KR20080084515A - Method of performing fast feedback transmission in broadband wireless access system - Google Patents

Abstract

A method for performing fast feedback transmission in a broadband wireless access system is provided to enable an MS(Mobile Station) to make a request for a broadband for a fast-feedback channel efficiently through an MAC(Media Access Control) signaling header. An MS requests a broadband for fast-feedback transmission to a base station(S21). Herein, the MS designates a specific fast feedback channel allocation scheme among two or more fast-feedback channel allocation schemes and feedback contents corresponding to the specific fast-feedback channel allocation scheme. The base station transmits information for allocating a fast-feedback channel to the MS according to a fast-feedback channel allocation scheme included in an MAC signaling header(S22). The fast-feedback channel allocation information is transmitted to the MS through CQICH(Channel Quality Indicator Channel) allocation IE or CQICH enhanced IE, correspondingly to the fast-feedback channel allocation scheme designated by the MS. The MS performs fast-feedback transmission according to the fast-feedback channel allocation information(S23).

Description

Method of performing fast feedback transmission in broadband wireless access system

1 illustrates an example of a configuration of a MAC signaling header for a fast feedback channel allocation request according to the prior art.

2 is a process flow diagram according to an embodiment of the present invention.

3 illustrates an example of a configuration of a MAC signaling header for a fast feedback channel allocation request according to an embodiment of the present invention.

4 illustrates an example of a configuration of a MAC signaling header for a fast feedback channel allocation request according to another embodiment of the present invention.

5 illustrates an example of a configuration of a MAC signaling header for a fast feedback channel allocation request according to another embodiment of the present invention.

The present invention relates to a broadband wireless access system, and more particularly, to a method for performing fast feedback transmission in a broadband wireless access system.

In Orthogonal Frequency Division Multiple Access (OFDMA) Time Division Duplex (TDD) system, the mobile station uses an bandwidth request header to uplink the base station. Request a resource (band). A control header for controlling other items besides the bandwidth request header is called a MAC signaling header.

In an OFDMA TDD system, a medium access control protocol (MAC) protocol data unit (PDU) includes a MAC management PDU and a user data MAC PDU. The MAC management PDU payloads a predefined MAC management message for the operation of the MAC layer, and a MAC header is added before each payload. Meanwhile, a bandwidth request PDU required for a mobile station to dynamically request a bandwidth required for uplink corresponds to a special type of MAC management PDU consisting of only a bandwidth request header without a separate payload.

1 illustrates an example of a configuration of a MAC signaling header for a fast feedback channel allocation request according to the prior art. In FIG. 1, the 'Type' field is set to three bits of '111', indicating that the MAC signaling header is for a fast feedback channel allocation request. Table 1 is for explaining the 'Feedback type' field and 'Preferred-period' field of FIG.

Feedback type 3bits 0b000-0b010 = Fast DL measurement / Default feedback depending on cqich types 0b011 = quantized precoding weight feedback 0b100 = index to precoding matrix in codebook 0b101 = channel matrix information 0b110-0b111 reserved Preferred-period (= p) 3bits CQICH allocation period MS prefers. The value is defined in units of frame.When FBSSI is set to 1, the value contained in this field shall be neglected.

In Table 1, the 'Feedback type' field is for indicating a feedback content to be reported by the terminal through a fast feedback channel allocated from the base station. The 'preferred-period' field is a field for specifying a period in which the terminal desires to be allocated the fast feedback channel from the base station and may be defined in units of frames. When the 'FBSSI' field of FIG. 1 is set to '1', the base station does not consider the 'Preferred-period' field.

A fast-feedback channel (CQICH) is a channel designed to quickly identify downlink quality at the base station. The terminal receiving the feedback instruction from the base station reports the received downlink information to the base station through a fast feedback channel.

In the case of a broadband wireless access system, a fast feedback channel composed of four bits of codewords and an enhanced fast feedback channel composed of one kind of codewords of three, four, and six bits. ) Are supported in two ways.

