KR20130126401A - Method and apparatus for indicating position of pucch resource and assigning pucch - Google Patents

Abstract

The present invention relates to a method and apparatus for indicating a location of resources of an uplink control channel carrying an uplink control signal and allocating resources of an uplink control channel.

Description

Method for indicating resource location and method for allocating resources, and apparatus therefor {Method and Apparatus for Indicating Position of PUCCH Resource and assigning PUCCH}

The present invention relates to a method and apparatus for indicating a location of resources of an uplink control channel carrying an uplink control signal and allocating resources of an uplink control channel.

In a typical wireless communication system, a base station transmits resource allocation information of an uplink control channel carrying an uplink control signal to a terminal through a downlink control channel, and the terminal utilizes this resource allocation information to uplink through an uplink control channel. The control information was sent to the base station.

In a coordinated multi-point transmission / reception system (CoMP system) in which two or more transmission and reception points cooperate to transmit a signal, the uplink control information is transmitted when the terminal transmits uplink control information to the base station through an uplink control channel. Since receiving points for receiving link control information may vary, a new resource allocation method of an uplink control channel and a method of providing resource allocation information of an uplink control channel to a terminal are needed.

The present invention provides a new resource allocation method of the uplink control channel and a method for providing resource allocation information of the uplink control channel to the terminal when receiving points for receiving the uplink control information of the terminal in the CoMP system and apparatuses thereof It aims to provide.

)을 지시하고 상기 두개의 검색공간들 중 다른 하나에 상기 하향링크 제어정보가 할당된 것은 CoMP 모드로 동작하는 단말의 PUCCH의 자원 영역의 시작지점(

)을 지시하고; 및 상기 하향링크 제어정보를 PDCCH를 통해 단말에 전송하는 단계를 포함하는 기지국의 PUCCH 자원 위치 지시방법을 제공한다.According to an embodiment, a method of dynamically indicating a PUCCH resource location according to whether a CoMP mode is used, and assigning downlink control information to one of two search spaces of a control region in a subframe, one of the two search spaces The downlink control information is allocated to a starting point of a resource region of a PUCCH of a UE operating in a non-CoMP mode.

) And the downlink control information allocated to the other one of the two search spaces is the starting point of the resource region of the PUCCH of the UE operating in the CoMP mode (

); And transmitting the downlink control information to the terminal through a PDCCH.

)을 지시하는 것을 해석하고 상기 두개의 검색공간들 중 다른 하나로부터 상기 하향링크 제어정보를 디코딩한 경우 CoMP 모드로 동작하는 단말의 PUCCH의 자원 영역의 시작지점(

)을 지시하는 것으로 해석하는 단계를 포함하는 단말의 PUCCH 자원 할당방법을 제공한다.Another embodiment is a PUCCH resource allocation method, comprising: receiving downlink control information from a base station through a PDCCH; Decoding the downlink control information in two search spaces of a control region within a subframe; And a starting point of a resource region of a PUCCH of a UE operating in a non-CoMP mode when the downlink control information is decoded from one of the two search spaces.

) And the start point of the resource region of the PUCCH of the UE operating in the CoMP mode when the downlink control information is decoded from the other of the two search spaces.

It provides a method for allocating a PUCCH resource of the terminal comprising the step of interpreting).

) 을 지시하고 상기 두개의 검색공간들 중 다른 하나에 상기 하향링크 제어정보가 할당하는 것은 CoMP 모드로 동작하는 단말의 PUCCH의 자원 영역의 시작지점(

)을 지시하는 제어부; 및 상기 하향링크 제어정보를 PDCCH를 통해 단말에 전송하는 송신부를 포함하는 기지국을 제공한다.Another embodiment is an apparatus for dynamically indicating a PUCCH resource location according to a CoMP mode, and assigns downlink control information to one of two search spaces of a control region in a subframe and to one of the two search spaces. Allocating the downlink control information includes a starting point of a resource region of a PUCCH of a UE operating in a non-CoMP mode;

) And allocating the downlink control information to the other one of the two search spaces is the start point of the resource region of the PUCCH of the UE operating in the CoMP mode (

A control unit indicating); And a transmitter for transmitting the downlink control information to a terminal through a PDCCH.

)을 지시하는 것을 해석하고 상기 두개의 검색공간들 중 다른 하나로부터 상기 하향링크 제어정보를 디코딩한 경우 CoMP 모드로 동작하는 단말의 PUCCH의 자원 영역의 시작지점(

)을 지시하는 것으로 해석하는 제어부를 포함하는 단말을 제공한다.Another embodiment is an apparatus for allocating PUCCH resources, comprising: a receiving unit for receiving downlink control information from a base station through a PDCCH; And decoding the downlink control information in two search spaces of a control region within a subframe of the radio frame and decoding the downlink control information from one of the two search spaces. Starting point of the resource region of the PUCCH,

) And the start point of the resource region of the PUCCH of the UE operating in the CoMP mode when the downlink control information is decoded from the other of the two search spaces.

It provides a terminal including a control unit for interpreting that).

)과 CoMP 모드로 동작하는 단말의 PUCCH의 자원 영역의 시작지점 중 하나를 지시하는 지시자(indicator)를 포함하는 하향링크 제어정보를 구성하는 단계: 상기 하향링크 제어정보를 단말에 전송하는 단계를 포함하는 기지국의 PUCCH 자원 위치 지시방법을 제공한다.Another embodiment is a method of dynamically indicating a location of a PUCCH resource according to CoMP mode, instructs the mapping of the resource element of the PDSCH according to the CoMP operation and at the same time the resources of the PUCCH of the UE operating in the non-CoMP mode Starting point of the area,

And configuring downlink control information including an indicator indicating one of a start point of a resource region of a PUCCH of a UE operating in a CoMP mode: transmitting the downlink control information to the terminal. It provides a PUCCH resource location indication method of a base station.

)과 CoMP 모드로 동작하는 단말의 PUCCH의 자원 영역의 시작지점(

) 중 하나를 지시하는 지시자(indicator)를 포함하는 하향링크 제어정보를 수신하는 단계; 및 상기 하향링크 제어정보에 포함된 상기 지시자에 따라 상기 비 CoMP 모드로 동작하는 단말에 대해 PUCCH의 자원을

으로 할당하고 상기 CoMP 모드로 동작하는 단말의 PUCCH의 자원 영역을

으로 할당하는 단계를 포함하는 단말의 PUCCH 자원 할당방법을 제공한다.Another embodiment is a method of allocating a PUCCH resource, which indicates a mapping to a resource element of a PDSCH according to a CoMP operation and simultaneously starts a starting point of a resource region of a PUCCH of a UE operating in a non-CoMP mode;

) And the starting point of the resource region of the PUCCH of the UE operating in the CoMP mode (

Receiving downlink control information including an indicator indicating one of the " And resources of the PUCCH for the UE operating in the non-CoMP mode according to the indicator included in the downlink control information.

Allocates the resource region of the PUCCH of the UE operating in the CoMP mode

It provides a PUCCH resource allocation method of a terminal comprising the step of assigning.

)과 CoMP 모드로 동작하는 단말의 PUCCH의 자원 영역의 시작지점 중 하나를 지시하는 지시자(indicator)를 포함하는 하향링크 제어정보를 구성하는 제어부: 및 상기 하향링크 제어정보를 단말에 전송하는 송신부를 포함하는 기지국을 제공한다.Another embodiment is an apparatus for dynamically indicating a location of a PUCCH resource according to whether a CoMP mode is used, and indicates a mapping to a resource element of a PDSCH according to a CoMP operation and simultaneously performs a resource of a PUCCH of a UE operating in a non-CoMP mode. Starting point of the area,

And a control unit for configuring downlink control information including an indicator indicating one of a start point of a resource region of a PUCCH of a UE operating in a CoMP mode: and a transmitter configured to transmit the downlink control information to a terminal. It provides a base station comprising.

