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WO2007000079A1 - A method for configuring and demodulating multiple scrambled codes in cdma system - Google Patents

A method for configuring and demodulating multiple scrambled codes in cdma system Download PDF

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Publication number
WO2007000079A1
WO2007000079A1 PCT/CN2005/000939 CN2005000939W WO2007000079A1 WO 2007000079 A1 WO2007000079 A1 WO 2007000079A1 CN 2005000939 W CN2005000939 W CN 2005000939W WO 2007000079 A1 WO2007000079 A1 WO 2007000079A1
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WO
WIPO (PCT)
Prior art keywords
code
scrambling
user
scrambling codes
cell
Prior art date
Application number
PCT/CN2005/000939
Other languages
French (fr)
Chinese (zh)
Inventor
Zhaohua Zeng
Ping Li
Hai Jiang
Original Assignee
Zte Corporation
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by Zte Corporation filed Critical Zte Corporation
Priority to PCT/CN2005/000939 priority Critical patent/WO2007000079A1/en
Priority to CN2005800487562A priority patent/CN101133581B/en
Publication of WO2007000079A1 publication Critical patent/WO2007000079A1/en

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    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04JMULTIPLEX COMMUNICATION
    • H04J13/00Code division multiplex systems
    • H04J13/16Code allocation

Definitions

  • the present invention relates to a method for configuring a plurality of scrambling codes in a cell to increase system capacity in a system, and is particularly suitable for a multi-scrambling code configuration method in a TD-SCDMA system in the field of mobile communications.
  • the method of the present invention can also be applied to all CDMA systems in the field of mobile communications, and is particularly suitable for TDD-CDMA systems and all SCDMA systems. Background technique
  • a multiple access system is usually constructed by using one or several combinations of frequency division (FDMA), time division (TOMA) or code division (CDMA) characteristics of radio resources, for a large number of mobile users.
  • FDMA frequency division
  • TOMA time division
  • CDMA code division
  • 3G mobile system with CDMA as its main feature the same frequency network coverage is usually achieved by configuring one scrambling code for each cell (different adjacent cell scrambling codes).
  • the wireless resources occupied by different users are different, which greatly limits the system bandwidth utilization and limits the user capacity in the unit frequency band.
  • any introduction of wireless resource independent features will bring about a significant increase in frequency band utilization.
  • TD-SCDMA allocates resources in FDMA/TDMA/CDMA mode, and its frequency band utilization is far from Other systems.
  • the data on the channel is subjected to spreading and scrambling.
  • the object of the present invention is to provide a multi-scrambling code configuration in a CDMA system and its associated demodulation method, which is fully beneficial.
  • any multi-antenna system especially the spatial division (SOMA) feature brought by multiple antennas in the TD-SCDMA system, multiple scrambling codes and their corresponding channel estimation and joint detection methods are simultaneously configured in the same cell, and full consideration is given.
  • SOMA spatial division
  • SDMA Secure Digital Multi-access technology
  • the user channelization code resources are fully multiplexed, thereby multiplying the system capacity and improving the frequency band utilization.
  • Multi-scrambling code configuration in a CDMA system and its associated demodulation method In a multi-antenna system, the system capacity is increased by configuring a multi-scrambling code, which includes - a), configuring multiple scrambling codes per cell, each scrambling code
  • a multi-scrambling code which includes - a
  • multiple scrambling codes per cell each scrambling code
  • the method for generating the user training sequence is consistent with the current TD protocol, except that when the multi-scrambling code is likely to occur, the channel impulse response window width of each user becomes shorter.
  • the method further includes:
  • the system groups the users served by the cell, the number of groups is equal to the number of scrambling codes, and each group of users allocates a channelization code according to a conventional orthogonal variable spreading factor code method;
  • N is greater than or equal to 1 and less than or equal to the scrambling code of the code group.
  • G matrix is a cyclic right shift matrix consisting of a basic Midamble code
  • h is the user's channel impulse response
  • n is Gaussian white noise
  • the method further includes: ⁇ using the following method to perform channel estimation: using a basic Midamble code, a total of NK voice users, K is the number of users using one scrambling code, for counting natural numbers, each user's
  • the channel estimation window length W is reduced to ⁇ .
  • the method wherein the method is applied to a TD-SCDMA system, and further includes the step of assigning a plurality of scrambling codes:
  • a total of 128 scrambling codes are defined, and are divided into 32 groups, each of which has 4 scrambling codes. 4 scrambling codes in the group are used for cross correlation;
  • the method further includes: a channel estimation step for multiple scrambling codes:
  • the method further includes a joint detection step of multiple scrambling codes - demodulating multi-user joint detection data of multiple scrambling codes, specifically, using respective spreading spread scrambling codes of the user and after passing through the channel
  • the processed channel impulse response fi generates a matrix A, which demodulates the user data: wherein the matrix A is a matrix composed of a convolution vector of each user spread spectrum scrambling code sequence and a channel impulse response using a plurality of scrambling codes, To ensure normal demodulation, it needs to be satisfied:
  • the number of antennas is Ka ⁇ N.
  • the multi-scrambling code configuration and related demodulation method in a CDMA system utilizes any multi-antenna system, especially the spatial division (SDMA) characteristic brought by multiple antennas in the TD-SCDMA system, A specific radio resource configuration method and corresponding demodulation technology are adopted to re-allocate the scrambling code resources, and multiple scrambling codes are used in one cell, compared with a scrambling code corresponding to an existing cell.
  • the method can greatly improve the user capacity of the system, improve the frequency band utilization, and save frequency resources.
  • FIG. 1 is a structural diagram of a system transmission matrix A of the method of the present invention, A is composed of the same V block;
  • FIG. 2 is a structural diagram of the block V shown in FIG. 1, and V is a composite spread scrambling code volume of each user.
  • the b-vector obtained by the accumulative channel impulse response, the different blocks in the picture represent the b-vectors obtained by using the same spreading code for different scrambling codes;
  • 3(a) and (b) are respectively schematic diagrams of system signal transmission and signal reception demodulation corresponding to the present invention. detailed description
  • 128 scrambling codes are defined and divided into 32 groups, each of which has 4 scrambling codes.
  • the prior art protocol only supports only one scrambling code per cell. .
  • the SDMA characteristics brought by the use of multiple antennas can be fully utilized, and the system capacity can be improved by configuring a multi-scrambling code, specifically: each cell is configured with multiple scrambling codes;
  • the method and quantity of the spreading code generation under each scrambling code are consistent with the conventional method;
  • the generation method of the user training sequence is consistent with the current TD protocol, and the only difference is that the channel impulse response of each user may be caused by the multi-scrambling code.