The two types of fast feedback channels described above may be transmitted to the UE through 'CQICH allocation IE' or 'CQICH enhanced allocation IE' in an uplink MAP (UL-MAP) message when the BS determines that periodic feedback from the UE is required. Assignment and feedback transmission are instructed, and the transmission region, type, and method of feedback to be performed by the terminal when the fast feedback channel is allocated are also specified.

Recently, as the function and performance of the terminal have been greatly developed, it is necessary not only to report simple downlink measurement information, but also to quickly feed back to the base station the current channel state and supportable performance grasped by the terminal and its operation mode and parameters to be changed. This has risen. Therefore, when the terminal wants to report information to the base station in addition to the designation by the base station, the base station requests the fast feedback channel allocation through the fast feedback channel allocation request header (CQICH allocate request header) of the MAC signaling header, and receives the received base station It operates by assigning a fast feedback channel transmission to the terminal through one of the 'CQICH allocation IE' or 'CQICH enhanced allocation IE'.

In the related art, the UE cannot select whether to allocate the fast feedback channel through the 'CQICH allocation IE' or the 'CQICH enhanced allocation IE'. The two allocation schemes differ in the method and content of the feedback allocation, and thus a suitable scheme may vary according to the situation of the terminal. However, it is currently impossible to request the allocation scheme desired by the terminal other than the one allocated by the base station.

In addition, there is a problem that the terminal can not accurately specify the feedback (feedback type) to report. The fast feedback channel is allocated from the base station through the 'CQICH enhanced allocation IE' or the 'CQICH allocation IE', but especially when the fast feedback channel is allocated through the 'CQICH allocation IE', it is defined in the 'CQICH allocation request header'. Since the 'Feedback type' and the 'Feedback type' defined in the 'CQICH allocation IE' do not match, the terminal cannot specify the desired 'Feedback type'.

On the other hand, even if it accepts to support the 'Feedback type' defined in the 'CQICH allocation IE' as it is, there is a problem that the terminal cannot express all the feedback content to report. For example, one of the physical carrier-to-interference and noise ratio (PCINNR) and the effective carrier-to-interference and noise ratio (ECINR) indicating channel quality may be selected and requested, but the multi-antenna input / output (MIMO: Multi- Input Multi-Output) operation mode and parameter cannot be requested for feedback. Here, the PCINR is a signal-to-noise and interference ratio measured from a signal received by the terminal to determine signal quality or channel information therefrom. ECINR is a value calculated by applying a predetermined algorithm to the measured PCINR. While PCINR is a measurement that reflects channel characteristics that vary with time and frequency and implementation margins for each terminal implementation, ECINR estimates equivalent CINR values under the assumption that these channel characteristics and implementation margins have been eliminated. Means.

In addition, although the terminal may select and request a period of feedback in units of frames, the feedback that operates in a separate cycle from the original high speed feedback channel, such as the feedback related to the multi-input / output antenna when the fast feedback channel is allocated through the 'CQICH allocation IE'. In this case, there is a problem that the terminal does not have a method for adjusting the period.

The present invention has been made to solve the problems of the prior art as described above, an object of the present invention is to provide information to be transmitted through a fast feedback channel when the terminal determines that it needs fast feedback or information reporting to the base station by itself. It is to provide a way to ensure efficient transmission.

In one aspect of the present invention, a method for performing fast feedback transmission according to the present invention is a method of performing fast feedback transmission by a mobile station in a broadband wireless access system, comprising: a specific fast feedback selected from at least two fast feedback channel allocation schemes; Requesting a bandwidth allocation for a fast feedback channel transmission to a network by designating a feedback content to be fed back by the terminal according to a channel allocation method and the specific fast feedback channel allocation method, and the specific fast feedback channel allocation method from the network. And receiving fast feedback channel allocation information corresponding to the step of performing fast feedback transmission to the network using the fast feedback channel allocation information.

