KR101438216B1 - Apparatus and method for allocating resource in a communication system - Google Patents

Abstract

There is provided a method of allocating resources of a base station in a communication system, the method comprising: receiving channel quality information of each of a predetermined number of subbands from at least one terminal; And transmitting the selected minimum channel quality information to the at least one terminal; receiving at least one channel quality information from the at least one terminal in response to transmission of the selected minimum channel quality information; And allocating resources to the at least one terminal using the at least one feedback channel quality information, wherein the fed back at least one channel quality information includes at least one of channel quality measured by the predetermined number of subbands Information or a predetermined number of sub- And the channel quality information is measured for subbands corresponding to the transmitted minimum channel quality information.

Resource allocation, channel information, SINR, subband

Description

[0001] APPARATUS AND METHOD FOR ALLOCATING RESOURCE IN A COMMUNICATION SYSTEM [0002]

1 is a signal flow diagram illustrating resource allocation according to channel information transmission / reception in a general communication system,

FIG. 2 is a signal flow diagram illustrating resource allocation according to channel information transmission / reception in a communication system according to an embodiment of the present invention;

3 is a flowchart illustrating an operation of a base station according to channel information transmission / reception in a communication system according to an embodiment of the present invention.

FIG. 4 is a flowchart illustrating a terminal operation according to channel information transmission / reception in a communication system according to an embodiment of the present invention;

5 is a graph of performance of a resource allocation scheme according to an embodiment of the present invention.

The present invention relates to a communication system, and more particularly, to an apparatus and method for allocating resources in a communication system.

BACKGROUND ART [0002] Currently, active research is underway in communication systems to provide users with services having various high-quality services of quality (hereinafter referred to as QoS). In particular, in the present communication system, a wireless local area network (LAN) system and a wireless metropolitan area network (MAN) Researches for supporting high-speed services in the form of ensuring mobility and quality of service (QoS) in the same broadband wireless access communication system are being actively conducted.

In such a communication system, an OFDM (Orthogonal Frequency Division Multiplexing) scheme or an OFDMA (Orthogonal Frequency Division Multiplexing) scheme is used for signal transmission and reception. Quot;) method.

In the communication system, for example, data is transmitted and received using a sub-carrier, and the communication system includes a transmitter and a receiver for transmitting and receiving signals, for example, a base station (BS) And a mobile station (MS).

The BS requires channel information for each subcarrier, for example, CQI (Channel Quality Information), in order to allocate frequency-adaptive resources to the MS. For this purpose, the sub-carriers are grouped into a predetermined size and used for resource allocation. The unit of such sub-carriers is referred to as a sub-band. The size of the subband is set to be equal to or smaller than the size of the coherence bandwidth obtained in consideration of the user's environment in the entire frequency band. This makes it possible to acquire frequency diversity and minimize channel feedback information in a communication system using a multi-carrier.

However, as described above, current communication systems are evolving into communication systems that use broadband to support high-speed data communication. Therefore, in the broadband communication system, the number of subbands also increases as a wide band is used. If a terminal feeds back channel information for all subbands in the communication system, the system will generate a lot of overhead. Therefore, in the communication system, channel information corresponding to a predetermined number of subbands is transmitted in order to prevent this. A method of performing resource allocation by transmitting channel information of a predetermined number of subbands will now be described with reference to FIG.

1 is a signal flow diagram illustrating resource allocation according to channel information transmission / reception in a general communication system.

Referring to FIG. 1, the base station 100 and the terminals 150 of the communication system are included. Hereinafter, a case where the BS 100 allocates resources to the MSs 150 will be considered.

The MSs 150 transmit a channel quality information feedback message for feedback of channel information, for example, channel quality information, to the BS 100 at intervals of a predetermined period (step 111). The channel quality information may be, for example, a signal to interference and noise ratio (SINR). The terminals 150 transmitting the channel quality information transmit channel quality information of a predetermined number, for example, M subbands, to the base station 100, respectively. The channel quality information feedback message includes, for example, a subband index of M selected subbands, and channel quality information of each of M subbands, for example, SINR information.

