KR101613735B1 - Method and apparatus for providing mcs - Google Patents

Abstract

According to an aspect of the present invention, there is provided a method of providing a Modulation and Coding Scheme (MCS) index for a wireless channel in a wireless communication terminal. The method includes measuring a radio signal on a wireless channel to calculate a signal to interference and noise ratio (SINR) value of the wireless communication terminal, and calculating a SINR value and a MCS index corresponding to each of the SINR value intervals Searching for an MCS index corresponding to a SINR value interval to which the SINR value calculated in the SINR / MCS mapping table belongs, searching a head room (HR) indicating the available transmission power of the wireless communication terminal based on the calculated SINR value, , And adjusting the retrieved MCS index based on the calculated HR value.

Wireless communication system, transmission power control, Modulation and Coding Scheme (MCS)

Description

[0001] METHOD AND APPARATUS FOR PROVIDING MCS [0002]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a technique for determining and adjusting a modulation and coding scheme to be applied to a wireless communication terminal and more specifically to a modulation and coding scheme to be applied to a wireless communication terminal stably even if there is a sudden change in a wireless communication environment And to a method and apparatus for adjusting.

Various wireless communication systems such as an OFDMA (Orthogonal Frequency Division Multiple Access) system continuously determine and adjust a modulation and coding scheme to be employed by each wireless communication terminal in communicating with the base station, So that the user can appropriately respond to the change of the user. Currently, various modulation and coding decisions and adjustment methods are provided, and a method of determining and adjusting the modulation and adjustment method to be applied to each of the wireless communication terminals located in the area of the base station among the base stations is widely used. In this method, each wireless communication terminal measures various parameters related to its own environment, e.g., SINR (Signal to Interference and Noise Ratio), and transmits the measured values and predetermined data received from the base station And calculates a modulation and coding scheme to be used in the future, and then requests it to the base station. The base station collects the above information provided from each wireless communication terminal, Determines the modulation and coding decision and adjustment method to be applied to the corresponding wireless communication terminal, and then notifies it. A Modulation and Coding Scheme (MCS) may be used to request and notify the above modulation and coding schemes. The MCS is an index or an index defined in the IEEE 802.16 recommendation, and a channel coding scheme and a modulation scheme corresponding to the index are defined for each index.

However, the above-described conventional configuration has the following problems. When a sudden change occurs in a peripheral wireless communication environment of a wireless communication terminal due to a reason such as a movement of a wireless communication terminal in the vicinity of a femtocell, a measured value such as SINR also changes abruptly, The amount of transmission power required by the wireless communication terminal and the modulation and coding scheme of the wireless communication terminal are drastically changed. As a result, there is a possibility that the modulation and coding scheme applied to the wireless communication terminal may also change drastically. Which modulation and coding scheme is used for the wireless communication terminal is a factor that greatly affects the transmission power of the wireless communication terminal. As a result, if a sudden change occurs in the surrounding wireless environment of the wireless communication terminal, the transmission power of the wireless communication terminal There arises a problem in that it suddenly changes and becomes unstable.

It is an object of the present invention to provide a method and apparatus for determining and adjusting a modulation and coding scheme to be applied to a wireless communication terminal stably even if there is a sudden change in the wireless communication environment of a wireless communication terminal .

According to an aspect of the present invention, there is provided a method of providing a Modulation and Coding Scheme (MCS) index for a wireless channel in a wireless communication terminal. The method includes measuring a radio signal on a wireless channel to calculate a signal to interference and noise ratio (SINR) value of the wireless communication terminal, and calculating a SINR value and a MCS index corresponding to each of the SINR value intervals Searching for an MCS index corresponding to a SINR value interval to which the SINR value calculated in the SINR / MCS mapping table belongs, searching a head room (HR) indicating the available transmission power of the wireless communication terminal based on the calculated SINR value, , And adjusting the retrieved MCS index based on the calculated HR value.

