KR20010088205A - Coarse cell search device and method thereof - Google Patents

Abstract

PURPOSE: An apparatus and a method for searching an initial cell is provided to perform a stable and quick cell search by decreasing the influence of an initial frequency error in an initial cell search procedure without the supplement of a hardware. CONSTITUTION: A matching filter unit(302) has the N numbers of M/N tap matching filters for performing a matching filtering of a synchronous code of an M/N chip. A complex square unit(320) performs a complex square of output signals of the M/N tap matching filters to obtain a correlation energy as to the M/N chip. An adder(340) adds correlation energies to the M/N chip to obtain a correlation energy as to an M chip. An asynchronous combining unit(360) asynchronously combines a correlation energy outputted from each slot to obtain a mean correlation energy. A maximum value selecting unit(380) selects a mean correlation energy with the highest level among the N numbers of mean correlation energies and judges a code phase corresponding to the selected mean correlation energy as a correct code phase to obtain a judgement variable from the mean correlation energy.

Description

Initial cell search device and method thereof

The present invention relates to an initial cell search apparatus and a method thereof, and more particularly, to a cell search apparatus and a method that can be used in an asynchronous code division multiple access (CDMA) scheme.

In a synchronous code division multiple access (CDMA) scheme, synchronization between cells is required. Synchronization uses a global positioning system (GPS).

Asynchronous wide-code division multiple access (W-CDMA) is the most promising method among various methods proposed as the next generation IMT2000 method, and is mainly proposed in Europe and Japan. This synchronization is not necessary in the asynchronous W-CDMA scheme. In addition, unlike the conventional synchronous CDMA scheme, the asynchronous W-CDMA scheme does not synchronize synchronization between cells, and thus, there is an advantage in that the base station is installed in a room such as a base station.

However, in the asynchronous W-CDMA method, since cell synchronization is not performed, the initial cell search process is considerably more difficult than the conventional synchronous method, and the time required is very long.

In order to solve this problem, many studies have been conducted to effectively perform the initial cell search process mainly in Europe and Japan. As a result, the data format of the control channel including the sync code was determined as shown in FIG. 1 is a view schematically showing only a part related to the present invention. FIG. 2 illustrates a cell search process according to a conventional cell search method for a transmission signal having a format as shown in FIG. 1.

First, referring to FIG. 1, the synchronization code is multiplexed in the first one symbol section (= 256 chips) in every slot of the synchronization channel, and the main synchronization code (CP) and the floating code (CS0, CS1, ... , CS14) are multiplexed together. The main synchronization code (CP) is a code having the same format in every cell and having the same format in every slot. The floating code codes CS0, CS1, ..., CS14 have different code formats for each slot within one frame, that is, 15 slots, and have different code combinations for each cell.

Next, referring to FIG. 2, according to a conventional initial cell search method, in a first step, slot and chip boundaries are filtered through a matched filter having the main sync code as a coefficient for an input signal corresponding to the sync channel. Finding is performed.

Further, in the second step, based on the slot boundary obtained in the first step, filtering to find the floating code is performed on the part where the synchronization code of each slot is multiplexed, and is multiplexed in every slot. After detecting the floating code, the code group is found by the series of floating code values. A code group refers to a group grouped by collecting a plurality of scrambled codes.

Finally, in the third step, a correlation output is obtained for all the scrambled codes in the code group for the remaining portions except the sync code portion in every slot, and the scramble code having the largest correlation output is used as the scramble code of the current cell. Determine.

On the other hand, in a mobile communication environment, the channel may change drastically, and the influence of ambient interference may also be large, resulting in performance deterioration. Thus, the biggest problem in the initial cell search process is Frequency error occurs due to the oscillator frequency difference between the base station and the terminal. The terminal uses an automatic frequency control circuit (AFC) to eliminate such frequency errors. However, in the initial cell search process, since the automatic frequency control is not started, the frequency error is affected. Therefore, in order to reduce the influence of this frequency error, the conventional cell search method uses asynchronous coupling. However, if the frequency error is relatively large, it is difficult to reduce the frequency error effect to an acceptable degree even by asynchronous coupling. This is because the frequency error is already affected by 256-tap matched filtering. In this case, the output signal of the 256-tap matched filter cannot obtain a proper result.

In addition, as an alternative method for minimizing the effect of frequency error on the cell search process, it is possible to use a normally expensive oscillator with good performance for the terminal. However, this has a problem of raising the price of the terminal.