In another aspect of the present invention, a method for supporting fast feedback transmission according to the present invention is a method for supporting fast feedback transmission of a terminal in a network of a broadband wireless access system, the method comprising: a specific high speed selected from at least two fast feedback channel allocation schemes; Receiving, from the terminal, a MAC signaling header specifying feedback content to be fed back by the terminal according to a feedback channel allocation method and the specific fast feedback channel allocation method, and a fast feedback channel corresponding to the specific fast feedback channel allocation method; And transmitting the allocation information to the terminal and receiving the feedback information received from the terminal according to the fast feedback channel allocation information.

In still another aspect of the present invention, the structure of the MAC signaling header according to the present invention is a structure of a MAC signaling header used by a mobile station to request allocation of a fast feedback channel to a network in a broadband wireless access system. A first field for designating a specific fast feedback channel allocation scheme among the above fast feedback channel allocation schemes, and at least one or more second fields for designating feedback contents to be fed back by the terminal according to the specific fast feedback channel allocation scheme It may be configured to include.

The construction, operation and other features of the present invention will be readily understood by the embodiments of the present invention described below with reference to the accompanying drawings.

2 is a process flow diagram according to an embodiment of the present invention.

Referring to FIG. 2, the terminal MS requests the base station for a band (high speed feedback channel) for fast feedback transmission to the base station BS [S21]. In this case, the terminal requests a band for fast feedback transmission by designating feedback contents corresponding to a specific fast feedback channel allocation method and the specific fast feedback channel allocation method among at least two fast feedback channel allocation methods. The at least two fast feedback channel allocation schemes may include a fast feedback channel allocation scheme through 'CQICH allocation IE' and a fast feedback channel allocation scheme through 'CQICH enhanced allocation IE'.

The allocation request of the fast feedback channel may be performed through a MAC signaling header. 3 illustrates an example of a configuration of a MAC signaling header for a fast feedback channel allocation request according to an embodiment of the present invention. In FIG. 3, the 'Type' field is set to three bits of '111', indicating that the MAC signaling header is for a fast feedback channel allocation request. Table 2 is for describing the 'Feedback type' field and the 'MIMO mode' field of FIG. 3 in detail.

Feedback type 1 bit 0b0xx = CQICH_allocation_IE 0b1xx = CQICH_enhanced_allocation_IE 1 bit 0bx0x = mimo and permutation mode cycle DOWN 0bx1x = mimo and permutation mode cycle DOWN 1 bit 0bxx0 = pcinr 0bxx1 = ecinr MIMO mode (see only if feedback type = 0b1xx) 3bits 0b000-0b010 = Fast DL measurement / Default feedback depending on cqich types 0b011 = quantized precoding weight feedback 0b100 = index to precoding matrix in codebook 0b101 = channel matrix information 0b110-0b111 reserved

In Table 2, the terminal designates a fast feedback channel allocation scheme through the most significant 1 bit of the 'Feedback type' field. For example, when the most significant 1 bit of the 'Feedback type' field is set to '0', it means that the UE designates a fast feedback channel allocation scheme through 'CQICH allocation IE' as the fast feedback channel allocation scheme. If it is set to '1', it means that a fast feedback channel allocation method is specified through 'CQICH enhanced allocation IE'. The opposite case may of course be possible.

The second bit of the 'Feedback type' field is used for control information for adjusting a reporting period of a multiple input / output antenna operation mode (MIMO mode) and a permutation scheme. For example, the terminal may set the corresponding bit to '0' when the period is earlier than the currently set reporting period, and set the bit to '1' when the period is later than the current reporting period. In addition, if the current multiple input and output antenna operation mode and the permutation scheme is not reported, for example, a bit set to '0' may be used as a request for activation of periodic reporting. In case of reporting at the longest period, the bit set to '1' can be used to request to stop the periodic report. In each case it is also possible to promise '0' and '1' to have the opposite meaning.