According to another aspect of the present invention, a wireless communication terminal is provided. The wireless communication terminal includes a wireless communication unit that performs wireless communication with a base station through a wireless channel, a storage unit that stores a SINR / MCS mapping table including a series of SINR value intervals and an MCS index corresponding to each SINR value interval, And calculates a SINR value of the wireless communication terminal by measuring a radio signal on the wireless channel through the wireless communication unit, searches for an MCS index corresponding to the SINR value interval to which the SINR value calculated in the SINR / MCS mapping table belongs, A head room (HR) value indicating the available transmission power of the wireless communication terminal based on the calculated HR value, and adjusting the retrieved MCS index based on the calculated HR value.

According to the above configuration, it is possible to provide a method and apparatus for determining and adjusting a modulation and coding scheme to be applied to a wireless communication terminal stably even if there is a sudden change in the wireless communication environment of the wireless communication terminal.

Hereinafter, reference is made to the accompanying drawings, which form a part hereof. In the drawings, like numerals denote like elements unless otherwise indicated in the context. The illustrative embodiments set forth in the description, drawings, and claims are not intended to be limiting. Other embodiments may be utilized and other changes may be made without departing from the spirit or scope of the objects of this disclosure. It will be readily appreciated that the configurations of the present disclosure as generally described herein and illustrated in the figures may be arranged, substituted or combined in various other configurations, all of which are expressly contemplated, .

1 is a conceptual diagram of a wireless communication system according to an embodiment of the present invention. Referring to FIG. 1, a wireless communication system 100 according to an embodiment of the present invention includes a base station 120 that provides at least one wireless channel to a wireless communication terminal 110 and a wireless communication terminal 110 can do. In one embodiment, the base station 120 transmits up-link radio channels used for transmitting data from the wireless communication terminal 110 to the base station 120 and data from the base station 120 to the wireless communication terminal 110 Lt; / RTI > downlink radio channel used for < / RTI >

The wireless communication terminal 110 may perform wireless communication with the base station 120 via the wireless channel (s). In one embodiment, the wireless communication terminal 110 periodically receives various information (e.g., pathloss, interference, etc.) about the communication environment between the wireless communication terminal 110 and the base station 120 from the base station 120 (e.g., an interference), measures a radio signal on at least one radio channel (e.g., an uplink radio channel) provided by the base station 120, and calculates a Signal to Interference and Noise Ratio (SINR) can do.

The radio communication terminal 110 transmits a signal to the base station 120 via the uplink radio channel based on at least one of information on pathloss, interference, and the like, The transmission power required for transmitting data to the base station 120 and the modulation coding scheme to be used in the future can be calculated and then transmitted to the base station 120. In one embodiment, the wireless communication terminal 110 may transmit information about pathloss and interference received from the base station 120 and the SINR value measured by the wireless communication terminal 110 to a predetermined transmission power requirement calculation formula Can be calculated by substitution. Such a transmission power requirement calculation formula is widely known in the art through the IEEE 802.16 recommendation and the like, and a detailed description thereof will be omitted.

In one embodiment, when the SINR value is calculated according to the measurement result of the wireless channel, the calculated SINR value is used as the SINR value of the wireless communication terminal 110 as it is, And calculates a difference value between the calculated SINR value and the past SINR value. If the difference value is less than the predetermined value, the calculated SINR value is used as it is for the transmission power required amount and the modulation coding And when the difference value is equal to or larger than the predetermined value, a value obtained by adding a predetermined offset value to the past SINR value is calculated as the SINR value of the wireless communication terminal 110, Which can be used to determine the modulation coding scheme that is desired. According to the above configuration, even if a sudden change occurs in the peripheral communication environment of the wireless communication terminal 110, the variation width of the calculated SINR value can be appropriately adjusted.

In one embodiment, a Modulation and Coding Scheme (MCS) index may be used to notify the base station 120 of a modulation and coding scheme that the wireless communication terminal 110 intends to use in the future. The MCS index is a series of indexes defined in the IEEE 802.16 recommendation, and a channel coding scheme and a modulation scheme corresponding to the corresponding index are defined for each index. Whether a modulation and coding scheme is designated for each index is well known in the art through the IEEE 802.16 recommendation or the like and can be implemented by those skilled in the art according to an embodiment of the present invention.

