KR100916725B1 - Mapping method and device for carrying out various scalling of subcarrier according to its usage type - Google Patents

Abstract

The present invention relates to a mapper for scaling the modulation signal size of data according to the use of data in an OFDMA transmitter. The present invention relates to a mapping table for storing general data mapping values and mapping values of specific application data, and to transmit data before uplink-specific data transmission. Generating the mapping values using data information of the data, applying the generated mapping value to the mapping table, generating a new mapping table or updating the mapping table, and mapping the mapping value corresponding to the transmitted data. When data of the same purpose is repeatedly transmitted including the processor outputting from the table, the mapper output value can be easily obtained using the mapping table.

OFDMA, mapper, modulation level, scaling

Description

MAPING METHOD AND DEVICE FOR CARRYING OUT VARIOUS SCALLING OF SUBCARRIER ACCORDING TO ITS USAGE TYPE}

The present invention relates to a mapper for scaling a modulation signal size of data according to the purpose of data in an OFDMA transmitter. More specifically, the mapping table is extended to store scaled mapping values in a mapper of an OFDMA transmitter. Regarding the mapper device, it is possible to update the scaled mapping table by checking the format of the data to be transmitted and the existence of specific purpose data before each data transmission, and to easily output the scaled complex value of the transmitted data using the mapping table. will be.

In the OFDMA transmission / reception system as shown in FIG. 1, a mapper converts data bits to be transmitted into a complex value suitable for a communication signal. The complex value thus converted is called a mapping value, and when the mapping value is output, it is called a mapper output value.

A method of converting data bits into complex values is performed by constellation according to a modulation level as shown in FIG. 2.

Specifically, 2 bits information can be converted into one complex value by using QPSK as shown in (a) .When 16-QAM of (b) is used, 4 bits information is converted into one complex value, as shown in (c). When using 64-QAM, 6 bits of information can be converted into one complex value. For example, when 16-QAM is used, a complex value (-1-j3) is output when 4 bits data (b ₃ b ₂ b ₁ b _{0 )} input to a mapper is 1011.

로 나누어 송신하며 16-QAM, 64-QAM에 대해서는 각각

와

를 나눠서 송신한다.However, since the average power of all subcarriers should be the same regardless of the modulation level actually used, the output of QPSK has I and Q values.

Divided into 16-QAM and 64-QAM respectively.

Wow

Send in splits.

However, if the data to be transmitted is not one use type (usage type), but several types of use, scaling should be performed for each use.

3 is a diagram illustrating normalized C / N according to data usage, and C / N (or CNR: carrier-to-noise power ratio) applied according to data usage is defined differently.

For example, if the data for service uses a modulation level of 16-QAM and a FEC coding rate of 1/2 and the terminal sends fast feedback data, the subcarrier transmitting fast feedback data is 0-. 12 = -12 [dB] power should be changed. This is because C / N required for service data and fast feedback data are different. If the power of -12 [dB] is not scaled, the base station (BS) receives a relatively larger power than other data. Therefore, it may act as a waste of power and interfere with adjacent subcarriers.

Assuming that a terminal modem transmits normal data of QPSK 1/2 and fast feedback data of QPSK in an uplink frame, the following is assumed.

General data:

, a=0.502Fast feedback data:

, a = 0.502

When the general data is QPSK 1/2, the normalized C / N in FIG. 3 is 6 [dB], and the C / N of the fast feedback data is 0 [dB], so the fast feedback data is lowered by -6 [dB] than the general data. Should send. This is equivalent to multiplying the complex value that is the mapper output by 0.502.

FIG. 4 illustrates a configuration of a conventional mapper that performs scaling in the above manner, and FIG. 5 illustrates an embodiment of a mapping table used for the mapper according to the related art. The processor unit 410 outputs a complex value from the mapping table as shown in FIG. 5 using the data bits and the modulation level, and outputs the scaling value using the modulation level and the data use. However, the scaling value can be obtained by [Equation 1] and [Equation 2].

Accordingly, the final mapper value is output by multiplying the output complex value by the scaling value.

However, in the related art, a mapping table used in a mapper is stored as a fixed value in advance, and a scaling value must be calculated according to the purpose of data input for every OFDMA symbol. There is a hassle to repeat.

In addition, even though there is a large amount of data for the same purpose in one OFDMA symbol or one uplink frame, there is a problem of wasting power consumption by repeated scaling operations.

An object of the present invention to solve such a problem is to provide a means for reducing the scaling operation when the same purpose data is repeated in the mapper of the OFDMA transmitter.

In addition, another object of the present invention is to provide a means for pre-computing and storing scaling values for all specific application data having a fixed data format in order to reduce the mapper's scaling operation and to avoid wasting power. To provide.