  • the window width becomes shorter, but this has little effect in the urban environment.
  • the method of user channel impact window width dynamic allocation can also be adopted to solve the problem that the window width may be insufficient, and the technical content of this aspect is adopted. It is also within the scope of protection of this patent.
  • the users served by the cell are grouped, the number of groups is equal to the number of scrambling codes, and each group of users allocates a channelization code according to a conventional orthogonal variable spreading factor of 0 VSF code.
  • the data is processed at the transmitting end, spread spectrum, scrambling (packet scrambling), modulation and raised cosine filtering, and transmitted through the air interface, equivalent to over the wireless channel.
  • the training sequence received signal is separated from the received data, and channel estimation and channel post-processing for each user are completed.
  • the received training sequence can be expressed as
  • G matrix is a cyclic right shift matrix consisting of a basic Midamble code
  • h is the user's channel impulse response
  • n is Gaussian white noise
  • the present invention can use the following method for channel estimation: Using a basic Midamble code, a total of NK voice users, K To use the number of users of one scrambling code, the channel estimation window length w of each user is reduced to ⁇ .
  • d is the column vector composed of the symbols of all users.
  • A [A kl A k2 LA Ka ]', Ka is the number of antennas, Ka ⁇ N (5) Demodulation of user data,
  • a to is a block diagonal matrix, the block to can be expressed as
  • 3 ⁇ 4 is a matrix consisting of the k-th user's spread spectrum scrambling code composite sequence of the first scrambling code, w is Use the first
  • the matrix consisting of the k-th users of the k-th users of the spread spectrum of the scrambling code is the channel impulse response of the kth user using the Nth scrambling code.
  • the method of the present invention is a scheme of using multiple scrambling codes in one cell, and a method of channel estimation and joint detection in this case, as shown in Figs. 3(a) and (b), which includes the following Steps:
  • the first step In the TD-SCDMA system, a total of 128 scrambling codes are defined and divided into 32 groups, each of which has 4 scrambling codes, and the four scrambling codes in the selected group are mutually Correlation.
  • Step 2 The scrambling code with small cross-correlation is preferentially selected as the scrambling code used by the cell, and the value of the number of scrambling codes N is 2 ⁇ N ⁇ 4.
  • Step 1 Generate a G matrix.
  • a cyclic right shift matrix G consisting of a basic Midamble code, assuming that N scrambling codes are simultaneously used in one cell, the number of users is increased by N times, a total of NK voice users, and the channel estimation window length W of each user is reduced to
  • ⁇ , K is the number of users using a scrambling code.
  • Step 2 Present the training sequence of the received data for channel estimation.
  • the estimated channel post-processing, the retention greater than the decision threshold, is less than the decision threshold is set to zero.
  • Step 3 Obtain the channel impulse response for each user.
  • Multi-user joint detection data demodulation of multiple scrambling codes specifically using user's respective spread spectrum scrambling code and channel post-processing channel impulse response generation matrix A to demodulate user data:
  • the matrix A is a matrix composed of a convolution vector of each user spread spectrum scrambling code and a channel impulse response using a plurality of scrambling codes. To ensure normal demodulation, it is necessary to satisfy: the number of antennas Ka ⁇ N.
  • the data is processed at the transmitting end, spread spectrum, scrambling, modulation, and raised cosine filtering, and transmitted through the antenna.
  • the training sequence for receiving data is proposed for channel estimation, and the data portion is subjected to joint detection and demodulation by multiple users to complete data separation.
  • the training sequence received signal is separated from the received data, and channel estimation and channel post-processing for each user are completed.
  • the received training sequence can be expressed as
  • G matrix is a cyclic right shift matrix consisting of a basic Midamble code
  • h is the user's channel impulse response
  • n is Gaussian white noise
  • the power of each tap of the impulse response is judged. If it is greater than or equal to the set threshold, the position of the tap is retained; otherwise, the response of the tap is removed.
  • the user data arrives at the receiver through the spread spectrum scrambling and air channel, and the received signal e can be expressed as:
  • d is the column vector composed of the symbols of all users, the user's respective spread spectrum scrambling code and the post-processed channel impulse response £ generation system transmission matrix A, the structure of the A matrix is as shown in Fig. 1, where Ns is the user symbol The length of the number, K is the number of users using a scrambling code, and Q is the spreading factor, as shown in the following equation -
  • Ka [A kl A kz LA Ka ]', Ka is the number of antennas, Ka ⁇ N (14)
  • a to is a block diagonal array
  • the block ⁇ " can be expressed as
  • the method disclosed in the method of the present invention uses multiple scrambling codes and their corresponding channel estimation and joint detection to increase system capacity in one cell, which greatly improves the capacity of the TD-SCDMA system. , improve the frequency band utilization, or equivalently improve the data throughput rate of a single cell.
  • the present invention is applicable to all applications to all CDMA systems, particularly TDD-CDMA systems and SCDMA systems, and improvements to other systems can also be made with reference to the above-described concepts of the method of the present invention.
  • Any engineer having a background in signal processing, communication, etc. can design corresponding channel estimation and joint detection devices in accordance with the present invention, which are all included in the spirit and scope of the present invention, and thus are protected by the appended claims. range.

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  • Engineering & Computer Science (AREA)
  • Computer Networks & Wireless Communication (AREA)
  • Signal Processing (AREA)
  • Mobile Radio Communication Systems (AREA)

Abstract

A method for configuring and demodulating multiple scrambled codes in CDMA system, increases the system capacity by configuring multiple scrambled codes in multiple antennas system, the method comprises the following steps: configures multiple scrambled codes for each cell, the generating method and amount of spread codes for each cell is consistent with that in conventional way; the generating method for subscriber training sequence is consistent with the provision of current TD protocol, only different in shortening the width of the channel pulse response window for each subscriber when probably causing multiple scrambled codes. The method according to the invention takes full advantage of any multiple antennas system, especially makes use of the space-division (SDMA) character resulting from multiple antennas in TD-SCDMA system, adopts a particular method for configuring wireless resource and the demodulating method thereof, reallocates the scrambled code resource, uses multiple scrambled codes in each cell, thereby greatly improves the system capacity, increases the availability of frequency band, and saves the frequency resource. .

Description

一种 CDMA系统中多扰码配置及其相关的解调方法 技术领域  Multi-scrambling code configuration in CDMA system and related demodulation method
本发明涉及在 系统中一个小区配置多个扰码来提高系统容量的方法,尤其 适用于移动通讯领域的 TD- SCDMA系统中多扰码配置的方法。  The present invention relates to a method for configuring a plurality of scrambling codes in a cell to increase system capacity in a system, and is particularly suitable for a multi-scrambling code configuration method in a TD-SCDMA system in the field of mobile communications.
