KR101221904B1 - Method for Requesting Transmition and Receiving of Feedback Information, And Basestation Implementing The Same - Google Patents

Abstract

The present invention relates to a method for a base station to request transmission of feedback information, in particular CQI. If there are a plurality of users to send feedback information in a specific time slot, the user's feedback information is selected by determining a priority of each user and then selecting a user to send the feedback information in consideration of the determined priority of each user. By requesting transmission, the transmission method is specified when a plurality of users simultaneously transmit CQI in the triggered CQI reporting method.

CQI, priority

Description

Method for requesting and receiving feedback information and a base station performing the same {Method for Requesting Transmition and Receiving of Feedback Information, And Basestation Implementing The Same}

1 is a diagram illustrating a general CQI feedback scheme.

2 and 3 are diagrams for explaining a periodic CQI reporting scheme and a triggered CQI reporting scheme, respectively, of the CQI reporting schemes.

4 is a diagram for explaining a best M reporting scheme;

5 is a diagram illustrating a manner of selecting UEs to transmit a CQI in accordance with an embodiment of the present invention.

FIG. 6 illustrates, in stages, a manner of selecting UEs reporting CQI in accordance with one embodiment of the present invention shown in FIG.

7A to 7D illustrate in detail the steps illustrated in FIG. 6 in stages.

FIG. 8 illustrates a scheme for reporting CQI using differential values when there are a plurality of selected UEs according to an embodiment of the present invention. FIG.

9A to 9C are diagrams for describing schemes for reporting CQI using a differential value when a plurality of selected UEs is according to another embodiment of the present invention.

FIG. 10 is a diagram illustrating a method of selecting UEs for reporting CQI using differential values when there are a plurality of UEs selected according to another embodiment of the present invention. FIG.

11A and 11B illustrate in detail the steps illustrated in FIG. 10 step by step.

12 is a block diagram schematically showing a feature configuration of a base station according to another embodiment of the present invention.

TECHNICAL FIELD The present invention relates to mobile communication technology, and more particularly, to a method for transmitting feedback information.

CQI reporting has the advantage that the shorter the period, the faster the channel's changing state can be considered. However, the longer the reporting period, the lower the overhead. However, the changing characteristics of the channel cannot be reflected quickly, resulting in a performance degradation of the system. Therefore, as the importance of the efficient use of radio resources is gradually increasing, various techniques for reducing the outgoing overhead incurred in CQI transmission have been proposed.

1 is a diagram illustrating a general CQI feedback scheme.

As shown in FIG. 1, Node B first transmits a common pilot signal to each user to measure channel quality of downlink (hereinafter, “DL”) (step (1)). Each user measures channel quality based on this pilot signal, specifically calculates SINR (step (2)), and reports the corresponding CQI level index to Node B (step (3)). Based on this CQI, Node B allocates resources appropriately according to the channel state of each user (step (4)), and transmits data by determining a subsequent modulation scheme or coding rate (step (5)). ).

Such a method of transmitting the CQI can be largely divided into two types according to the transmission method.

2 and 3 are diagrams for describing a periodic CQI reporting scheme and a triggered CQI reporting scheme, respectively, of the CQI reporting schemes.

First, as shown in FIG. 2, the most common scheme for reporting CQI is a periodic reporting scheme for transmitting CQI with a certain period for each user. 2 shows an example of reporting four sub-frames along a time axis, but this reporting period is designated by the base station to the terminal and may vary according to the state of the terminal. This way, all active users report the CQI every certain subframe period. Even if the DL traffic does not have a specific user's data assigned, CQI is still uplink ("UL") to Node B. Will be reported. On the other hand, even if data is allocated to the DL for another user, the CQI may not be reported if the user does not have a predetermined CQI reporting cycle. This is a problem in that a CQI is not reported even when DL traffic information is present in a specific UE, and a CQI should be reported even when DL traffic information is absent, as indicated by a circle in FIG. 2. This attenuates the throughput of the system.

Next, as shown in FIG. 3, a triggered CQI for transmitting a CQI using a channel allocated to a UL resource for the purpose of transmitting the CQI only when the user is allocated data to be transmitted to the user in DL traffic. There is a way of reporting. This approach increases the CQI reporting rate sent from the user when the DL is active, while stopping CQI reporting when the DL is inactive. Therefore, as long as there is data transmitted to the UE in the DL traffic shown in the upper part of FIG. 3, the CQI is reported as shown in the UL CQI report traffic in the lower part of FIG. The reporting method can efficiently use the allocated physical resources. However, as will be described later, there is a problem of resource allocation when several users simultaneously report CQI.

Meanwhile, when transmitting the above-described CQI, the CQI may be divided into a full band CQI reporting scheme and a best M CQI reporting scheme according to the format of the CQI.