In order to achieve the above object, in the OFDMA transmitter according to the present invention, a mapper device for scaling a data modulation signal size includes a mapping table for storing general data mapping values and mapping values of specific application data and before data transmission for each uplink frame. Generate the mapping values using data information of the data to be transmitted, apply the generated mapping values to the mapping table to generate a new mapping table or update the mapping table, and map the mapping values corresponding to the transmitted data. And a processor for outputting from the mapping table.

In addition, a mapper device for scaling a data modulation signal size in an OFDMA transmitter according to the present invention includes a mapping table storing mapping values of general data and mapping values of specific application data, and data of data to be transmitted before uplink data transmission. A mapping table updating unit which receives information to generate or update a mapping value of the specific purpose data, and a mapper which receives the data to be transmitted and outputs a mapping value from the mapping table using an address corresponding to the data to be transmitted. It characterized in that it comprises a processing unit.

In addition, the method for outputting the mapping value by scaling the size of the data modulation signal in the mapper device of the OFDMA transmitter according to the present invention comprises the steps of: (a) receiving data information of data to be transmitted before uplink data transmission, (b) Calculating a mapping value of specific application data among the data using the received data information; And (c) generating or updating a mapping table by using the calculated mapping value of the specific use data.

As described above, the mapper device for scaling the data modulation signal size in the OFDMA transmitter according to the present invention stores the mapper output value reflecting the scaling value for the general data format in a mapping table in advance to quickly obtain the mapper value without performing a separate scaling operation. There is an effect that can be output.

Also, it is possible to reduce the scaling operation by using the updated mapping table once when the data of the same purpose is repeatedly transmitted by identifying the use of data to be transmitted before every uplink transmission and updating the mapping table if necessary. have.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings. However, in describing in detail the operating principle of the preferred embodiment of the present invention, if it is determined that the detailed description of the related known functions or configurations may unnecessarily obscure the subject matter of the present invention, the detailed description thereof will be omitted.

In addition, the same reference numerals are used for parts having similar functions and functions throughout the drawings.

6 is a diagram illustrating a configuration of a mapper device according to the present invention.

The mapper device according to the present invention includes a processor 620 and a mapping table 630.

The processor unit 620 receives data information of the data to be transmitted from the modem controller 610 before updating data in each uplink frame, updates the mapping table, and uses the received data to update the mapping value from the mapping table 630. Extract it and print it out. Meanwhile, the mapping table 630 stores mapping values of general data, mapping values of fixed specific use data, and mapping values of variable specific use data.

In detail, the processor unit 620 receives the general data format information of the data to be transmitted and the specific usage data related information from the modem controller 610 before the data transmission for each uplink frame and determines whether to update the data in the determination unit 621. To judge.

Here, the general data format information includes a modulation level and a coding rate, and the specific application data related information includes information about the existence of the specific application data and the data format of the specific application data.

The specific application data is a data type (modulation level, coding rate) according to the fixed specific application data such as a control signal such as the ACK region, FAST FEEBACK, CDMA code of Figure 3 and the channel environment determined by the BS (Base Station) This refers to variable specific usage data that may vary.

The determination unit 621 determines whether data is updated by two methods.

In the first method, before the start of every uplink frame, the general data type information of the current frame is compared with the general data type information of the previous frame to determine whether there is a change. If the result of the determination is not changed, the mapping table 630 is not regenerated, and if there is a change, the scaling value of the fixed specific usage data is obtained using the data format information of the fixed specific usage data of the current frame, and the fixed value is used. Create or update a fixed message table 632. The fixed message refers to data that the format of the specific data is determined in advance regardless of the channel environment when the BS requests the predetermined specific data transmission from the terminal.

In the second method, it is determined whether the data is updated by analyzing the existence of variable specific application data whose data format may vary depending on the environment of the transmission channel. For example, if it is determined that there is specific usage data that can be used in any frame and QPSK 1/2 can be used in 16-QAM 3/4 in another frame, the data format of the variable specific usage data is identified and scaled. The value is calculated and used to create or update a variable message table 631. In the variable message, when the BS requests the terminal to transmit a predetermined data, the BS determines the specific data format according to the channel environment and instructs the terminal to change the format of the specific data according to the channel environment. Means data that can be. For example, the BS determines a specific data format according to the channel environment and determines the transmission format such as QPSK or 16-QAM and instructs the terminal. Therefore, the terminal maps a space for storing up to 16 values in the variable message table for this specific data. Assign for value update. When the BS instructs the UE to transmit specific data in QPSK format, the UE stores and uses the scaled QPSK value in the first 4 spaces in 16 storage spaces, and in the case of 16-QAM, 16 storage spaces allocated The scaled 16-QAM value is stored in and used.