)과 CoMP 모드로 동작하는 단말의 PUCCH의 자원 영역의 시작지점(

) 중 하나를 지시하는 지시자(indicator)를 포함하는 하향링크 제어정보를 수신하는 수신부; 및 상기 하향링크 제어정보에 포함된 상기 지시자에 따라 상기 비 CoMP 모드로 동작하는 단말에 대해 PUCCH의 자원을

Another embodiment is an apparatus for allocating PUCCH resources, instructing mapping of resource elements of a PDSCH according to a CoMP operation, and simultaneously starting points of a resource region of a PUCCH of a UE operating in a non-CoMP mode.

) And the starting point of the resource region of the PUCCH of the UE operating in the CoMP mode (

Receiving unit for receiving downlink control information including an indicator (indicator) indicating one of the; And resources of the PUCCH for the UE operating in the non-CoMP mode according to the indicator included in the downlink control information.

으로 할당하는 제어부를 포함하는 단말을 제공한다.Allocates the resource region of the PUCCH of the UE operating in the CoMP mode

It provides a terminal including a control unit allocated to.

)과 CoMP 모드로 동작하는 단말의 PUCCH의 자원 영역의 시작지점 중 하나를 지시하는 하향링크 제어정보를 구성하는 단계: 상기 하향링크 제어정보를 단말에 전송하는 단계를 포함하는 기지국의 PUCCH 자원 위치 지시방법을 제공한다.Another embodiment is a method of dynamically indicating a PUCCH resource location according to whether a CoMP mode is used. A PUCCH of a UE operating in a non-CoMP mode by reusing some of values of an antenna port, a scrambling ID, and an indicator indicating the number of layers is reused. Starting point of the resource area of

And configuring downlink control information indicating one of the start points of the resource region of the PUCCH of the UE operating in the CoMP mode: transmitting the downlink control information to the terminal indicating the PUCCH resource location of the base station Provide a method.

)과 CoMP 모드로 동작하는 단말의 PUCCH의 자원 영역의 시작지점(

) 중 하나를 지시하는 지시자(indicator)를 포함하는 하향링크 제어정보를 수신하는 단계; 및 상기 하향링크 제어정보에 포함된 상기 지시자에 따라 상기 비 CoMP 모드로 동작하는 단말에 대해 PUCCH의 자원을

으로 할당하고 상기 CoMP 모드로 동작하는 단말의 PUCCH의 자원 영역을

으로 할당하는 단계를 포함하는 단말의 PUCCH 자원 할당방법을 제공한다.In another embodiment, a PUCCH resource allocation method includes: a starting point of a resource region of a PUCCH of a UE operating in a non-CoMP mode by reusing some of values of an antenna port, a scrambling ID, and an indicator indicating the number of layers;

) And the starting point of the resource region of the PUCCH of the UE operating in the CoMP mode (

Receiving downlink control information including an indicator indicating one of the " And resources of the PUCCH for the UE operating in the non-CoMP mode according to the indicator included in the downlink control information.

Allocates the resource region of the PUCCH of the UE operating in the CoMP mode

It provides a PUCCH resource allocation method of a terminal comprising the step of assigning.

)과 CoMP 모드로 동작하는 단말의 PUCCH의 자원 영역의 시작지점(

) 중 하나를 지시하는 지시자(indicator)를 포함하는 하향링크 제어정보를 구성하는 제어부: 및 상기 하향링크 제어정보를 단말에 전송하는 송신부를 포함하는 기지국을 제공한다.Another embodiment is an apparatus for dynamically indicating a PUCCH resource location according to whether a CoMP mode is used. A PUCCH of a UE operating in a non-CoMP mode by reusing some of values of an antenna port, a scrambling ID, and an indicator indicating the number of layers is reused. Starting point of the resource area of

) And the starting point of the resource region of the PUCCH of the UE operating in the CoMP mode (

A control unit for configuring downlink control information including an indicator (indicator) indicating one of the; and a base station including a transmitter for transmitting the downlink control information to the terminal.

)과 CoMP 모드로 동작하는 단말의 PUCCH의 자원 영역의 시작지점(

) 중 하나를 지시하는 지시자(indicator)를 포함하는 하향링크 제어정보를 수신하는 수신부; 및 상기 하향링크 제어정보에 포함된 상기 지시자에 따라 상기 비 CoMP 모드로 동작하는 단말에 대해 PUCCH의 자원을

으로 할당하고 상기 CoMP 모드로 동작하는 단말의 PUCCH의 자원 영역을

으로 할당하는 제어부를 포함하는 단말을 제공한다.Another embodiment is an apparatus for allocating PUCCH resources, wherein a part of an antenna port, a scrambling ID, and values of an indicator indicating the number of layers is reused to start a resource region of a PUCCH of a UE operating in a non-CoMP mode. point,

) And the starting point of the resource region of the PUCCH of the UE operating in the CoMP mode (

Receiving unit for receiving downlink control information including an indicator (indicator) indicating one of the; And resources of the PUCCH for the UE operating in the non-CoMP mode according to the indicator included in the downlink control information.

Allocates the resource region of the PUCCH of the UE operating in the CoMP mode

It provides a terminal including a control unit allocated to.

1 illustrates an example of a wireless communication system to which embodiments are applied.
2 shows an example of an uplink subframe structure.
3 illustrates an example of PUCCH allocation between a UE in a non-CoMP mode and a UE in a CoMP mode according to an embodiment.
4 shows another example of a wireless communication system to which embodiments are applied.
5 illustrates another example of PUCCH allocation between a UE in a non-CoMP mode and a UE in a CoMP mode according to an embodiment.
6 is a flowchart illustrating a method for allocating uplink control information of transmission / reception points and terminals according to another embodiment.
7 is a conceptual diagram for indicating a PUCCH resource location using search spaces.
8 is a flowchart illustrating a method of transmitting PUCCH after allocating PUCCH resources using search spaces of a UE.
9 is a flowchart illustrating a method of allocating transmission / reception points and PUCCH resources of terminals according to another embodiment.
10 is a diagram illustrating a configuration of a base station according to another embodiment of the present invention.
11 is a diagram illustrating a configuration of a user terminal according to another embodiment.

Hereinafter, some embodiments of the present invention will be described in detail with reference to exemplary drawings. In adding reference numerals to the components of each drawing, it should be noted that the same reference numerals are assigned to the same components as much as possible even though they are shown in different drawings. In the following description of the present invention, a detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present invention rather unclear.

The wireless communication system in the present invention is widely deployed to provide various communication services such as voice, packet data and the like. A wireless communication system includes a user equipment (UE) and a base station (BS, or eNB). In the present specification, a user terminal is a generic concept meaning a terminal in wireless communication. In addition, user equipment (UE) in WCDMA, LTE, and HSPA, as well as mobile station (MS) in GSM, user terminal (UT), and SS It should be interpreted as a concept that includes a subscriber station, a wireless device, and the like.

A base station or a cell generally refers to a station that communicates with a user terminal, and includes a Node-B, an evolved Node-B, an Sector, a Site, and a BTS. It may be called other terms such as Base Transceiver System, Access Point, Relay Node.

That is, in the present specification, a base station or a cell is interpreted in a comprehensive sense to indicate some areas or functions covered by a base station controller (BSC) in CDMA, a NodeB in WCDMA, an eNB or a sector (site) in LTE, and the like. It is meant to cover various coverage areas such as megacell, macrocell, microcell, picocell, femtocell and relay node communication range.

Herein, the user terminal and the base station are used in a broad sense as the two transmitting and receiving subjects used to implement the technical or technical idea described in this specification, and are not limited by a specific term or word. The user terminal and the base station are used in a broad sense as two (uplink or downlink) transmitting and receiving subjects used to implement the technology or technical idea described in the present invention, and are not limited by a specific term or word. Here, the uplink (Uplink, UL, or uplink) refers to a method for transmitting and receiving data to the base station by the user terminal, the downlink (Downlink, DL, or downlink) means to transmit and receive data to the user terminal by the base station It means the way.

There are no restrictions on multiple access schemes applied to wireless communication systems. Various multiple access schemes such as Code Division Multiple Access (CDMA), Time Division Multiple Access (TDMA), Frequency Division Multiple Access (FDMA), Orthogonal Frequency Division Multiple Access (OFDMA), OFDM-FDMA, OFDM- Can be used. An embodiment of the present invention can be applied to asynchronous wireless communication that evolves into LTE and LTE-advanced via GSM, WCDMA, and HSPA, and synchronous wireless communication that evolves into CDMA, CDMA-2000, and UMB. The present invention should not be construed as limited to or limited to a specific wireless communication field and should be construed as including all technical fields to which the idea of the present invention can be applied.