The full-band CQI reporting method is a method of transmitting CQI information to all base stations for all scheduling bands when the terminal transmits the CQI to the base station. Since the CQI information is transmitted for all bands of the channel, the base station can know the detailed information on the channel band of the terminal, so that the channel band can be used as efficiently as possible. There is a concern that the amount of uplink resources consumed so as to reduce the overall throughput.

Second, there is the best M CQI reporting method.

4 is a diagram for explaining a best M reporting scheme.

The best M CQI reporting method is a technique for reducing the amount of feedback information by reporting CQI values for M resources having good channel quality among the N resource blocks allocated to the user. This reporting technique shows that when the M subbands indicated by hatching in FIG. 4 show a good quality among the N subbands, transmitting the CQI information signal as the CQI value and the level thereof for the M subbands. Doing. In addition, the best M reporting scheme is more specifically the best M individual scheme for reporting CQI values for the best M resources, and the best M mean for reporting the average CQI values for the M resources. It can be divided into a scheme (best M average scheme).

As the efficient use of limited radio resources adds meaning, various techniques as described above have been proposed to improve frequency efficiency and increase system performance. Therefore, CQI information is very important to increase the performance of the system by transmitting data by changing the modulation scheme or coding rate according to the channel state.

In the current CQI reporting techniques, if a short reporting period is transmitted in order to quickly consider the channel status of a changing DL, the channel status can be sufficiently considered to increase throughput, but the CQI overhead is burdened. do. In addition, if the transmission period is set longer, the CQI overhead is reduced, but the changing performance of the channel cannot be taken into account quickly, thereby reducing the throughput performance.

In addition, in the case of the conventional CQI reporting scheme, even if the data of the corresponding user is not allocated, there is a problem of reporting the CQI according to the period or not reporting the CQI even if the data is allocated. On the other hand, the triggered CQI reporting technique transmits a CQI only when data of a corresponding user is allocated, but when multiple users report CQI at the same time, multiple CQI channels are used to waste CQI channels.

In order to solve the above problems, an object of the present invention is to provide a method for reducing CQI overhead and reporting feedback information such as CQI of a plurality of users by efficiently using allocated resources.

Another object of the present invention is to provide a method of reducing the number of bits of feedback information such as CQI so that a rapidly changing channel state can be considered even with limited resources.

According to an aspect of the present invention, there is provided a method for requesting feedback information transmission, the method comprising: determining a priority of each user when there are a plurality of users to transmit feedback information in a specific time slot; Selecting a user to transmit the feedback information in consideration of the determined priority of each user; And requesting the selected user to transmit feedback information.

In this case, the user who will transmit the feedback information in the specific time slot may be a user that has data to be received through downlink.

The feedback information may also include a channel quality indicator, the priority of which is the difference between the channel quality indicator of the previous frame and the channel quality indicator of the current frame, and the channel quality indicator and the current of the previous frame. It may be determined in consideration of one or more of the factors including the reporting time interval with the channel quality indicator of the frame. On the other hand, in some cases, the factors to be considered include whether the signal-to-noise ratio of the base station is low, whether the error rate of the received data is low, whether the data rate of the base station is high, and the throughput of the user. It may further include whether it is less than the throughput required in the system, and this priority may be determined by assigning a weight to each of the elements.

In addition, the user selection step may be performed to select a user equal to or less than the number of channels allocated for the transmission of feedback information of the respective users.

According to another aspect of the present invention, there is provided a method for requesting feedback information transmission, the method comprising: determining a priority of each user when there are a plurality of users to transmit feedback information in a specific time slot; A first selecting step of selecting a user to transmit the feedback information in consideration of the determined priority of each user; And requesting a differential value transmission of feedback information of each of the users when the selected user is a plurality.

In this case, in the step of requesting the differential value transmission, the differential value may be a value obtained by reducing the amount of feedback information transmitted by each of the selected users to within a capacity of a channel allocated for transmitting the feedback information of the users. In the value transmission request step, the channel capacity may be allocated to all of the selected users or the channel capacity may be allocated in proportion to the priority of each of the selected users to request transmission of the differential value.

Further, when the number of the users selected in the first selection step is plural and the differential value of the feedback information to be transmitted by the selected users is larger than the channel capacity allocated for the feedback information transmission, the priority is within the allocated channel capacity. The method may further include a second selection step of selecting users having a higher rank, and in this case, the step of requesting the differential value transmission may include requesting transmission of the feedback information to the users selected in the second selection step.

On the other hand, the feedback information receiving method according to another embodiment of the present invention, if there are a plurality of users to send feedback information in a specific time slot, determining the priority of each user; Selecting a user to transmit the feedback information in consideration of the determined priority of each user; Requesting the selected user to send feedback information; And receiving feedback information from the user in response to the feedback information transmission request.