Upon receiving the channel quality information feedback message, the BS 100 performs resource allocation using channel quality information of each subband included in the channel quality information feedback message, for example, SINR information (step 113).

The BS 100 performs resource allocation and transmits data to the MS according to the resource allocation (step 115). For example, the base station 100 transmits the resource allocation information and the data according to the resource allocation in one frame to the mobile stations.

As shown in FIG. 1, in a channel information feedback scheme for M subbands, each terminal can allocate only M subbands and communicate. In the present communication system, channel quality information of the (M + 1) th sub-band of the terminal is used. However, even if the SINR of the M sub-band is higher than the SINR of the sub- do. Therefore, it is impossible for a terminal having better channel quality information fed back from other terminals with high channel quality information of the (M + 1) -th sub-band to transmit data on the (M + 1) th sub-band. That is, when the SINR of the (M + 1) th sub-band is higher than the SINR of the sub-band fed back by the other UEs, the sub-band corresponding to the M + , It is not possible to transmit data using the (M + 1) -th subband because the channel information of only M subbands is fed back. For example, assuming that each terminal has 16 subbands, each terminal compares channel information of all subbands, for example, SINRs of 16 subbands, to each terminal, When the channel information for the five subbands is fed back and resource allocation is performed, the data transmission amount is reduced by about 40% for example.

Therefore, if the channel information feedback scheme for M subbands is used as described above, the subbands having a high data rate can not be used, thereby reducing the data rate of the system.

Accordingly, it is an object of the present invention to provide an apparatus and a method for allocating resources in a communication system.

It is another object of the present invention to provide an apparatus and a method for allocating resources using subbands having high channel quality information in a communication system.

It is still another object of the present invention to provide a resource allocation apparatus and method for increasing a data rate in a communication system.

A method of allocating resources of a base station in a communication system according to an embodiment of the present invention includes the steps of receiving channel quality information of each of a predetermined number of subbands from at least one terminal, Transmitting at least one channel quality information from the at least one terminal in response to transmission of the selected minimum channel quality information; And allocating resources to the at least one terminal using at least one feedback channel quality information, wherein the at least one channel quality information fed back is measured for each of the predetermined number of subbands Channel quality information or the predetermined number It characterized in that the sub-band of said transmission channel quality information to at least one corresponding to a sub-band channel quality information measured for one.

In addition, a method of allocating resources in a terminal in a communication system according to an embodiment of the present invention includes: receiving minimum channel quality information from a base station; measuring channel quality information in a subband corresponding to the received minimum channel quality information; Comparing the measured channel quality information with the received minimum channel quality information, transmitting the measured channel quality information to the base station according to the comparison result, and transmitting the measured channel quality information to the base station, And allocating resources from the base station in response to the transmitted channel quality information.

A base station allocating resources in a communication system according to an embodiment of the present invention receives channel quality information of each of a predetermined number of subbands from at least one terminal and selects a minimum channel quality information Transmitting the selected minimum channel quality information to the at least one terminal, feedbacking at least one channel quality information from the at least one terminal in response to transmission of the selected channel quality information, And a resource allocation unit allocating resources to the at least one terminal using one channel quality information, wherein the feedback at least one channel quality information includes channel quality information measured for each of the predetermined number of subbands Or among the predetermined number of subbands Characterized in that the channel quality information measured for one subband corresponding to the at least one channel quality information transmission group.

In a communication system according to an embodiment of the present invention, a terminal receives minimum channel quality information from a base station, measures channel quality information in a subband corresponding to the received minimum channel quality information, Comparing the received minimum channel quality information, transmitting the measured channel quality information to the base station according to the comparison result, and transmitting, when transmitting the measured channel quality information, And resources are allocated from the base station.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. In the following description, only parts necessary for understanding the operation according to the present invention will be described, and the description of other parts will be omitted so as not to obscure the gist of the present invention.