A TDD (Time Division Duplex) scheme in which uplink and downlink transmissions are transmitted using different time periods, or an FDD (Frequency Division Duplex) scheme in which they are transmitted using different frequencies can be used.

In systems such as LTE and LTE-A, the uplink and downlink are configured on the basis of one carrier or carrier pair to form a standard. The uplink and downlink transmit control information through a control channel such as a Physical Downlink Control Channel (PDCCH), a Physical Control Format Indicator CHannel (PCFICH), a Physical Hybrid ARQ Indicator CHannel (PHICH), a Physical Uplink Control CHannel And a data channel such as a Physical Downlink Shared CHannel (PDSCH), a Physical Uplink Shared CHannel (PUSCH), and the like.

In the present specification, a cell means a component carrier having a coverage of a signal transmitted from a transmission / reception point or a signal transmitted from a transmission point or a transmission / reception point, and the transmission / reception point itself. Can be.

1 illustrates an example of a wireless communication system to which embodiments are applied.

Referring to FIG. 1, a wireless communication system 100 to which embodiments are applied includes a coordinated multi-point transmission / reception system (CoMP system) or cooperative system in which two or more transmission / reception points cooperate to transmit a signal. It may be a coordinated multi-antenna transmission system, a cooperative multi-cell communication system. The CoMP system 100 may include at least two multiple transmission / reception points 110 and 112 and terminals 120 and 122.

The multiple transmit / receive points have a high transmission power or low transmission in the macro cell area, which is wired controlled by being connected to a base station or a macro cell (macro cell 110, hereinafter referred to as an 'eNB') and an optical cable or an optical fiber to the eNB 110. It may be at least one RRH 112 with power.

Hereinafter, downlink refers to a communication or communication path from the multiple transmit / receive points 110 and 112 to the terminal 120, and uplink corresponds to the multiple transmit / receive points 110 and 112 from the terminal 120. Means communication or communication path. In downlink, the transmitter may be part of multiple transmit / receive points 110 and 112, and the receiver may be part of terminals 120 and 122. In uplink, the transmitter may be part of the terminal 120 and the receiver may be part of the multiple transmission / reception points 110 and 112.

Hereinafter, a situation in which a signal is transmitted / received through a channel such as PUCCH, PUSCH, PDCCH, and PDSCH is expressed as 'PUCCH, PUSCH, PDCCH and PDSCH are transmitted and received'.

The eNB 110 performs downlink transmission to the terminals 120 and 122. The eNB 110 performs downlink control information and uplink data channels such as a physical downlink shared channel (PDSCH), which is a main physical channel for unicast transmission, and scheduling required for reception of the PDSCH. A physical downlink control channel (PDCCH) for transmitting scheduling grant information for transmission in (eg, a physical uplink shared channel (PUSCH)) may be transmitted. Hereinafter, the transmission / reception of a signal through each channel will be described in a form in which the corresponding channel is transmitted / received.

The first terminal 120 and UE1 transmits an uplink signal to the eNB 110. The second terminal 122 and the UE2 transmit an uplink signal to the RRH 112.

The UEs 120 and 122 are a PUSCH, which is a main physical channel for unicast transmission as an uplink data channel, and a HARQ acknowledgment, channel status report indicating whether a downlink transport block is successfully received as an uplink control channel, and Physical uplink control channel (PUCCH), which is a channel used for transmitting uplink control information (UCI) including a scheduling request for resource allocation when transmitting data in uplink ) Can be sent.

The uplink resource block to which the PUCCH is allocated is located at the edge of the total available cell bandwidth. This is for the purpose of maximizing the frequency diversity experienced by the control signaling, and for the purpose of allocating a wide transmission bandwidth to a single terminal while maintaining the single carrier characteristic of the uplink transmission by not splitting the uplink spectrum. The PUSCH is mapped between the edges to which the PUCCH is mapped, and the amount of contiguous spectrum possible for PUSCH transmission is maximized.

2 shows an example of an uplink subframe structure.

Referring to FIG. 2, the uplink subframe 200 is a data area to which a control area to which a physical uplink control channel (PUCCH) carrying an uplink control signal is allocated and a physical uplink shared channel (PUSCH) to carry user data are allocated. Can be divided. In order to maintain a single carrier characteristic in SC-FDMA, one resource terminal is allocated with consecutive resource blocks in the frequency domain.

A PUCCH for one UE is allocated as a resource block pair (RB pair) in a subframe. Resource blocks belonging to a resource block pair occupy different subcarriers in each of the first slot 210 and the second slot 220. It is assumed that the resource block pair allocated to the PUCCH is frequency hopped at a slot boundary. and m is a position index indicating the frequency domain position of the resource block allocated to the PUCCH in the subframe.

The uplink control signal transmitted on the PUCCH includes an HARQ ACK / NACK signal, a CQI indicating a downlink channel state, and an SR, which is an uplink radio resource allocation request.

Table 1 summarizes uplink control information according to the PUCCH format.

In Table 1, PUCCH format 1 is used for transmission of SR, PUCCH format 1a or format 1b is used for transmission of HARQ ACK / NACK signal, PUCCH format 2 is used for transmission of CQI, and PUCCH format 2a / 2b is used for CQI and HARQ ACK. Used for transmission of / NACK signal, PUCCH format 3 can be used for transmission of HARQ ACK / NACK signal or simultaneous transmission of HARQ ACK / NACK and SR signal.

As shown in FIG. 1, interference between PUCCHs may occur when reception points of PUCCHs received by UEs 120 and 122 are different from eNB 110 and RRH 112 within cell coverage of an eNB. In particular, when the eNB 110 and the RRH 112 use different cell IDs, the base sequence of the PUCCH is different.

3 illustrates an example of PUCCH allocation between a UE in a non-CoMP mode and a UE in a CoMP mode according to an embodiment.

1 and 3, in order to avoid such interference problem, PUCCH transmission directed to or targeting the eNB 110 and PUCCH transmission directed to the RRH 112 are performed in the frequency domains 310 and 320. Can be assigned to distinguish from each other.

PUCCH uplink CoMP technology has been studied to reduce such interference and to increase the PUCCH reception rate. This means that the UE transmits the PUCCH transmission at two or more points at the same time, or the UE transmits the PUCCH toward a point other than a point where the UE and the downlink are connected.

As shown in FIG. 1, the downlink transmission point may be the eNB 110 and the uplink reception point may be the RRH 112 with respect to the second terminal 122. In this case, for the PUCCH transmission of the second terminal 122 where DL transmission points and UL reception points are different from each other, a new frequency region different from the PUCCH transmission of the first terminal 120 Since 320 is allocated, the PUCCH transmission and the PUCCH transmission directed to the RRH 112 may be divided into frequency domains or resource regions 310 and 320.

4 shows another example of a wireless communication system to which embodiments are applied.

Referring to FIG. 4, as another example of a wireless communication system to which embodiments are applied, the CoMP system 400 may include at least two multiple transmission / reception points 110 and 112 and at least three terminals 120, 122, and 124. Can be. The CoMP system 400 shown in FIG. 4 has one third terminal 124 and UE3 added thereto, except that the uplink and downlink points of the third terminal 124 are the RRH 112. It is the same as the CoMP system 100 shown in FIG.

The PUCCH resources of the terminals 120, 122, and 124 are determined by downlink control information (CoMP serving eNB PDCCH) of the eNB 110, which is a serving cell. However, PUCCH transmission of the terminals 120 and 122 of the eNB 110 may be directed to other RRHs in order to save uplink PUCCH transmission power and reduce uplink interference with adjacent cells or points. Accordingly, the RRH 120 should be designed to accommodate the PUCCH of the CoMP terminal of the eNB 110, for example, the second terminal 122, as well as the PUCCH of the terminal of the RRH, for example, the third terminal 124.

Accordingly, as described with reference to FIG. 4, a collision between PUCCH resources of the second terminal 122 and the third terminal 124 using the RRH 112 as a reception point may occur.