If the determination unit 621 determines that the generation or updating of the mapping table 630 is necessary, the data type analysis unit 622 grasps general data type information or specific use data type information transmitted from the modem control unit 610. .

In addition, the scaling calculator 623 calculates the scaling value using the data format and data usage grasped by the data format analyzer 622.

The mapping value generator 624 generates a scaled mapping value by multiplying the complex value of the data format by the scaling value of the scaling calculator 623 and stores the scaled mapping value in the mapping table 630. Among the specific usage data, mapping values related to the fixed specific usage data in which the data format is fixed to the channel environment are stored in the fixed message table 632. The mapping value for variable specific application data whose data format changes according to the channel environment is stored in a variable message table 631.

When the update of the mapping table 630 is completed according to whether to update, the determiner 621 detects an address corresponding to a data bit, a modulation level, and a data use of the transmitted data, and transmits the address to the processor 625. do.

The mapping table search unit 626 extracts a corresponding mapping value from the mapping table 630 using the retrieved address information, and the processing unit 625 outputs the extracted mapping value as a mapper output value.

However, each configuration is classified for convenience according to the function of the processor unit, but is not limited thereto.

As shown in FIG. 6 and FIG. 7, the mapping table 630 stores complex values related to general data in the basic table 633 as first mapping values. The second mapping value is stored in the fixed message table 632, and the complex value reflecting the scaling value with respect to the variable specific use data is stored in the variable message table 631 as the third mapping value. The second mapping value is a mapping value obtained by multiplying a scaling value by a complex value of a data type of fixed specific use data whose data format does not change according to a channel environment, and storing the second mapping value in a fixed message table 632 and storing the third mapping value. Is a mapping value obtained by multiplying a scaling value by a complex value of a data type of variable specific application data whose data format changes according to a channel environment, and storing the mapping value in a variable message table 631.

8 is a flowchart illustrating a method of scaling and outputting a mapper output signal according to the present invention.

First, data information of data to be transmitted is received from the modem controller before uplink frame data transmission (S810). The received data information includes general data format information and specific usage data related information, and the specific usage data is fixed specific usage data. And variable specific usage data.

When the data information is received in this way, it is determined whether the mapping table is updated by comparing the general data format information of the current frame with the general data format information of the previous frame (S820).

As a result of the determination, when there is a change in the general data format of the current frame, a scaling value is calculated according to the data format of the fixed specific application data (S830).

When the scaling value is obtained, a second mapping value is obtained by multiplying a scaling value by a complex value corresponding to the data format of the fixed specific use data, and generating a new mapping table for the fixed specific use data, or updating the mapping table. (S840)

As a result of the determination, when there is no change in the general data format of the current frame, it is determined whether the data is updated by analyzing the existence of the variable specific application data whose data format may vary according to the environment of the transmission channel (S850).

If there is variable specific use data whose format may vary depending on the channel environment, a scaling value is calculated using the data type of the variable specific use data (S860), and the scaling value thus obtained is converted into the data type of the variable specific use data. The new mapping table is generated or the mapping table is updated by multiplying a corresponding complex value to obtain a scaled third mapping value (S870).

When generation or update of the mapping table is completed before data transmission for each uplink frame, the mapping value is extracted from the mapping table by using the address corresponding to the received data bits, modulation level, and data usage. )

9 is a view showing still another embodiment of the mapper device according to the present invention.

The mapper device 920 of FIG. 9 includes a mapping table updater 921, a mapper processor 923, and a mapping table 922.

The mapping table updating unit 921 receives general data format information and specific usage data related information of data to be transmitted before uplink frame data transmission, determines whether to update the mapping table, and generates a new mapping value when an update is needed. Save to mapping table.

The mapping processor receives the data bits, the modulation level, and the data usage of the current frame, extracts the mapping values from the mapping table using the corresponding addresses, and outputs the mapping values to the mapper output values.

The configuration of the mapping table 922 and the method of updating the mapping table and outputting the mapper output value in FIG. 9 are the same as those of FIG. 9.

The present invention described above is not limited to the above-described embodiments and the accompanying drawings, and it is common in the art that various substitutions, modifications, and changes can be made without departing from the technical spirit of the present invention. It will be apparent to those skilled in the art.

1 is a diagram illustrating a configuration of a general OFDMA transceiver.

2 illustrates a constellation according to a modulation level.

3 is a diagram illustrating normalized C / N according to data usage.

4 is a diagram illustrating a configuration of a mapper that performs scaling on a modulated signal according to the related art.

5 is a diagram showing an embodiment of a mapping table used for a mapper according to the prior art.

