KR100620455B1 - An apparatus for cell searching in OFDMA system, and a method thereof - Google Patents

Abstract

The present invention relates to a cell search apparatus and a method applicable to an orthogonal frequency division multiplexing (OFDMA) system terminal in a wireless communication modulation and demodulation system. A cell search apparatus of an OFDMA system according to the present invention is a cell search apparatus in a terminal of an OFDMA system using multiple carriers, and includes a Cell Common Packet Preamble (CCP-P) in accordance with frame synchronization of a signal received from a base station to a terminal. When the C field data is input, data consisting of a cell number (CN) and a cell group number (CGN) is removed by performing a fast Fourier transform (FFT) on an OFDM symbol related to cell search by removing a cyclic prefix (CP) part. FFT performing unit for configuring; A cell number detection unit constituting an m-sequence based on a cell number (CN) value; And a cell group number detector configured to detect a peak value by performing a cross-correlation operation according to the m-sequence configured by the cell number detector and the preamble code according to the CGN, and determine a cell ID. According to the present invention, a cell having a standard that can be easily applied to a terminal having a wireless communication modulation and demodulation system using a multi-carrier and using a C field used for fine frequency offset estimation in an OFDMA system using a multi-carrier is used. By searching, more accurate cell search is possible.

OFDMA, cell search, CP, C field, cell number, cell group number

Description

An apparatus for cell searching in OFDMA system, and a method

1 is a diagram illustrating a structure of a frame and an OFDM symbol in a system using a general OFDMA.

FIG. 2 is a diagram illustrating in detail the structure of the CCP-P among the frame structures shown in FIG. 1.

3 is a schematic block diagram of a cell search apparatus in an OFDMA system according to an embodiment of the present invention.

FIG. 4 is a diagram illustrating FFT performance and cell number (CN) determination of C field data in a cell search apparatus according to an embodiment of the present invention.

FIG. 5 is a diagram illustrating a case where the cell number 0 is determined when the cell number shown in FIG. 4 is determined.

FIG. 6 is a diagram illustrating a case of cell number 1 when determining the cell number shown in FIG. 4.

7 is a diagram illustrating a cell group number (CGN) detection structure of a cell search apparatus according to an embodiment of the present invention.

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an apparatus and method for cell searching in an Orthogonal Frequency Division Multiplexing (OFDMA) system. More particularly, the present invention relates to a cell searching apparatus and a method applicable to an OFDMA system terminal in a wireless communication modulation / demodulation system.

As a prior art, Korean Patent Application No. 1999-14737 (filed April 24, 1999) is disclosed in the invention entitled "Cell searching apparatus and method of CDM mobile communication system".

Specifically, the cell search apparatus according to the preceding invention, by mapping the base station group classification code generator for generating the base station group identification code, the base station classification code generator for generating the base station identification code, and the generated base station group identification code and base station identification code It consists of a synchronization channel generator for transmitting, which simplifies the cell search step and simplifies cell search time and hardware complexity.

Meanwhile, Korean Patent Application No. 2000-12303 (filed March 11, 2000) discloses an invention entitled "Initial Cell Searching Device and Method thereof."

Specifically, the initial cell search apparatus according to the preceding invention is composed of a matched filter unit, a complex squared unit, an adder, a delay unit, and a maximum value selector, so that the influence of the initial frequency error in the initial cell search process with little addition of hardware is provided. It is possible to reduce the frequency offset because it can be reduced, stable and fast cell search can be performed.

Meanwhile, Korean Patent Application No. 2002-72488 (filed November 20, 2002) discloses an invention entitled "Cell Searching Device and Method for Asynchronous Mobile Communication System".

Specifically, the cell search apparatus of the asynchronous mobile communication system according to the present invention includes a normalizer, an accumulator, and a maximum value detector, which can reduce memory and power consumption during cell search, and shorten the overall cell search time. It is characterized by being.