An object of the present invention is to provide an initial cell search apparatus resistant to an initial frequency error.

Another technical problem to be achieved by the present invention is to provide a terminal for a digital communication system resistant to initial frequency error.

Another object of the present invention is to provide an initial cell search method performed in the initial cell search apparatus.

Another object of the present invention is to provide a computer readable recording medium storing program codes for performing the initial cell search method.

FIG. 1 is a diagram illustrating a data format of a control channel including a sync code in a synchronous code division multiple access (CDMA) scheme.

FIG. 2 is a diagram illustrating a conventional initial cell search method for a transmission signal having the same format as that of FIG. 1.

3 is a block diagram illustrating an initial cell search apparatus according to an embodiment of the present invention.

4 is a flowchart illustrating main steps of an initial cell search method according to an embodiment of the present invention performed in the initial cell search apparatus of FIG. 3.

5 and 6 are views for explaining the operation of the initial cell search apparatus and method according to an embodiment of the present invention shown in FIGS.

In order to achieve the above object, an initial cell search apparatus according to the present invention includes N M / N tap matching filters when M and N are a predetermined amount of numbers, and performs matching matching filtering of sync codes of M / N chips. Filter unit; A complex squarer for obtaining a correlation energy for an M / N chip by complex squared output signals of the N M / N tap matched filters; An adder for adding correlation energies for M / N chips to obtain correlation energies for M chips; A delay unit for asynchronously combining the correlation energy output from each slot to obtain an average correlation energy; And a maximum value selector which selects the largest average correlation energy among the N average correlation energies and obtains a determination variable from the average correlation energy by finally determining a code phase corresponding to the selected average correlation energy as a correct code phase. Characterized in that.

The delay unit may further include L 1-slot delayers for delaying correlation energy for the M chip output from the adder when L is a predetermined amount; And an accumulator for accumulating and adding delayed signals output from the respective one-slot delayers to obtain an average correlation energy for the i-th code phase.

In addition, it is preferable that said N is 2, and the said matching filter part is equipped with the 1st M / 2 tap matching filter and the 2nd M / 2 tap matching filter.

In addition, the digital communication system is preferably a digital communication system based on an asynchronous wide-code division multiple access (W-CDMA) scheme.

In addition, in order to achieve the above object, when the terminal according to the present invention M and N to be a predetermined amount of number, the M / N tap matching filter is provided with a matching matching filter for the sync code of the M / N chip, respectively Filter unit; A complex squarer for obtaining a correlation energy for an M / N chip by complex squared output signals of the N M / N tap matched filters; An adder for adding correlation energies for M / N chips to obtain correlation energies for M chips; A delay unit for asynchronously combining the correlation energy output from each slot to obtain an average correlation energy; And a maximum value selector which selects the largest average correlation energy among the N average correlation energies and obtains a determination variable from the average correlation energy by finally determining a code phase corresponding to the selected average correlation energy as a correct code phase. And an initial cell search device provided.

In addition, in order to achieve the above another object, the initial cell search method according to the present invention (a) when M and N are a predetermined number, the synchronization of the M / N chip using N M / N tap matching filter Match filtering each code; (b) obtaining a correlation energy for the M / N chip by complex squared the result signal of step (a); (c) adding correlation energies for M / N chips to obtain correlation energies for M chips; (d) asynchronously combining correlation energy output from each slot to obtain an average correlation energy; And (e) selecting the largest average correlation energy among the N average correlation energies, and determining a determination variable from the average correlation energy by finally determining a code phase corresponding to the selected average correlation energy as a correct code phase. Characterized in that.

In addition, in order to achieve the above object, the computer-readable recording medium according to the present invention includes (a) M / N chip matching filters using N M / N tap matching filters when M and N are a predetermined number. Matching filtering each sync code; (b) obtaining a correlation energy for the M / N chip by complex squared the result signal of step (a); (c) adding correlation energies for M / N chips to obtain correlation energies for M chips; (d) asynchronously combining correlation energy output from each slot to obtain an average correlation energy; And (e) selecting the largest average correlation energy among the N average correlation energies, and determining a determination variable from the average correlation energy by finally determining a code phase corresponding to the selected average correlation energy as a correct code phase. And storing program codes for performing an initial cell search method.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

3 shows a cell search apparatus according to an embodiment of the present invention as a block diagram. 4 shows a cell search method according to an embodiment of the present invention performed in the cell search apparatus of FIG. 4 is often referenced below.