The present invention provides an apparatus and method for allocating resources in consideration of a data rate in a communication system. In order to do this, in the communication system, a base station (BS) performs resource allocation to a mobile station (MS), and the base station determines the best channel quality information (CQI) And transmits the minimum channel quality information of at least one subband corresponding to the minimum channel quality information having a small value to each of the terminals. The UEs include the channel quality information corresponding to the number of the feedback minimum channel quality information among the channel quality information over the feedback minimum channel quality information in the channel quality information to be preferentially fed back to the base station. The base station allocates resources to the terminals using the channel quality information of each of the subbands fed back from the terminals.

Herein, the minimum channel quality corresponds to the smallest value among the channel quality information of each of the subchannels allocated to the terminal in the current base station. When the minimum channel quality information is fed back more than two times, the subchannels are sequentially selected and transmitted from the lowest channel quality information of the subchannels allocated to the terminal.

Meanwhile, in a communication system, a base station requires channel information, e.g., channel quality information, for each subcarrier to allocate frequency adaptive resources to the terminal. To this end, the base station bundles the sub-carriers into a predetermined size and uses them for resource allocation. In the present invention to be described later, the subband is defined as a unit of a bundle of subcarriers used for resource allocation. The size of the subband may be set to be equal to or smaller than the coherence bandwidth size obtained in consideration of the user's environment in the entire frequency band. Hereinafter, resource allocation according to the present invention will be described with reference to FIG.

FIG. 2 is a signal flow diagram illustrating resource allocation according to channel information transmission / reception in a communication system according to an embodiment of the present invention.

Referring to FIG. 2, the base station 200 and the terminals 250 of the communication system are included. Herein, a case where the BS 200 allocates resources to the MSs 250 will be considered.

The MSs 250 transmit channel information, for example, a channel quality information feedback message to the BS 200 at predetermined intervals in step 211.

The channel quality information includes a signal to interference and noise ratio (SINR), a carrier to interference and noise ratio (CINR) ), A signal to noise ratio (SNR), and the like. In addition, the channel quality information may be transmitted to the base station 200 by the base station 200 by requesting the channel quality information from the terminals 250. Also, the BS 200 may select the MSs 250 having a good channel state from among the MSs communicating with the BS 200, and may request the selected MSs 250 for the channel quality information. Therefore, the MSs 250 may feed back the channel quality information to the BS 200 according to the request of the BS 200.

The terminals 250 transmitting the channel quality information transmit channel quality information of a predetermined number, for example, M subbands, to the base station 200, respectively. Considering the size of the entire cell, which is the service area of the base station 200, each of the MSs 250 selects M subcarriers sequentially from the best channel quality information among the sub-bands.

The channel quality information feedback message includes, for example, a subband index of M selected subbands, and channel quality information of each of M subbands, for example, SINR information.

Upon receiving the CQI feedback message, the BS 200 performs resource allocation using channel quality information, e.g., SINR information, of each subband included in the CQI feedback message, (Step 213).

The BS 200 performs resource allocation and transmits data to the MS according to the resource allocation information (step 215). For example, the base station 200 transmits the resource allocation information and the data according to the resource allocation in one frame to the mobile stations.

을 선택한다(217단계). 여기서는 가장 작은 최소 채널 품질 정보를 한 개를 선택하는 경 우를 설명하기로 하나, 하나 이상의 최소 채널 품질 정보를 선택할 수도 있다. 따라서, 상기 기지국(200)은 상기 최소 채널 품질 정보를 상기 단말기에 할당되어 있는 서브대역의 각 채널 품질 정보들 중에서 가장 작은 값부터 순차적으로 선택한다.In addition, the BS 200 selects the smallest value among the channel quality information of the subbands allocated to each MS among the channel quality information of each subband included in the received CQI feedback message, Information,

(Step 217). Here, the case of selecting one smallest minimum channel quality information will be described, but one or more of the minimum channel quality information may be selected. Accordingly, the BS 200 sequentially selects the minimum channel quality information from the lowest value among the channel quality information of the subbands allocated to the MS.