In addition, the terminal may select a content to be fed back among PCINR and ECINR using the least significant bit (LSB) of the 'Feedback type' field. For example, when the least significant bit is set to '0', the base station may expect the terminal to feed back the PCINR, and when set to '1', the base station may expect to feed back the ECINR. Obviously, this case can also be set in the opposite meaning. The least significant bit of the 'Feedback type' field may be set to be activated only when the fast feedback channel allocation scheme is designated as a fast feedback channel allocation scheme through 'CQICH allocation IE'. That is, the base station considers the least significant bit of the 'Feedback type' field only when the fast feedback channel allocation method is designated as the fast feedback channel allocation method through the 'CQICH allocation IE' through the most significant bit of the 'Feedback type' field. You can promise in advance. As another example, even when the fast feedback channel allocation scheme is designated as the fast feedback channel allocation scheme through the 'CQICH enhanced allocation IE', the BS may be configured to consider the least significant bit of the 'Feedback type' field.

In Table 2, the 'MIMO mode' field is an additional field included when the fast feedback channel allocation scheme through 'CQICH enhanced allocation IE' is designated as the fast feedback channel allocation scheme through the most significant bit of the 'Feedback type' field. field). The 'MIMO mode' field is used to specifically specify the feedback content that the terminal wants to report to the base station through a fast feedback channel, such as a 'Feedback type' on the MAC signaling header according to the prior art as shown in FIG. will be. If necessary, two or more additional fields may be included in the MAC signaling header.

In the 'MIMO mode' field, 0b000 to 0b010 may be set to specify, for example, the following feedback content.

0b000 = "Fast DL measurement / Default mimo mode feedback with antenna grouping"

0b001 = "Fast DL measurement / Default mimo mode feedback with antenna selection"

0b010 = "Fast DL measurement / Default mimo mode feedback with reduced codebook"

Here, 'Fast DL measurement' may mean PCINR or ECINR as downlink channel quality information. 'Default mimo mode feedback' means a MIMO mode and a permutation method.

In FIG. 3, a 'preferred-period' field is a field for specifying a period in which the terminal desires to be allocated the fast feedback channel from the base station, and may be defined in units of frames. When the 'FBSSI' field of FIG. 3 is set to '1', the base station does not consider the 'Preferred-period' field.

4 illustrates an example of a configuration of a MAC signaling header for a fast feedback channel allocation request according to another embodiment of the present invention.

In FIG. 4, the remaining fields except for the 'CQICH allocation type' field, the 'Feedback type' field, and the 'MIMO_permetation_feedback_cycle' field are the same as described with reference to FIG. 3. Table 3 is for explaining the 'CQICH allocation type' field, 'Feedback type' field and 'MIMO_permetation_feedback_cycle' field of FIG.

CQICH allocation type 1 bit 0: CQICH allocation IE 1: CQICH enhanced allocation IE Feedback Type 1 bit 0: physical CINR feedback (PCINR) 1: effective CINR feedback (ECINR) MIMO_permutation_feedback_cycle (This field is valid only if CQICH allocation type is set to 0) 2 bits 0b00 = No MIMO and permutation mode feedback 0b01 = The MIMO and permutation mode indication shall be transmitted on the CQICH indexed by the CQICH_ID every four allocated CQICH transmission opportunity. The first indication is sent on the fourth allocated CQICH frame transmission opportunity. 0b10 = The MIMO mode and permutation mode indication shall be transmitted on the CQICH indexed by the CQICH_ID every eight allocated CQICH transmission opportunity. The first indication is sent on the eighth allocated CQICH transmission opportunity. 0b11 = The MIMO mode and permutation mode indication shall be transmitted on the CQICH indexed by the CQICH_ID every 16 allocated CQICH transmission opportunity. The first indication is sent on the 16th allocated CQICH transmission opportunity. MIMO mode (This field is valid only if CQICH allocation type is set to 1) 3 bits 0b000-0b010 = Fast DL measurement / Default Feedback depending on CQICH types 0b011 = Quantized precoding weight feedback 0b100 = Index to precoding matrix in codebook 0b101 = Channel Matrix Information 0b110-0b111 = Reserved