Referring to FIG. 3, a cell search apparatus according to an exemplary embodiment of the present invention includes a matched filter unit 302, a complex square unit 320, an adder 340, an asynchronous coupling unit 360, and a maximum value selecting unit 380. ). The matched filter unit 302 includes a first M / 2 tap matched filter 304 and a second M / 2 tap matched filter 306. In addition, the complex square part 320 is provided with complex squares 322, 324. The asynchronous coupling unit 360 also includes 1-slot delayers 362, 364, 366, 368 and an accumulator 370.

Referring to the operation of the cell search apparatus, first, when M is a predetermined number, the M chip is synchronized from an input signal including a M chip multiplexed, for example, a 256-chip sync code in the W-CDMA scheme. A code is detected (step 402) to match filter the sync codes of the M / 2 chip, respectively, using two M / 2 tap matched filters 304, 306, e.g., 128 tap matched filters (step 404). .

Next, the output signals of the two M / 2 tap matched filters 304, 306, i.e., each signal filtered in step 404, are complex squared using complex squarers 322, 324 (step 406). The correlation energy for the M / 2 chip output from the complex squarers 322, 324 is added at the adder 340 to obtain the correlation energy for the M chip (step 408). The signals output from the adder 340 are accumulated and delayed sequentially by the delay unit 360. In this way, the correlation energy output from each slot is asynchronously combined to obtain an average correlation energy (step 410). In more detail, when L is a certain amount, L 1-slot delays 362, 364,..., 366, 368 may store the correlation energy for the M chip output from the adder 340. Delay. The accumulator 370 accumulates and adds the delayed signals output from the respective one-slot delayers to finally obtain the average correlation energy for the i-th code phase and output it to the maximum value selector 380.

In this way, the average correlation energy for all N code phases to be searched is continuously obtained, and the maximum selector 380 selects the largest average correlation energy among the N average correlation energies, and corresponds to the selected average correlation energy. The final decision of the code phase is performed as the correct code phase to determine a determination variable from the average correlation energy (step 412).

5 and 6 illustrate the operation of the cell search apparatus and method according to the exemplary embodiment of the present invention shown in FIGS. 3 and 4.

Referring to FIG. 5, in accordance with the present invention, 256-tap matched filtering is performed for each slot to find the sync code (256 chip) portions 502, 504,... 506 of each slot (508, 510,). 512, 514, ..., 516, 518, complex squares (520, 522, 524, 526, ..., 528, 530) and add the complex squared results (540, 542, ..., 544). The correlation energy for each code phase is obtained, and the correlation energy output from each slot is added (550, ..., 552) to obtain the average correlation energy. This decision variable is the code phase with the largest mean correlation energy by comparing the magnitude of the correlation energy for each code phase.

Referring to FIG. 6, the signal of the initial frequency error component exhibits the same waveform as the signal referred to as 602. The frequency of the signal 602 has a frequency of ± 5 ppm of 2 gigahertz, that is 10 kilohertz, when the frequency of the W-CDMA signal is 2 gigahertz. On the other hand, since the 256-chip sync code is complex-squared by 128 chips, the signal 604 of the initial frequency error component, which may be included in the signal output from the adder 340 of FIG. 3, is based on the horizontal axis as shown. The probability that the portion with amplitude less than zero occurs.

Therefore, according to the cell search method according to the present invention, it is possible to significantly eliminate the possibility of phase inversion that may occur in the matched filtering interval due to the initial frequency error. In the current asynchronous W-CDMA specification, the method proposed by the present invention can significantly reduce the influence of the initial frequency error. Therefore, according to the cell search method of the present invention, since the cell search process of the asynchronous code division multiplexing method is less affected by the initial frequency error, a stable and fast cell search is possible. In addition, the cell search method according to the present invention has an advantage that the device can be implemented with little additional hardware compared to the conventional cell search method while showing superior performance compared to the conventional cell search method.

In addition, the initial cell search method according to the present invention as described above can be written as a program executed in a personal or server-class computer. Program codes and code segments constituting the program can be easily inferred by computer programmers in the art. The program may also be stored in a computer readable recording medium. The recording medium includes a magnetic recording medium, an optical recording medium, and a propagation medium.

As described above, according to the present invention, since the influence of the initial frequency error can be reduced during the initial cell search with little hardware addition, stable and fast cell search can be performed.