本发明方法还可以用于移动通信领域中所有 CDMA系统, 特别适合于 TDD-CDMA 系统和所有 SCDMA系统。 背景技术  The method of the present invention can also be applied to all CDMA systems in the field of mobile communications, and is particularly suitable for TDD-CDMA systems and all SCDMA systems. Background technique
在现有所有移动通信系统中,通常是利用无线资源的频分(FDMA)、时分(TOMA) 或码分 (CDMA)特性的一种或几种组合来构成多址系统, 为大量的移动用户提供服 务。 而对于以 CDMA为主要特性的 3G移动系统而言, 通常通过为每个小区配置一个 扰码 (相临小区扰码不同) 来达到同频组网覆盖。 在网络中, 不同用户所占有的无 线资源是不相同的, 这样就极大地限制了系统频带利用率, 限制了单位频带内用户 容量。 但同时也可以看到, 任何能引进无线资源独立特性的做法都将带来频带利用 率的显著提高, 如 TD-SCDMA由于采 FDMA/TDMA/CDMA方式分配资源, 其频带利用率 要远髙于其它系统。 - 在 TD- SCDMA系统中, 传输信道上的数据经过物理信道映射之后, 信道上的数据 将进行扩频和扰码处理。 文献 TS 25. 221 Physical channels and mapping of transport channels onto physical channels (TDD) , V4. 7. 0, 3GPP中定义了 128 个扰码, 扰码是用来标 i只数据的小区属性, 每个小区只配置一个扰码序列, 不同的 邻近小区将采用不同的扰码。 如此一来, 某一时隙, 一个小区内容纳的最大用户数 是由信道化码的个数决定的。按目前的 TD-SC匿 A协议配置, 一个 12. 2k语音用户将 占用 2个 SF=16的码道, 这样单小区、 一个时隙的用户数最多只有 8个。  In all existing mobile communication systems, a multiple access system is usually constructed by using one or several combinations of frequency division (FDMA), time division (TOMA) or code division (CDMA) characteristics of radio resources, for a large number of mobile users. Provide services. For a 3G mobile system with CDMA as its main feature, the same frequency network coverage is usually achieved by configuring one scrambling code for each cell (different adjacent cell scrambling codes). In the network, the wireless resources occupied by different users are different, which greatly limits the system bandwidth utilization and limits the user capacity in the unit frequency band. At the same time, it can be seen that any introduction of wireless resource independent features will bring about a significant increase in frequency band utilization. For example, TD-SCDMA allocates resources in FDMA/TDMA/CDMA mode, and its frequency band utilization is far from Other systems. - In the TD-SCDMA system, after the data on the transmission channel is mapped by the physical channel, the data on the channel is subjected to spreading and scrambling. Document TS 25. 221 Physical channels and mapping of transport channels onto physical channels (TDD), V4. 7. 0, 3 scrambling codes are defined in 3GPP, and scrambling codes are used to identify the cell attributes of only i data, each cell Only one scrambling sequence is configured, and different neighboring cells will use different scrambling codes. In this way, the maximum number of users per cell in a certain time slot is determined by the number of channelization codes. According to the current TD-SC A protocol, a 12.2k voice user will occupy 2 SF=16 code channels, so that there are only 8 users in a single cell and one time slot.
然而提高系统容量 (或系统数据吞吐率)一直以来都是第三代移动通信 (3G) 的焦点问题之一, 在用户数量 (或用户业务数据率) 不断增长的情况下, 频率资源 日益紧缺, 需要有更先进的技术充分利用频率资源, 如何在有限的资源条件下为尽 可能多的用户服务是 3G的目标。 发明内容  However, increasing system capacity (or system data throughput) has always been one of the focus issues of third-generation mobile communications (3G). As the number of users (or user traffic data rates) continues to increase, frequency resources are becoming increasingly scarce. More advanced technologies are needed to make full use of frequency resources. How to serve as many users as possible under limited resource conditions is the goal of 3G. Summary of the invention
本发明的目的是提出一种 CDMA系统中多扰码配置及其相关的解调方法,充分利 用任何多天线系统, 特别是 TD- SCDMA系统中多天线带来的空分(SOMA)特性, 在同 一个小区同时配置多个扰码及其相应的信道估计与联合检测的方法, 在充分考虑多 天线的 SDMA特性下, 提供一种具体的无线资源配置方法及对应的解调技术, 充分复 用用户信道化码资源, 从而成倍增加系统容量, 提高频带利用率。 The object of the present invention is to provide a multi-scrambling code configuration in a CDMA system and its associated demodulation method, which is fully beneficial. With any multi-antenna system, especially the spatial division (SOMA) feature brought by multiple antennas in the TD-SCDMA system, multiple scrambling codes and their corresponding channel estimation and joint detection methods are simultaneously configured in the same cell, and full consideration is given. Under the multi-antenna SDMA feature, a specific radio resource configuration method and corresponding demodulation technology are provided, and the user channelization code resources are fully multiplexed, thereby multiplying the system capacity and improving the frequency band utilization.
本发明的技术方案如下:  The technical solution of the present invention is as follows:
种 CDMA系统中多扰码配置及其相关的解调方法, 在多天线系统中, 通过配置 多扰码来提高系统容量, 其包括- a) 、 每小区配置多个扰码, 每个扰码下配扩频码生成方法和数量与常规方法一 致;  Multi-scrambling code configuration in a CDMA system and its associated demodulation method. In a multi-antenna system, the system capacity is increased by configuring a multi-scrambling code, which includes - a), configuring multiple scrambling codes per cell, each scrambling code The method and quantity for generating the spread spectrum code are consistent with the conventional method;
b) 、 用户训练序列的生成方法与目前 TD协议规定的一致, 其不同的是在可能 导致多扰码时, 每个用户的信道冲击响应窗宽变短。  b) The method for generating the user training sequence is consistent with the current TD protocol, except that when the multi-scrambling code is likely to occur, the channel impulse response window width of each user becomes shorter.