In Table 3, the 'CQICH allocation type' field is composed of 1 bit and is a field for designating a fast feedback channel allocation scheme. The 'Feedback type' field is a field for specifying PCINR or ECINR as feedback content. The 'MIMO_permutation_feedback_cycle' field is a field for designating a feedback period of a MIMO mode and a permutation scheme. The 'MIMO_permutation_feedback_cycle' field may be set to be valid only when a feedback channel allocation scheme through 'CQICH allocation IE' is designated as the fast feedback channel allocation scheme. . The 'MIMO mode' field is an additional field included when the fast feedback channel allocation scheme through 'CQICH enhanced allocation IE' is designated as the fast feedback channel allocation scheme, as described with reference to Table 2.

5 illustrates an example of a configuration of a MAC signaling header for a fast feedback channel allocation request according to another embodiment of the present invention.

Substantial contents of each field of the MAC signaling header of FIG. 5 are the same as those of FIG. 4, but names and orders of some fields are changed. That is, the 'Feedback Type' field in FIG. 4 is changed to 'Feedback Type I', and the 'MIMO mode' field is changed to 'Feedback Type II'. In addition, in FIG. 5, the 'MIMO permutation feedback cycle' field is located in the 'Preferred period' field and the 'Feedback Type II' field, and a 1-bit reserved bit between the 'Feedback Type I' field and the 'FBSS' field. Is located. The function and content of each field of the MAC signaling header of FIG. 5 is the same as the corresponding each field of the MAC signaling header of FIG. 4.

Referring back to FIG. 2, the base station receiving the fast feedback channel allocation request from the terminal transmits information for allocating the fast feedback channel to the terminal according to the fast feedback channel allocation scheme included in the MAC signaling header [S22]. ]. The fast feedback channel allocation information may be transmitted to the terminal through 'CQICH allocation IE' or 'CQICH enhanced allocation IE' corresponding to the fast feedback channel allocation scheme designated by the terminal. That is, when the fast feedback channel allocation scheme is designated as the fast feedback channel allocation scheme through the 'CQICH allocation IE' in the MAC signaling header received from the terminal, the base station transmits the fast feedback channel allocation information through the 'CQICH allocation IE'. Send to the terminal. When the fast feedback channel allocation scheme is designated as the fast feedback channel allocation scheme through the 'CQICH enhanced allocation IE' in the MAC signaling header, the base station transmits the fast feedback channel allocation information to the terminal through the 'CQICH enhanced allocation IE'. do. By the above method, the terminal can designate a fast feedback channel allocation scheme.

When the base station allocates a fast feedback channel to the terminal through the 'CQICH allocation IE', the following table besides a transmission region that is used for the fast feedback transmission, that is, an uplink time-frequency region As shown in FIG. 4, the terminal designates a feedback type, a period, and a period of feedback related to the 'MIMO mode' to be performed through the fast feedback transmission. Table 4 shows a part of the configuration of the 'CQICH allocation IE'.

Period (= p) 2 bits A CQI feedback is transmitted on the CQICH every 2 ^p frames Feedback Type 2 bits 0b00 = pcinr 0b01 = ecinr 0b10-0b11 reserved Mimo mode feedback cycle 2 bits 0bx00 = no mimo and permutation mode feedback 0bx01 = mimo and permutation mode feedback every 4 cqich tx 0bx10 = mimo and permutation mode feedback every 8 cqich tx 0bx11 = mimo and permutation mode feedback every 16 cqich tx

On the other hand, when the base station allocates a fast feedback channel to the terminal through the 'CQICH enhanced allocation IE', in addition to the transmission area for the terminal to use for fast feedback transmission, feedback period (period), feedback content (feedback type), fast The method of transmitting a feedback channel (CQICH type) is designated to the terminal.