However, the cell searcher in the modulation and demodulation method using the multi-carrier according to the related art is mainly implemented by using a cell search code and obtaining a cell number and a cell group number through a cross correlation operation. There is a problem in that the configuration of the cross-correlation operation unit varies according to the characteristics of.

The present invention for solving the above problems provides a cell search apparatus and method for an OFDMA system having a standard that can be easily applied to a terminal having a wireless communication modulation and demodulation system using multiple carriers.

The present invention also provides a cell search apparatus of an OFDMA system capable of more accurate cell search by using a C field of a CCP-P region used for cell search in an OFDMA system using multiple carriers for cell search. Provide a method.

As a means for achieving the above object, the cell search apparatus of the OFDMA system according to the present invention,

An in-device cell search apparatus of an orthogonal frequency division multiplexing (OFDMA) system using multiple carriers,

When the C field data of the CCP-P (Cell Common Packet Preamble) is input in accordance with the frame synchronization of the signal received from the base station, the CP (Cyclic Prefix) portion is removed, and fast Fourier transform for the OFDM symbol related to cell search An FFT performer configured to perform data (Fast Fourier Transform: FFT) to configure data consisting of a Cell Number (CN) and a Cell Group Number (CGN);

A cell number detector configured to construct an m-sequence based on the cell number (CN) value; And

A cell group number detection unit for detecting peak values by performing cross-correlation operation according to the m-sequence configured by the cell number detection unit and the preamble code according to the CGN, and determining a cell ID

Characterized in that it comprises a.

In addition, as another means for achieving the above object, the cell search method of the OFDMA system according to the present invention,

A cell searching method in a terminal of an orthogonal frequency division multiplexing system using multiple carriers,

a) receiving C field data of the CCP-P according to frame synchronization of a signal received from a base station to a terminal;

b) removing the CP portion in the C field and performing fast Fourier transform (FFT) to configure data consisting of a cell number (CN) and a cell group number (CGN);

c) constructing an m-sequence based on the cell number (CN) value;

d) performing a cross correlation operation according to the m-sequence and a preamble code according to the CGN; And

e) determining a cell ID by detecting a peak value according to the cross-correlation operation

Characterized in that it comprises a.

Hereinafter, an apparatus and method for searching for a cell in an OFDMA system according to an embodiment of the present invention will be described with reference to the accompanying drawings.

1 is a diagram illustrating a structure of a frame and an OFDM symbol in a system using a general OFDMA.

㎳의 길이로 이루어진 프레임(100)은 CCP-P(Cell Common Packet Preamble: 110) 및 DTP(120, 130, 140)로 이루어진다.Referring to Figure 1, in a system using a typical OFDMA

The frame 100 having a length of 8 includes a Cell Common Packet Preamble (CCP-P) 110 and a DTP (120, 130, 140).

㎳ 길이를 갖는 n개의 DTP로 이루어지며, 각각의 DTP(120, 130, 140)는 10개의 OFDM 심볼(121, 122, 123)로 구성되며, 하나의 심볼 내에는 반복되는 CP(Cyclic Prefix: 121-1, 121-2)가 있다. 이때, 한 OFDM 심볼(121)은

㎳의 길이를 갖는다.Except for the CCP-P 110, the portions of the DTP (120, 130, 140), which are data parts, are respectively

D length of n DTPs, each DTP (120, 130, 140) is composed of 10 OFDM symbols (121, 122, 123), repeated in one symbol CP (Cyclic Prefix: 121) -1, 121-2). In this case, one OFDM symbol 121

Has a length of ㎳.

In addition, one OFDM symbol 121 repeats the same CPs 121-1 and 121-2 back and forth, so that, for example, CPs 121-1 and 121-2 use 452 chips to obtain a moving average. The peak value can be obtained by using the autocorrelation calculation, and the initial symbol timing estimation can be performed by enabling the guard role and the autocorrelation operation.