5 illustrates another example of PUCCH allocation between a UE in a non-CoMP mode and a UE in a CoMP mode according to an embodiment.

Referring to FIG. 5, in order to avoid such collision, the resource region 520 of the second terminal 120 and the PUCCH resource region 530 of the third terminal may be distinguished. In addition, when the resource region 510 of the first terminal 122 is distinguished from other resource regions 520 and 530, data transmission using the resource region 510 of the terminals (PeNB1 UE, PeNB2 UE) belonging to the RRH may be possible. Can be.

In other words, resource collision occurs between the second and third terminals. The eNB terminal is divided into legacy, UE1, and UE2 areas because legacy UEs cannot allocate PUCCH to a newly allocated PUCCH region (UE1, UE2 in the figure) to avoid interference because UL CoMP is impossible.

Since the first terminal 120 and the second terminal 122 are scheduled by one eNB 110, their PUCCH resources do not collide or overlap. Meanwhile, the eNB 110 and the RRH 112 should prevent the PUCCH resources of the first to third terminals 120, 122, and 124 from colliding or overlapping due to coordination or resource allocation to another area. Hereinafter, the first terminal 120 and the second terminal 122 will be described as a reference, but the first to third terminals 120, 122, and 124 may be similarly applied.

이었지만 상향링크 CoMP에서는 여기에 추가적으로 PUCCH 전송을 위한 상향링크 CoMP PUCCH 자원 영역의 시작지점을 지시하는 PUCCH 자원 옵셋 파라미터가 필요하다. 이 새로운 PUCCH 자원 옵셋 파라미터 N_{PUCCH_UE} ⁽¹⁾는 PUCCH 포맷 1a/1b에 대해 특정 UE에 대한 PUCCH 자원의 시작 위치(starting location)을 의미한다. 상향링크 CoMP에 대한 새로운 PUCCH 자원 영역은 N_{PUCCH_UE} ⁽¹⁾ 로 표시되는 새로운 PUCCH 자원 옵셋 파라미터의 UE-dediciated RRC 시그널링에 의해 지원될 수 있다. In the transmission of the PUCCH format 1a / 1b, the PUCCH resource offset parameter indicating a resource start point of the PUCCH transmission is

However, in uplink CoMP, a PUCCH resource offset parameter indicating a start point of an uplink CoMP PUCCH resource region for PUCCH transmission is additionally required. This new PUCCH resource offset parameter N _{PUCCH_UE} ⁽¹⁾ means the starting location of the PUCCH resource for a specific UE for PUCCH format 1a / 1b. The new PUCCH resource region for uplink CoMP may be supported by UE-dediciated RRC signaling of a new PUCCH resource offset parameter indicated by N _{PUCCH_UE} ⁽¹⁾ .

Also, considering the dynamic change of CoMP, it may be more appropriate in the CoMP situation that these two parameters are dynamically indicated. Accordingly, the present invention provides a method and apparatus for dynamically indicating a start point of a PUCCH format 1a / 1b in an uplink CoMP situation.

6 is a flowchart illustrating a method for allocating uplink control information of transmission / reception points and terminals according to another embodiment.

1 and 6, in the CoMP system 100, DL transmission points and UL reception points are both eNBs 110 on the side of the first terminal 120. . On the other hand, in terms of the second terminal 122, the eNB 110 is a downlink transmission point or a downlink serving cell, and the RRH 112 is an uplink reception point, and downlink transmission points are DL transmission points. ) And UL reception points may be different from each other. As shown in FIG. 4, the DL transmission points and the UL reception points are both RRHs 112 on the side of the third terminal 124. The second terminal and the third terminal are RRHs 112. The uplink control may be performed in the same manner as the eNB 110 directly or indirectly.

The first terminal 120 illustrated in FIG. 1 is a terminal (3GPP Rel-8 / 9 terminal) operating in a non-CoMP mode and the second terminal 122 is a terminal (CoMP terminal) operating in a CoMP mode.

In the CoMP system 100, the eNB 110 first allocates downlink control information to a control region in a subframe (S610). In step S610, the eNB 110 allocates downlink control information to one of two search spaces of the control region in the subframe. In step S610, downlink control information allocated to one of two search spaces indicates a starting point of a resource region of a PUCCH of a UE operating in a non-CoMP mode and the other one of the two search spaces. The downlink control information is allocated to the start point of the resource region of the PUCCH of the UE operating in the CoMP mode.

Next, the eNB 110 transmits downlink control information to the terminal through the PDCCH (S620).

로 정의한다. Specifically, the PDCCH carrying downlink control information is configured in CCE units. One PDCCH may consist of 1, 2, 4, or 8 CCEs, and this is called an aggregation level.

.

PDCCH candidate m monitored by the terminals 120 and 122 are shown in Table 2.

는 일반적으로 다음 수학식1과 같이 표현된다.
Accordingly, the search space of PDCCH is

Is generally expressed as Equation 1 below.

이다.In the common search space (Equation 1), Y _k = 0, in the UE-specific search space (UE-specific search space) of the aggregation level L, Y _k is

to be.

Where Y ₋₁ = n _RNTI ≠ 0, A = 39827, D = 65537, and k = floor (n _s / 2).

n _s is defined as the slot number in the radio frame.

i = 0,1, ..., L-1, m = 0, ..., M ^(L) -1. N _{CCE , k} is the total number of CCEs that can be used for downlink control information in the control region of subframe k. M ^(L) is the number of downlink control information candidates at the CCE aggregation level L in a given search space.

i = 0,1, ..., L-1, m = 0, ..., M ^(L) -1. N _{CCE , k} is the total number of CCEs that can be used for downlink control information in the control region of subframe k. M ^(L) is the number of downlink control information candidates at the CCE aggregation level L in a given search space.

이고 단말 특정 검색 공간의 경우 For common search space

For a terminal-specific search space

인데

는 CIF 필드의 값을 의미한다. 만약 단말이 CIF 필드가 설정되지 않았다면

이며

의 범위를 갖는다.

It is

Is the value of the CIF field. If the terminal has not set the CIF field

And

Lt; / RTI >

In a carrier aggregation environment using multiple carriers, a search space of a UE may include a number of carriers (each carrier may be defined as one cell) or a carrier indicator field indicating these carriers. , Hereinafter referred to as 'CIF'.

이고

=0,...,5로 도 7의 (a)의 제1영역(710)이다. 하지만 단말에게 둘 이상의 반송파들(또는 셀들)이 설정된다면 CIF의 인덱스, 예를 들면 CIF=0와 CIF=1이 설정되었다면 집합레벨이 1인 단말의 PDCCH의 검색공간은 제1영역(710)과

이고 m'=m+6=6,...,11로 제2영역(720)이 되고, CIF=0과 CIF=2가 설정되었다면 집합레벨이 1인 단말의 PDCCH의 검색공간은 제1영역(710,

)과

이고 m'=m+12=12,...,17로 제3영역(730)이 단말의 검색공간이 된다.For example, if the CIF is not set in the UE, the search space of the PDCCH of the UE having the aggregation level 1 is

ego

= 0, ..., 5, which is the first region 710 of FIG. However, if two or more carriers (or cells) are configured in the UE, if the index of the CIF, for example, CIF = 0 and CIF = 1 are set, the search space of the PDCCH of the UE having the aggregation level 1 is equal to that of the first region 710.

And m '= m + 6 = 6, ..., 11, the second area 720 is set, and if CIF = 0 and CIF = 2 are set, the search space of the PDCCH of the UE having the aggregation level 1 is the first area. (710,

)and

And m '= m + 12 = 12, ..., 17, the third area 730 becomes a search space of the terminal.

Therefore, the number of blind decoding of the terminals (120, 122) is 12 + 48 * n _x . Here, 12 is the number of blind decoding in the common search space and 48 * n means the number of blind decoding in the UE-specific search space, where n _x represents the number of carriers or cells configured for the UE.

Meanwhile, in a CoMP environment, only a single cell (single component carrier) may be used. Accordingly, only the first region 710 of FIG. 7 (a) should be allocated to the search space of the PDCCH of the UE having the CIF not set to the UE and having the aggregation level 1. FIG.

