KR20070055845A - Method of generating code sequence, transmitting signals, apparatus thereof, code sequence, and code sequence set - Google Patents

Abstract

The present invention relates to a code sequence used for the purpose of initial synchronization acquisition, cell search or channel estimation in a communication system. The code sequence generation method according to the present invention is a code sequence generation method used for at least one of initial synchronization acquisition, cell search, and channel estimation in a communication system, the length being M according to a code generation algorithm according to a code type. Generating a set of encode sequences; And adjusting a code length of at least one code sequence belonging to the code sequence to be a natural number N smaller than the length M.

Communication, code sequence, Hadamard code, CAZAC code, PN code

Description

Method of generating code sequence, transmitting signals, apparatus, code sequence, and code sequence set}

1 is a process flow diagram of a preferred embodiment of a code sequence generation method according to the present invention.

2 to 5 show performance curves for evaluating the performance of one preferred embodiment of the present invention.

6 and 7 are diagrams for explaining a preferred embodiment of a signal transmission method and a transmission apparatus according to the present invention.

The present invention relates to a communication system. More specifically, the present invention relates to code sequences used for the purpose of initial synchronization acquisition, cell search or channel estimation in a communication system.

A pilot signal or preamble used in a communication system is a reference signal used for the purpose of initial synchronization, cell search, channel estimation, etc., and a code sequence constituting the preamble is The correlation properties consist of good orthogonal or quasi-orthogonal codes.

For example, in the case of PI (Portable Internet, 2.3GHz portable Internet standard physical layer), the case of all 1s using 128 × 128 Hadamard matrix is shown. Inserted in the frequency domain using 127 sequences excepted.

Binary Hadamard code or poly-phase Constant Amplitude Zero Auto-Correlation (CAZAC) code is an orthogonal code and a limited number of codes maintain orthogonality. For example, the number of orthogonal codes of length N that can be formed by N × N Hadamard matrix is N, and the number of orthogonal codes of length N that can be created by CAZAC code is as many as N and the number of natural numbers less than N do. David C. Chu, "Polyphase Codes with Good Periodic Correlation Propertie", Information Theory IEEE Transaction on , vol. 18, issue 4, pp. 531-532, July, 1972

For example, in an Orthogonal Frequency Division Multiplexing (OFDM) system, an OFDM symbol has a length of two powers for fast implementation of fast fourier transform (FFT) and inverse fast fourier transform (IFFT). In this case, when generating a sequence with Hadamard code, a sequence type of the total length may be generated, and when generating a sequence with CAZAC code, as many as N / 2 sequence types may be generated, the number of sequence types is generated. There is a problem that is restricted to.

The present invention has been made to solve the problems of the prior art as described above, an object of the present invention is to increase the number of code sequences having a predetermined length as necessary, while maintaining a code sequence generation method To provide.

It is another object of the present invention to provide a set of code sequences having a certain length and increased in number and code sequences belonging thereto.

It is still another object of the present invention to provide a method and apparatus for transmitting a signal to perform a function such as initial synchronization, cell search, channel estimation, etc. at a receiving side.

In one aspect of the present invention, a signal transmission method according to the present invention is a form in which a specific code sequence is required in the communication system for at least one of initial synchronization acquisition, cell search, and channel estimation at a transmitting side of a communication system. In a signal transmission method for transmitting data to a receiver by processing the data, the specific code sequence includes a part of elements of a specific code sequence belonging to a code sequence set generated by a code generation algorithm having a length of M. Removed to have a code length of a natural number N less than M.

In another aspect of the present invention, a transmitting apparatus according to the present invention is configured to communicate a specific code sequence for transmitting a signal to a receiving end for at least one of initial synchronization acquisition, cell search, and channel estimation in a communication system. A transmitting apparatus comprising means for processing data in a form required by a system, and means for transmitting the processed specific code sequence, wherein the specific code sequence is generated by a code generation algorithm such that the length is M. Some of the components of a particular code sequence belonging to the set of code sequences are removed to have a code length of a natural number N smaller than M.