The required SINR value and transmission power amount may be different for each modulation and coding scheme. For example, a 64QAM modulation scheme at a 48Mbps data rate may require a higher SINR value and transmit power than a BPSK modulation scheme at a 6Mbps data rate. In one embodiment, the wireless communication terminal 110 stores a SINR / MCS mapping table including a series of SINR value intervals and an MCS index corresponding to each SINR value interval, and a wireless channel in the SINR / MCS mapping table The MCS index corresponding to the SINR value interval to which the measured SINR value belongs can be searched.

In one embodiment, the wireless communication terminal 110 does not transmit the searched MCS index directly to the base station 120, but transmits the retrieved MCS index to the base station 120 based on the transmission power required amount calculated by the wireless communication terminal 110, (For example, a difference value between the maximum transmission power Pmax that the wireless communication terminal 110 can support and the transmission power required amount calculated above), and outputs the calculated head room HR value Adjust the MCS index based on the HR value, and send the adjusted MSC value to the base station 120. According to the above configuration, even if a sudden change occurs in the peripheral communication environment of the wireless communication terminal 110 and a sudden change occurs in the available transmission power of the wireless communication terminal 110, It is possible to determine the modulation and coding scheme to be used in the future, and as a result, it is possible to prevent the transmission power of the radio communication terminal from abruptly changing to become unstable.

The base station 120 receives the adjusted SINR value and the MCS index from the wireless communication terminal 110, determines the modulation and coding scheme to be applied to the wireless communication terminal 110 based at least in part on the received values, And the MCS index corresponding to the coding scheme to the wireless communication terminal 110 as the MCS application value. The radio communication terminal 110 receives the MCS application value from the base station 120 and transmits the MCS application value to the base station 120 through the uplink radio channel provided by the base station 120 according to the modulation scheme and coding scheme indicated by the MCS application value. And wireless communication can be performed. The base station 120 determines the modulation and coding scheme to be applied to the wireless communication terminal 110 based on the SINR value and the MCS index received from the wireless communication terminal 110 and the wireless communication terminal 110 performs wireless communication Is widely known in the art through the IEEE 802.16 recommendation and the like, and detailed description will be omitted hereafter.

Hereinafter, specific components of the wireless communication terminal 110 and the functions of these components for adjusting the SINR value and the MCS index will be described in detail below. 2 is a block diagram of the wireless communication terminal shown in FIG. Referring to FIG. 2, the wireless communication terminal 110 may include a wireless communication unit 210, a storage unit 220, and a controller 230.

The wireless communication unit 210 under the control of the controller 230 performs wireless communication with the base station 120 through at least one wireless channel provided by the base station 120. In one embodiment, the wireless communication unit 210 may transmit data to the base station 120 over an uplink wireless channel and receive data from the base station 120 via a downlink wireless channel.

The storage unit 220 stores (a) a SINR normalization table including a series of SINR intervals, (b) a SINR / MCS mapping table including a series of SINR value intervals and an MCS index corresponding to each SINR value interval You can save one. For example, the SINR normalization table may include a series of SINR value intervals (for example, a first SINR value interval of -10 dB to -7.5 dB, -7.4 dB to -2.9 dB) ranging from -10 dB to 20.2 dB A second SINR value interval, etc.). Meanwhile, the SINR / MCS mapping table may be a table including the SINR value interval and the MCS index corresponding to each interval. For example, an MCS index 0 may be allocated to a first SINR value interval of -10 dB to -7.5 dB, and an MCS index 1 may be allocated to a second SINR value interval of -7.4 dB to -2.9 dB. In one embodiment, the SINR normalization table and the SINR / MCS mapping table may comprise the same set of SINR value intervals. In one embodiment, the SINR normalization table and the SINR / MCS mapping table may include some different sets of SINR value intervals.