Table 5 shows some of the 'CQICH enhanced allocation IE' configuration. In Table 5, the 'CQICH Type' field is a field for specifying a codeword configuration method of feedback information, and the base station may specify a codeword configuration method of 3 bits, 4 bits, or 6 bits.

Period (= p) 3bits A CQI feedback is transmitted on the CQICH every 2 ^p frames Feedback Type 3bits 0b000-0b010 = Fast DL measurement / Default feedback depending on cqich types 0b011 = quantized precoding weight feedback 0b100 = index to precoding matrix in codebook 0b101 = channel matrix information 0b110-0b111 reserved CQICH Type 3bits 0b000 = 6-bit CQI 0b001 = reserved 0b010 = 3-bit CQI (even) 0b011 = 3-bit CQI (odd) 0b100 = 6-bit CQI (primary) 0b101 = 4-bit CQI (secondary) 0b110-0b111 reserved

In FIG. 2, the terminal that receives the fast feedback channel allocation information through the 'CQICH allocation IE' or the 'CQICH enhanced allocation IE' from the base station performs fast feedback transmission according to the fast feedback channel allocation information [S23]. That is, the terminal feeds back the feedback content required for each feedback period through the feedback transmission region, that is, the time-frequency region, included in the fast feedback channel allocation information to the base station according to the method of transmitting the fast feedback channel. As described above, in the case of a broadband wireless access system, there are two kinds of fast feedback channels consisting of four bits of codewords and an improved fast feedback channel consisting of one kind of codewords of three bits, four bits, and six bits. Support the method. The base station may designate a specific channel among the fast feedback channel and the enhanced fast feedback channel, and the terminal may perform fast feedback transmission through the specific channel designated by the base station.

If the feedback period, feedback content, etc. included in the fast feedback channel allocation information are different from those desired by the terminal, the terminal may include a feedback period desired by the terminal in a MAC signaling header as shown in FIG. 3 or 4; It is possible to request the allocation of the fast feedback channel once again by including the feedback content.

The terminology used herein may be replaced with other terms having the same meaning. For example, a terminal may be replaced with a mobile terminal, a communication terminal, a user equipment or a device, and the like, and a base station may be replaced with a term such as a fixed station. In the above detailed description, the process of performing communication between the terminal and the base station has been described mainly for the convenience of description of the present invention and its embodiments. However, the base station is used to mean a device representing the network. The specific operation described above may be performed by a network node or an entity.

It is apparent to those skilled in the art that the present invention can be embodied in other specific forms without departing from the spirit and essential features of the present invention. Accordingly, the above detailed description should not be construed as limiting in all aspects and should be considered as illustrative. The scope of the invention should be determined by reasonable interpretation of the appended claims, and all changes within the equivalent scope of the invention are included in the scope of the invention.

According to the present invention has the following effects.

First, the terminal can efficiently make a bandwidth request for the fast feedback channel through the MAC signaling header.

Second, since the UE may designate a fast feedback channel allocation method when requesting a fast feedback channel from the BS, the UE may select a suitable method according to a situation.

Third, the terminal may correctly specify the content to be fed back to the base station to make a request for allocation of a fast feedback channel.

Fourth, the terminal may adjust the feedback period in the case of feedback that operates in a separate period from the fast feedback channel, such as feedback related to multiple input / output antennas.

Claims (26)