所述的方法, 其中, 还包括:  The method further includes:
al ) 、 所述系统对本小区服务的用户进行分组, 其组数等于扰码数, 每组用户 按常规正交可变扩频因子码的方法分配信道化码;  Al), the system groups the users served by the cell, the number of groups is equal to the number of scrambling codes, and each group of users allocates a channelization code according to a conventional orthogonal variable spreading factor code method;
bl ) 、 根据本小区的下行导频的码组号, 选用本码组对应的多个扰码中的 N个 扰码作为本小区扰码, N大于等于 1且小于等于本码组的扰码数;  Bl), according to the code group number of the downlink pilot of the current cell, select N scrambling codes of the plurality of scrambling codes corresponding to the code group as the local cell scrambling code, where N is greater than or equal to 1 and less than or equal to the scrambling code of the code group. Number
cl ) 、 对数据做发射端处理, 扩频、 加扰、 调制及升余弦滤波, 通过空口发射 出去;  Cl ), processing the data at the transmitting end, spreading, scrambling, modulating and raising the cosine filtering, transmitting through the air interface;
dl ) 、 从接收数据中分离出训练序列接收信号, 完成对各个用户的信道估计和 信道后处理, 接收到的训练序列可表示为  Dl), separating the training sequence received signal from the received data, completing channel estimation and channel post-processing for each user, and the received training sequence can be expressed as
e = Gh + n (1) 其中, G矩阵是由一个基本 Midamble码构成的循环右移矩阵, h是用户的信道冲 激响应, n是高斯白噪声。  e = Gh + n (1) where G matrix is a cyclic right shift matrix consisting of a basic Midamble code, h is the user's channel impulse response, and n is Gaussian white noise.
所述的方法, 其中, 还包括: 釆用下面的方法来进行信道估计: 使用一个基本 Midamble码, 共 NK个语音用户, K为使用一个扰码的用户数, 为计数自然数, 每个 用户的信道估计窗长 W减小为 ^。  The method further includes: 信道 using the following method to perform channel estimation: using a basic Midamble code, a total of NK voice users, K is the number of users using one scrambling code, for counting natural numbers, each user's The channel estimation window length W is reduced to ^.
NK  NK
所述的方法, 其中, 每小区配置的扰码数 N=2。  The method, wherein the number of scrambling codes configured per cell is N=2.
所述的方法, 其中, 所述方法应用于 TD- SCDMA系统中, 还包括对多个扰码的分 配方式步骤:  The method, wherein the method is applied to a TD-SCDMA system, and further includes the step of assigning a plurality of scrambling codes:
all ) 、 共定义 128个扰码, 并被分为 32组, 每个码组中都有 4个扰码, 对选 定组内的 4个扰码作互相关性; All ), a total of 128 scrambling codes are defined, and are divided into 32 groups, each of which has 4 scrambling codes. 4 scrambling codes in the group are used for cross correlation;
bl l ) 、 优先选取互相关性小的扰码作为本小区使用的扰码, 扰码个数 N的取值 范围是 2≤N≤4。  Bl l ) , preferentially select the scrambling code with small cross-correlation as the scrambling code used by the cell, and the value of the number of scrambling codes N is 2≤N≤4.
所述的方法, 其中, 还包括对多个扰码的信道估计步骤:  The method further includes: a channel estimation step for multiple scrambling codes:
cl l ) 、 生成 G矩阵, 由一个基本 Midamble码构成的循环右移矩阵 G, 假设一个 小区中同时采用 N个扰码, 则用户数增加为 N倍, 共 NK个语音用户, 每个用户的信 道估计窗长 W减小为^, K为使用一个扰码的用户数;  Cl l ) , generating a G matrix, a cyclic right shift matrix G consisting of a basic Midamble code, assuming that N scrambling codes are simultaneously used in one cell, the number of users is increased by N times, a total of NK voice users, each user's The channel estimation window length W is reduced to ^, where K is the number of users using one scrambling code;
NK  NK
dl l )、将接收数据的训练序列提出做信道估计, 信道冲激响应的最大似然估计, h = G ; 设置一个噪声门限 Γ, 对估计出来的 £进行信道后处理, 大于判决门限的 保留, 小于判决门限的置为零;  Dl l), the training sequence of the received data is proposed for channel estimation, the maximum likelihood estimation of the channel impulse response, h = G; setting a noise threshold Γ, performing channel post-processing on the estimated £, retaining greater than the decision threshold , less than the decision threshold is set to zero;
ell ) 、 获取每个用户的信道冲激响应, 从 ϋ中以 W为长度取出 NK个值就构成了 各个用户信道估计, 每个用户的信道响应窗长为 W。  Ell), obtain the channel impulse response of each user, and take NK values from ϋ in the length of W to form the channel estimation of each user. The channel response window length of each user is W.
所述的方法, 其中, 所述方法还包括对多个扰码的联合检测步骤- 对多个扰码的多用户联合检测数据解调,具体为用用户各自的扩频扰码和经过信 道后处理的信道冲激响应 fi生成矩阵 A, 对用户数据解调: 其中矩阵 A是采用了多个扰码的各个用户扩频扰码复合序列与信道冲激响应的 卷积向量构成的矩阵, 为保证能正常解调, 则需要满足: 天线数 Ka≥N。  In the method, the method further includes a joint detection step of multiple scrambling codes - demodulating multi-user joint detection data of multiple scrambling codes, specifically, using respective spreading spread scrambling codes of the user and after passing through the channel The processed channel impulse response fi generates a matrix A, which demodulates the user data: wherein the matrix A is a matrix composed of a convolution vector of each user spread spectrum scrambling code sequence and a channel impulse response using a plurality of scrambling codes, To ensure normal demodulation, it needs to be satisfied: The number of antennas is Ka≥N.