As another aspect of the present invention, a code sequence according to the present invention is code generation such that a length is M in a code sequence used for at least one of initial synchronization acquisition, cell search, and channel estimation in a communication system. Some of the components of the code sequence belonging to the code sequence set generated by the algorithm are removed to have a code length of a natural number N smaller than M.

In another aspect of the present invention, a code sequence set according to the present invention is a code such that a length is M in a code sequence used for at least one of initial synchronization acquisition, cell search, and channel estimation in a communication system. Some of the components of the code sequence belonging to the code sequence set generated by the generation algorithm are removed to have a code length of a natural number N smaller than M.

In still another aspect of the present invention, a code sequence generation method according to the present invention is a code sequence generation method used for at least one of initial synchronization acquisition, cell search, and channel estimation in a communication system. Generating a code sequence set of length M by a code generation algorithm; And adjusting a code length of at least one code sequence belonging to the code sequence set to be a natural number N smaller than the length M.

The construction, operation and other features of the present invention will be readily understood by the preferred embodiments of the present invention described below with reference to the accompanying drawings. 1 is a process flow diagram of a preferred embodiment of a code sequence generation method according to the present invention.

이고 코드 시퀀스의 개수가

인 코드 시퀀스 세트(code sequence set)

에 대한 코드 시퀀스의 개수를

으로 확장하여 코드 시퀀스 세트

를 생성하는 방법을 설명하기 위한 절차 흐름도이다.1 is the code length

And the number of code sequences

Code sequence set

Number of code sequences for

Code sequence set

Procedure flow chart for explaining how to generate the.

는

인

의 행렬(matrix) 이고,

는 인 행(row) 벡터이다. 또한,

은

번째 시퀀스 인덱스의

번째 성분(element)을 나타낸다. here,

Is

sign

Is a matrix of,

Is Is a row vector. Also,

silver

Of the first sequence index

The second element.

보다 큰 자연수

의 길이를 갖고 코드 시퀀스의 개수가

인 코드 시퀀스 세트

을 생성한다[S101]. 본 발명이 적용될 수 있는 코드의 종류로는 하다마드 코드, PN 코드, CAZAC 코드 등으로서, 통신 시스템에서 초기 동기 획득, 셀 탐색, 채널 추정 등의 목적으로 사용될 수 있는 코드이다. 각 코드 종류별로

의 길이를 갖는 코드 시퀀스 세트는 공지된 다양한 방법에 의해 생성될 수 있다. CAZAC 코드의 경우 상기

은

보다 큰 자연수 중 가장 작은 소수인 것이 바람직하다.Referring to Figure 1, according to the code generation algorithm according to the code type

Greater than natural number

Has a length of and the number of code sequences

Encode sequence set

To generate [S101]. Codes to which the present invention can be applied include a Hadamard code, a PN code, a CAZAC code, and the like, which can be used for the purpose of initial synchronization acquisition, cell search, channel estimation, etc. in a communication system. For each code type

A code sequence set having a length of may be generated by various known methods. Above for CAZAC code

silver

It is preferred that it is the smallest minority of the larger natural numbers.

개의 코드 시퀀스 개수를 갖는 코드 시퀀스 세트

에 속하는 각 코드 시퀀스에 대하여 각 코드 시퀀스를 구성하는 성분들(elements) 중에서 (M-N) 개의 성분들을 제거하여 코드 길이

이고 코드 시퀀스의 개수가

인 코드 시퀀스 세트

을 생성한다[S102].next

Code sequence set with four code sequences

Code length by removing (MN) components from the elements constituting each code sequence for each code sequence belonging to

And the number of code sequences

Encode sequence set

To generate [S102].