In this case, in the feedback information transmission request step, the base station designates a channel location and a channel capacity for the selected users to transmit the feedback information, and in the feedback information receiving step, the selected users are assigned through the designated channel location and channel capacity. The feedback information transmitted may be received.

According to another embodiment of the present invention, a base station includes: a priority determining unit for determining a priority of each user when there are a plurality of users to transmit feedback information in a specific time slot; A user selector which selects a user to transmit the feedback information in consideration of the priority of each user determined by the priority determiner; And a feedback information transmission request unit requesting transmission of feedback information to the user selected by the user selection unit.

In this case, the feedback information includes a channel quality indicator, wherein the priority determined by the prioritization unit is a difference between a channel quality indicator of a previous frame and a channel quality indicator of a current frame, and the previous frame. It may be determined in consideration of one or more of the factors including the reporting time interval of the channel quality indicator of the and the channel quality indicator of the current frame. In addition, the factors under consideration include whether the signal-to-noise ratio of the base station is low, whether the error rate of the received data is low, whether the data rate of the base station is high, and the throughput of the user is required by the system. It may further include whether or not less than the throughput.

The priority determiner may include a weighting unit for assigning a weight corresponding to each of the elements, and the feedback information transmission requesting unit selects the selected user when the number of users selected by the user selecting unit is plural. It may be to request them to transmit the differential value of the feedback information.

The feedback information transmission request unit may include a resource allocation control unit for equally allocating channel resources to the users selected by the user selection unit, or proportionally to the users selected by the user selection unit. It may include a resource allocation control unit for allocating channel resources.

Hereinafter, preferred embodiments according to the present invention will be described in detail with reference to the accompanying drawings. DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS The following detailed description, together with the accompanying drawings, is intended to illustrate exemplary embodiments of the invention and is not intended to represent the only embodiments in which the invention may be practiced. For example, the following detailed description is centered on CQI as feedback information transmitted by each UE through UL, but may include any feedback information other than CQI as long as it indicates information fed back to the base station for receiving DL information. The scope of the present invention is not limited to the illustrated CQI. In addition, below, the feedback information of each user is requested, and in response to the feedback information, the term “node B” used in 3GPP is mainly used as the subject, but as described above, the feedback information of each user is requested. And, in response to this may be all subjects including the base station that is the subject receiving feedback information, it is not limited to the illustrated Node B.

The following detailed description includes specific details in order to provide a thorough understanding of the present invention. However, those skilled in the art will appreciate that the present invention may be practiced without these specific details. In some instances, well-known structures and devices are omitted or shown in block diagram form around the core functions of each structure and device in order to avoid obscuring the concepts of the present invention. In addition, the same components will be described with the same reference numerals throughout the present specification.

The present invention proposes a selected CQI reporting scheme for determining CQI reporting based on a user's priority determined in consideration of channel change status, CQI transmission time interval, throughput, and the like in a wireless communication environment. In order to efficiently use the limited radio resources, the priority of the user reporting the CQI is determined and transmitted. The CQI is transmitted in the order of the users having the highest priority in consideration of the channel status, the CQI transmission time, and the data rate. This reduces the CQI overhead and uses resources efficiently. In an environment where the channel status changes rapidly, the differential CQI value is used to fully consider the changing channel status even through limited CQI reporting channels. This can improve system performance.

5 is a diagram illustrating a method of selecting UEs to transmit a CQI according to an embodiment of the present invention.

As shown in FIG. 5, in order to measure the channel quality of the DL, the Node B first transmits a common pilot to each user, and the UE measures the SINR of the received signal to obtain a CQI index indicating the channel quality level of the DL. Will be decided. Each UE transmits this CQI value through the UL. By efficiently reporting this CQI, resource usage can be maximized.

In one embodiment of the present invention, unnecessary CQI reporting can be reduced by transmitting CQI only when there is data of a user to be sent in DL traffic. At this time, if there are several users to send at the same time, as shown in Figure 5, Node B selects the user to send the CQI according to the priority determined in consideration of various factors, thereby reducing the number of channels used to transmit the CQI By transmitting the CQI of the high-priority user first according to the channel state and condition of the C, the CQI overhead problem is solved and the performance is increased.

On the other hand, the priority of the user is determined by the following characteristics.