本发明所提供的一种 CDMA系统中多扰码配置及其相关的解调方法, 由于充分利 用了任何多天线系统, 特别是 TD- SCDMA系统中多天线带来的空分(SDMA)特性, 采 用了一种具体的无线资源配置方法及对应的解调技术,对扰码资源进行了重新分配, 在一个小区中使用了多个扰码, 与现有一个小区对应一个扰码相比, 该方法能够极 大地提高了系统的用户容量, 提高了频带利用率, 节省了频率资源。 附图说明  The multi-scrambling code configuration and related demodulation method in a CDMA system provided by the present invention utilizes any multi-antenna system, especially the spatial division (SDMA) characteristic brought by multiple antennas in the TD-SCDMA system, A specific radio resource configuration method and corresponding demodulation technology are adopted to re-allocate the scrambling code resources, and multiple scrambling codes are used in one cell, compared with a scrambling code corresponding to an existing cell. The method can greatly improve the user capacity of the system, improve the frequency band utilization, and save frequency resources. DRAWINGS
图 1是本发明方法的系统传输矩阵 A的结构图, A是由相同的 V块构成的; 图 2是图 1所示块 V的结构图, V是由各个用户的复合扩频扰码卷积信道冲激响 应得到的 b向量构成的, 图中的深浅不同的块分别代表不同的扰码使用相同扩频码 得到的 b向量; ,  1 is a structural diagram of a system transmission matrix A of the method of the present invention, A is composed of the same V block; FIG. 2 is a structural diagram of the block V shown in FIG. 1, and V is a composite spread scrambling code volume of each user. The b-vector obtained by the accumulative channel impulse response, the different blocks in the picture represent the b-vectors obtained by using the same spreading code for different scrambling codes;
图 3 ( a) 、 (b)分别为本发明所对应的系统信号发射、信号接收解调的示意图。 具体实施方式 3(a) and (b) are respectively schematic diagrams of system signal transmission and signal reception demodulation corresponding to the present invention. detailed description
下面结合附图, 对技术方案的各较佳实施例作进一步的详细描述:  The preferred embodiments of the technical solution are further described in detail below with reference to the accompanying drawings:
在 TD-SCDMA系统中, 共定义了 128个扰码, 并被分为 32组, 每个码组中都有 4 个扰码, 但现有技术的协议只支持每小区只能配置一个扰码。  In the TD-SCDMA system, 128 scrambling codes are defined and divided into 32 groups, each of which has 4 scrambling codes. However, the prior art protocol only supports only one scrambling code per cell. .
然而, TD-SCDMA系统中, 事实上多天线的使用带来的 SDMA特性, 可以充分加以 利用, 可以通过配置多扰码的方法来提高系统容量, 具体为: 每个小区配置多个扰 码; 每个扰码下配扩频码生成方法和数量与常规方法一致; 用户训练序列的生成方 法与目前 TD协议规定的一致, 唯一不同的是可能导致多扰码下, 每个用户的信道冲 击响应窗宽变短, 然而这在城市环境中影响不大。  However, in the TD-SCDMA system, in fact, the SDMA characteristics brought by the use of multiple antennas can be fully utilized, and the system capacity can be improved by configuring a multi-scrambling code, specifically: each cell is configured with multiple scrambling codes; The method and quantity of the spreading code generation under each scrambling code are consistent with the conventional method; the generation method of the user training sequence is consistent with the current TD protocol, and the only difference is that the channel impulse response of each user may be caused by the multi-scrambling code. The window width becomes shorter, but this has little effect in the urban environment.
考虑基站算法的复杂度和城市环境的无线信道特性, 并参照 TD-SCDMA系统中用 户训练序列的生成方法, 本发明推荐每小区配置的扰码数 N=2, 每个扰码下单时隙 最多配置支持 8个 12. 2k的语音用户, 这样, 每个小区单时隙可以支持 16个 12. 2k 的语音用户, 每个用户的信道冲击响应窗宽平均为 8个码片, 然而本发明专利不仅 仅局限于 N=2, N等于其它值都在本发明的包含范围内; 同时也可采取用户信道冲击 窗宽动态分配的方法解决窗宽可能不足的问题, 采用此方面的技术内容, 也属本专 利的保护范围。  Considering the complexity of the base station algorithm and the wireless channel characteristics of the urban environment, and referring to the method for generating the user training sequence in the TD-SCDMA system, the present invention recommends the number of scrambling codes per cell configuration N=2, and the single time slot for each scrambling code. Supports up to 8 12. 2k voice users, so that each cell single slot can support 16 12.2k voice users, and each user has a channel impulse response window width of 8 chips on average, but the present invention The patent is not limited to N=2, and N is equal to other values in the scope of the present invention. At the same time, the method of user channel impact window width dynamic allocation can also be adopted to solve the problem that the window width may be insufficient, and the technical content of this aspect is adopted. It is also within the scope of protection of this patent.
为清楚描述本发明专利, 详细描述如下:  In order to clearly describe the patent of the present invention, the detailed description is as follows:
对本小区服务的用户进行分组, 组数等于扰码数, 每组用户按常规正交可变扩 频因子 0VSF码的方法分配信道化码。  The users served by the cell are grouped, the number of groups is equal to the number of scrambling codes, and each group of users allocates a channelization code according to a conventional orthogonal variable spreading factor of 0 VSF code.
根据本小区的下行导频 DwPTS的码组号, 选用本码组对应的 4个扰码中的 N个 扰码作为本小区扰码, 1 < N≤4 , 一般可选用 N=2或 N=l。  According to the code group number of the downlink pilot DwPTS of the current cell, the N scrambling codes of the four scrambling codes corresponding to the code group are selected as the local cell scrambling code, 1 < N ≤ 4, generally N=2 or N= l.
对数据做发射端处理, 扩频、 加扰 (分组加扰) 、 调制及升余弦滤波, 通过空 口发射出去, 等价于过无线信道。  The data is processed at the transmitting end, spread spectrum, scrambling (packet scrambling), modulation and raised cosine filtering, and transmitted through the air interface, equivalent to over the wireless channel.
从接收数据中分离出训练序列接收信号, 完成对各个用户的信道估计和信道后 处理。 接收到的训练序列可表示为  The training sequence received signal is separated from the received data, and channel estimation and channel post-processing for each user are completed. The received training sequence can be expressed as
e = G + n (1) 其中, G矩阵是由一个基本 Midamble码构成的循环右移矩阵, h是用户的信道冲 激响应, n是高斯白噪声。  e = G + n (1) where G matrix is a cyclic right shift matrix consisting of a basic Midamble code, h is the user's channel impulse response, and n is Gaussian white noise.
假设一个小区中同时采用 N个扰码, 则用户数增加为 N倍。 为此, 本发明可以采 用下面的方法来进行信道估计: 使用一个基本 Midamble码, 共 NK个语音用户, K 为使用一个扰码的用户数, 每个用户的信道估计窗长 w减小为^。 Assuming that N scrambling codes are simultaneously used in one cell, the number of users is increased by N times. To this end, the present invention can use the following method for channel estimation: Using a basic Midamble code, a total of NK voice users, K To use the number of users of one scrambling code, the channel estimation window length w of each user is reduced to ^.