6 is a diagram illustrating a configuration of a mapper device according to the present invention.

7 shows an embodiment of the mapping table of the mapper according to the present invention.

8 is a flowchart illustrating a method of scaling and outputting a mapper output signal according to the present invention.

9 is a view showing still another embodiment of the mapper device according to the present invention.

Claims (18)

In the mapper apparatus of an OFDMA transmitter, A mapping table for storing general data mapping values and mapping values of specific usage data; The mapping values are generated by using data information of data to be transmitted before uplink frame data transmission, and the generated mapping values are applied to the mapping table to generate a new mapping table or update the mapping table, and are transmitted. And a processor for outputting a mapping value corresponding to data from the mapping table. The method of claim 1, wherein the data information is A mapper device for scaling a data modulated signal size, which is general data type information, specific use data type information, and data bit value information. The method of claim 2, wherein the general data format information is A mapper device for scaling a data modulated signal size comprising a modulation level and a coding rate. The method of claim 1, wherein the specific use data is A mapper device for scaling a data modulation signal size comprising fixed specific use data that does not change data format and variable specific use data whose data format changes according to the environment of a transmission channel. The method of claim 4, wherein the processor And a determination unit comparing the general data format information of the current frame with the general data format information of the previous frame and determining whether to generate or update the fixed message table of the mapping table when there is a change in the general data format of the current frame. A mapper device for scaling the size of a data modulation signal. The method of claim 5, wherein the determination unit, And generating or updating a variable message table of the mapping table when there is a change in the general data format of the current frame and the variable specific use data exists. The method of claim 1, wherein the processor, A scaling calculator configured to calculate a scaling value using a data format of the specific use data; And And a mapping value generator for generating a mapping value by using a complex value corresponding to a data format of the specific use data and the scaling value calculated by the scaling calculator. In the mapper apparatus of an OFDMA transmitter, A mapping table for storing mapping values of general data and mapping values of specific purpose data; A mapping table updating unit which receives data information of data to be transmitted before uplink frame data transmission and generates or updates a mapping value of the specific use data; And a mapper processor for receiving the data to be transmitted and outputting a mapping value from the mapping table by using an address corresponding to the data to be transmitted. The method of claim 8, wherein the mapping table And a fixed message table for storing mapping values of fixed specific purpose data whose data format does not change, and a variable message table for storing mapping values of variable special purpose data whose data format is changed according to the environment of a transport channel. A mapper device for scaling the size of a data modulation signal. The method of claim 9, wherein the mapping table update unit When the general data format information of the current frame is changed, when the mapping value of the fixed specific use data is generated or updated, the general data format information of the current frame is not changed, and the format information of the variable specific use data exists. And generating or updating a mapping value of the fixed specific use data. The method of claim 8, wherein the mapping table update unit The mapping value of the fixed specific use data or the mapping value of the variable specific use data is calculated by using the complex value corresponding to the data type of the specific use data and the scaling value calculated by using the data type of the specific use data. And applying the calculated mapping values to generate or update the mapping table. The method of claim 8, wherein the address is Mapper device for scaling the size of the data modulation signal, characterized in that determined according to the data bits, modulation level and data usage of the data to be transmitted. A method for outputting a mapping value by scaling a data modulation signal size in a mapper device of an OFDMA transmitter, (a) receiving data information of data to be transmitted before uplink frame-specific data transmission; (b) calculating a mapping value of specific use data among the data using the received data information; And (c) generating or updating a mapping table by using the calculated mapping value of the specific purpose data. The method of claim 13, wherein after step (c): (d) receiving the data and outputting a mapping value from the mapping table using an address corresponding to the data. The method of claim 13, wherein step (b) (b-1) comparing general data type information of the current frame with general data type information of a previous frame; (b-2) calculating a first scaling value using a data format of fixed specific usage data among the specific usage data when the general data format information of the current frame is changed; And (b-3) calculating a mapping value of the fixed specific usage data using a complex value corresponding to the data format of the fixed specific usage data and the first scaling value. How to output The method of claim 13, wherein step (b) comprises: (b-1) comparing general data type information of the current frame with general data type information of a previous frame; (b-2) calculating a second scaling value using the data type of the variable specific use data when the general data type information of the current frame is not changed and the variable specific use data exists in the specific use data; And (b-3) calculating a mapping value of the variable specific use data using a complex value corresponding to the data format of the fixed specific use data and the second scaling value. How to print. 15. The method of claim 14, wherein step (d) Outputting a mapping value using an address corresponding to a data bit, a modulation level, and a data use of the data. A computer-readable recording medium having recorded thereon a program for realizing the method according to any one of claims 14 to 17.

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