In one embodiment, the storage unit 220 may store the past SINR value of the wireless communication terminal 110. [ In one embodiment, the storage unit 220 may store a value indicating a maximum transmission power Pmax that the wireless communication terminal 110 can support. The storage unit 220 may store various kinds of information necessary for operating the wireless communication terminal 110, in addition to the above-described data and information.

The control unit 230 measures a radio signal on a radio channel (for example, an uplink radio channel) through the radio communication unit 210 to calculate the SINR value of the radio communication terminal 110, Searches an MCS index corresponding to a SINR value interval to which the SINR value calculated in the stored SINR / MCS mapping table belongs, and calculates an HR value indicating the available transmission power of the wireless communication terminal 110 based on the calculated SINR value And adjusts the retrieved MCS index based on the calculated HR value and transmits the adjusted MCS index to the base station 120 through the wireless communication unit 210.

In one embodiment, the control unit 230 does not use the SINR value calculated according to the measurement result of the radio channel to obtain the transmission power required amount, the headroom value, and the MCS index, Based on the SINR value of < / RTI > In one embodiment, the controller 230 searches the past SINR value in the storage unit 220, calculates a difference value between the calculated SINR value and the past SINR value, and when the difference value is less than a predetermined value Is used to directly determine the transmission power required amount and the modulation coding scheme to be used in the future, and when the difference value is equal to or larger than the predetermined value, a value obtained by adding a predetermined offset value to the past SINR value is transmitted as a wireless The SINR value of the communication terminal 110 can be calculated.

3 is a detailed block diagram of the control unit shown in FIG. 3, the control unit 230 includes an SINR measuring unit 310, an SINR adjusting unit 320, an HR calculating unit 330, an MCS searching unit 340, an MCS adjusting unit 350 and an MCS setting unit 360, .

The SINR measuring unit 310 measures a radio signal on a radio channel through the wireless communication unit 210, and can calculate the SINR value based on the measured radio signal. It is well known in the art to measure the SINR value by measuring a radio signal on a specific radio channel, and thus a detailed description thereof will be omitted.

The SINR adjuster 320 sets the SINR value calculated by the SINR measuring unit 310 and the past SINR value stored in the storage unit 220 as the first and second SINR values, The difference value D2 between the largest SINR value and the first SINR value in the searched SINR interval is compared with the difference value D2 between the largest SINR value and the first SINR value in the searched SINR interval, And calculates a value obtained by adding a predetermined offset value to the second SINR value as an SINR value of the wireless communication terminal 110 when D1 is larger than D2. If D1 is smaller than D2, The SINR value of the communication terminal 110 can be calculated. In one embodiment, the SINR adjuster 320 may store the adjusted SINR value as a past SINR value in the storage 220 for future use.

The HR calculation unit 330 may calculate various information related to the communication environment between the wireless communication terminal 110 and the base station 120 transmitted from the wireless communication unit 210 by the base station 120 (for example, pathloss, interference and receives the SINR value from the SINR measurement unit 310 or the SINR adjustment unit 320 and substitutes the received information into a predetermined transmission power requirement calculation formula so that the wireless communication terminal 110 It is possible to calculate the necessary transmission power requirement in the future. In one embodiment, the HR calculation unit 330 searches the storage unit 220 for a value indicating a maximum transmission power Pmax that the wireless communication terminal 110 can support, and outputs the calculated transmission power The difference value between the required amounts can be calculated as the HR value.

The MCS searching unit 340 receives the SINR value from the SINR measuring unit 310 or the SINR adjusting unit 320 and calculates the SINR value to which the SINR value input in the SINR / MCS mapping table stored in the storing unit 220 belongs, Quot; MCS index " For example, the SINR / MCS mapping table may include a first SINR value interval of -10 dB to -7.5 dB where MCS index 0 is allocated, a second SINR value interval of -7.4 dB to -2.9 dB to which MCS index 1 is allocated, And the third SINR value interval of -2.8dB to 2.9dB to which the MCS index 2 is allocated, the MCS search unit 340 may receive the SINR value -4.1dB and search for the MCS value 1. [