는 i번째 사용자의 이전 서브 프레임의 CQI와 현재 서브 프레임의 CQI의 차이가 큰 정도를 나타낸다. 또한,

는 i번째 사용자의 이전 CQI와의 전송 시간 간격이 큰 정도를 나타내며,

은 i번째 사용자의 SINR의 낮은 정도를 나타낸다. 또한,

는 i번째 사용자의 수신된 데이터에 에러가 나는 정도를 나타내며,

는 i번째 사용자의 처리율이 시스템에서 요구되는 처리율보다 작은 정도를 나타낸다. 마지막으로,

는 i번째 사용자의 데이터 레이트가 높은 정도를 나타낸다.Where i is the user's index,

Denotes the degree to which the difference between the CQI of the previous subframe of the i-th user and the CQI of the current subframe is large. Also,

Indicates how large the i-th user's transmission time interval with the previous CQI is.

Represents the low degree of SINR of the i-th user. Also,

Indicates the degree of error in the received data of the i-th user,

Denotes the degree to which the throughput of the i-th user is smaller than the throughput required by the system. Finally,

Denotes the degree to which the i-th user's data rate is high.

The above characteristics increase the priority for each UE as the value increases. Therefore, the priority function P (x1, x2, .., xn) as in Equation 1 to be actually applied has an increasing function form for each characteristic parameter xi, and each characteristic parameter is required as required by a predetermined system. The function is constructed in the form of multiplying a specific weight and can be expressed as follows.

Here, w ₁ to w ₆ represent weights assigned to each parameter.

As described above, the UE whose priority is determined according to Equation 1 or Equation 2 is selected by the Node B as a CQI report target in the order of high priority, and transmits the CQI through the channel allocated by the Node B. do. To this end, Node B transmits a CQI transmission request message to users selected as CQI reporting targets as users of high priority, which may be transmitted together with data transmitted to each user.

On the other hand, it is not necessary to consider all the characteristic parameters shown in Equation 1 or Equation 2, and may consider only some important characteristic parameters according to weights multiplied as required in a predetermined system as described above.

, 및 이전 프레임의 CQI와 현재 프레임의 CQI와의 시간 간격을 나타내는

인바, 이러한 파라미터만을 고려하여 우선순위를 결정하는 것 역시 가능하다.In general, when the feedback information to be transmitted is the CQI of the DL channel, the most important of the above-described characteristic parameters indicates a difference between the CQI of the previous frame of the specific user and the CQI of the current frame.

, And the time interval between the CQI of the previous frame and the CQI of the current frame

Invar, it is also possible to determine the priority considering only these parameters.

In addition, alternatively, giving a large weight sequentially in subscript order of the weights w ₁ to w ₆ as shown in Equation 2 may also be a method that can indicate more accurate DL channel quality.

FIG. 6 is a diagram for describing a method of selecting UEs for reporting CQI according to one embodiment of the present invention illustrated in FIG. 5 in stages.

In addition, FIGS. 7A to 7D are diagrams illustrating in detail the steps illustrated in FIG. 6 in steps.

First, it is basically assumed that the CQI transmission is requested only when there is data to be sent by the user in all steps of FIGS. 6 and 7A to 7D. In addition, it is assumed that each user is allocated two uplink channels (eg, HS-SICH) for CQI transmission by the Node B.

가 크지 않다고 가정하면,

에 의해 UE1과 UE2를 CQI 송신 대상으로 선택된다. 다음으로, 단계 ③에서, UE1의 SINR이 낮을 경우

에 의해 UE1이 선택되고, UE4의 수신 데이터에 에러가 일어난 경우,

에 의해 UE4이 동시에 선택될 수 있다. 한편, 단계 ④에서는 DL 트래픽에 데이터가 있는 UE는 UE1뿐이므로, UE1만 CQI 보고 대상으로 선택한다.In step ① of FIG. 7A, CQI transmission is requested to UE3 and UE4 having DL traffic on two allocated UL channels. In step ②, the channels of other UEs are suddenly changed

Assuming that is not large,

UE1 and UE2 are selected as CQI transmission targets. Next, in step ③, if the SINR of UE1 is low

Is selected by UE1, and an error occurs in the received data of UE4,

UE4 may be selected at the same time by. On the other hand, in step (4), since only UE1 has data in DL traffic, only UE1 is selected as a CQI report target.

As described above, the selection of the user to transmit the CQI in each step is selected through the above Equations 1 to 3, and the number of users to be selected is performed to select as many users as the number of channels allocated for the CQI transmission. In general, if the number of UEs having data to be received in DL traffic is smaller than the number of allocated channels as in step ④, only the CQI of the UE having data to be received is transmitted. In addition, the node B may select the user to transmit the CQI may be selected in consideration of the channel capacity for the user's CQI transmission from the initial selection, and at the initial selection, if the priority of each user is more than a predetermined value, unconditionally selected Subsequently, if it is determined that it is difficult to report the CQI of all the selected users in consideration of the CQI reporting method and the channel capacity, the CQI transmission request may be made except for some of these users.