인 CAZAC 코드 시퀀스의 코드 개수를 확장하는 일예를 설명하면 다음과 같다. CAZAC 코드를 생성하는 알고리즘으로서 대표적인 것은 다음의 수학식 1에 의해 표현 가능하다.As a more specific example, the code length

An example of extending the number of codes of a CAZAC code sequence is as follows. Representative algorithms for generating CAZAC codes can be represented by the following equation (1).

는

과 서로 소인 자연수들이고,

는 상기

를 오름차순으로 정렬했을 때의 인덱스를 의미한다. here,

Is

And natural villain with each other,

Above

Index in ascending order.

인 CAZAC 코드 시퀀스의 코드 개수를 확장하기 위하여,

보다 큰 자연수 중

에 가장 가까운 소수

인 CAZAC 코드 시퀀스 세트

를 수학식 1을 이용하여 생성한다.

To extend the code count of a CAZAC code sequence,

Greater natural underwater

Prime number closest to

CAZAC code sequence set

Is generated using Equation 1.

이 소수이므로

이 된다. 따라서,

는 상관 특성이 좋은 시퀀스를 생성하는 시드seed) 값이 된다.

이 소수일 경우에는

이 되어 시퀀스 인덱스가

인 총

개의 코드 시퀀스가 생성될 수 있다. 예를 들면,

의 경우 1024/2=512 개의 코드 시퀀스가 생성되지만,

의 경우 총 1030 개의 코드 시퀀스가 생성될 수 있다. 또한,

이 홀수일 경우 생성된 코드의 상호상관(cross-correlation) 특성은

이 짝수인 경우에 비해 상대적으로 더 좋다.

Is a prime number

Becomes therefore,

Is a seed value that produces a sequence with good correlation.

Is a prime number

The sequence index

Phosphorus gun

Code sequences may be generated. For example,

Will generate 1024/2 = 512 code sequences,

In total, 1030 code sequences may be generated. Also,

If this is odd, the cross-correlation characteristics of the generated code

Is relatively better than this even case.

개의 코드 시퀀스 개수를 갖는 코드 시퀀스 세트

에 속하는 각 코드 시퀀스에 대하여 각 코드 시퀀스를 구성하는 성분들(elements) 중에서 (M-N) 개의 성분들을 제거하여 코드 길이

이고 코드 시퀀스의 개수가

인 코드 시퀀스 세트

을 생성한다. 즉, 길이

인 CAZAC 코드 시퀀스 세트

를 코드 길이

인 코드 시퀀스 세트

로 조정하기 위하여, 상기 코드 시퀀스 세트

중 열 인덱스

의

개의 성분을 제거하면, 그 결과로서 코드 시퀀스 세트

가 생성된다.Generated by the above method

Code sequence set with four code sequences

Code length by removing (MN) components from the elements constituting each code sequence for each code sequence belonging to

And the number of code sequences

Encode sequence set

Create That is, the length

CAZAC code sequence set

Code length

Encode sequence set

In order to adjust to

Column index

of

Remove components, resulting in a set of code sequences

Is generated.

의 값을 결정함에 있어서,

보다 크게 할수록 코드 시퀀스의 개수를 증가시킬 수는 있으나 코드 길이

인 코드 시퀀스로 변환했을 때 좋은 상관관계(correlation) 특성을 유지할 수 있도록 하는

값을 선택하는 것이 바람직하다. CAZAC 코드의 경우

값을

보다 큰 자연수 중

에 가장 가까운 소수로 했을 때 가장 좋은 상관관계 특성을 유지할 수 있음이 시뮬레이션을 통하여 입증되었다.

In determining the value of,

A larger value can increase the number of code sequences, but the code length

To maintain good correlation when converted to encoded sequences

It is desirable to select a value. For CAZAC Code

Value

Greater natural underwater

Simulations have shown that the best correlation property can be maintained when the fraction is closest to.