Although only a single cell (single component carrier) is used in a CoMP environment, as shown in FIGS. 7B and 7C, the PUCCH format 1a / 1b of the UE in the uplink non-CoMP mode or CoMP mode may be The eNB 110 allocates two search spaces 740, 750 to indicate the starting point.

)을 지시하고 두개의 검색공간들 중 다른 하나에 하향링크 제어정보를 할당하므로 CoMP 모드로 동작하는 단말의 PUCCH의 자원 영역의 시작지점(

)을 지시한다.In other words, in step S610, since the eNB 110 allocates downlink control information to one of two search spaces, the starting point of the resource region of the PUCCH of the UE operating in the non-CoMP mode (

) And the downlink control information is allocated to one of the two search spaces, so that the start point of the resource region of the PUCCH of the UE operating in the CoMP mode (

).

와 동일하지만

으로 정의한다. 여기서 n은 실제 DCI 필드의 값을 아니라 기존 레거시 검색공간(legacy search space)인지 아니면 새롭게 탐색되는 검색공간인지를 구분할 수 있는 파라미터이다. 다시말해 상향링크 CoMP 모드로 운용되는 제2단말에 있어서 PDCCH 검색공간은 기존 단일 셀을 사용하는 단말에 비해 두 배의 검색공간을 차지한다. Accordingly, the search space of the PDCCH of the UE according to Equation 1

Same as

. In this case, n is a parameter that can distinguish whether the legacy legacy search space or the newly searched search space, not the actual DCI field value. In other words, in the second terminal operated in the uplink CoMP mode, the PDCCH search space occupies twice as much search space as the terminal using the existing single cell.

)을 지시하게 된다. 한편 도 7의 (c)에 도시한 바와 같이 n=1로 PDCCH가 제2영역(750)의 검색공간에 할당된 경우 CoMP 모드로 동작하는 단말의 PUCCH의 자원영역의 시작지점(

)을 지시하게 된다. 결과적으로 본 발명에서 동적 HARQ A/N에 대한 PUCCH 포맷 1a/1b의 PUCCH 자원 영역을 단말들(120, 122)에게 묵시적(암시적으로 또는 implicit) 지시하게 된다.As shown in (b) of FIG. 7, when n = 0, the PDCCH is allocated to the search space of the first region 740, the start point of the resource region of the PUCCH of the UE operating in the non-CoMP mode (

) Will be displayed. On the other hand, as shown in (c) of FIG. 7, when the PDCCH is allocated to the search space of the second region 750 with n = 1, the starting point of the resource region of the PUCCH of the UE operating in the CoMP mode (

) Will be displayed. As a result, in the present invention, the PUCCH resource region of the PUCCH format 1a / 1b for the dynamic HARQ A / N is implicitly (implicitly or implicitly) indicated to the terminals 120 and 122.

Referring back to FIGS. 1 and 6, as a result of step S620, the terminals 120 and 122 receive the downlink control information through the PDCCH, and then blindly decode the downlink control information (S630).

The UEs 120 and 122 may use the two search spaces shown in FIGS. 7B and 7C even though the eNB 110 uses only a single cell (single component carrier) in a CoMP environment. The first region 740 and the second region 750 are blindly decoded. Accordingly, the number of blind decodings of the terminals of the terminals 120 and 122 is 12 + 48 * 2. This is multiplied by 2 because the search spaces are doubled in the general blind decoding number (12 + 48 * n _x ).

이 되고 제2영역(750)에서 PDCCH가 검출되면 PUCCH 포맷 1a/1b의 시작지점은

인 것으로 해석한다. 물론 단말들(120, 122)은 두개의 영역(740, 750)에서 PDCCH가 검색되지 않으며 PUCCH 포맷 1a/1b의 PUCCH를 전송하지 않는다.For example, as shown in (b) and (c) of FIG. 7, when a search space of an existing terminal in non-CoMP mode is designated as n = 0 and a new search space is designated as n = 1, terminals ( 120 and 122, when the PDCCH is detected in the first region 740, the starting point of the PUCCH format 1a / 1b is

If the PDCCH is detected in the second region 750, the start point of the PUCCH format 1a / 1b is

Interpret as Of course, the terminals 120 and 122 do not search for the PDCCH in the two regions 740 and 750 and do not transmit the PUCCH in the PUCCH format 1a / 1b.

로 도 5의 제1영역(510)에 PUCCH를 할당하여 전송한다(S640).Next, since the first terminal 120 of FIG. 1 is a non-CoMP mode terminal, the first terminal 120 blindly decodes the PDCCH in the first region 740 of the two search spaces 740 and 750. It may not. If the first terminal 120 blindly decodes the PDCCH in the first region 740 of the two search spaces 740 and 750, the first terminal 120 determines the starting point of the PUCCH format 1a / 1b.

In operation S640, the PUCCH is allocated to the first region 510 of FIG.

Specifically, referring to FIGS. 2, 5, and 7 (b), a resource block used for PUCCH transmission of each slot of an uplink subframe is determined by Equation 2.

Here, m is determined by the PUCCH format, and formats 1, 1a and 1b follow equation (3), formats 2, 2a and 2b follow equation (4), and format 3 follows equation (5).

This relationship is shown by m in the uplink subframe of FIG.

에 따라 PUCCH 전송 자원은 수학식 6에 의해 결정된다.CCE index of the PDCCH carrying DCI information indicating the transmission of PDSCH according to the dynamic CCE-to-AN linkage rule

According to the PUCCH transmission resource is determined by the equation (6).

는 PUCCH 포맷 1a, 1b가 시작되는 지점을 나타내는 것이며

는 DCI 정보를 싣는 PDCCH의 첫번째 CCE 인덱스를 의미한다.here

Denotes the point where the PUCCH formats 1a and 1b begin.

Means the first CCE index of the PDCCH carrying DCI information.

와

의 합인 자원 인덱스

를 이용하여 x +4 번째 상향링크 서브프레임의 제어영역의 PUCCH를 통해 전송된다.For example, the first control channel element (CCE) index of the PDCCH transmitted in the x th subframe is HARQ ACK / NACK for the PDSCH transmitted in the x th subframe.

Wow

Resource index that is the sum of

Is transmitted through the PUCCH of the control region of the x + 4th uplink subframe using.

의 PUCCH 사용 자원을 나타낸 것으로, 안테나 포트

의 PUCCH 자원은 수학식 7로 표현된다.Meanwhile antenna port

PUCCH usage resources of the antenna port

The PUCCH resource of is represented by equation (7).

와

의 합인 자원 인덱스

를 이용하여 x +4 번째 상향링크 서브프레임의 제어영역의 PUCCH를 통해 전송된다.For example, the first control channel element (CCE) index of the PDCCH transmitted in the x th subframe is HARQ ACK / NACK for the PDSCH transmitted in the x th subframe.

Wow

Resource index that is the sum of

Is transmitted through the PUCCH of the control region of the x + 4th uplink subframe using.

로 도 5의 제2영역(520)에 PUCCH를 할당하여 전송한다(S650).Next, since the second terminal 122 of FIG. 1 is a CoMP mode terminal, the second terminal 122 blindly decodes the PDCCH in the second region 750 of the two search spaces 740 and 750. You may not. If the second terminal 122 blindly decodes the PDCCH in the second region 750 of the two search spaces 740 and 750, the second terminal 122 may indicate the starting point of the PUCCH format 1a / 1b.

In operation S650, the PUCCH is allocated to the second region 520 of FIG. 5.

에 따라 PUCCH 전송 자원은 수학식 8에 의해 결정된다.Therefore, in contrast to Equations 6 and 7, the CCE index of the PDCCH carrying the DCI information indicating the PDSCH transmission according to the dynamic CCE-to-AN linkage rule is transmitted from the upper layer and the higher layer.

In accordance with the PUCCH transmission resource is determined by the equation (8).

는 PUCCH 포맷 1a, 1b가 시작되는 시작지점을 나타내는 것이며

는 DCI 정보를 싣는 PDCCH의 첫번째 CCE 인덱스를 의미한다.here

Indicates the starting point of PUCCH formats 1a and 1b.

