KR100675867B1 - Multiple Pilot Generator for Location-Based Services - Google Patents

Abstract

The present invention relates to a multiple pilot generator for location-based services in a mobile communication system of a code division multiple access method. The multi-pilot generating apparatus for location-based services according to the present invention generates multi-carrier digital data for the required number of channels, modulates the digital quadrature phase shift keyboard (QPSK) method, and converts the modulated digital data output to an analog output. By generating multiple pilots by frequency up-converting, the pilot structure not only simplifies the hardware structure, but also simplifies the structure of the hardware as compared to the conventional multiple pilot generators that generate multiple pilots using a frequency up-converter for one QPSK modulated pilot channel. The number of channels can be freely increased or decreased.

Multipilot, Multicarrier Digital Data, Digital QPSK, CDMA, PN

Description

Multi pilot generating apparatus for location-based services

1 is a block diagram of a pilot channel generator according to the prior art;

2 is a block diagram of a signal generation stage in a pilot channel apparatus according to the prior art;

3 is a block diagram of a multi-pilot generating apparatus according to the present invention;

4 is a block diagram of a multiple pilot generation unit according to the present invention;

5 is a block diagram of a multiple PN generator according to the present invention;

6 is a block diagram of a multi-carrier digital data generation unit according to the present invention;

7 is a block diagram of a digital QPSK modulator according to the present invention.

*** Explanation of symbols for the main parts of the drawings ****

10: multiple pilot generator 11: frequency up-conversion unit

12 control unit 101 multi-PN generating unit

102: multi-carrier digital data generator 103: digital QPSK modulator

104: digital-to-analog converter 201: PN information part

202: PN generator 203, 204: first and second adders

301: carrier information unit 302: carrier digital data generation unit

303, 304: second and third adders 401, 402: first and second multipliers

403: fifth adder

The present invention relates to an apparatus for generating multiple pilots for location-based services in a code division multiple access mobile communication system, and more particularly, by generating and adding a plurality of pilot information to a plurality of CDMA channels, respectively. The present invention relates to a multi-pilot generator for providing location based services.

 In general, a base station of a CDMA mobile communication system may use a plurality of non-overlapping frequency channels, and a band of a frequency channel used by a specific base station is allocated differently according to a frequency allocation method for mobile communication. In addition, each frequency channel includes a pilot channel that informs the phase information of the multiplexing code, and distinguishes the pilot base stations by different phases between adjacent base stations. In addition, since the user's terminal has a function of monitoring a pilot channel transmitted from a neighboring base station, the user's terminal detects the pilot signal of a specific phase by sending a pilot signal of a specific phase to the CDMA frequency channel used for the service by using a multiple pilot generator. It is possible to determine the location of the terminal by reporting. Therefore, the location-based service can be provided based on this.

According to this principle, an example of a conventional multiple pilot generator for generating multiple pilot signals in a frequency band of a CDMA channel is a pilot channel source dedicated board for generating one pilot source signal, as shown in the block diagram of FIG. 61, a splitter 62 for dividing one pilot source signal into a plurality of identical pilot source signals, and a pilot signal generating stage 63 for generating and outputting a plurality of different pilot channel signals. And a combiner 64 for combining the pilot channel signals.

The pilot channel source dedicated board 61 includes a channel element transmission path section 61-1 for performing CDMA modulation on data input from another station, and an analog common card 61-2 spreading at a frequency used by a base station. And a sector board interface card transmission path section 61-3 for modulating in the QPSK method. As shown in FIG. 2, the pilot signal generator 63 includes a local frequency information providing unit 63-1 for providing information of a local frequency to be changed, and a local frequency for generating a local frequency for generating a CDMA allocation frequency. A frequency up-converter 63-3 which generates and outputs a pilot channel using the generator 63-2, the source signal provided by the splitter 62, and the local frequency provided by the local frequency generator 63-2. )

Therefore, the pilot channel source dedicated board 61 transmits a source signal for generating a pilot signal to the splitter 62, and the splitter 62 separates the source signal and transmits each signal to each pilot channel generator 63. Is transmitted to the frequency up-conversion unit 63-3. If the local frequency information providing unit 63-1 provides information about a local frequency to be generated by the local frequency generating unit 63-2, the local frequency generating unit 63-2 may provide the local frequency providing unit ( By using the data provided in 63-1, a local frequency for generating a desired CDMA allocation frequency is generated and transmitted to the frequency up-conversion unit 63-3. Then, the frequency up-converter 63-3 makes a desired CDMA allocation frequency, that is, a pilot channel, using the local frequency transmitted from the local frequency generator 63-2 and the source signal transmitted from the splitter 62. Will print.