2 is a diagram illustrating the structure of the CCP-P in the frame structure shown in FIG. 1 in detail.

ms 길이를 갖는다. 여기서, S 필드(111)는 S(111-1)가 네 번 반복되고, 이를 180도 위상 천이한 IS(111-2)를 갖는다. 예를 들어, 상기 S 필드(111)는 세부적으로 보면, S S S S IS 다섯 부분으로 나뉜다. 이러한 구조는 시간 동기 및 주파수 동기를 효율적으로 하기 위한 구조로서, 상기 S 필드(111)를 이용하여 프레임 검출 및 주파수 오프셋 추정을 할 수 있다.Referring to FIG. 2, the CCP-P 110 occupies three OFDM symbol lengths, and is divided into three parts, an S field 111, a C field 112, and an indicator resource space (IRS) 113, respectively.

It has a length of ms. Here, the S field 111 has an IS 111-2 in which S 111-1 is repeated four times and phase shifted 180 degrees. For example, the S field 111 is divided into five parts of SSSS IS. This structure is a structure for efficient time synchronization and frequency synchronization, and frame detection and frequency offset estimation can be performed using the S field 111.

The C field 112 also includes a CP 121 and is used for fine frequency offset estimation.

3 is a schematic block diagram of a cell search apparatus in an OFDMA system according to an embodiment of the present invention.

Referring to FIG. 3, a cell search apparatus according to an embodiment of the present invention includes an FFT performer 310, a CN detector 320, and a CGN detector 330.

The FFT performer 310 receives an A / D signal from a terminal and performs FFT conversion on an OFDM symbol related to cell search in accordance with frame synchronization. That is, when the C field data of the CCP-P is input in accordance with the frame synchronization, the CP portion is first removed, and then the FFT is performed to obtain data consisting of CN and CGN. Here, only the cell searching portion is performed on the assumption that frame synchronization has already been obtained.

The CN detector 320 finds a cell number CN based on the FFT converted value. In detail, the CN detector 320 measures power of data according to CN using data received from the FFT performer 310. That is, the power may be calculated through the power accumulator for each of CN0, CN1, and CN2. When the CN is determined in this way, only the data of the determined CN value is extracted separately to form an m-sequence.

The CGN detector 330 finds a cell group number based on the cell number found by the CN detector 320. In detail, the m-sequence obtained by the CN detector 320 performs a cross correlation operation with a preamble code according to CGN. In this way, the CGN can be determined by detecting a peak by performing a cross-correlation operation with each CGN code.

Hereinafter, a cell search apparatus and a method thereof in an OFDMA system according to an embodiment of the present invention will be described in detail with reference to FIGS. 4 to 7.

FIG. 4 is a diagram illustrating a configuration for performing FFT on C field data and determining a cell number (CN) in a sal search apparatus according to an exemplary embodiment of the present invention.

Referring to FIG. 4, when the C field data of the CCP-P is input in accordance with frame synchronization, the data structure as shown in 321 is output after the FFT is performed by the FFT performer 310. In addition, the data is calculated for each CN through power accumulators 322-1, 322-2, and 322-3 to determine CN.

Specifically, the data according to CN is used by using the data (CN0 # 1, CN1 # 1, CN2 # 1, ..., CN0 # 3, CN1 # 3, CN2 # 3, ...) received from the FFT performer 310. Measure power. Namely, CN0 # 1, CN1 # 1, CN2 # 1,... The power is calculated through the power accumulators 322-1, 322-2, and 322-3 according to CN0 # 3, CN1 # 3, and CN2 # 3 data.

In addition, the power calculated by the power accumulators 322-1, 322-2, and 322-3 detects the CN through the peak detector 323 and the cell number determination unit 324.

Then, when the CN is determined, only the data of the determined CN value is extracted separately to form an m-sequence.

5 is a diagram illustrating a case of cell number 0 when determining the cell number shown in FIG. 4, and FIG. 6 is a diagram illustrating a case of cell number 1.

5 shows an example according to the CN determination of FIG. 4, in this case for CN0. Since the data is filled only in the CN0 parts 411, 421, and 431, and the remaining CN1 and CN2 are all filled with 0, the CN can be determined by calculating the power. 5 shows the case of CN0 (411, 421, 431), CN0 # 1 (411), CN0 # 2 (421), CN0 # 2 (431). Are combined to form an m-sequence, which is subsequently used to determine the cell group number (CGN).