를 상기 단말기들(250)로 송신한다(219단계). 상기 기지국은 상기 최소 채널 품질 정보와 함께 해당 서브대역의 인덱스를 포함하여 송신, 일예로 방송(broadcasting)한다. 상기 서브대역의 인덱스를 사용하여

이 선택된 서브대역 인덱스를 통해 상기 단말기들(250)에게 송신하면, 해당 서브대역에서 단말기들이 SINR값을 비교할 수 있다.The BS 200 transmits the selected minimum channel quality information,

To the MSs 250 (step 219). The BS broadcasts an index of the corresponding subband together with the minimum channel quality information. Using the index of the subband

To the terminals 250 through the selected subband index, the terminals can compare SINR values in the corresponding subband.

와 비교한다. 다시 말해, 상기 기지국이 자원할당을 하는 경우 채널 품질 정보가 가장 좋지 않은 서브대역의 채널 품질 정보(

)와 해당 서브대역 위치(즉, 같은 서브대역 위치)에서 단말기가 채널 품질을 추정한 값(

)을 비교한다.각 단말기는 상기 데이터 수신에 따른 서브대역들(215단계에서 할당받은 자원)에 대해 측정한 채널 품질 정보들 중 최소값을 갖는 채널 품질 정보와 상기 최소 채널 품질 정보를 비교할 수 있다. 각 단말기들은 상기 비교결과에 따라 상기 기지국(200)으로 송신할 서브대역의 채널 품질 정보를 결정한다(221단계).The MSs 250 receive the minimum channel quality information and perform channel quality information on the subband index received in step 219 from the measured channel quality information on the subbands received in step 215. [

. In other words, when the BS allocates resources, channel quality information of subbands having the worst channel quality information

) And a value obtained by estimating the channel quality at the corresponding subband position (i.e., the same subband position)

Each terminal can compare the minimum channel quality information with the channel quality information having the minimum value among the channel quality information measured for the subbands (resources allocated in step 215) according to the data reception. Each terminal determines channel quality information of subbands to be transmitted to the base station 200 according to the comparison result (step 221).

와 상기 단말기에서 측정한 채널 품질 정보,

을 비교하고, 상기 비교결과 상기

이

미만이면, 미리 결정된 개수, 일예로 M개의 서브 대역들의 채널 품질 정보를 상기 기지국(200)으로 송신할 서브대역의 채널 품질 정보로 결정한다. Each terminal transmits minimum channel quality information received from the base station 200,

The channel quality information measured by the terminal,

And, as a result of the comparison,

this

The channel quality information of the M subbands is determined as the channel quality information of the subbands to be transmitted to the base station 200. For example,

이

이상이면, 상기

에 상응하는 서브대역 인덱스에 해당하는 서브대역 채널 품질 정보를 우선적으로 상기 기지국(200)으로 송신할 서브대역의 채널 품질 정보로 결정한다. 추가로, 단말기의 서브 채널들 각각의 채널 품질 정보를 추정하고, 상기 추정된 채널 품질 정보들 중에서 최소 채널 품질 정보를 고려하여 미리 설정된 개수 K개의 채널 품질 정보를 제외한 M-K개의 채널 품질 정보를 상기 기지국(200)으로 송신할 서브대역의 채널 품질 정보로 결정한다. 여기서는 예를 들어, 상기 기지국(200)에서 송신하는 최소 채널 품질 정보에 해당하는 서브대역이 1개인 경우를 가정하였으므로 상기 K값은 1이 된다. 즉, 상기 K는 기지국(200)이 단말기로 송신하는 최소 채널 품질 정보에 해당하는 서브대역의 개수를 의미한다. 따라서, K개는 상기 서브대역의 개수에 따라 적어도 1 이상의 정수값을 갖게 된다. 따라서, 단말기는 상기 M개 중에서 채널 품질 정보가 우수한 M-K개의 채널 품질 정보를 기지국으로 피드백할 채널 품질 정보로 추가로 결정한다. 이에 상기 단말기가 기지국으로 피드백하는 채 널 품질 정보는 M개가 된다.However,

this

Or more,

The sub-band channel quality information corresponding to the sub-band index corresponding to the sub-band index is preferentially determined as the channel quality information of the sub-band to be transmitted to the base station 200. In addition, MK channel quality information excluding a predetermined number K of channel quality information, considering the minimum channel quality information among the estimated channel quality information, is estimated from the channel quality information of each subchannel of the terminal, The channel quality information of the sub-band to be transmitted to the base station 200 is determined. Here, for example, since it is assumed that there is one subband corresponding to the minimum channel quality information transmitted from the BS 200, the value of K is 1. That is, K denotes the number of subbands corresponding to the minimum channel quality information transmitted from the BS 200 to the MS. Therefore, the K number has at least one integer value according to the number of subbands. Therefore, the MS further determines MK channel quality information, which is excellent in channel quality information among the M channels, as channel quality information to be fed back to the BS. Therefore, the channel quality information fed back to the base station by the terminal is M number.