로 생성한 코드 시퀀스 세트

와 상기한 바와 같은 본 발명에 따른 일실시예의 결과

를 비교해 보면, 전자의 경우 생성 가능한 총 코드 시퀀스는

의 인덱스를 갖는

개의 코드 시퀀스를 갖게 되고 후자의 경우 생성 가능한 총 코드 시퀀스는

의 인덱스를 갖는

개의 코드 시퀀스를 갖게 된다.

Set of code sequences generated by

And the results of one embodiment according to the invention as described above.

In comparison, for the former, the total code sequence that can be generated is

Having an index of

Code sequences, and in the latter case the total number of code sequences

Having an index of

You have two code sequences.

에 속하는 코드 시퀀스

에 대한 나머지

개 코드 시퀀스들

의 상호 상관(cross-correlation) 특성을 도시한 도면이다. 도3은 길이 종래기술에 따라

의 CAZAC 코드 시퀀스

를 생성한 결과로서, 시퀀스

에 대한 나머지

개 시퀀스들

의 상호상관 특성을 도시한 도면이다. 도2와 도3을 비교해 보면, 도2의 본 발명의 바람직한 일 실시예에 따라 생성된 코드 시퀀스의 상호 상관 특성이 더 좋음을 확인할 수 있다.2 is a set of code sequences generated by one preferred embodiment of the present invention.

Code sequence belonging to

Rest for

Dog code sequences

Is a diagram illustrating cross-correlation characteristics of. 3 is a length according to the prior art

CAZAC code sequence

As a result of generating

Rest for

Dog sequences

Is a diagram showing the cross-correlation property of. Comparing FIG. 2 with FIG. 3, it can be seen that the cross-correlation property of the code sequence generated according to the preferred embodiment of the present invention of FIG. 2 is better.

일 때, 본 발명에 따른 시퀀스

과 종래기술에 따른 CAZAC 시퀀스

의, 각각의 경우에 대해 생성 가능한 코드들의 상호상관 특성 CDF(Cumulative Distribution Function)를 도시한 도면이다.Figure 4 is an embodiment according to the present invention

When, the sequence according to the invention

And CAZAC sequences according to the prior art

Is a diagram illustrating a cross-correlation property cumulative distribution function (CDF) of codes that can be generated for each case.

의 소수로 생성한 종래기술에 따른 CAZAC 코드 시퀀스와, 본 발명에 따른 길이를 1024로 줄인(7개 성분 제거) 코드 시퀀스 세트

의, 각각의 경우에 대해 생성 가능한 코드들의 상호상관 특성 CDF를 도시한 그림이다. 도2 내지 도5의 성능 곡선을 통하여 7개 성분을 제거한 코드 시퀀스 세트가 원래의 코드 시퀀스 세트의 좋은 상호상관 특성이 거의 유지됨을 확인할 수 있다.5 is

A CAZAC code sequence according to the prior art generated with a prime number and a code sequence set with a length reduced to 1024 (7 components removed) according to the present invention.

The figure shows the cross-correlation property CDF of the codes that can be generated for each case. It can be seen from the performance curves of FIGS. 2 to 5 that the code sequence set from which the seven components have been removed almost retains the good cross-correlation characteristics of the original code sequence set.

As described above, the technical features of the present invention can be applied to the generation of a PN code or a Hadamard code. The PN code is generated by a modular shift register generator. When the number of configured registers is N, a code sequence having a length of 2 ^N -1 is created and the generated code sequence is " Add 1 "to finally generate a code sequence with a length of ^2N . Therefore, if the technical features of the present invention are applied to a PN code, a code sequence having a length of 2 ^M is generated by increasing the number of registers by a natural number M greater than N, and the length of the generated code sequence is adjusted to 2 ^N. You can use according to. At this time, when determining the M should be selected in consideration of the correlation characteristics.

In the case of Hadamard codes, the number of code sequences equal to the length of the code sequence constitutes one code sequence set. However, if, for example, the number of code sequences having a length of N is required by M larger than N, first, M code sequences having a length of M are generated to remove some components of each code sequence, thereby reducing the length. N adjustment method can be used.