If the HR value calculated by the HR calculating unit 330 is smaller than the first threshold TH1, the MCS adjusting unit 350 adjusts the searched MCS index to a value lower than the SINR value interval corresponding to the MCS index found on the SINR / MCS mapping table If the HR value is greater than the second threshold value TH2, the MCS index is searched for by the SINR value corresponding to the MCS index found on the SINR / MCS mapping table Can be adjusted to an MCS index corresponding to an SINR value interval higher than the interval (for example, one level above). For example, if the MCS index searched by the MCS search unit 340 is 1, the MCS adjusting unit 350 adjusts the MCS index to 0 if the HR value is smaller than TH1, and sets the MCS index if it is larger than TH1 and smaller than TH2 1, and if it is larger than TH2, adjust the MCS index to 2.

In one embodiment, the MCS coordinator 350 stores TH1 and TH2 or may retrieve it from other components (e.g., the storage 220 of the wireless communication terminal 110). In another embodiment, the MCS adjusting unit 350 can calculate TH1 and TH2 based on the MCS index searched by the MCS searching unit 340. [ In one embodiment, the MCS adjuster 350 calculates a first difference value between the largest SINR value and the smallest SINR value in a SINR value interval of the SINR / MCS mapping table, and calculates an SINR value corresponding to the retrieved MCS index (For example, the largest SINR value, the average SINR value, or the smallest SINR value in the corresponding SINR value interval) included in the interval and the second difference value between the smallest SINR value in the above SINR value interval And a value obtained by dividing the second difference value by a value obtained by adding the first difference value to a predetermined value (for example, a value which is 1/10 of the first difference value) is set as TH1. In one embodiment, the MCS setting unit 360 sets the difference between the SINR value interval corresponding to the searched MCS index and the upper SINR value interval (for example, the largest SINR value and the average SINR value in each SINR value interval , Or a value obtained by calculating the difference between them by selecting the smallest SINR value), and a value obtained by adding the third difference value to the first threshold value can be set as TH2.

The MCS setting unit 360 transmits at least one of the MCS index adjusted by the MCS adjusting unit 350 and the calculated transmission power required amount and the HR value to the base station 120 through the wireless communication unit 210 And receives an MCS application value indicating a modulation and coding scheme to be applied to the wireless communication terminal 110 from the base station 120. The MCS application value is transmitted to the base station 120 through the wireless channel in accordance with the modulation and coding scheme indicated by the MCS application value, Communication can be performed.

4 is a flowchart illustrating a method of specifying a modulation and coding scheme according to an embodiment of the present invention. 4, the SINR measurement unit 310 of the wireless communication terminal 110 measures a SINR value of a wireless channel (block 410). In block 420, the SINR adjustment unit 320 of the wireless communication terminal 110 Using the SINR normalization table, adjust the measured SINR value. At block 440, the HR computation unit 330 of the wireless communication terminal 110 computes a transmission power requirement based on the measured SINR value or the adjusted SINR value at block 430, . In block 450, the MCS search unit 340 of the wireless communication terminal 110 searches for an MCS index corresponding to the measured SINR value or the adjusted SINR value in the SINR / MCS mapping table, and in step 460, the wireless communication terminal 110 ) Adjusts the searched MCS index based on the calculated HR value. The MCS setting unit 360 of the wireless communication terminal 110 transmits at least one of the adjusted MCS index and the calculated transmission power required amount and the HR value to the base station 120, Receives the application value, and ends the procedure.

5 is a flowchart of a method of adjusting an MCS according to an embodiment of the present invention. 5, the MCS adjusting unit 350 of the wireless communication terminal 110 calculates TH1 and TH2 based on the SINR value measured by the SINR measuring unit 310 or the SINR value adjusted by the SINR adjusting unit 320 (Block 510), and compares the HR value calculated by the HR calculating unit 330 of the radio communication terminal 110 with the values TH1 and TH2 (block 520). If the HR value is smaller than TH1, the MCS adjuster 350 may compare the searched MCS index with the SINR value interval (for example, one level below) corresponding to the MCS index found on the SINR / MCS mapping table (Block 530). If the HR value is equal to or greater than TH1 and equal to or less than TH2, the retrieved MCS index is maintained (Block 540). If the HR value is equal to or greater than TH2, the retrieved MCS index is retrieved from the SINR / MCS mapping table (Block 550) to an MCS index corresponding to an SINR value interval that is higher (for example, one level above) the SINR value interval corresponding to the MCS index, and the procedure is terminated.