The MSs 250 transmit a channel quality information feedback message including the determined channel quality information to the BS 200 (step 223). The channel quality information feedback message includes channel quality information of each subband and an index of a subband corresponding to the channel quality information.

The base station 200 receives the channel quality information feedback message received from the terminals 250 and allocates resources to the terminals 250 using the channel quality information included in the received channel quality information feedback message (Step 225).

Accordingly, the BS 200 transmits the minimum channel quality information to the MSs 250 and receives the determined CQI feedback message using the minimum CQI, thereby determining M channels It is possible to allocate the resources by considering the minimum channel quality information of the base station for each terminal instead of performing the resource allocation based on the feedback of the quality information.

In step 227, the BS 200 allocates resources to each MS using the resource allocation information and transmits data according to the resource allocation.

In FIG. 2, resource allocation using channel information of a base station and a terminal, for example, channel quality information (SINR) has been described. Hereinafter, an operation of the base station performing resource allocation to a terminal will be described with reference to FIG. .

3 is a flowchart illustrating an operation of a base station according to channel information transmission / reception in a communication system according to an embodiment of the present invention.

Referring to FIG. 3, in step 301, the BS receives a channel quality information feedback message from each MS, and proceeds to step 313. The BS may request the channel quality information from the MS and feedback channel quality information from the MS according to the request.

In step 313, the BS performs resource allocation by selecting a terminal having the best channel quality information for each subband using the channel quality information of each subband of each terminal included in the channel quality information feedback message, Other data is transmitted to the resource allocation, and the process proceeds to step 315. [ For example, the BS selects a terminal having a high SINR value for each subband. In addition, the BS may select a modulation and coding scheme to have a suitable transmission rate according to the selected SINR value.

이며, 단말기들로 송신한다. 또한, 상기 최소 채널 품질 정보에 상응하는 서브대역 인덱스를 동시에 송신할 수 있다.In step 315, the BS selects the minimum channel quality information having the smallest value and transmits the selected channel quality information to the MSs. For example, the selected minimum channel quality information selects the channel quality information having the smallest value among the channel quality information of each of the subbands allocated to the terminals. At this time, the BS selects the minimum channel quality information

And transmits them to the terminals. In addition, a subband index corresponding to the minimum channel quality information can be simultaneously transmitted.

In step 317, the BS receives the channel quality information feedback message corresponding to the minimum channel quality information transmission, and proceeds to step 319.

In step 319, the BS performs resource allocation using the channel quality information of each subband of each terminal included in the channel quality information feedback message received in step 317, and transmits data according to the resource allocation.

3, the operation of the base station for allocating resources according to the present invention is described, and the operation of a terminal that is allocated resources from the base station will be described with reference to FIG.

FIG. 4 is a flowchart illustrating a terminal operation according to channel information transmission / reception in a communication system according to an embodiment of the present invention.

Referring to FIG. 4, in step 401, the MS transmits a channel quality information feedback message for a predetermined number M of subbands to the BS, and proceeds to step 413. The terminal may send a base station request or a channel quality information feedback message to the base station.

In step 413, the MS receives data according to a resource allocation of the BS according to the channel quality information feedback message, and proceeds to step 415.

이 될 수 있으며, 상기 최소 채널 품질 정보를 갖는 서브대역의 인덱스를 동시에 수신할 수도 있다.In step 415, the MS receives the minimum channel quality information from the BS, and proceeds to step 417. Herein, the minimum channel quality information is

And may simultaneously receive indexes of subbands having the minimum channel quality information.