However, the conventional multiple pilot generator includes a pilot signal generator including a frequency up-converter for each pilot channel source signal separated from the splitter 62, which not only complicates hardware but also increases the frequency of the pilot channel. Since the pilot signal generating stage including the up-converter must be added again, there is a problem in terms of economics and hardware.

SUMMARY OF THE INVENTION The present invention has been made to solve the problems of the prior art. The main object of the present invention is to generate as many multi-carriers as necessary channels, modulate it with the digital QPSK scheme, convert the modulated digital data output into an analog output, and then frequency By generating a multi-pilot by up-converting, to provide a multi-pilot generating apparatus for location-based services that do not separately configure a pilot signal generating stage including a frequency up-conversion unit for each channel.

In addition, the present invention can freely increase or decrease the number of pilot channels without additional cost when the number of CDMA mobile communication channels in the future, location-based services that can allocate different frequencies to the base station for each pilot channel It is to provide a multi-pilot generator for.

In order to achieve the above object, a multi-pilot generating apparatus for a location-based service according to the present invention, in a multi-pilot generating apparatus for a location-based service in a code division multiple access method mobile communication system, multi-PN and multi-carrier digital A multiple pilot generator for digitally modulating the data and converting the modulated digital output into an analog output to generate multi-carrier digital data for the required number of channels; A frequency up-converter for up-converting the output of the multiple pilot generator to a final output frequency which is a base station band; And a control unit controlling the multi-pilot generation unit by using the multi-PN generation information and the multi-carrier information and controlling the frequency up-conversion unit by using local frequency information.

In the present invention, the multi-pilot generation unit inputs from the multiple PN generation unit for generating multiple PN, the multi-carrier digital data generation unit for generating multi-carrier digital data, and the multi-PN generation unit and multi-carrier digital data generation unit. And a digital QPSK modulator for modulating the signal to be QPSK, and a digital-to-analog converter for converting the digital output of the digital QPSK modulator into an analog output.

The multi-PN generating unit includes a PN information unit for providing PN generation information, a PN generating unit for generating an actual PN with data received from the PN information unit, and an adder for summing all in-phase PN data generated by the PN generating unit. And another adder for summing all quadrature PN data generated by the PN generator.

The multi-carrier digital data generation unit may include a carrier information unit providing generation information for generating carrier digital data, a carrier digital data generation unit generating actual carrier data using data received from the carrier information unit, and generating the carrier digital data. And an adder for summing up all of the in-phase carrier digital data generated by the unit and another adder for summing all quadrature carrier digital data generated by the carrier digital data generating unit.

Subsequently, the digital QPSK modulator comprises: a multiplier for multiplying the in-phase multi-PN data and the in-phase multi-carrier digital data, another multiplier for multiplying the orthogonal multi-PN data and the quadrature multi-carrier digital data; And an adder that adds a value obtained by multiplying multi-phase PN data by in-phase multi-carrier digital data and a value multiplied by the quadrature multi-PN data by quadrature multi-carrier digital data.

       In addition, the multi-carrier digital data generation unit is characterized in that it is possible to adjust the size of each carrier to adjust the gain of the multi-pilot channel or ON / OFF.

Hereinafter, with reference to the accompanying drawings, a preferred embodiment of a multi-pilot generating apparatus for a location-based service according to the present invention will be described in detail. 3 is an overall block diagram schematically showing a multiple pilot generator according to the present invention, FIG. 4 is a block diagram showing a multiple pilot generator according to the present invention, and FIG. 5 is a block diagram showing a multiple PN generator according to the present invention. 6 is a block diagram of a multi-carrier digital data generator according to the present invention, and FIG. 7 is a block diagram showing a digital QPSK modulator according to the present invention.

First, as shown in FIG. 1, the apparatus for generating multiple pilots for a location-based service according to the present invention includes a multiple pilot generating unit 10, a frequency up-converting unit 11, and a controller 12 for controlling the same. It is. The multi-pilot generation unit 10 digitally modulates the multi-PN and the multi-carrier digital data, and converts the modulated digital output into an analog output to generate the multi-carrier digital data of the required number of channels. The unit 11 is to up-convert the output of the multi-pilot generation unit 10 to a final output frequency, and the control unit 12 uses the multi-PN generation information and the multi-carrier information to generate the multi-pilot generation unit 10. In addition to controlling the frequency up-conversion unit 11 using the local frequency information.

In the present embodiment, the multi-pilot generation unit 10, as shown in Figure 4, the multi-PN generation unit 101 for generating a multi-PN and a multi-carrier digital data generation unit for generating multi-carrier digital data ( 102, a digital QPSK modulator 103 for performing QPSK modulation on signals input from the multi-PN generator 101 and the multi-carrier digital data generator 102, and the digital of the digital QPSK modulator 103. It consists of a digital-to-analog converter 104 that converts the output to an analog output.