Means the first CCE index of the PDCCH carrying DCI information.

의 PUCCH 사용 자원을 나타낸 것으로, 안테나 포트

의 PUCCH 자원은 수학식 7에서

를

로 대체하여 수학식 9로 표현된다.Meanwhile antenna port

PUCCH usage resources of the antenna port

PUCCH resource of the equation

To

It is expressed by Equation 9 instead.

와

의 합인 자원 인덱스

를 이용하여 x +4 번째 상향링크 서브프레임의 제어영역의 PUCCH를 통해 전송된다.For example, the first control channel element (CCE) index of the PDCCH transmitted in the x th subframe is HARQ ACK / NACK for the PDSCH transmitted in the x th subframe.

Wow

Resource index that is the sum of

Is transmitted through the PUCCH of the control region of the x + 4th uplink subframe using.

For convenience of description, in FIG. 1 and FIG. 6, the first terminal 120 is a non-CoMP mode terminal and the second terminal 122 has been described on the premise of the CoMP mode terminal. Can be. Accordingly, as described in detail below with reference to FIG. 8, the terminals 120 and 122 blindly decode two search spaces and determine a starting point at which PUCCH formats 1a and 1b start according to the search space where the PDCCH is searched. As a result, PUCCH transmission resources may be allocated according to Equation 6 or Equation 8.

In the embodiment described with reference to FIG. 6, it has been described that two search spaces are used to implicitly indicate a start point of a resource region of PUCCH format 1a / 1b. However, the present invention is not limited to the number of search spaces. For example, three or more search spaces may be used or some of one search spaces may be used. In the latter case, for example, when the aggregation level is 1, the resource of PUCCH format 1a / 1b is divided into the case of allocating PDCCH to the first three CCEs among the six CCEs and the case of allocating the PDCCH to three later CCEs. It is possible to indicate the starting point of a resource region of PUCCH format 1a / 1b by indicating a starting point of a region or dividing a PDCCH to even-numbered CCEs and a case of allocating a PDCCH to odd-numbered CCEs. have.

8 is a flowchart illustrating a method of transmitting PUCCH after allocating PUCCH resources using search spaces of a UE.

이다. Referring to FIG. 8, the UE calculates search spaces of the PDCCH represented by Equation 1 according to Equation 1 (S810). Here, the terminal may be all terminal (s) located within the cell coverage of the first and second terminals 120 and 122, the third terminal 124, or the eNB 110 of FIG. 1. In Equation 1

to be.

에서 n=0의 제1검색공간에서 PDCCH이 검색되는지 판단한다(S820). 예를 들어 집합레벨이 1인 경우 도 7의 제1영역 또는 제1검색공간(740)에서 PDCCH가 검색되는지 판단한다. Next, the terminal according to each aggregation level

In step S820, it is determined whether the PDCCH is found in the first search space of n = 0. For example, when the aggregation level is 1, it is determined whether the PDCCH is found in the first region or the first search space 740 of FIG. 7.

으로 안테나 포트

의 PUCCH 사용 자원을 수학식 6으로 표현하고 안테나 포트

의 PUCCH 자원을 수학식 7로 PUCCH를 할당하여 전송한다(S830). If the PDCCH is found in the first region or the first search space 740 of n = 0 in step S820, the UE determines the starting point of the PUCCH format 1a / 1b.

By antenna port

Represents the PUCCH usage resources of Equation 6 and antenna ports

The PUCCH resource of FIG. 7 is allocated by PUCCH and transmitted (S830).

에서 n=1의 제2검색공간(750)에서 PDCCH이 검색되는지 판단한다(S840). 예를 들어 집합레벨이 1인 경우 도 7의 제2영역 또는 제2검색공간(750)에서 PDCCH가 검색되는지 판단한다.If the PDCCH is not found in the first search space 740 of n = 0 in step S820, the UE according to each aggregation level.

In step S840, it is determined whether the PDCCH is found in the second search space 750 of n = 1. For example, if the aggregation level is 1, it is determined whether the PDCCH is found in the second region or the second search space 750 of FIG. 7.

으로 안테나 포트

의 PUCCH 사용 자원을 수학식 8로 표현하고 안테나 포트

의 PUCCH 자원을 수학식 9로 PUCCH를 할당하여 전송한다(S850). If the PDCCH is found in the second region or the second search space 750 of n = 1 in step S840, the UE determines the starting point of the PUCCH format 1a / 1b.

By antenna port

The PUCCH resource used in Equation 8 is represented by the antenna port

The PUCCH resource of FIG. 9 is allocated by PUCCH and transmitted (S850).

If the PDCCH is not found in the second search space 750 of n = 1 in step S840, the UE does not transmit the PUCCH of the PUCCH formats 1a / 1b (S860).

1 to 8 have been described as indicating the starting point of the resource region of the PUCCH of the terminal using two search spaces. Hereinafter, a method of indicating a start point of a resource region of a PUCCH of a UE according to another embodiment will be described.

9 is a flowchart illustrating a method of allocating transmission / reception points and PUCCH resources of terminals according to another embodiment.

1 and 9, in the CoMP system 100, the eNB 110 transmits downlink control information including an indicator indicating one of a start point of a resource region of a PUCCH (S920).

)과 CoMP 모드로 동작하는 단말의 PUCCH의 자원 영역의 시작지점(

) 중 하나를 지시할 수도 있다. 또한 이 지시자는 안테나 포트 및 스크램블링 ID, 레이어의 개수를 지시하는 지시자의 값들 중 일부를 재사용하여 비 CoMP 모드로 동작하는 단말의 PUCCH의 자원 영역의 시작지점(

)과 CoMP 모드로 동작하는 단말의 PUCCH의 자원 영역의 시작지점(

) 중 하나를 지시할 수도 있다.This indicator indicates the mapping to the resource element of the PDSCH according to the CoMP operation and at the same time the start point of the resource region of the PUCCH of the UE operating in the non-CoMP mode (

) And the starting point of the resource region of the PUCCH of the UE operating in the CoMP mode (

) May be indicated. In addition, the indicator reuses some of the values of the indicator indicating the antenna port, the scrambling ID, and the number of layers.

) And the starting point of the resource region of the PUCCH of the UE operating in the CoMP mode (

) May be indicated.

The PDSCH mapping in the CoMP environment may vary according to the CoMP mode of the UE or the CFI of each point constituting the CoMP set, the number of CRS ports, the CRS position, and the like. The indicator indicating the PDSCH RE mapping to the CoMP UE may be dynamically instructed by adding a new field to the DCI format or reusing an existing field according to the PDSCH RE mapping. As an example of the former indicator, when the PDSCH RE mapping is instructed to the CoMP UE through the DCI format, the start point of the resource region of the PUCCH of the UE may be indicated.

For example, as shown in Table 3, an indication bit for PDSCH RE mapping is newly added to the DCI format, and the UE's assumption of PDSCH RE mapping and the start point of the PUCCH resource region (PUCCH offset) are shown. ) At the same time.

As another example of the former indicator, as shown in Table 4, since the CoMP system uses only a single carrier (cell), a CIF field indicating two or more carriers (hereinafter referred to as 'CoIF' (CoMP Indicator Field) to distinguish it from the CIF field). ) Can be used to indicate the UE's assumption of PDSCH RE mapping and the start point (PUCCH offset) of the resource region of the PUCCH at the same time. In the PDSCH RE mapping of the UE, the CoMP set may be three points.

CoIF of Table 4 may be associated with a UE specific set of CoMP elements configured by the upper layer of Table 5.

Combining Table 4 and Table 5, CoIF can deliver various combinations of CoMP elements from semi-statically configured CoMP elements as shown in Table 5, and can simultaneously indicate the starting point of the PUCCH resource region (PUCCH offset). .

As another example of the former indicator, as shown in Table 6, when the number of CoMP elements is 2, CoIF delivers various combinations of CoMP elements from semi-statically configured CoMP elements as shown in Table 5 and the resource region of PUCCH. The start point of the PUCCH offset may be simultaneously indicated.

The latter indicator reuses some of the values indicating the antenna port (s), the scrambling identity, and the number of layers as the PUCCH offset of the resource region of the PUCCH. An example may be a field indicating an antenna port (s), a scrambling identity, and a number of layers in Table 7 in DCI format 2C.