인 코드 시퀀스 세트

는

의 코드 길이를 필요로 하는 통신 시스템에서 상기 통신 시스템에서 요구되는 형태로 데이터 처리되어 프리앰블 또는 파일롯 신호 등의 용도로 삽입될 수 있다. 도6 및 도7은 본 발명에 따른 신호 전송 방법 및 전송 장치의 바람직한 일 실시예를 설명하기 위한 도면으로서, 본 발명의 기술적 특징이 OFDM(Orthogonal Frequency Division Multiplexing) 또는 OFDMA(Orthogonal Frequency Division Multiple Access) 기반 무선 통신 시스템에 적용된 예이다. 도6은 송신기의 블록 구성도이고, 도7은 도6에 대응되는 수신기의 블록 구성도이다.Cord length

Encode sequence set

Is

In a communication system requiring a code length of, the data may be processed in a form required by the communication system and inserted into a preamble or pilot signal. 6 and 7 illustrate a preferred embodiment of a signal transmission method and a transmission apparatus according to the present invention. Technical features of the present invention include orthogonal frequency division multiplexing (OFDM) or orthogonal frequency division multiple access (OFDMA). This is an example applied to the base wireless communication system. 6 is a block diagram of a transmitter, and FIG. 7 is a block diagram of a receiver corresponding to FIG.

Referring to FIG. 6, traffic data and control data are multiplexed by the feeder 61 and input. The traffic data is data directly related to a service provided from a transmitting side to a receiving side, and the control data refers to data to be inserted to control the transmitting side and the receiving side to perform communication smoothly. The code sequence generated according to the technical features of the present invention as described above may be inserted for the purpose of initial synchronization acquisition, cell search, or channel estimation as a kind of control data. The location where the code sequence is inserted may vary depending on the communication system. For example, in the IEEE 802.16 wideband wireless access system, the code sequence may be inserted in the form of a preamble or a pilot signal, and when a MIMO system is applied, the code sequence may be inserted into a midamble. It is also possible to insert in the form.

Input data, including traffic data and control data, is subject to channel coding by channel coding module 62. Channel coding is a process in which parity bits are added to a signal transmitted from a transmitter so that an error can be corrected by a receiver when an error occurs in a transmission process. ) Coding, turbo coding, low density parity check (LDPC) coding, and the like may be used.

Data channel-coded by the channel coding module 62 is digitally modulated by the digital modulation module 63 through a symbol mapping process according to an algorithm such as QPSK or 16QAM. The data symbols subjected to the symbol mapping process are subchannel modulated by the subchannel modulation module 74, mapped to each subcarrier of the OFDM or OFDMA system, and then IFFT transformed by the IFFT conversion module 65 to a signal in the time domain. Is converted. The IFFT-converted data symbol is converted into an analog signal by the DAC module 67 through a filtering process by the filter 66, and then converted into an RF signal by the RF module 68 and transmitted to the receiver through the antenna 69. . Depending on the type of code generated (e.g., in the case of CAZAC code), a particular code sequence is mapped to a subchannel by the subchannel modulation module 64 and then data processing is omitted without channel coding or symbol mapping. It is also possible to transmit through the process. The receiver of FIG. 7 recovers the data through the reverse process of the data processing in the transmitter of FIG. 6 to finally obtain traffic data and control data.

Considering an OFDM symbol by FFT transform having an N-size, an OFDM system configures an FFT size as a power of two for one OFDM symbol to implement a Discrete Fourier Transform (DFT) for fast processing. . There are a total of 512 CAZAC sequences used in the above embodiment in OFDM symbols having an FFT size of N = 1024. When the code sequence set is generated according to an exemplary embodiment of the present invention, the number of usable code sequences is 1030 in total, and the cross-correlation property may maintain more than the generated property according to the size of N.

