeng WangBingyang WuMing ChenShixin Cheng
    • H04L27/28
    • H04L27/2621H04L1/0071H04L27/2614
    • This invention relates to a method, device, computer program and computer program product for determining a mapping for a sequence of information-carrying values, including determining K representations of a sequence of information-carrying values in K successive stages, respectively, wherein in a first stage, a first representation of said K representations is determined to be equal to said sequence of information-carrying values, wherein in subsequent stages, each representation is determined by performing a mapping operation on the representation determined in the preceding stage, and wherein said mapping operation is the same for each stage; calculating, in each stage, a parameter from a transformation of the representation determined in said stage; and determining for which stage of said K stages an extreme value of said parameter is calculated. The invention further relates to a method, device, computer program and computer program product for inverse-mapping a mapped sequence of information-carrying values, and a system for the transfer of information-carrying values.
    • 本发明涉及一种用于确定信息载入值序列的映射的方法,装置,计算机程序和计算机程序产品,包括分别确定K个连续阶段中的信息携带值序列的K个表示,其中在 所述K表示的第一表示被确定为等于所述信息携带值的序列,其中在随后的阶段中,通过对在前一阶段中确定的表示执行映射操作来确定每个表示,并且其中所述 每个阶段的映射操作相同; 在每个阶段计算来自在所述阶段中确定的表示的变换的参数; 并且确定所述K级的哪一级被计算出所述参数的极值。 本发明还涉及用于对映射的信息携带值序列进行反映射的方法,装置,计算机程序和计算机程序产品,以及用于传送信息携带值的系统。