In Table 7, n _SCID is the scrambling ID of antenna ports 7 and 8. In addition, when two transport blocks are enabled, transport block 1 is mapped to codeword 0 and transport block 2 is mapped to codeword 1. FIG. Meanwhile, if one of the two transmission blocks is not enabled, only one transmission block is mapped to one codeword.

For example, to reuse some of the values indicating the antenna port (s), the scrambling identity, and the number of layers as the PUCCH offset of the resource region of the PUCCH. In DCI format 2C, fields indicating an antenna port (s), a scrambling identity, and a number of layers may be modified as shown in Table 8.

)을 지시한다. 한편 하나의 인에이블된 코드워드의 필드의 값(value of the field)이 0 내지 4인 경우 비 CoMP 모드로 동작하는 단말의 PUCCH의 자원 영역의 시작지점(

)을 지시한다.In Table 8, when the value of the field of one enabled codeword is 5 to 7, the starting point of the resource region of the PUCCH of the UE operating in the CoMP mode (

). Meanwhile, when a value of the field of one enabled codeword is 0 to 4, the starting point of the resource region of the PUCCH of the UE operating in the non-CoMP mode (

).

)을 지시한다. 한편 하나의 인에이블된 코드워드의 필드의 값(value of the field)이 0 내지 3인 경우 비 CoMP 모드로 동작하는 단말의 PUCCH의 자원 영역의 시작지점(

)을 지시한다. Meanwhile, when the value of the field of two enabled codewords in Table 8 is 4 to 7, the starting point of the resource region of the PUCCH of the UE operating in the CoMP mode (

). Meanwhile, when the value of the field of one enabled codeword is 0 to 3, the starting point of the resource region of the PUCCH of the UE operating in the non-CoMP mode (

).

Referring to FIGS. 1 and 9 again, as a result of step S920, the terminals 120 and 122 receive downlink control information through the PDCCH and then interpret the downlink control information (S930).

로 도 5의 제1영역(510)에 PUCCH를 할당하여 전송한다(S940). S940단계에 PUCCH 포맷 1a/1b의 시작지점을

로 도 5의 제1영역(510)에 PUCCH를 할당하여 전송하는 단계는 도 6을 참조하여 설명한 S640단계와 실질적으로 동일하다.Next, since the first terminal 120 of FIG. 1 is a non-CoMP mode terminal, the first terminal 120 determines the starting point of the PUCCH format 1a / 1b.

In step S940, PUCCH is allocated to the first region 510 of FIG. 5. In step S940, the starting point of the PUCCH format 1a / 1b is determined.

As a result, the step of allocating and transmitting the PUCCH to the first region 510 of FIG. 5 is substantially the same as the step S640 described with reference to FIG. 6.

로 도 5의 제1영역(510)에 PUCCH를 할당하여 전송한다(S950). S950단계에 PUCCH 포맷 1a/1b의 시작지점을

로 도 5의 제2영역(520)에 PUCCH를 할당하여 전송하는 단계는 도 6을 참조하여 설명한 S650단계와 실질적으로 동일하다.Meanwhile, since the second terminal 122 shown in FIG. 1 is a CoMP mode terminal, the first terminal 120 determines the start point of the PUCCH format 1a / 1b.

In step S950, PUCCH is allocated to the first region 510 of FIG. 5. In step S950, the starting point of the PUCCH format 1a / 1b is determined.

As a result, the step of allocating and transmitting the PUCCH to the second region 520 of FIG. 5 is substantially the same as the step S650 described with reference to FIG. 6.

In the above-described embodiment with reference to FIG. 9, an indicator indicating a start point of a resource region of PUCCH format 1a / 1b is an indicator indicating an antenna port, a scrambling ID, and the number of layers included in CIF, CoIF, or DCI format 2C. For example, the present invention is not limited thereto, and any field of any DCI format may be reused or newly added.

The resource indication and allocation have been described above based on the first terminal and the second terminal, but the second terminal and the third terminal, and the first terminal and the third terminal may also be the same.

10 is a diagram illustrating a configuration of a base station according to another embodiment of the present invention.

Referring to FIG. 10, a base station 1000 according to another embodiment includes a control unit 1010, a transmission unit 1020, and a reception unit 1030.

In relation to the PUCCH resource location indicating method mainly referring to FIG. 6, the controller 1010 allocates downlink control information to one of two search spaces to indicate a start point of a resource region of the PUCCH of the UE.

In relation to the PUCCH resource location indicating method mainly referring to FIG. 9, the controller 1010 indicates mapping to a resource element of a PDSCH according to a CoMP operation and simultaneously indicates one of a start point of a resource region of a PUCCH of a UE. Configure downlink control information including an indicator.

In addition, the controller 1010 reuses some of the values of the antenna port, the scrambling ID, and the indicators indicating the number of layers, and the start point of the resource region of the PUCCH of the UE operating in the non-CoMP mode and the PUCCH of the UE operating in the CoMP mode. It configures downlink control information indicating one of the start points of the resource region.

The transmitter 12020 transmits downlink control information to the terminal through the PDCCH.

11 is a diagram illustrating a configuration of a user terminal according to another embodiment.

Referring to FIG. 11, a user terminal 1100 according to another embodiment includes a receiver 1110, a controller 1120, and a transmitter 1130.

The receiver 1110 receives downlink control information from the base station through the PDCCH.

The receiver 1100 receives downlink control information including an indicator indicating a mapping to a resource element of a PDSCH according to a CoMP operation and simultaneously indicating a start point of a resource region of a PUCCH of a UE.

In addition, the receiver 111 reuses some of the values of the indicator indicating the number of layers, the antenna port, the scrambling ID, and the number of layers. The start point of the resource region of the PUCCH of the UE operating in the non-CoMP mode and the PUCCH of the UE operating in the CoMP mode Receive downlink control information including an indicator indicating one of the start points of the resource region of the control unit 1120 in relation to the PUCCH resource position indicating method mainly referring to FIG. In the case of decoding downlink control information in two search spaces and decoding downlink control information from one of the two search spaces, it is interpreted that indicating a starting point of a resource region of a PUCCH of a UE operating in a non-CoMP mode. PUCCH of UE operating in CoMP mode when downlink control information is decoded from another one of two search spaces Interpreted as indicating the start point of the resource area.

In addition, the controller 1120 allocates resources of the PUCCH to the UE operating in the non-CoMP mode according to the indicator included in the downlink control information.

으로 할당한다.Resource region of the PUCCH of the UE operating in the CoMP mode

To be assigned.

으로 할당하고 CoMP 모드로 동작하는 단말의 PUCCH의 자원 영역을

으로 할당한다.In addition, the controller 1120 allocates resources of the PUCCH to the UE operating in the non-CoMP mode according to the indicator included in the downlink control information.

Resource region of the PUCCH of the UE operating in the CoMP mode

To be assigned.

Although the embodiments have been described above, the present invention is not limited thereto.

,

로 표현하였으나 이 파라미터를

,

등과 같이 새롭게 정의되는 두 파라미터들로 표현할 수도 있다. In the above-described embodiments, the parameter indicating the start point of the resource region of the PUCCH format 1a / 1b is determined.

,

But this parameter

,

It can also be expressed as two newly defined parameters.

The foregoing description is merely illustrative of the technical idea of the present invention, and various changes and modifications may be made by those skilled in the art without departing from the essential characteristics of the present invention. Therefore, the embodiments disclosed in the present invention are intended to illustrate rather than limit the scope of the present invention, and the scope of the technical idea of the present invention is not limited by these embodiments. The protection scope of the present invention should be interpreted by the following claims, and all technical ideas within the equivalent scope should be interpreted as being included in the scope of the present invention.