NK  NK
用式 (2) 完成信道冲激响应 h的最大似然估计&, 即  Complete the maximum likelihood estimation of the channel impulse response h using equation (2), ie
h = (G*rG)-IG*re (2) 由于 G矩阵是循环右移矩阵, 有 h = (G* r G)- I G* r e (2) Since the G matrix is a cyclic right shift matrix, there is
h = G_1e (3) 用户数据通过扩频加扰、 无线信道后, 到达接收机, 接收信号 e可以表示为- e = Ad+n (4) d是所有用户的符号组成的列向量, 用户各自的扩频扰码和后处理的信道冲激 响应 生成系统传输矩阵 A, h = G _1 e (3) After the user data is scrambled by the spread spectrum, after reaching the receiver, the received signal e can be expressed as - e = Ad+n (4) d is the column vector composed of the symbols of all users. The user's respective spread spectrum scrambling code and post-processed channel impulse response generation system transmission matrix A,
A = [Akl Ak2 L AKa]', Ka是天线个数, Ka≥N (5) 对用户数据解调, A = [A kl A k2 LA Ka ]', Ka is the number of antennas, Ka ≥ N (5) Demodulation of user data,
d = (Aff-A)-1Aie (6)d = (A ff -A)- 1 A i e (6)
Ato是块对角阵, 块 to可以表示为 A to is a block diagonal matrix, the block to can be expressed as
=[ ¾ L ¾ ¾ ¾ L ¾ ¾ ¾ L ¾„] (7) 其中, 是使用第 1个|¾码的第 k个用户的扩频扰码复合序列与其对应的用户的信 道冲激响应/ ¾的卷积; &£是使用第 2个扰码的第 k个用户的扩频扰码复合序列与 与其对应用户的信道冲激响应/ ^的卷积, 即 k为计数自然数, 类似的可表示为矩阵 形式 =[ 3⁄4 L 3⁄4 3⁄4 3⁄4 L 3⁄4 3⁄4 3⁄4 L 3⁄4„] (7) where is the channel-excitation response of the k-th user's spread-spectrum scrambling sequence using the 1st |3⁄4 code and its corresponding user/ 3⁄4 convolution; & £ is the convolution of the k-th user's spread spectrum scrambling code composite sequence using the second scrambling code with the channel impulse response / ^ of its corresponding user, ie k is the count natural number, similar Expressed as a matrix
= ® , ¾=¾®¾, ······, N=c N® N (8) ¾是使用第 1个扰码第 k个用户的扩频扰码复合序列组成的矩阵, w是使用第= ® , 3⁄4=3⁄4®3⁄4, ······, N =c N ® N (8) 3⁄4 is a matrix consisting of the k-th user's spread spectrum scrambling code composite sequence of the first scrambling code, w is Use the first
N个扰码第 k个用户的扩频扰码复合序列组成的矩阵, 是使用第 N个扰码的第 k 个用户的信道冲激响应。 The matrix consisting of the k-th users of the k-th users of the spread spectrum of the scrambling code is the channel impulse response of the kth user using the Nth scrambling code.
.本发明方法是在一个小区使用多个扰码的方案, 以及一种在这种情况下的信道 估计与联合检测的方法, 如图 3 (a)、 (b) 所示的, 它包括下列步骤:  The method of the present invention is a scheme of using multiple scrambling codes in one cell, and a method of channel estimation and joint detection in this case, as shown in Figs. 3(a) and (b), which includes the following Steps:
多个扰码的分配方式方法:  How to assign multiple scrambling codes:
第一步: 在 TD- SCDMA系统中, 共定义了 128个扰码, 并被分为 32组, 每个码 组中都有 4个扰码, 对选定组内的 4个扰码作互相关性。  The first step: In the TD-SCDMA system, a total of 128 scrambling codes are defined and divided into 32 groups, each of which has 4 scrambling codes, and the four scrambling codes in the selected group are mutually Correlation.
第二步: 优先选取互相关性小的扰码作为本小区使用的扰码, 扰码个数 N的取 值范围是 2≤N≤4。  Step 2: The scrambling code with small cross-correlation is preferentially selected as the scrambling code used by the cell, and the value of the number of scrambling codes N is 2 ≤ N ≤ 4.
多个扰码的信道估计方法: 第一步: 生成 G矩阵。 Channel estimation method for multiple scrambling codes: Step 1: Generate a G matrix.
由一个基本 Midamble码构成的循环右移矩阵 G, 假设一个小区中同时采用 N个 扰码, 则用户数增加为 N倍, 共 NK个语音用户, 每个用户的信道估计窗长 W减小为  A cyclic right shift matrix G consisting of a basic Midamble code, assuming that N scrambling codes are simultaneously used in one cell, the number of users is increased by N times, a total of NK voice users, and the channel estimation window length W of each user is reduced to
^, K为使用一个扰码的用户数。 ^, K is the number of users using a scrambling code.
N N
第二步: 将接收数据的训练序列提出做信道估计。  Step 2: Present the training sequence of the received data for channel estimation.
1 信道冲激响应的最大似然估计, fi - G^e ;  1 maximum likelihood estimation of channel impulse response, fi - G^e ;
2 —个噪声门限 Γ, 对估计出来的 进行信道后处理, 大于判决门限的 保留, 小于判决门限的置为零。  2 - noise threshold Γ, the estimated channel post-processing, the retention greater than the decision threshold, is less than the decision threshold is set to zero.
第三步: 获取每个用户的信道冲激响应。  Step 3: Obtain the channel impulse response for each user.
从 中以 W为长度取出 ΝΚ个值就构成了各个用户信道估计, 此时每个用户的信 道响应窗长为 w。  Taking the value of W from the length of each user constitutes the channel estimation of each user, and the channel response window length of each user is w.
多个扰码的联合检测方法: ·  Joint detection method for multiple scrambling codes:
对多个扰码的多用户联合检测数据解调,具体为用用户各自的扩频扰码和经过信 道后处理的信道冲激响应 £生成矩阵 A , 对用户数据解调:  Multi-user joint detection data demodulation of multiple scrambling codes, specifically using user's respective spread spectrum scrambling code and channel post-processing channel impulse response generation matrix A to demodulate user data:
0 = (ΑΗ 'Α)- H 0 = (Α Η 'Α)- H
其中矩阵 A是釆用了多个扰码的各个用户扩频扰码复合序列与信道冲激响应的 卷积向量构成的矩阵, 为保证能正常解调, 则需要满足: 天线数 Ka≥N。  The matrix A is a matrix composed of a convolution vector of each user spread spectrum scrambling code and a channel impulse response using a plurality of scrambling codes. To ensure normal demodulation, it is necessary to satisfy: the number of antennas Ka ≥ N.
以下以本发明方法的一个小区使用 2个扰码为例进行进一步的说明, 为了便于 描述, 假设所有用户的扩频因子 SF都相等。  In the following, a cell of the method of the present invention is further illustrated by using two scrambling codes as an example. For convenience of description, it is assumed that the spreading factors SF of all users are equal.