6 is a flowchart of a method of adjusting SINR according to an embodiment of the present invention. 6, the SINR adjustment unit 320 of the wireless communication terminal 110 searches for a past SINR value (block 601) in the storage unit 220 of the wireless communication terminal 110, A difference value D1 between the calculated SINR value and the past SINR value is calculated (block 620). In block 630, the SINR adjuster 320 searches the SINR interval to which the SINR value calculated in the SINR normalization table stored in the storage unit 220 belongs. In block 640, the largest SINR value and the first SINR value Lt; / RTI > At block 650, the SINR adjuster 320 compares D1 and D2. When the comparison result D1 is equal to or greater than D2, the SINR adjuster 320 calculates a value obtained by adding a predetermined offset value to the past SINR value as an SINR value of the wireless communication terminal 110 (block 660). If D1 is smaller than D2 , The SINR value calculated by the SINR measuring unit 310 is calculated as the SINR value of the wireless communication terminal 110 (block 670), and the procedure is terminated.

The matters disclosed in this specification can be applied to various kinds of wireless communication systems. When applied to an OFDMA system employing a frame structure for wireless communication, the wireless communication terminal measures the SINR value every frame, calculates an MCS index or the like and reports it to the base station, and specifies a modulation and coding scheme to be applied to the frame from the base station Can receive.

From the foregoing, various embodiments of the disclosure have been described for the purpose of illustration and may be embodied in various modified forms without departing from the scope of the disclosure. Accordingly, the various embodiments described herein are not meant to be limiting, and the true scope and spirit of the present disclosure is indicated by the claims that follow.

1 is a conceptual diagram of a wireless communication system according to an embodiment of the present invention;

2 is a block diagram of the wireless communication terminal shown in Fig.

3 is a detailed block diagram of the control unit shown in Fig.

FIG. 4 is a flow chart of a method of specifying a modulation and coding scheme according to an embodiment of the present invention; FIG.

5 is a flow chart of a method of adjusting an MCS according to an embodiment of the present invention.

6 is a flow chart of a method of adjusting SINR according to an embodiment of the present invention;

Claims (14)

