Patent Publication Number: US-2015078278-A1

Title: Hybrid arq information transmitting method and hybrid arq information receiving method

Description:
CROSS-REFERENCE TO RELATED APPLICATIONS 
     This application is the National Stage Entry of International Application PCT/KR2013/001778, filed on Mar. 5, 2013, and claims priority from and the benefit of Korean Patent Application No. 10-2012-0030784, filed on Mar. 26, 2012, both of which are incorporated herein by reference for all purposes as if fully set forth herein. 
    
    
     BACKGROUND 
     1. Field 
     The present invention relates to a method of transmitting and receiving hybrid Automatic Repeat reQuest (ARQ) information transmitted in a downlink in a wireless communication system. 
     2. Discussion of the Background 
     When a packet is transmitted and received in a mobile communication system, a receiver needs to report, to a transmitter, whether or not the reception of a packet is successful. When the reception of a packet is successful, the receiver transmits an acknowledgement (ACK) so as to indicate that the transmitter is to transmit a new packet, and when the receiver fails to receive a packet, the receiver transmits a Negative Acknowledgement (NACK) so as to indicate that the transmitter is to retransmit the packet. This operation is referred to as an Automatic Repeat (ARQ). A Hybrid ARQ (HARQ) has been provided by coupling the ARQ operation and a channel coding scheme. Information associated with the HARQ may be transferred through a Physical HARQ Indication Channel (PHICH) set in a control area. 
     When a plurality of Transmission Points (TPs) and a plurality of User Equipments (UEs) cooperate for communication in a system using an enhanced technology such as Coordinated Multi Point (CoMP), PHICH resources (for example, frequency resources) for UEs may conflict occasionally. To prevent the conflict, the system may need to be restricted, and thus, a system performance may be deteriorated. 
     As new communication schemes have developed, there have been occasional cases where a control area is not set or resources of a control area are insufficient. For these cases, resources for transmitting control information may be set in a data area through which data is transmitted, and the control information may be transmitted based on the set resources. It is also possible that information associated with the HARQ is transmitted through a control information transmission resource set in the data area. 
     In this instance, resources for transferring HARQ related information to each UE may conflict. To avoid a conflict, fewer electromagnetic wave resources may be used than actually available electromagnetic wave resources. 
     SUMMARY 
     Therefore, the present invention has been made in view of the above-mentioned problems, and an aspect of the present invention is to provide a method of transmitting and receiving hybrid ARQ information, which prevents a conflict of resources used for hybrid ARQ information transmitted in a downlink in a wireless communication system. 
     In accordance with an aspect of the present invention, there is provided a method for a Transmission Point (TP) to transmit hybrid Automatic Repeat reQuest (ARQ) information, in a system including a plurality of TPs, the method including: transmitting virtual cell Identity (ID) information set based on a TP to a User Equipment (UE); and transmitting hybrid ARQ information indicating whether uplink data transmitted from the UE is received, using a frequency resource determined based on the virtual cell ID information. 
     In accordance with another aspect of the present invention, there is provided a method for a User Equipment (UE) to receive hybrid Automatic Repeat reQuest (ARQ) information, in a system including a plurality of Transmission Points (TPs), the method including: receiving virtual cell Identity (ID) information set based on a TP from a TP; transmitting uplink data; and receiving hybrid ARQ information indicating whether the TP receives the uplink data transmitted from the UE, using a frequency resource determined based on the virtual cell ID information. 
     According to the present invention, a conflict of resources used for hybrid Automatic Repeat ReQuest (ARQ) information transmitted in a downlink in a wireless communication system may be prevented. 
    
    
     
       BRIEF DESCRIPTION OF THE DRAWINGS 
         FIG. 1  illustrates a wireless communication system according to embodiments of the present invention. 
         FIG. 2  is a diagram illustrating a PHICH processing process in a Transmission Point (TP); 
         FIG. 3  illustrates a system in which a single macro evolved Node B (eNB) and one or more RRHs cooperate for communication, the macro eNB and the one or more RRHs use an identical cell ID, and hybrid ARQ information is transmitted through a PHICH; 
         FIG. 4  illustrates an HARQ information transmitting method in the system of  FIG. 3 ; 
         FIG. 5  is a diagram illustrating E-PHICH mapping; 
         FIG. 6  illustrates a system in which a single macro eNB and one or more RRHs cooperate for communication, the macro eNB and the one or more RRHs use an identical cell ID, and hybrid ARQ information is transmitted through an E-PHICH; and 
         FIG. 7  illustrates an HARQ information transmitting method in the system of  FIG. 6 . 
     