이 될 수 있으며, 상기 자원 할당에 따라 수신된 서브 대역에서 측정한 SINR이 될 수 있다.In step 417, the terminal compares the channel quality information of each subband according to the data reception with the minimum channel quality information. The channel quality information of the sub-

And may be the SINR measured in the received subband according to the resource allocation.

The terminal measures channel quality information of each subband according to the data reception and compares the measured channel quality information with the minimum channel quality information.

If it is determined that the channel quality information is less than the minimum channel quality information, the process proceeds to step 419. In step 419, the MS transmits a channel quality information feedback message including SINRs of a predetermined number, for example, M subbands, and proceeds to step 423.

If the channel quality information is greater than or equal to the minimum channel quality information, the process proceeds to step 421. In step 421, the terminal measures channel quality information of all subbands of the base station and transmits a channel quality information feedback message including channel quality information of subbands longer than the minimum channel quality information. At this time, the channel quality information feedback message includes, for example, channel quality information of the subband having the channel quality information equal to or more than the minimum channel quality information and channel quality information excluding one of the predetermined M channel quality information. At this time, the SS can transmit a subband index corresponding to each channel quality information transmitted to the BS.

In step 423, the MS performs resource allocation corresponding to the channel quality information feedback message, and transmits data according to the resource allocation.

Next, a data transfer rate when a resource allocation scheme according to an embodiment of the present invention is used will be described with reference to FIG.

5 is a graph illustrating a performance of a resource allocation scheme according to an embodiment of the present invention.

Referring to FIG. 5, the performance of each of the three resource allocation schemes is shown, and three resource allocation schemes of scheme A, scheme B, and scheme C are shown.

The vertical axis of the graph shows the data rate, and the scheme A shows a data rate when the base station knows all the channel quality information of the subbands of the respective terminals. The scheme B shows a data transmission rate in the case of transmitting predetermined M channel quality information according to the prior art. In addition, the scheme C shows a data rate in the case of using the resource allocation scheme according to the embodiment of the present invention.

Assuming that the total number of subbands N is 16, M used in the related art and the present invention is 5, and K is 2, which is further feedbacked to the base station in the present invention. In the present invention, a data rate of about 7%, that is, throughput, can be obtained as compared with the prior art.

While the present invention has been described in connection with what is presently considered to be the most practical and preferred embodiment, it is to be understood that the invention is not limited to the disclosed embodiments, but is capable of various modifications within the scope of the invention. Therefore, the scope of the present invention should not be limited by the described embodiments, but should be determined by the scope of the appended claims, as well as the appended claims.

The present invention as described above has an advantage that it is possible to allocate resources using subbands having high channel quality information by feeding back channel quality information to the base station by using the minimum value of the channel quality information fed back from each terminal in the communication system Respectively. This has the advantage that it is possible to perform resource allocation by increasing the data rate of the entire system, that is, throughput.

Claims (26)