6 and 7 are merely examples to assist in understanding the technical features of the present invention, and the data processing for transmitting the code sequence for the purpose of initial synchronization acquisition, cell search or channel estimation at the receiving side is performed. It will be apparent to those skilled in the art that the method may be accomplished by various known methods. The code sequence or the code sequence set according to the present invention is applicable to a CDMA or OFDMA based wireless mobile communication system based on 3GPP or 3GPP2, which is a mobile communication standardization organization, or a wireless Internet system based on Wibro or Wimax. The data may be processed in a manner required by the system and used to transmit to the receiver.

It is apparent to those skilled in the art that the present invention can be embodied in other specific forms without departing from the spirit and essential features of the present invention. Accordingly, the above detailed description should not be construed as limiting in all aspects and should be considered as illustrative. The scope of the invention should be determined by reasonable interpretation of the claims, and all changes within the equivalent scope of the invention are included in the scope of the invention.

According to the present invention, the correlation characteristic can be maintained while increasing the number of code sequences having a predetermined length available in a communication system, thereby increasing the use efficiency.

Claims (20)

A signal transmission method in which a transmitting side of a communication system processes a specific code sequence in a form required by the communication system for at least one of initial synchronization acquisition, cell search, and channel estimation, and transmits the data to a receiving side. The particular code sequence may have a code length of a natural number N that is less than M by removing some of the elements of a particular code sequence belonging to a code sequence set generated by a code generation algorithm such that the length is M. Characterized in that the signal transmission method. The method of claim 1, The specific code sequence is a signal transmission method characterized in that the data is processed in the form of a preamble or pilot signal and transmitted. The method of claim 1, The code is a constant Amplitude Zero Auto-Correlation (CAZAC) code. The method of claim 1, The code is a signal transmission method, characterized in that the PN code or Hardamard code. The method of claim 3, The code generation algorithm,

(here,

Is

And natural villain with each other,

Above

Means the index when sorted in ascending order.). The method of claim 3, M is the smallest prime number among the natural numbers greater than N. Means for processing data in a form required by the communication system for transmitting a signal to a receiver for at least one of initial synchronization acquisition, cell search, and channel estimation in a communication system; In the transmitting device comprising a means for transmitting the specific code sequence, Wherein the specific code sequence has a code length of a natural number N less than M because some of the components of a particular code sequence belonging to a code sequence set generated by a code generation algorithm that has a length M are removed. Transmitting device. The method of claim 7, wherein The specific code sequence is characterized in that the data processing in the form of a preamble or a pilot signal. The method of claim 7, wherein And the code is a CAZAC code. The method of claim 7, wherein And said code is a PN code or a Hardamard code. The method of claim 9, The code generation algorithm,

(here,

Is

And natural villain with each other,

Above

Means the index when sorted in ascending order.). The method of claim 9, And M is the smallest minority among the natural numbers greater than N. A code sequence used for at least one of initial synchronization acquisition, cell search, and channel estimation in a communication system, And a code length of a natural number N less than M, wherein some of the components of a code sequence belonging to a code sequence set generated by a code generation algorithm for length M are removed. The method of claim 13, And the code is a CAZAC code. The method of claim 14, M is the smallest prime number among natural numbers greater than N. A code sequence set used for at least one of initial synchronization acquisition, cell search, and channel estimation in a communication system, A code consisting of code sequences characterized in that some of the components of each code sequence belonging to the code sequence set generated by the code generation algorithm for length M are removed to have a code length of a natural number N less than M. Sequence set. The method of claim 16, And the code is a CAZAC code. The method of claim 17, M is the smallest prime number among the natural numbers greater than N. A code sequence generation method used for at least one of initial synchronization acquisition, cell search, and channel estimation in a communication system, the method comprising: Generating a code sequence set of length M by a code generation algorithm according to the code type; And And adjusting a code length of at least one code sequence belonging to the code sequence set to be a natural number N less than the length M. The method of claim 19, And adjusting the length of the code sequence by removing (M-N) components from each code sequence.

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