首先, 对数据做发射端处理, 扩频、 加扰、 调制及升余弦滤波, 通过天线发射。 将接收数据的训练序列提出做信道估计, 对数据部分进行多用户的联合检测解 调, 完成数据分离。  First, the data is processed at the transmitting end, spread spectrum, scrambling, modulation, and raised cosine filtering, and transmitted through the antenna. The training sequence for receiving data is proposed for channel estimation, and the data portion is subjected to joint detection and demodulation by multiple users to complete data separation.
从接收数据中分离出训练序列接收信号, 完成对各个用户的信道估计和信道后 处理。 接收到的训练序列可表示为  The training sequence received signal is separated from the received data, and channel estimation and channel post-processing for each user are completed. The received training sequence can be expressed as
e = Gh + n (1) 其中, G矩阵是由一个基本 Midamble码构成的循环右移矩阵, h是用户的信道冲 激响应, n是高斯白噪声。  e = Gh + n (1) where G matrix is a cyclic right shift matrix consisting of a basic Midamble code, h is the user's channel impulse response, and n is Gaussian white noise.
用式 (1 ) 完成信道冲激响应 h的最大似然估计&, 即  Complete the maximum likelihood estimation of the channel impulse response h with equation (1), ie
h = (G*rG)-1G*re (2) 由于 G矩阵是循环右移矩阵, 有 h = G !e (3) 因此上述信道估计可以采用 FFT/IFFT快速方法实现, 从而显著的提高了运算速度, 如下式- = ifft( t(e)/fft(m)) (12) 对信道冲击响应 的每个抽头的功率进行判断, 如果大于等于设置的门限值, 则保留该抽头的位置; 否则, 去掉该抽头的响应。 h = (G* r G)- 1 G* r e (2) Since the G matrix is a cyclic right shift matrix, there is h = G ! e (3) Therefore, the above channel estimation can be implemented by the FFT/IFFT fast method, which significantly improves the operation speed, as follows - = ifft( t(e)/fft(m)) (12) The power of each tap of the impulse response is judged. If it is greater than or equal to the set threshold, the position of the tap is retained; otherwise, the response of the tap is removed.
用户数据通过扩频加扰、 空中信道, 到达接收机, 接收信号 e可以表示为:  The user data arrives at the receiver through the spread spectrum scrambling and air channel, and the received signal e can be expressed as:
(13)
Figure imgf000009_0002
(13)
Figure imgf000009_0002
d是所有用户的符号组成的列向量, 用户各自的扩频扰码和后处理的信道冲激 响应 £生成系统传输矩阵 A, A矩阵的构成如图 1所示, 其中 Ns是用户符号的个数 的长度, K是使用一个扰码的用户数, Q是扩频因子, 如下式所示-  d is the column vector composed of the symbols of all users, the user's respective spread spectrum scrambling code and the post-processed channel impulse response £ generation system transmission matrix A, the structure of the A matrix is as shown in Fig. 1, where Ns is the user symbol The length of the number, K is the number of users using a scrambling code, and Q is the spreading factor, as shown in the following equation -
Figure imgf000009_0001
Figure imgf000009_0001
对用户数据解调, Α = (Α" · Α)- 。  Demodulate user data, Α = (Α" · Α)- .
A = [Akl Akz L AKa]', Ka是天线个数, Ka≥N (14)A = [A kl A kz LA Ka ]', Ka is the number of antennas, Ka ≥ N (14)
Ato是块对角阵, 块^"可以表示为 A to is a block diagonal array, the block ^" can be expressed as
=[ ¾ I ¾ ¾ ¾ L ¾ ¾ ¾ I ¾J (15) 用矩阵 A对用户数据解调, 可以使用白化匹配滤波器算法(丽 F) , 迫零线性块 均衡器算法 (ZF) , 最小均方差算法 (MMSE) 等多种联合检测算法。 这里以最小均 方差算法为例进行数据估计, 有  =[ 3⁄4 I 3⁄4 3⁄4 3⁄4 L 3⁄4 3⁄4 3⁄4 I 3⁄4J (15) User data demodulation with matrix A, you can use whitening matched filter algorithm (Li F), zero-forcing linear block equalizer algorithm (ZF), minimum mean A variety of joint detection algorithms such as variance algorithm (MMSE). Here, the minimum mean square error algorithm is used as an example for data estimation.
d = (AHRn-lA + Rd-lTl HR -'e (16) 从而得到各个用户的解调数据。 d = (A H R n - l A + R d - l T l H R -'e (16) Thereby, demodulated data of each user is obtained.
与现有技术相比, 本发明方法所公开的在一个小区同时使用多个扰码及其相应 的信道估计与联合检测来增加系统容量的方案,极大地提高了 TD-SCDMA系统的用卢 容量, 提高了频带利用率, 或等效提高单小区的数据吞吐率。  Compared with the prior art, the method disclosed in the method of the present invention uses multiple scrambling codes and their corresponding channel estimation and joint detection to increase system capacity in one cell, which greatly improves the capacity of the TD-SCDMA system. , improve the frequency band utilization, or equivalently improve the data throughput rate of a single cell.
本发明适用于所有应用于所有 CDMA系统, 特别是 TDD- CDMA系统和所 SCDMA系 统, 对其它系统的改进也都可参照本发明方法的上述构思进行。任何具有信号处理, 通信等知识背景的工程师,都可以根据本发明设计相应的信道估计和联合检测装置, 其均应包含在本发明的思想和范围内, 因而属于本发明所附权利要求的保护范围。  The present invention is applicable to all applications to all CDMA systems, particularly TDD-CDMA systems and SCDMA systems, and improvements to other systems can also be made with reference to the above-described concepts of the method of the present invention. Any engineer having a background in signal processing, communication, etc., can design corresponding channel estimation and joint detection devices in accordance with the present invention, which are all included in the spirit and scope of the present invention, and thus are protected by the appended claims. range.

Claims

权利要求 Rights request
1、 一种 CDMA系统中多扰码配置及其相关的解调方法,在多天线系统中,通 过配置多扰码来提高系统容量, 其包括: A multi-scrambling code configuration and associated demodulation method in a CDMA system. In a multi-antenna system, system capacity is increased by configuring a multi-scrambling code, which includes:
a) 、 每小区配置多个扰码, 每个扰码下配扩频码生成方法和数量与常规方法一 致;  a), each cell is configured with multiple scrambling codes, and the method and quantity for generating the spreading code under each scrambling code are consistent with the conventional methods;
b) 、 用户训练序列的生成方法与目前 TD协议规定的一致, 其不同的是在可能 导致多扰码时, 每个用户的信道冲击响应窗宽变短。  b) The method for generating the user training sequence is consistent with the current TD protocol, except that when the multi-scrambling code is likely to occur, the channel impulse response window width of each user becomes shorter.