6 shows an example according to the CN determination of FIG. 4, and FIG. 6 shows the case of CN1 (511, 521, 531), and CN1 # 1 (511), CN1 # 2 (521), CN1 # 2. (531)... Are combined to form an m-sequence.

7 is a diagram illustrating a cell group number (CGN) detection structure of a cell search apparatus according to an embodiment of the present invention.

Referring to FIG. 7, as described above, after the CN is determined, the preamble code for determining the CGN according to the m-sequence 331 configured by adding the CN data CN0 # 1, CN0 # 2,... Will be cross-correlated with.

In this case, since the CGN has a unique code, the CGN may be determined by performing a cross correlation operation through the cross correlator 333 and detecting a peak through the peak detector 334.

While the invention has been shown and described in connection with specific embodiments thereof, it will be appreciated that various modifications and changes can be made without departing from the spirit and scope of the invention as indicated by the claims. Anyone who owns it can easily find out.

According to the present invention, it has a standard that can be easily applied to a terminal having a wireless communication modulation and demodulation system using a multi-carrier, and also uses a C field used for fine frequency offset estimation in an OFDMA system using a multi-carrier. By searching the cell, more accurate cell search is possible.

Claims (7)

 A cell search device in a terminal of an Orthogonal Frequency Division Multiplexing (OFDMA) system using multiple carriers, When the C field data of the CCP-P (Cell Common Packet Preamble) is input in accordance with the frame synchronization of the signal received from the base station, the CP (Cyclic Prefix) portion is removed, and fast Fourier transform for the OFDM symbol related to cell search An FFT performer configured to perform data (Fast Fourier Transform: FFT) to configure data consisting of a Cell Number (CN) and a Cell Group Number (CGN); A cell number detector configured to construct an m-sequence based on the cell number (CN) value; And A cell group number detection unit for detecting peak values by performing cross-correlation operation according to the m-sequence configured by the cell number detection unit and the preamble code according to the CGN, and determining a cell ID Cell searching apparatus of the OFDMA system comprising a. The method of claim 1, wherein the cell number detection unit, A power accumulator for measuring power of each cell number (CN) received from the FFT performer and accumulating the data; And A peak detector for detecting a peak value according to the cumulative calculated power and determining a corresponding CN value Cell searching apparatus of the OFDMA system comprising a. The method of claim 1, The cell number detection unit, if the CN value is determined, extracts only the data of the determined CN value separately and configures an m-sequence of the OFDMA system. The method of claim 1, wherein the cell group number detection unit, A preamble register providing a preamble code for cell search; And A cross correlator performing a cross correlation operation on the m-sequence configured by the cell number detector and the preamble register value; And A peak detector for detecting a peak according to the cross-correlated value to determine a cell ID Cell searching apparatus of the OFDMA system, including.  A cell searching method in a terminal of an orthogonal frequency division multiplexing system using multiple carriers, a) receiving C field data of the CCP-P according to frame synchronization of a signal received from a base station to a terminal; b) removing the CP portion in the C field and performing fast Fourier transform (FFT) to configure data consisting of a cell number (CN) and a cell group number (CGN); c) constructing an m-sequence based on the cell number (CN) value; d) performing a cross correlation operation according to the m-sequence and a preamble code according to the CGN; And e) determining a cell ID by detecting a peak value according to the cross-correlation operation Cell searching method of an OFDMA system comprising a. The method of claim 5, wherein c) is c-1) measuring power of data for each cell number CN received from the FFT performer and accumulating the data; c-2) detecting a peak value according to the cumulative calculated power and determining a corresponding CN value; And c-3) when the CN value is determined, extracting only the data of the determined CN value separately to construct an m-sequence Cell searching method of an OFDMA system comprising a. The method of claim 5, The preamble code for the cell search of step d) has a unique code for each cell group number (CGN).

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