5 to 7, the multi-PN generator 101, the multi-carrier digital data generator 102 and the digital QPSK modulator 103 constituting the multi-pilot generator 10 according to the present embodiment. It will be described in detail.

First, as shown in FIG. 5, the multi-PN generating unit 101 is a PN information unit 201 that provides PN generation information under the control of the control unit 12 and data received from the PN information unit 201. PN generator 202 that actually generates PN, a first adder 203 that sums all in-phase PN data generated by PN generator 202, and a quadrature phase generated by PN generator 202 It consists of a 2nd adder 204 which sums all PN data. Accordingly, the number of PN data can be increased or decreased according to the information provided by the PN information unit 201. The first adder 203 sums all in-phase PN data and outputs one in-phase multiple PN data, and the second adder. 204 sums all quadrature PN data and outputs one quadrature multiple PN data. Since the structure and function of the PN generator 202 is well known in the art, detailed description thereof will be omitted.

As shown in FIG. 6, the multi-carrier digital data generator 102 provides a carrier information unit 301 for providing information for generating carrier digital data under the control of the controller 12, and the carrier information unit. A carrier digital data generator 302 for generating actual carrier data using the data obtained at 301, a third adder 303 for summing all in-phase carrier data generated by the carrier digital data generator 302, The fourth digital adder 304 adds all of the quadrature carrier data generated by the carrier digital data generator 302. Accordingly, the number of carriers may be increased or decreased according to the information provided by the carrier information unit 301. In addition, when the carrier digital data generation unit 302 generates carrier data, it is possible to adjust the gain of pilot channels or to turn on / off the gain of pilot channels by adjusting the size of each carrier data. The third adder 303 sums all carrier data and outputs one in-phase multi-carrier data, and the fourth adder 304 sums all carrier data and outputs one quadrature multi-carrier data. Since the structure and function of the carrier digital data generator 302 are also well known in the art, a detailed description thereof will be omitted.

Subsequently, the digital QPSK modulator 103 is in-phase PN data generated by the multi-PN generator 101 and in-phase multi-carrier digital generated by the multi-carrier digital data generator 102, as shown in FIG. A first multiplier 401 multiplying the data and a quadrature PN data generated by the multi-PN generation unit 101 and a quadrature multi-carrier digital data generated by the multi-carrier digital data generation unit 102; Two multipliers 402 and a fifth adder 403 that adds a value obtained by multiplying the in-phase multi-PN data and the in-phase multi-carrier digital data and a product of the quadrature multi-PN data and the quadrature multi-carrier digital data. . In this case, in-phase multi-PN data, quadrature multi-PN data, in-phase multi-carrier digital data, and quadrature multi-carrier digital data used as inputs of the multipliers 401 and 402 are all digital data. ) Will output multiple pilot digital data. Accordingly, the digital-to-analog converter 104 converts the QPSK modulated digital signal into an analog to output multiple pilot channels, and the frequency up-converter 11 outputs the final multiple pilot channels based on local frequency information. Up-converting to frequency.

As described above, the multi-pilot generation apparatus for the location-based service according to the present invention can increase or decrease the number of PN data according to the information provided from the PN information unit 201, the carrier according to the information provided by the carrier information unit 301 Since the number can be increased or decreased freely, it can flexibly respond to the required number of pilot channels, and the gain of the pilot channel can be adjusted or turned ON / OFF by adjusting the size of each carrier data so that specific frequencies assigned to different frequencies can be adjusted. It can be applied to the base station.

According to the present exemplary embodiment, the multi-PN generator 101 generates a signal in which two PNs are multiplexed under the control of the controller 12, and the multi-carrier digital data generator 102 generates 20 carriers. Generate a multiplexed signal. The multi-PN and multi-carrier digital data are modulated in a QPSK manner through the first and second multipliers 401, 402 and the fifth adder 403 of the digital QPSK modulator 103. The multi-pilot digital data generated by the digital QPSK modulator 103 is analog-converted through the digital-to-analog converter 104 to output 20 multi-pilot channels. Thereafter, the frequency up-converter 11 up-converts the frequency based on the local frequency information of the base station to convert it to the cellular CDMA assigned frequency of the base station. And by allowing the user terminal to detect and report the pilot signal it is possible to provide a location-based service in a code division multiple access mobile communication system.

