KR100250449B1 - Mobile station demodulator of ds/cdma system and method of cancellating pilot signal using the same - Google Patents

Abstract

PURPOSE: A mobile station demodulator of a DS-CDMA(Direct Sequence-Code Division Multiple Access) communication system is provided to remove an interference pilot signal. CONSTITUTION: A down-converter(201) converts a received signal into a baseband signal. A synchronous tracer(202) sets up a synchronization to the baseband signal. A pilot signal information estimator(206) receives the baseband signal to estimate necessary information from a forward signal of a specific cell, then generates a control signal. A pilot signal information generator(207) uses an estimating signal received from the pilot signal information estimator(206), and generates a pilot spread signal. An adder(205) adds the received signal from the pilot signal information generator(207). A subtracter(204) subtracts the received signal from the adder(205). A data demodulator(203) receives a baseband signal removed a pilot signal, and demodulates data.

Description

Mobile station demodulator in direct sequential / code division multiple access communication system and method for canceling interference pilot signal using same

The present invention relates to a direct sequence code division multiple access (DS / CDMA) communication system, and more particularly to a baseband input to a demodulator by removing a pilot signal that occupies the largest portion of an interference signal. The present invention relates to a mobile station demodulator and an interference pilot signal canceling method using the same, which may increase a signal-to-interference signal ratio, improve a demodulator performance, and increase a system capacity.

The mobile station demodulator and signal flow diagram of the conventional DS / CDMA system will be described with reference to FIGS.

1 shows a mobile station demodulator of a conventional DS / CDMA system, and FIG. 2 shows a mobile station demodulator signal flow diagram of a conventional DS / CDMA system.

After converting the signal received from the mobile station into a baseband signal in the down-converter 101 (111), after setting the synchronization using the synchronization tracking device (102), the data demodulator ( In step 103, the data is demodulated.

The forward signal of one cell is composed of a pilot signal, a sum of a plurality of control signals such as a sync signal and paging and a plurality of data signals. The received signal of the mobile station consists of the sum of the signal of the home cell, the signal of a plurality of adjacent cells, and the thermal noise. When demodulating data, all of the received signals, except for the allocated data signals, act as interference signals, and the ratio of signal to interference signals has a great influence on the capacity of the entire system.

In the base station system, a technique for removing interference signals is complicated, but techniques for increasing the capacity of the system or reducing the probability of error of demodulated data have been proposed.

In general, the interference cancellation method needs to estimate or know information such as phase, power level, PN spreading code, delay time, and Walsh spreading code in some cases. Demodulate the data of the signal to be removed using the estimated or known information, and re-spread the demodulated data to remove from the received signal.

This interference signal canceller requires a separate demodulator, which complicates the structure. In addition, the mobile station is unable to use complex interference noise cancellation techniques in consideration of volume, weight, and power consumption.

Therefore, since the present invention is fixed data, a separate data demodulator is not required, and the ratio of the signal to the interference signal of the baseband signal input to the demodulator is increased by removing the pilot signal that occupies the largest portion of the interference signal, and is relatively simple. In the existing terminal structure, the change can be minimized, the error probability of the demodulator can be reduced, and the capacity of the system is increased by the ratio of the pilot signal.

In order to achieve the above object, a mobile station demodulator of a direct sequence / code division multiple access communication system according to the present invention includes a down-converter for converting a received signal into a baseband signal, a synchronization tracking device for establishing synchronization with the baseband signal, and A pilot signal information estimator for receiving the baseband signal, estimating necessary information from a forward signal of a specific cell, and generating a control signal, and generating a pilot spread signal using the estimated signal received from the pilot signal information estimator; Receiving a pilot signal information generator, an adder for summing signals received from the pilot signal information generator, a subtractor for subtracting the signal received from the adder, and a baseband signal from which the pilot signal has been removed, and demodulating data. Characterized in that it comprises a data demodulator.

In the present invention, a method of canceling an interference pilot signal using a mobile station demodulator in a direct sequential / code division multiple access communication system sets a synchronization using a synchronization tracking device and measures a pilot signal power level of a home cell from a received signal. And a first step of generating a pilot spread signal using a pilot spread signal generator, generating a received signal # 1 to be demodulated by removing the pilot spread signal acting as an interference signal from the received signal, and receiving the received signal. Demodulating # 1 to reduce the demodulation error probability. The second step of removing the home cell pilot signal is performed. After the signal is input, the synchronization signal of the adjacent cell is set using a synchronization tracking device. A third step of measuring a power level and checking whether the power level of the pilot signal #n is greater than a reference value As a result of the checking, when the power level of the pilot signal #n is greater than a reference value, a fourth step of generating a pilot #n spread signal and the pilot # acting as an interference signal from the received signal # (n-1) a fifth step of removing the spread signal to generate the received signal #n to be demodulated, and then checking whether there is a signal from which the pilot interference signal of all adjacent cells has been removed; and in the fourth step, the pilot signal #n If the power level is not greater than the reference value, the received signal # n is equal to the received signal # (n-1), and then proceeds to the fifth step of the signal from which the pilot interference signal of all adjacent cells has been removed. A sixth step of checking whether there is a presence; and, as a result of the checking, all adjacent cells return to the third step if there is no signal from which the pilot interference signal has been removed; If there is interference pilot signal is removed signal, characterized by comprising an adjacent cell pilot signal removing step consisting of the seventh step to reduce the demodulation error rate by demodulating the received signal #n.

1 is a mobile station demodulator device diagram of a conventional DS / CDMA system.

2 is a flowchart of a mobile station demodulator signal of a conventional DS / CDMA system.

3 is a mobile station demodulator device including an interference pilot signal cancellation device of a DS / CDMA system according to the present invention.