A method for a mobile station to perform a fast feedback transmission in a broadband wireless access system, Specifies a feedback content to be fed back by the terminal according to a specific fast feedback channel allocation method selected from at least two fast feedback channel allocation methods and the specific fast feedback channel allocation method, and requests bandwidth allocation for a fast feedback channel transmission to the network. Doing; Receiving fast feedback channel allocation information corresponding to the specific fast feedback channel allocation scheme from the network; And And performing fast feedback transmission to the network by using the fast feedback channel assignment information. The method of claim 1, And a bandwidth allocation request for the fast feedback channel transmission is performed through a MAC request header. The method of claim 2, The designation of the specific fast feedback channel allocation scheme is performed through a 'Feedback type' field of the MAC signaling header. The method of claim 3, The 'Feedback type' field further includes control information for adjusting the reporting period of the multi-input and output antenna operation mode and the permutation scheme, characterized in that the fast feedback transmission. The method according to claim 3 or 4, The 'Feedback type' field further includes information indicating feedback content. The method of claim 2, The specific fast feedback channel allocation method is a fast feedback channel allocation method through 'CQICH_allocation_IE' or a fast feedback channel allocation method through 'CQICH_enhanced_allocation_IE'. The method of claim 5, And the feedback content included in the 'feedback type' field is channel quality information. The method of claim 6, When the specific fast feedback channel allocation scheme is a fast feedback channel allocation scheme through the 'CQICH_enhanced_allocation_IE', the MAC signaling header further includes an additional field for requesting feedback content according to the fast feedback channel allocation scheme through the 'CQICH_enhanced_allocation_IE'. And performing a fast feedback transmission. The method of claim 8, The feedback content included in the additional field includes an operation mode or a parameter of a multiple input / output antenna. The method according to claim 8 or 9, The feedback content included in the additional field includes a permutation scheme. The method of claim 8, The feedback content included in the additional field includes an operation mode or a parameter of a physical layer. The method of claim 11, The operation mode or parameter of the physical layer is characterized in that the modulation and coding scheme (MCS) level, fast feedback transmission method. The method of claim 7, wherein The channel quality information is 'PCINR' or 'ECINR', characterized in that the fast feedback transmission method. The method of claim 1, The fast feedback channel allocation information may further include information indicating a feedback information transmission scheme. The method of claim 14, The feedback information transmission method is a transmission through a fast feedback channel or a transmission through an improved fast feedback channel. A method for supporting fast feedback transmission of a terminal in a network of a broadband wireless access system, Receiving, from the terminal, a MAC signaling header specifying feedback content to be fed back by the terminal according to a specific fast feedback channel allocation scheme selected from at least two fast feedback channel allocation schemes and the specific fast feedback channel allocation scheme; Transmitting fast feedback channel allocation information corresponding to the specific fast feedback channel allocation scheme to the terminal; And And receiving feedback information received from the terminal according to the fast feedback channel allocation information. The method of claim 16, The designation of the specific fast feedback channel allocation scheme is performed through a 'Feedback type' field of the MAC signaling header. The method of claim 17, The 'feedback type' field further includes control information for adjusting a reporting period of a multiple input / output antenna operation mode and a permutation scheme. The method of claim 17 or 18, The 'Feedback type' field further includes information indicating feedback content. The method of claim 16, The specific fast feedback channel allocation scheme is a fast feedback channel allocation scheme through 'CQICH_allocation_IE' or a fast feedback channel allocation scheme through 'CQICH_enhanced_allocation_IE'. The method of claim 20, When the specific fast feedback channel allocation scheme is a fast feedback channel allocation scheme through the 'CQICH_enhanced_allocation_IE', the MAC signaling header further includes an additional field for requesting feedback content according to the fast feedback channel allocation scheme through the 'CQICH_enhanced_allocation_IE'. The fast feedback transmission support method, characterized in that it comprises a. In the structure of the MAC signaling header used by the mobile station to request the assignment of a fast feedback channel to the network in a broadband wireless access system, A first field for designating a specific fast feedback channel allocation scheme among at least two fast feedback channel allocation schemes; And And at least one second field for designating feedback content to be fed back by the terminal according to the specific fast feedback channel allocation scheme. The method of claim 22, And the at least one second field is selectively included according to the specific fast feedback channel allocation scheme. The method of claim 22, The first field is a 'Feedback type' field, characterized in that the structure of the MAC signaling header. The method of claim 22, The 'Feedback type' field further includes control information for adjusting a reporting period of a multiple input / output antenna operation mode and a permutation scheme. The method of claim 24 or 25, The 'Feedback type' field further includes information indicating feedback content.

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