2、 根据权利要求 1所述的方法, 其特征在于, 所述方法还包括- al ) 、 所述系统对本小区服务的用户进行分组, 其组数等于扰码数, 每组用户 按常规正交可变扩频因子码的方法分配信道化码;  2. The method according to claim 1, wherein the method further comprises: -), the system groups the users served by the cell, the number of groups is equal to the number of scrambling codes, and each group of users is orthogonal according to a conventional a method of variable spreading factor code to allocate a channelization code;
bl ) 、 根据本小区的下行导频的码组号, 选用本码组对应的多个扰码中的 N个 扰码作为本小区扰码, N大于等于 1且小于等于本码组的扰码数;  Bl), according to the code group number of the downlink pilot of the current cell, select N scrambling codes of the plurality of scrambling codes corresponding to the code group as the local cell scrambling code, where N is greater than or equal to 1 and less than or equal to the scrambling code of the code group. Number
cl ) 、 对数据做发射端处理, 扩频、 加扰、 调制及升余弦滤波, 通过空口发射 出去;  Cl ), processing the data at the transmitting end, spreading, scrambling, modulating and raising the cosine filtering, transmitting through the air interface;
dl ) 、 从接收数据中分离出训练序列接收信号, 完成对各个用户的信道估计和 信道后处理, 接收到的训练序列可表示为  Dl), separating the training sequence received signal from the received data, completing channel estimation and channel post-processing for each user, and the received training sequence can be expressed as
e = Gh + n (1) 其中, G矩阵是由一个基本 Midamble码构成的循环右移矩阵, h是用户的信道冲 激响应, n是高斯白噪声。  e = Gh + n (1) where G matrix is a cyclic right shift matrix consisting of a basic Midamble code, h is the user's channel impulse response, and n is Gaussian white noise.
3、 根据权利要求 2所述的方法, 其特征在于, 所述方法还包括: 采用下面 的方法来进行信道估计: 使用一个基本 Midamble码, 共 NK个语音用户, K为使用 一个扰码的用户数, 为计数自然数, 每个用户的信道估计窗长 W减小为^。  3. The method according to claim 2, wherein the method further comprises: performing channel estimation by using: a basic Midamble code, a total of NK voice users, and K is a user using a scrambling code For the number of natural numbers, the channel estimation window length W of each user is reduced to ^.
NK  NK
4、 根据权利要求 3所述的方法, 其特征在于, 所述方法中每小区配置的扰 码数 N=2。  The method according to claim 3, wherein the number of scrambling codes configured per cell in the method is N=2.
5、 根据权利要求 1所述的方法, 其特征在于, 所述方法应用于 TD- SCDMA 系统中, 还包括对多个扰码的分配方式步骤:  5. The method according to claim 1, wherein the method is applied to a TD-SCDMA system, and further includes the step of allocating a plurality of scrambling codes:
all ) 、 共定义 128个扰码, 并被分为 32组, 每个码组中都有 4个扰码, 对选 定组内的 4个扰码作互相关性;  All), a total of 128 scrambling codes are defined, and are divided into 32 groups, each of which has 4 scrambling codes, and cross-correlation is performed on 4 scrambling codes in the selected group;
bll ) 、 优先选取互相关性小的扰码作为本小区使用的扰码, 扰码个数 N的取值 范围是 2≤N≤4。 Bll), preferentially select a scrambling code with small cross-correlation as the scrambling code used by the cell, and the value of the number of scrambling codes N The range is 2 ≤ N ≤ 4.
6、 根据权利要求 5所述的方法, 其特征在于, 所述方法还包括对多个扰码 的信道估计步骤- cl l ) 、 生成 G矩阵, 由一个基本 Midamble码构成的循环右移矩阵 G, 假设一个 小区中同时采用 N个扰码, 则用户数增加为 N倍, 共 NK个语音用户, 每个用户的信 道估计窗长 W减小为^ , K为使用一个扰码的用户数;  6. The method according to claim 5, wherein the method further comprises a channel estimation step - cl l for the plurality of scrambling codes, a G matrix, and a cyclic right shift matrix G composed of a basic Midamble code. Assuming that N scrambling codes are simultaneously used in a cell, the number of users is increased by N times, and a total of NK voice users are used. The channel estimation window length W of each user is reduced to ^, and K is the number of users using one scrambling code;
NK  NK
dl l )、将接收数据的训练序列提出做信道估计, 信道冲激响应的最大似然估计, = G ; 设置一个噪声门限 Γ, 对估计出来的 £进行信道后处理, 大于判决门限的 保留, 小于判决门限的置为零;  Dl l), the training sequence for receiving data is proposed for channel estimation, the maximum likelihood estimate of the channel impulse response, = G; setting a noise threshold Γ, performing channel post-processing on the estimated £, greater than the threshold threshold retention, Less than the decision threshold is set to zero;
ell ) 、 获取每个用户的信道冲激响应, 从 &中以 W为长度取出 NK个值就构成了 各个用户信道估计, 每个用户的信道响应窗长为 w。  Ell), obtain the channel impulse response of each user, and take NK values from & in the length of W to form each user channel estimation, and the channel response window length of each user is w.
7、 根据权利要求 6所述的方法, 其特征在于, 所逑方法还包括对多个扰码 的联合检测步骤:  7. The method of claim 6 wherein the method further comprises the step of jointly detecting the plurality of scrambling codes:
对多个扰码的多用户联合检测数据解调,具体为用用户各自的扩频扰码和经过信 道后处理的信道冲激响应 ή生成矩阵 A, 对用户数据解调-
Figure imgf000012_0001
Multi-user joint detection data demodulation of multiple scrambling codes, specifically, using user's respective spread spectrum scrambling code and channel impulse response after channel processing to generate matrix A, demodulating user data -
Figure imgf000012_0001
其中矩阵 A是釆用了多个扰码的各个用户扩频扰码复合序列与信道冲激响应的 卷积向量构成的矩阵, 为保证能正常解调, 则需要满足: 天线数 Ka≥N。  The matrix A is a matrix composed of a convolution vector of each user spread spectrum scrambling code and a channel impulse response using a plurality of scrambling codes. To ensure normal demodulation, it is necessary to satisfy: the number of antennas Ka ≥ N.
PCT/CN2005/000939 2005-06-28 2005-06-28 A method for configuring and demodulating multiple scrambled codes in cdma system WO2007000079A1 (en)

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