Claims (16)

An apparatus for performing initial cell search in an asynchronous digital communication system, A matching filter unit having N M / N tap matching filters to match and filter the sync codes of the M / N chips, when M and N are a predetermined amount of numbers; A complex squarer for obtaining a correlation energy for an M / N chip by complex squared output signals of the N M / N tap matched filters; An adder for adding correlation energies for M / N chips to obtain correlation energies for M chips; A delay unit for asynchronously combining the correlation energy output from each slot to obtain an average correlation energy; And A maximum value selector which selects the largest average correlation energy among the N average correlation energies and obtains a determination variable from the average correlation energy by finally determining a code phase corresponding to the selected average correlation energy as a correct code phase; And an initial cell search device. The method of claim 1, wherein the delay unit, L 1-slot delayers for delaying the correlation energy for the M chip output from the adder when L is a predetermined amount; And And an accumulator for accumulating and adding the delayed signals output from the respective 1-slot delayers to obtain an average correlation energy for the i-th code phase. The method according to claim 1 or 2, N is 2, The matched filter unit, And a first M / 2 tap matched filter and a second M / 2 tap matched filter. The method according to claim 1 or 2, And the digital communication system is a digital communication system based on an asynchronous wide-code division multiple access (W-CDMA) scheme. The method of claim 3, And the digital communication system is a digital communication system based on an asynchronous code division multiple access (W-CDMA) scheme. In a terminal used in an asynchronous digital communication system, A matching filter unit having N M / N tap matching filters to match and filter the sync codes of the M / N chips, when M and N are a predetermined amount of numbers; A complex squarer for obtaining a correlation energy for an M / N chip by complex squared output signals of the N M / N tap matched filters; An adder for adding correlation energies for M / N chips to obtain correlation energies for M chips; A delay unit for asynchronously combining the correlation energy output from each slot to obtain an average correlation energy; And A maximum value selector which selects the largest average correlation energy among the N average correlation energies and obtains a determination variable from the average correlation energy by finally determining a code phase corresponding to the selected average correlation energy as a correct code phase; And an initial cell search device. The method of claim 6, wherein the delay unit, L 1-slot delayers for delaying the correlation energy for the M chip output from the adder when L is a predetermined amount; And And an accumulator for accumulating and adding the delayed signals output from the respective 1-slot delayers to obtain an average correlation energy for the i-th code phase. The method according to any one of claims 6 to 7, N is 2, and the matched filter unit includes a first M / 2 tap matched filter and a second M / 2 tap matched filter. The method according to any one of claims 6 to 7, And the digital communication system is a digital communication system based on an asynchronous code division multiple access (W-CDMA) scheme. The method of claim 8, And the digital communication system is a digital communication system based on an asynchronous code division multiple access (W-CDMA) scheme. In the method for performing an initial cell search in a digital communication system, (a) when M and N are a predetermined amount of numbers, respectively, matching filtering the sync codes of the M / N chips using N M / N tap matched filters; (b) obtaining a correlation energy for the M / N chip by complex squared the result signal of step (a); (c) adding correlation energies for M / N chips to obtain correlation energies for M chips; (d) asynchronously combining correlation energy output from each slot to obtain an average correlation energy; And (e) selecting the largest average correlation energy among the N average correlation energies, and determining a determination variable from the average correlation energy by finally determining a code phase corresponding to the selected average correlation energy as a correct code phase; An initial cell search method, characterized in that. The method of claim 11, N is 2, the initial cell search method characterized in that. The method according to any one of claims 11 to 12, And the digital communication system is a digital communication system based on asynchronous wide-code division multiple access (W-CDMA) scheme. A computer readable recording medium storing program codes for performing an initial cell search method for a digital communication system. (a) when M and N are a predetermined amount of numbers, respectively, matching filtering the sync codes of the M / N chips using N M / N tap matched filters; (b) obtaining a correlation energy for the M / N chip by complex squared the result signal of step (a); (c) adding correlation energies for M / N chips to obtain correlation energies for M chips; (d) asynchronously combining correlation energy output from each slot to obtain an average correlation energy; And (e) selecting the largest average correlation energy among the N average correlation energies, and determining a determination variable from the average correlation energy by finally determining a code phase corresponding to the selected average correlation energy as a correct code phase; A computer readable recording medium storing program codes for performing an initial cell search method. The method of claim 14, And N is two. The method according to any one of claims 14 to 15, And said digital communication system is a digital communication system based on an asynchronous wide-code division multiple access (W-CDMA) scheme.