delete delete delete A method for providing a Modulation and Coding Scheme (MCS) index for a wireless channel in a wireless communication terminal, Calculating a signal to interference and noise ratio (SINR) value of the wireless communication terminal by measuring a wireless signal on the wireless channel; SINR / MCS mapping table, wherein the SINR / MCS mapping table includes a series of SINR value intervals and an MCS index corresponding to each of the SINR value intervals, the MCS index corresponding to the SINR value interval to which the calculated SINR value belongs ; Calculating a head room (HR) value indicating an available transmission power of the wireless communication terminal based on the calculated SINR value; And And adjusting the retrieved MCS index based on the calculated HR value, Wherein the adjusting comprises: Calculating first and second thresholds based on the searched MCS index; If the calculated HR value is smaller than the first threshold value, the retrieved MCS index is adjusted to an MCS index corresponding to a lower SINR value interval than the SINR value interval corresponding to the retrieved MCS index on the SINR / MCS mapping table ; And If the calculated HR value is greater than the second threshold value, the MCS index is searched on the SINR / MCS mapping table to an MCS index corresponding to a higher SINR value interval than the SINR value interval corresponding to the retrieved MCS index ≪ / RTI > Wherein the calculating the first and second thresholds comprises: Calculating a first difference value between a largest SINR value and a smallest SINR value in the series of SINR value intervals; Calculating a second difference value between an arbitrary SINR value belonging to the SINR value interval corresponding to the searched MCS index and the smallest SINR value; And Calculating a value obtained by dividing the second difference value by a value obtained by adding the predetermined value to the first difference value to the first threshold value ≪ / RTI > 5. The method of claim 4, wherein the calculating the first and second thresholds comprises: Calculating a third difference value based on a difference between the SINR value interval corresponding to the searched MCS index and the upper SINR value interval; And Setting a value obtained by adding the first difference value to the first threshold value to the second threshold value ≪ / RTI > 5. The method of claim 4, wherein the calculating the SINR value of the wireless communication terminal comprises: Calculating a first SINR value based on the measured radio signal; Retrieving a second SINR value stored in the wireless communication terminal; Calculating a fourth difference value between the first SINR value and the second SINR value; SINR normalization table - The SINR normalization table includes a series of SINR intervals - searching for a SINR interval to which the first SINR value belongs; Calculating a fifth difference value between the largest SINR value and the first SINR value in the searched SINR interval; Calculating a value obtained by adding a predetermined offset value to the second SINR value as an SINR value of the wireless communication terminal if the fourth difference value is greater than the fifth difference value; And Calculating the first SINR value as the SINR value of the wireless communication terminal when the fourth difference value is smaller than the fifth difference value ≪ / RTI > 5. The method of claim 4, Transmitting the adjusted MCS index to the base station; Receiving an MCS application value from a base station; receiving the MCS application value indicating a modulation scheme to be applied to the wireless communication terminal; And Performing wireless communication with the base station through the wireless channel according to the modulation scheme ≪ / RTI > delete delete delete A wireless communication unit for performing wireless communication with a base station through a wireless channel; An SINR / MCS mapping table, wherein the SINR / MCS mapping table includes a series of SINR value intervals and an MCS index corresponding to each of the SINR value intervals; And Wherein the wireless communication unit measures a radio signal on the radio channel to calculate a SINR value of the wireless communication terminal and searches an MCS index corresponding to a SINR value interval to which the calculated SINR value belongs in the SINR / MCS mapping table, Calculates a head room (HR) value indicating an available transmission power of the wireless communication terminal based on the calculated SINR value, adjusts the searched MCS index based on the calculated HR value, If the index is smaller than the first threshold, adjusts the searched MCS index to an MCS index corresponding to a lower SINR value interval than the SINR value interval corresponding to the retrieved MCS index on the SINR / MCS mapping table, If the index is larger than the second threshold value, the MCS index is searched on the SINR / MCS mapping table and the SINR corresponding to the retrieved MCS index Values of the first SINR value interval and a second SINR value interval of the first SINR value interval are calculated based on the retrieved MCS indexes, Calculating a second difference value between an arbitrary SINR value belonging to the SINR value interval corresponding to the searched MCS index and the smallest SINR value, 1 < / RTI > difference value by a value obtained by adding a predetermined value to the first threshold value, And a wireless communication terminal. 12. The apparatus according to claim 11, Calculating a third difference value based on a difference between a SINR value interval corresponding to the searched MCS index and the upper SINR value interval, and adding a third difference value to the first threshold value, Value of the wireless communication terminal. 12. The method of claim 11, Wherein the storage unit includes a SINR normalization table including a series of SINR intervals, The control unit calculates a first SINR value based on the measured radio signal, searches for a second SINR value stored in the wireless communication terminal, and calculates a fourth difference value between the first SINR value and the second SINR value Calculates a fifth difference value between the largest SINR value and the first SINR value in the searched SINR interval, and calculates a third difference value between the first difference value and the fourth difference value, Is greater than the fifth difference value, a value obtained by adding a predetermined offset value to the second SINR value is calculated as an SINR value of the wireless communication terminal, and when the fourth difference value is smaller than the fifth difference value , And calculates the first SINR value as the SINR value of the wireless communication terminal. 12. The apparatus according to claim 11, Receiving the adjusted MCS index to the base station, receiving an MCS applied value from the base station, and the MCS applied value indicating a modulation and coding scheme to be applied to the radio communication terminal in the future, And performs wireless communication with the base station via a wireless channel.

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