Meanwhile, in the above embodiment, since the cellular CDMA mobile communication currently used uses 20 channels, the multi-carrier digital data generation unit 104 generates 20 carrier digital data, and gain adjustment and ON for each pilot channel are performed. By controlling the 20 pilot channels using / OFF, it can be applied to specific base stations allocated to different frequencies. However, the multi-pilot generating apparatus according to the present invention can freely increase the number of multi-PN or multi-carrier digital data according to the increase in the number of CDMA mobile communication channels. Can generate a signal.

As described above, the multiple pilot generator for the location-based service according to the present invention, instead of separately configuring a pilot signal generating stage including a frequency up-conversion unit for each channel, multiple multi-carrier digital data generators. Since multiple pilot channels are output using carrier digital data, hardware configuration can be simplified.

In addition, since the present invention can freely adjust the number of pilot channels by controlling the number of carrier digital data generated in the multi-pilot generating unit, if the number of CDMA mobile communication channels increases in the future, it is flexibly applied without any additional cost or hardware change. It can work.

The present invention also has an effect of easily assigning a frequency to a corresponding base station by using gain control and ON / OFF of a carrier for each pilot channel.

Claims (8)

In the multiple pilot generator for location-based services in a code division multiple access mobile communication system, A multi pilot generator for digitally modulating multi-carrier digital data and converting the modulated digital output to an analog output to generate as many pilot signals as the number of channels required; A frequency up-converter configured to up-convert the multiple pilot signal filed by the multiple pilot generator to a final output frequency which is a base station band; And a controller for controlling the multi-pilot generator using multi-carrier information and controlling the frequency up-converter using local frequency information. The method of claim 1, The multi-pilot generation unit generates a multi-PN multi-PN generation unit, a multi-carrier digital data generation unit for generating multi-carrier digital data, and a signal input from the multi-PN generation unit and multi-carrier digital data generation unit QPSK method And a digital to analog converter for converting the digital output of the digital QPSK modulator into an analog output. The method of claim 2,        The multiple PN generation unit includes a PN information unit for providing PN generation information, a PN generation unit for generating an actual PN with data received from the PN information unit, and an adder for summing all of the PN data generated in the PN generation unit. Multiple pilot generator for location-based services, characterized in that configured. The method of claim 2,       The multi-carrier digital data generation unit includes a carrier information unit that provides generation information for generating carrier digital data, a carrier digital data generation unit that generates actual carrier data from data received from the carrier information unit, and the carrier digital data generation unit. Multiple pilot generator for location-based services, characterized in that it comprises an adder for summing up all the carrier data generated by the. The method according to claim 3 or 4,       The adder includes a first adder for adding in-phase PN data, a second adder for adding in-phase PN data, a third adder for adding in-phase carrier data, and a fourth adder for adding in-phase carrier data. Multiple pilot generator for location-based services, characterized in that. The method of claim 2,       The digital QPSK modulator comprises: a multiplier for multiplying the in-phase multi-PN data and in-phase multi-carrier digital data, another multiplier for multiplying the quadrature multi-PN data and quadrature multi-carrier digital data, and the in-phase multiplexing And an adder that adds a value obtained by multiplying PN data by in-phase multicarrier digital data and a product of multiplied by quadrature multi-PN data and quadrature multicarrier digital data. The method of claim 2, The multi-carrier digital data generation unit, the multi-pilot generation apparatus for location-based services, characterized in that by adjusting the size of each carrier to adjust the gain of the multi-pilot channel or ON / OFF. In the multiple pilot generator in a code division multiple access mobile communication system, A PN information unit for providing PN generation information, a PN generation unit for generating an actual PN with data received from the PN information unit, a first adder for adding up in-phase PN data generated by the PN generation unit, and the PN generation; A multiple PN generator having a second adder for summing all the quadrature PN data generated by the negative unit; A carrier information unit that provides generation information for generating carrier digital data, a carrier digital data generator that generates actual carrier data from data received from the carrier information unit, and in-phase carrier data generated by the carrier digital data generator. A multi-carrier digital data generator for generating multi-carrier digital data including a third adder for adding up all together and a fourth adder for adding up all quadrature-carrier data generated by the carrier digital data generating unit; A first multiplier for multiplying in-phase multi-PN data and in-phase multi-carrier digital data, a second multiplier for multiplying quadrature multi-PN data and quadrature multicarrier digital data, and a first multiplier for the first multiplier and the second multiplier A digital QPSK modulator having a fifth adder that adds values multiplied by each other; A digital-to-analog converter for converting the digital output of the digital QPSK modulator into an analog output; And a control unit for controlling the multi-PN generation unit and the multi-pilot generation unit using multi-PN information and multi-carrier information, and controlling the frequency up-conversion unit using local frequency information. Multiple pilot generator for the system.

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