A method of allocating resources of a base station in a communication system, Receiving channel quality information of each of a predetermined number of subbands from at least one terminal; Selecting minimum channel quality information from the received channel quality information; Transmitting the selected minimum channel quality information to the at least one terminal; Receiving at least one channel quality information from the at least one terminal in response to transmission of the selected minimum channel quality information and allocating resources to the at least one terminal using the fed back at least one channel quality information / RTI > Wherein the at least one feedback channel quality information includes at least one of channel quality information measured for the predetermined number of subbands or a subband corresponding to the transmitted minimum channel quality information among the predetermined number of subbands Channel quality information. The method according to claim 1, Wherein the subband is a predetermined number of sets of subcarriers. The method according to claim 1, Wherein the channel quality information includes at least one of a signal-to-interference noise ratio, a carrier-to-interference noise ratio, and a signal-to-noise ratio. The method according to claim 1, Wherein the transmitting comprises: And transmitting a subband index corresponding to the selected minimum channel quality information in addition to the selected minimum channel quality information. The method according to claim 1, Wherein the selected minimum channel quality information is sequentially selected from a minimum value among the received channel quality information. A method of allocating resources in a terminal in a communication system, Receiving minimum channel quality information from a base station; Measuring channel quality information in a subband corresponding to the received minimum channel quality information; Comparing the measured channel quality information with the received minimum channel quality information; Transmitting the measured channel quality information to the base station according to the comparison result; And allocating resources from the base station in response to the transmitted channel quality information when transmitting the measured channel quality information. The method according to claim 6, Wherein the subband is a predetermined number of sets of subcarriers. The method according to claim 6, Wherein the channel quality information includes at least one of a signal-to-interference noise ratio, a carrier-to-interference noise ratio, and a signal-to-noise ratio. The method of claim 6, further comprising transmitting the measured channel quality information if the measured channel quality information is less than the received minimum channel quality information. 10. The method of claim 9, If the measured channel quality information is greater than or equal to the received minimum channel quality information, the measured channel quality information that is equal to or greater than the received minimum channel quality information among the measured channel quality information for each of a predetermined number of subbands is transmitted Resource allocation method. 11. The method of claim 10, And receiving information on the number of channel quality information to be transmitted from the base station to limit the number of channel quality information to be transmitted if the measured channel quality information is greater than or equal to the received channel quality information Assignment method. The method according to claim 6, And feeding back the channel quality information measured for each of a predetermined number of subbands to the base station to receive the minimum channel quality information from the base station. 13. The method of claim 12, Wherein the minimum channel quality information received from the base station is channel quality information sequentially selected from the lowest value among the channel quality information fed back to the base station. A base station allocating resources in a communication system, Receiving channel quality information of each of a predetermined number of subbands from at least one terminal, selecting the minimum channel quality information from the received channel quality information, and transmitting the selected minimum channel quality information to the at least one terminal Transmitting, Receiving at least one channel quality information from the at least one terminal in response to transmission of the selected channel quality information, and allocating resources to the at least one terminal using the feedback channel quality information Device, Wherein the at least one feedback channel quality information includes at least one of channel quality information measured for the predetermined number of subbands or a subband corresponding to the transmitted minimum channel quality information among the predetermined number of subbands Channel quality information. 15. The method of claim 14, Wherein the subband is a predetermined number of subcarriers. 15. The method of claim 14, Wherein the channel quality information comprises at least one of a signal-to-interference noise ratio, a carrier-to-interference noise ratio, and a signal-to-noise ratio. 15. The method of claim 14, Wherein the resource allocation device comprises: And further transmits a subband index corresponding to the selected minimum channel quality information in addition to the selected minimum channel quality information. 15. The method of claim 14, Wherein the selected minimum channel quality information is sequentially selected from a minimum value among the received channel quality information. A terminal in a communication system, The method includes receiving minimum channel quality information from a base station, measuring channel quality information in a subband corresponding to the received minimum channel quality information, comparing the measured channel quality information with the received minimum channel quality information, And transmitting the measured channel quality information to the base station according to a result of the measurement and allocating resources from the base station in response to the transmitted channel quality information when transmitting the measured channel quality information. 20. The method of claim 19, Wherein the subband is a predetermined number of subcarriers. 20. The method of claim 19, Wherein the channel quality information comprises at least one of a signal-to-interference noise ratio, a carrier-to-interference noise ratio, and a signal-to-noise ratio. 20. The method of claim 19, The terminal comprises: And transmits the measured channel quality information if the measured channel quality information is less than the received minimum channel quality information. 23. The method of claim 22, The terminal comprises: If the measured channel quality information is greater than or equal to the received minimum channel quality information, transmit measured channel quality information equal to or greater than the received minimum channel quality information among the measured channel quality information for each of a predetermined number of subbands . 24. The method of claim 23, The terminal comprises: Wherein the information about the number of channel quality information to be transmitted from the base station is received to limit the number of channel quality information to be transmitted if the measured channel quality information is greater than or equal to the received minimum channel quality information. 20. The method of claim 19, The terminal comprises: And feedbacks the channel quality information measured for each of a predetermined number of subbands to the base station to receive the minimum channel quality information from the base station. 26. The method of claim 25, Wherein the minimum channel quality information received from the base station is channel quality information sequentially selected from a lowest value among the channel quality information fed back to the base station.

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