에 의해 UE3를 선택하고, 동시에

에 의해 UE4를 선택한다. 다음으로, 단계 ⑥ 에서

에 의해 UE2를 선택하며, UE3의 DL 채널이 급변하고, UE1의 수신 데이터에 에러가 발생한 경우를 가정할 경우, 일반적으로

에 곱해지는 가중치가

에 곱해지는 가중치보다 크므로, UE3을 선택한다. 물론, 상술한 경우는 예로서 설명한 것이며, 각 파라미터에 곱해지는 가중치는 이와 달라질 수도 있다.Next, referring to FIG. 7B, if an error occurs in the received data of UE3 in step ⑤,

Select UE3 by

Select UE4. Next, in step ⑥

When UE2 is selected by the UE, the DL channel of UE3 suddenly changes, and an error occurs in the received data of UE1, generally,

Multiply by

UE3 is selected because it is greater than the weight multiplied by. Of course, the above-described case is described as an example, and the weight multiplied by each parameter may be different from this.

는 동일하므로,

에 의해 UE3과 UE4을 선택한다. 그 후, 단계 ⑧에서, 각 UE의

는 동일하므로, UE1의 처리율이 요청되는 처리율보다 작은 경우 UE1을 선택하고, 동시에 UE3의 채널 변화가 크다면

에 의해 UE3을 선택한다. 그 후, 단계 ⑨ 에서, 채널이 급변한 UE1과 전송 시간 간격이 큰 UE2을 선택한다. 이와 같이 CQI를 송신할 사용자로 선택된 경우, 노드 B는 이들 UE들에 CQI 송신 요청 메시지를 송신하며, 이에 따라 할당된 대역 및 용량을 통해 각 UE들을 CQI를 보고할 수 있다.Next, referring to FIG. 7C, in step ⑦, assuming that all the user's channels have suddenly changed,

Is the same, so

Select UE3 and UE4. Then, in step ⑧, each UE

Is the same, if UE1's throughput is less than the requested throughput, select UE1, and if UE3's channel change is large,

Select UE3. After that, in step ⑨, UE1 whose channel is suddenly changed and UE2 having a large transmission time interval are selected. When the user is selected to transmit the CQI as described above, the Node B transmits a CQI transmission request message to these UEs, and thus can report the CQIs to the respective UEs through the allocated bandwidth and capacity.

에 의해 UE3과 UE4를 CQI 보고 대상으로 선택하고, 단계 ⑪ 에서, 데이터를 수신하는 UE1과 UE3를 선택하며, 단계 ⑫ 에서, 모든 UE의 채널이 급변하지 않 는다면

에 의해 UE2와 UE4를 CQI 보고 대상으로 선택한다.Finally, referring to FIG. 7D, in step 경우, if the channels of all UEs change suddenly

If UE3 and UE4 are selected as CQI reporting targets, and in step ⑪, UE1 and UE3 receiving data are selected, and in step ⑫, if the channels of all UEs do not change suddenly,

UE2 and UE4 are selected as CQI reporting targets.

In FIG. 6 and FIG. 7A to FIG. 7D, which are broken down in stages as described above, the CQI request message is transmitted only to a user who has received data in the DL. For example, it is described that the weights are assigned in the subscript order of each weight, but other cases can be easily implemented by those skilled in the art through the above description.

In the following description, a method of transmitting a differential CQI value when there are a plurality of users transmitting CQIs as a feedback transmission method according to another embodiment of the present invention will be described.

FIG. 8 is a diagram illustrating a method of reporting CQI using differential values when a plurality of UEs are selected according to an embodiment of the present invention.

According to another embodiment of the present invention, a differential CQI value is used to more efficiently use radio resources based on a method of reporting CQI in consideration of user-specific priorities as described above. We propose a method to reduce the number of bits of CQI information. Through this method, the system performance can be increased by efficiently transmitting the CQIs of users who want to transmit data using differential values through the limited channel in a situation where the channel is rapidly changing, and this method can be used as a selective differential CQI reporting method. (SDV (Selection Differential Value) CQI reporting scheme). The SDV CQI reporting method is described in detail as follows.

Like the selective CQI reporting method described above, the SDV CQI reporting method measures the channel state of the DL by measuring the SINR of the received signal. Priority is also determined according to the measured CQI value and the user's condition.If there are several users to send CQI by the priority, CQI is used by using the difference value indicating the difference between the previous CQI value and the current CQI value. Will be sent. This method not only reduces CQI overhead because the users who selectively send CQIs are determined by priority, but also reduces information bits by reporting differential CQI values when sending multiple users' CQIs simultaneously. Efficiently transmit CQIs of multiple users without increasing the CQI transmission channel. Depending on how this is implemented, the following methods can exist.