Claims (18)

As a method of dynamically indicating the PUCCH resource location according to whether CoMP mode or not,
Allocating downlink control information to one of two search spaces of a control region in a subframe, wherein the downlink control information is allocated to one of the two search spaces of the PUCCH of the UE operating in a non-CoMP mode. Starting point of the resource zone,

) And the downlink control information allocated to the other one of the two search spaces is the starting point of the resource region of the PUCCH of the UE operating in the CoMP mode (

); And
PUCCH resource position indicating method of a base station comprising the step of transmitting the downlink control information to the terminal via a PDCCH.
The method of claim 1,
In the step of allocating the downlink control information, the downlink control information is allocated to one of the two search spaces by the following equation, and when n = 0 in the following equation of the terminal operating in the non-CoMP mode Starting point of the resource region of the PUCCH (

), And when n = 1, indicating the start point of the resource region of the PUCCH of the terminal operating in the CoMP mode.

In a common search space, Y _k = 0, in a terminal-specific search space at aggregation level L, Y _k is

(Y _-1 = n _RNTI ≠ 0, A = 39827, D = 65537, k = floor (n _s / 2), n _s is the slot number in the radio frame), i = 0,1, ..., L-1, m = 0, ..., M ^(L) -1, N _{CCE , k} is the total number of CCEs that can be used for the downlink control information in the control region of subframe k, M ^(L) is the number of downlink control information candidates at the CCE aggregation level L in a given search space,

(n = 0, 1).
3. The method of claim 2,
The PUCCH is a PUCCH format 1a or 1b characterized in that the PUCCH resource location indicating method of the base station.

PUCCH resource allocation method,
Receiving downlink control information from a base station through a PDCCH;
Decoding the downlink control information in two search spaces of a control region within a subframe; And
Starting point of a resource region of a PUCCH of a UE operating in a non-CoMP mode when the downlink control information is decoded from one of the two search spaces;

) And the start point of the resource region of the PUCCH of the UE operating in the CoMP mode when the downlink control information is decoded from the other of the two search spaces.

PUCCH resource allocation method comprising the step of interpreting as). 5. The method of claim 4,
Resource for the PUCCH for the UE operating in the non-CoMP mode

Allocates the resource region of the PUCCH of the UE operating in the CoMP mode

PUCCH resource allocation method of a terminal comprising the step of assigning.
3. The method of claim 2,
The PUCCH is a PUCCH format 1a or 1b characterized in that the PUCCH resource location indicating method of the base station.
Device that dynamically indicates PUCCH resource location according to CoMP mode.
Allocating downlink control information to one of two search spaces of a control region in a subframe and allocating the downlink control information to one of the two search spaces is a resource region of a PUCCH of a UE operating in a non-CoMP mode. Starting point of

) And allocating the downlink control information to the other one of the two search spaces is the start point of the resource region of the PUCCH of the UE operating in the CoMP mode (

A control unit indicating); And
And a transmitter for transmitting the downlink control information to a terminal through a PDCCH.
The method of claim 7, wherein
The control unit allocates the downlink control information to one of the two search spaces by the following equation, and when n = 0 in the following equation, the control unit determines the starting point of the resource region of the PUCCH of the UE operating in the non-CoMP mode. And a base station indicating a start point of a resource region of a PUCCH of a UE operating in a CoMP mode when n = 1.

In a common search space, Y _k = 0, in a terminal-specific search space at aggregation level L, Y _k is

(Y _-1 = n _RNTI ≠ 0, A = 39827, D = 65537, k = floor (n _s / 2), n _s is the slot number in the radio frame), i = 0,1, ..., L-1, m = 0, ..., M ^(L) -1, N _{CCE , k} is the total number of CCEs that can be used for the downlink control information in the control region of subframe k, M ^(L) is the number of downlink control information candidates at the CCE aggregation level L in a given search space,

(n = 0, 1).
A device for allocating PUCCH resources.
Receiving unit for receiving downlink control information from the base station via the PDCCH; And
PUCCH of a UE operating in a non-CoMP mode when decoding the downlink control information in two search spaces of a control region in a subframe of the radio frame and decoding the downlink control information from one of the two search spaces Starting point of the resource area of

) And the start point of the resource region of the PUCCH of the UE operating in the CoMP mode when the downlink control information is decoded from the other of the two search spaces.

A terminal including a control unit for interpreting that).
As a method of dynamically indicating the PUCCH resource location according to whether CoMP mode or not,
A starting point of a resource region of a PUCCH of a UE instructing mapping to a resource element of a PDSCH according to CoMP operation and simultaneously operating in a non-CoMP mode;

And configuring downlink control information including an indicator indicating one of start points of a resource region of a PUCCH of a UE operating in a CoMP mode:
PUCCH resource position indication method of a base station comprising the step of transmitting the downlink control information to the terminal.
The method of claim 10,
And the indicator is included in a CIF field.
PUCCH resource allocation method,
A starting point of a resource region of a PUCCH of a UE instructing mapping to a resource element of a PDSCH according to CoMP operation and simultaneously operating in a non-CoMP mode;

) And the starting point of the resource region of the PUCCH of the UE operating in the CoMP mode (

Receiving downlink control information including an indicator indicating one of the " And
According to the indicator included in the downlink control information, resources of the PUCCH for the terminal operating in the non-CoMP mode

Allocates the resource region of the PUCCH of the UE operating in the CoMP mode

PUCCH resource allocation method of a terminal comprising the step of assigning.
Device that dynamically indicates PUCCH resource location according to CoMP mode.
A starting point of a resource region of a PUCCH of a UE instructing mapping to a resource element of a PDSCH according to CoMP operation and simultaneously operating in a non-CoMP mode;

And a control unit for configuring downlink control information including an indicator indicating one of a start point of a resource region of a PUCCH of a UE operating in a CoMP mode; and
A base station including a transmitter for transmitting the downlink control information to the terminal.
A device for allocating PUCCH resources.
A starting point of a resource region of a PUCCH of a UE instructing mapping to a resource element of a PDSCH according to CoMP operation and simultaneously operating in a non-CoMP mode;

) And the starting point of the resource region of the PUCCH of the UE operating in the CoMP mode (

Receiving unit for receiving downlink control information including an indicator (indicator) indicating one of the; And
According to the indicator included in the downlink control information, resources of the PUCCH for the terminal operating in the non-CoMP mode

Allocates the resource region of the PUCCH of the UE operating in the CoMP mode

The terminal comprising a control unit for assigning.
As a method of dynamically indicating the PUCCH resource location according to whether CoMP mode or not,
Starting point of the resource region of the PUCCH of the UE operating in the non-CoMP mode by reusing some of the values of the antenna port, the scrambling ID, and the indicators indicating the number of layers,

And configuring downlink control information indicating one of start points of a resource region of a PUCCH of a UE operating in a CoMP mode:
PUCCH resource position indication method of a base station comprising the step of transmitting the downlink control information to the terminal.
PUCCH resource allocation method,
Starting point of the resource region of the PUCCH of the UE operating in the non-CoMP mode by reusing some of the values of the antenna port, the scrambling ID, and the indicators indicating the number of layers,

) And the starting point of the resource region of the PUCCH of the UE operating in the CoMP mode (

Receiving downlink control information including an indicator indicating one of the " And
According to the indicator included in the downlink control information, resources of the PUCCH for the terminal operating in the non-CoMP mode

Allocates the resource region of the PUCCH of the UE operating in the CoMP mode

PUCCH resource allocation method of a terminal comprising the step of assigning.
Device that dynamically indicates PUCCH resource location according to CoMP mode.
Starting point of the resource region of the PUCCH of the UE operating in the non-CoMP mode by reusing some of the values of the antenna port, the scrambling ID, and the indicators indicating the number of layers,

) And the starting point of the resource region of the PUCCH of the UE operating in the CoMP mode (

A control unit for configuring downlink control information including an indicator indicating one of:
A base station including a transmitter for transmitting the downlink control information to the terminal.
A device for allocating PUCCH resources.
Starting point of the resource region of the PUCCH of the UE operating in the non-CoMP mode by reusing some of the values of the antenna port, the scrambling ID, and the indicators indicating the number of layers,

) And the starting point of the resource region of the PUCCH of the UE operating in the CoMP mode (

Receiving unit for receiving downlink control information including an indicator (indicator) indicating one of the; And
According to the indicator included in the downlink control information, resources of the PUCCH for the terminal operating in the non-CoMP mode

Allocates the resource region of the PUCCH of the UE operating in the CoMP mode

The terminal comprising a control unit for assigning.

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