4 is a flowchart of a mobile station demodulator signal including an interference pilot signal removing device of a DS / CDMA system according to the present invention;

<Description of Signs of Major Parts of Drawings>

101 and 201: Down-converter 102 and 202: Synchronous tracking device

103 and 203: data demodulator 204: signal subtractor

205: Signal summer 206: Pilot signal information estimation device

207: Pilot Spread Signal Generator

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

3 shows a mobile station demodulator device diagram including an interference pilot signal cancellation device of a DS / CDMA system according to the present invention.

The mobile station converts the received signal into a baseband signal using a down-converter 201 and then inputs it to the synchronization tracking device 202 and the pilot signal information estimator 206. The pilot signal information estimator 206 estimates information (estimated signal # 1) required by the pilot signal generator 207 such as the phase, power level, PN spread code phase, and delay time of the pilot signal in the forward signal of a specific cell, To the pilot spread signal generator 207. In addition, the pilot signal information estimator 206 generates the control signal # 1 according to the power level of the pilot signal to control the pilot spreading signal generator 207 in the on and off operations. The pilot spreading signal generator 207 generates a pilot spreading signal by using the fixed data, the fixed Walsh spreading code, the PN spreading code, and the estimated signal # 1 received from the pilot signal information estimator 206. The generated spreading signals are then summed in signal adder 205 and subtracted from the received signal using signal subtractor 204. The baseband signal from which the pilot signal is removed is input to the data demodulator 203 to demodulate the data. By configuring the demodulator of the mobile station using such a pilot signal removal device, the performance of the demodulator can be improved. The mobile station can always monitor the pilot signals of N (neighbors) neighbor base stations, and can also improve the performance of the demodulator by using a cancellation device for the pilot signals of neighbor cells in the same manner.

4 is a flowchart of a mobile station demodulator signal including an interference pilot signal removing device of a DS / CDMA system, and FIG. 4 (a) shows a home cell pilot signal cancellation, and FIG. 4 (b) shows a neighbor cell pilot signal. A flow chart showing removal. Here, the range of n mentioned in the drawing is 1 ≦ n ≦ N and N is the number of adjacent cells.

In the case of removing the home cell pilot signal of FIG. 4A, after the signal is input in step 301 and the synchronization is set using the synchronization tracking device 202 in step 302, the received signal is homed. The pilot signal power level of the (home) cell is measured in step 303. In this case, the home cell includes a pilot signal of 12% to 20% of the received signal. After generating the pilot spread signal using the pilot spread signal generator 207 in step 304, and then demodulating the data in step 305, the data to be demodulated by removing the pilot signal serving as an interference signal from the received signal. It can increase the signal-to-interference signal ratio of. In step 306, the demodulation error probability can be reduced by demodulating the data with the signal from which the pilot interference signal is removed.

4 (b) shows a flowchart when the pilot signal of the adjacent cell is also to be removed as an interference signal.

After receiving the signal in step 311 to set the synchronization of the pilot signal of the adjacent cell using the synchronization tracking device 202 in step 312, the power level of the pilot signal is measured in step 313. When the power level is greater than or equal to the reference value in step 314, a pilot spread signal is generated and removed from the received signal in steps 315, 316, and 317 as in the method of the home cell. In this way, for all base stations adjacent to the home cell, the pilot signal is repeatedly removed in step 318 to remove the pilot signal serving as an interference signal when demodulating the data in step 319. It can improve performance.

As described above, according to the present invention, the ratio of the signal to the interference signal of the signal input to the demodulator is increased by removing the pilot signal that occupies the largest portion of the interference signal of the mobile station, and is relatively simple and minimizes the change in the existing terminal structure. It has an excellent effect on increasing the capacity of the system by the ratio of pilot signals (12% to 20%).

Claims (2)

A down-converter that converts the received signal into a baseband signal, A synchronization tracking device for establishing synchronization with the baseband signal; A pilot signal information estimator for receiving the baseband signal, estimating necessary information from a forward signal of a specific cell, and generating a control signal; A pilot signal information generator for generating a pilot spread signal using the estimated signal received from the pilot signal information estimator; A summer for summing the signals received from the pilot signal information generator; A subtractor for subtracting the signal received from the summer; And a data demodulator for demodulating data by receiving the baseband signal from which the pilot signal has been removed. A first step of receiving a signal and setting synchronization using a synchronization tracking device, measuring a pilot signal power level of a home cell from a received signal, and generating a pilot spread signal using a pilot spread signal generator; Removing the pilot spread signal serving as an interference signal from the received signal to generate a received signal # 1 to be demodulated, and demodulating the received signal # 1 to reduce a demodulation error probability. Steps, A third step of receiving a signal and setting a synchronization of a pilot signal of an adjacent cell using a sync tracking device, and then measuring the power level of the pilot signal #n; Checking whether the power level of the pilot signal #n is greater than a reference value, and if the power level of the pilot signal #n is greater than the reference value, generating a pilot #n spread signal; After generating the received signal #n to be demodulated by removing the pilot #n spreading signal serving as an interference signal from the received signal # (n-1), whether there is a signal from which the pilot interference signal of all neighboring cells has been removed 5th step to confirm, If the power level of the pilot signal #n is not greater than a reference value in the fourth step, the received signal #n is equal to the received signal # (n-1), and then the process proceeds to the fifth step and all adjacent cells. A sixth step of checking whether a signal from which the pilot interference signal is removed is present; As a result of the check, all neighboring cells return to the third step if there is no signal from which the pilot interference signal has been removed, and if the neighboring signal has the signal from which the pilot interference signal has been removed, the received signal # A method for removing interference pilot signals using a mobile station demodulator in a direct sequential / code division multiple access communication system comprising a step of removing adjacent cell pilot signals comprising a seventh step of demodulating n to reduce a demodulation error probability.

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