9A to 9C are diagrams for describing schemes for reporting CQI using a differential value when a plurality of selected UEs is according to another embodiment of the present invention.

In the case of FIG. 9A, the same resource is allocated to each CQI reporting channel to all UEs. Of course, UEs that are equally allocated the CQI transport channel are UEs selected to transmit the CQI in consideration of priority, and thus, the CQIs having the same level of accuracy may be transmitted by allocating equivalent resources to the UEs as described above.

Next, FIG. 9B illustrates a case in which some low-priority UEs do not have a transmission opportunity according to the amount of CQI change, but the other high-priority UEs divide resources and transmit them. Although UEs having priorities above a predetermined reference value are selected as UEs to transmit CQI through a priority function such as Equation 1 to Equation 3, UEs selected according to the amount of information of the differential value used to transmit the CQI value If all of the CQIs cannot be transmitted, the difference between the CQI in the previous transmission frame and the CQI in the current frame, etc., based on the priority of the receiver, as described below, among the selected UEs, as described below. The UE excludes some UEs from the transmission target in consideration of the transmission capacity of the channel according to a predetermined condition including a. That is, in the first selection step of selecting UEs as targets for reporting CQI, all UEs having a priority higher than or equal to a predetermined value are selected as CQI reporting targets according to whether the priority of each UE is higher than or equal to a predetermined value, and then the channel capacity is selected. In consideration of the CQI reporting target UE again, the priority considered in the first selection step and the priority considered in the second selection step may be the same, but different weights are applied to each parameter because the objects considered in each step are different. It may be given.

Lastly, FIG. 9C illustrates a case in which UEs selected according to priorities and sharing a CQI transport channel take different amounts of resources according to priorities of the respective UEs. CQI information of the can be delivered in more detail.

Hereinafter, the above-described SDV CQI reporting method will be described in detail through exemplary steps.

FIG. 10 is a diagram illustrating a step-by-step method of selecting UEs for reporting CQI using difference values when there are a plurality of selected UEs according to another embodiment of the present invention.

11A and 11B are diagrams specifically illustrating the method illustrated in FIG. 10 in stages.

First, the entire CQI should be reported only when there is DL data to be transmitted in FIGS. 10, 11A, and 11B, and when transmitting CQIs of two or more users at the same time, the differential CQI values, that is, the CQI of the immediately transmitted subframe and the current It is assumed that a request is made to report a differential value of the CQI of a sub-frame to be sent.

에 의해 UE2와 UE4의 CQI를 전송하도록 선택한다. 이 경우, CQI를 전송할 것으로 선택된 사용자가 복수이므로, 각 사용자의 CQI는 차등값으로 전송될 것이 요청된다. 다음으로, 단계 ②에서, UE2의 채널 변화가 크다면

에 의해 UE2이 선택되며, 이 경우는 CQI를 전송할 사용자가 복수가 아니므로, 차등값을 전송하지 않고 현재 서브 프레임의 CQI 전체를 전송하도록 요청된다. 그 후, 단계 ③ 에서, UE3의 수신 SINR이 낮을 경우,

에 의해 UE3이 CQI를 전송하도록 요청된다.First, in step ① of FIG. 11A, if the channels of all the users do not change suddenly

Select to transmit the CQI of UE2 and UE4. In this case, since there are a plurality of users selected to send CQIs, the CQI of each user is requested to be transmitted with a differential value. Next, in step ②, if the channel change of UE2 is large

UE2 is selected by the UE, and in this case, since there are not a plurality of users to transmit the CQI, it is requested to transmit the entire CQI of the current subframe without transmitting the differential value. Then, in step ③, if the received SINR of UE3 is low,

UE3 is requested to send a CQI.

에 의해 UE3의 CQI만을 전송할 수 있으며, 단계 ⑥ 에서, UE1의 처리율이 요구되는 처리율보다 낮을 때

에 의해 UE1의 CQI가 전송되도록 할 수 있다. 마지막으로, 단계 ⑦ 에서, UE2의 채널 변화가 크다면

에 의해, UE4의 SINR이 낮다면

에 의해 UE2와 UE4의 CQI가 차등값으로 전송되도록 요청할 수 있다. Next, in step ④ of FIG. 11B, when the channels of all the users suddenly change, the CQIs of all the users are transmitted as differential values. In this case, the CQI differential value transmitted by each UE is set so that the amount of information is reduced to have 1/4 or less bits as compared with the case where the entire CQI of the current subframe is transmitted. All of the CQIs may be transmitted. Then, in step ⑤, if an error occurs in the received data of UE3,

Can only transmit the CQI of UE3, and in step ⑥, when the throughput of UE1 is lower than the required throughput

CQI of the UE1 can be transmitted by. Finally, in step ⑦, if the channel change of UE2 is large

If the SINR of UE4 is low

May request that the CQIs of UE2 and UE4 are transmitted with differential values.

In each of the above-described steps, in order to explain most of cases that may occur when selecting UEs to transmit CQI and obtaining a differential value when there are a plurality of UEs, the information on the capacity and the differential information of the allocated CQI transmission channel varies in various ways. Although described as an example, the extent to which the amount of information decreases substantially according to the CQI transmission channel capacity and the difference value calculation may have a unique value for each specific system, and may be maintained at a specific level for a certain period of time.

Based on this description, the general triggered CQI reporting method can be summarized as follows. Matters to be considered when reporting the CQI may control the CQI reporting form of the UE based on whether the transmitting end has correct CQI information. First, the CQI report type for the UE is controlled as follows.

First, when the channel change is not large in the previous reporting time and the current reporting time, in this case, there is a method of excluding the UE from the CQI reporting target at the current CQI reporting time. In addition, when a plurality of UEs change the channel at the previous reporting time and the current reporting time, information of as many UEs as possible should be transmitted to the transmitting end as accurately as possible in this case. To this end, CQI reporting channel resources should be distributed to the remaining UEs except the UE that is not the report target. This distribution method is a method of equally dividing each UE and a method of allocating different amounts of resources to each UE in consideration of the characteristics of the UE (priority or QoS requirements). If there are not enough CQI channel resources, the accuracy of CQI reported by each UE may be reduced, and either full CQI reporting or differential CQI reporting may be used.

12 is a block diagram schematically showing a feature configuration of a base station according to another embodiment of the present invention.

As shown in FIG. 12, the base station for performing the feedback information request method and the feedback information reception method according to the embodiments of the present invention as described above may include a prioritization unit 1201, a user selection unit 1202, and Feedback information transmission request unit 1203 is included. The priority determiner 1201 determines the priority of each user when there are a plurality of users to transmit feedback information in a specific time slot, and the determination of the priority is determined by inputting various parameters as shown in FIG. 12. Can be. In addition, since these parameters do not all have equal importance, each of the parameters may further include a weighting unit 1201a for weighting according to the importance corresponding to each of these parameters, and these weights w ₁ to w ₆ are some parameters. May be set to 0 when is excluded from consideration. Each weighted parameter as described above is added by the adder 1201b to be completed priority information (Priority _High ).

The user selector 1202 that has received such priority information selects a user to report the CQI in consideration of the received priority information. In this case, the user selector 1202 may select UEs to report the CQI in consideration of how much UL channels each UE uses to report the CQI, and the selection of the user selector 1202 may be performed to which module. If the priority is greater than or equal to a predetermined value according to the configuration, the first step may be performed by selecting the CQI report target and then excluding some UEs according to the channel situation. In one step, both the priority information and the UL channel allocation information may be performed. Consideration may be given as to what to report the CQI.

As such, when a user to transmit feedback information such as CQI is selected, information about the selected user is transmitted to the feedback information transmission request unit 1203. The feedback information transmission request unit requests CQI transmission to a user selected as a CQI transmission target. Meanwhile, whether each user requesting CQI transmission allocates an UL channel to each UE to report CQI equally to each UE. A resource allocation adjustment unit 1203a for controlling whether to allocate an amount of resources proportional to the rank and a CQI request signal generation unit 1203b for generating a CQI request signal according to such resource allocation information may be included. The CQI request signal generated as described above is transmitted to each user selected as described above by the transmitter (not shown), and the CQI transmitted by the user who receives the CQI request signal is received through the receiver (not shown).

The detailed description of the preferred embodiments of the invention disclosed as described above is provided to enable any person skilled in the art to make and practice the invention. Although the above has been described with reference to the preferred embodiments of the present invention, those skilled in the art will variously modify and change the present invention without departing from the spirit and scope of the invention as set forth in the claims below. I can understand that you can. Accordingly, the present invention is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

According to one embodiment of the present invention as described above, when there are a plurality of users who want to transmit feedback information in a specific time slot, the base station decomposes the resources allocated for the feedback information transmission according to the priority of each user. It is effective to use resources efficiently.

In particular, when the feedback information to be transmitted is CQI information, by initiating a method of calculating the priority of each user in consideration of the characteristics of the CQI, it is possible to efficiently transmit information necessary for DL scheduling with limited resources.

In addition, by transmitting the differential value of the feedback information transmitted through each channel, it is possible to reduce the number of bits of the feedback information to be transmitted, thereby reducing the number of channels allocated for the feedback information transmission, By using the feedback information having the number of bits, the base station can quickly consider the rapidly changing channel conditions.

Claims (20)

A method for requesting a user to send feedback information by a base station, Determining, by the base station, priorities of each user when there are a plurality of users to transmit feedback information in a specific time slot; Selecting, by the base station, a user to transmit the feedback information in consideration of the determined priority of each user; And Requesting the base station to transmit feedback information to the selected user; And a user to which feedback information is to be transmitted in the specific time slot is a user who has data to be received through downlink. delete The method of claim 1, The feedback information includes a channel quality indicator. The priority may include a difference between a channel quality indicator of a previous frame and a channel quality indicator of a current frame, and a reporting time interval between the channel quality indicator of the previous frame and the channel quality indicator of the current frame. The feedback information transmission request method is determined in consideration of one or more of the above. The method of claim 3, wherein The factors to be considered are whether the signal-to-noise ratio of the base station is low, whether the error rate of the data received by the user is low, whether the data rate of the base station is high, and the throughput of the user is required in the system. Further comprising whether or not the feedback information transmission request method. The method according to claim 3 or 4, Wherein the priority is determined by assigning a weight corresponding to each of the elements. The method according to any one of claims 1, 3 and 4, And the user selection step selects the number of users to be less than or equal to the number of channels allocated for the transmission of feedback information of the respective users. A method for requesting a user to send feedback information by a base station, Determining, by the base station, priorities of each user when there are a plurality of users to transmit feedback information in a specific time slot; A first selecting step of selecting, by the base station, a user to transmit the feedback information in consideration of the determined priority of each user; And Requesting transmission of a differential value of feedback information of each of the users by the base station when the plurality of selected users are provided; And a user to which feedback information is to be transmitted in the specific time slot is a user who has data to be received through downlink. The method of claim 7, wherein And in the requesting of the differential value transmission, the differential value is a value obtained by reducing the amount of feedback information each of the selected users transmits within the capacity of a channel allocated for transmitting the feedback information of the users. 9. The method according to claim 7 or 8, Wherein the step of requesting a differential value transmission allocates an equivalent channel capacity to all of the selected users. The method of claim 7, wherein When the number of the users selected in the first selection step is plural, and the difference value of the feedback information to be transmitted by the selected users is larger than the channel capacity allocated for the feedback information transmission, the base station determines that the base station is within the allocated channel capacity. A second selection step of selecting high priority users, And the step of requesting the differential value transmission requesting transmission of the feedback information to the users selected in the second selection step. 9. The method according to claim 7 or 8, The differential value transmission request step, requesting transmission of the differential information by allocating the channel capacity in proportion to the priority of each of the selected users. A method for a base station to receive feedback information from a user, Determining, by the base station, priorities of each user when there are a plurality of users to transmit feedback information in a specific time slot; Selecting, by the base station, a user to transmit the feedback information in consideration of the determined priority of each user; Requesting, by the base station, transmission of feedback information to the selected user; And Receiving, by the base station, feedback information from the user in response to the feedback information transmission request, The user to transmit the feedback information in the specific time slot is a user that has data to receive on the downlink, feedback information receiving method. 13. The method of claim 12, In the feedback information transmission request step, the base station designates a channel location and a channel capacity for the selected users to transmit the feedback information, And receiving the feedback information transmitted by the selected users through the designated channel position and channel capacity in the feedback information receiving step. A priority determining unit for determining a priority of each user when a plurality of users are to transmit feedback information in a specific time slot; A user selector which selects a user to transmit the feedback information in consideration of the priority of each user determined by the priority determiner; And A feedback information transmission request unit requesting transmission of feedback information to the user selected by the user selection unit; The user to transmit the feedback information in the specific time slot is a base station, the user that has data to receive over the downlink. 15. The method of claim 14, The feedback information includes a channel quality indicator. The priority determined by the prioritizer is a difference between a channel quality indicator of a previous frame and a channel quality indicator of a current frame, and a channel quality indicator of the previous frame and a channel quality indicator of the current frame. The base station is determined in consideration of one or more of the factors including the reporting time interval with. 16. The method of claim 15, The factors to be considered are whether the signal-to-noise ratio of the base station is low, whether the error rate of the data received by the user is low, whether the data rate of the base station is high, and the throughput of the user is required in the system. Further comprising whether the base station is smaller than. 17. The method according to claim 15 or 16, The priority determining unit includes a weighting unit for assigning a weight corresponding to each of the elements. The method according to any one of claims 14 to 16, And the feedback information transmission request unit requests the selected users to transmit the differential value of the feedback information when the number of users selected by the user selection unit is plural. The method according to any one of claims 14 to 16, The feedback information transmission request unit includes a resource allocation control unit for equally allocating channel resources to users selected by the user selection unit. The method according to any one of claims 14 to 16, The feedback information transmission request unit includes a resource allocation control unit for allocating channel resources in proportion to the priority to the users selected by the user selection unit.

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