    
    
     DETAILED DESCRIPTION OF THE ILLUSTRATED EMBODIMENTS 
     Hereinafter, exemplary embodiments of the present invention will be described with reference to the accompanying drawings. In the following description, the same elements will be designated by the same reference numerals although they are shown in different drawings. Further, 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. 
       FIG. 1  illustrates a wireless communication system according to embodiments of the present invention. 
     The wireless communication system may be widely installed so as to provide various communication services, such as a voice service, packet data, and the like. 
     Referring to  FIG. 1 , the wireless communication system may include a User Equipment (UE)  10  and a Transmission Point (TP)  20  that executes uplink and downlink communication with the UE  10 . 
     The UE  10  may transmit, to the TP  20 , uplink data through a Physical Uplink Shared Channel (PUSCH), and the TP  20  may transmit an HARQ response with respect to the uplink data transmission of the UE  10  through a Physical HARQ Indicator Channel (PHICH). 
       FIG. 2  is a diagram illustrating a PHICH processing process in the TP  20 . 
     Referring to  FIG. 2 , 1 bit information of an HARQ A/N is repeated (repetition) three times, is BiPhase Shift Keying (BPSK) modulated based on an I axis or Q axis, and is spread as an orthogonal sequence having a length of 4 or 2. PHICHs that are transmitted in an identical set of Resource Elements (REs) are referred to as a PHICH group or a PHICH mapping unit. In a case of a normal Cyclic Prefix (CP), 4 orthogonal sequences are used and 8 PHICHs form a single PHICH group. In a case of an extended CP, 2 orthogonal sequences are used and 4 PHICHs form a single PHICH group. 
     PHICHs are configured to be in a complex form in a single PHICH group, and the signal is scrambled and then scrambled symbols are mapped to three REGs. Each REG is formed of 4 REs. To obtain an excellent frequency diversity gain, each REG is located, being is spaced apart at intervals of ⅓ of a downlink cell bandwidth. 
     A PHICH is transmitted in 1 through 3 Orthogonal Frequency Division Multiplexing (OFDM) symbols. When a PHICH is transmitted in a single OFDM symbol, three REGs to which a PHICH is mapped are located in a single OFDM. When a PHICH is transmitted in two OFDM symbols, two REGs are located in a single OFDM symbol, and a single REG is located in the other OFDM symbol. When a PHICH is transmitted in three OFDM symbols, a single REG is located in each OFDM symbol. 
     A PHICH may be set in a control area formed of 1 through 4 OFDM symbols in a single subframe. The control area may include control channels, such as a Physical Control Format Indicator Channel (PCFICH), a Physical Downlink Control Channel (PDCCH), and the like, in addition to the PHICH. A resource for a PCFICH is allocated from a resource of a control area, and subsequently, a resource for a PHICH is allocated. Therefore, an amount of frequency resources for a PHICH may be different for each OFDM symbol. 
     For example, when each REG for a PHICH is located, being spaced apart at intervals of ⅓ of a downlink cell bandwidth, an offset of an REG may be determined based on a cell ID. 
     Accordingly, mapping of an REG for a PHICH in a frequency domain may be based on the following Equation 1. 
     
       
         
           
             
               
                 
                   
                     
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     In Equation 1,  n   i  denotes an index of a REG in which a PHICH is transmitted, N ID   cell  denotes a cell ID, m′ denotes an index of a PHICH group, and n l′     i    denotes the number of REGs available for PHICH transmission in an OFDM symbol l′ i . n l′     i   /n 1  or n l′     i   /n 0  may be used for adjusting the number of available REGs since the number of available REGs is different for each OFDM symbol. For example, a resource for a Physical Control Format Indicator Channel (PCFICH) is allocated to a first OFDM symbol and thus, the number of available REGs may be different from other OFDM symbols. A first equation of Equation 1 may be applied to a case of an extended PHICH duration of a Multicast/Broadcast over a Single Frequency Network (MBSFN) subframe or an extended PHICH duration of subframes 1 and 6 of a frame structure 2, and a second equation may be applied to the rest. According to Equation 1, each REG for a PHICH is located by being spaced apart at intervals of ⅓ of a downlink cell bandwidth, and the offset may be determined based on a cell ID. 
     A PHICH resource may be identified by the following Equation 2. 
         n   PHICH   group =( I   PRB     —     RA   +n   DMRS )mod  N   PHICH   group   +I   PHICH   N   PHICH   group    
         n   PHICH   seq =(└ I   PRB     —     RA   /N   PHICH   group   ┘+n   DMRS )mod 2 N   SF   PHICH   [Equation 2]
 
     In Equation 2, a PHICH group number n PHICH   group  indicates a PHICH group in which a PHICH for a UE is included, and an orthogonal sequence index n PHICH   seq  is indicates an index of the PHICH for the UE in the PHICH group. The PHICH group number n PHICH   group  may be a value identical to an index m′ of the PHICH group of Equation 1. I PRB     —     RA  denotes an index of the lowest Physical Resource Block (PRB) for transmission of a PUSCH corresponding to a PHICH, n DMRS  denotes a Cyclic Shift (CS) value for Demodulation Reference Signal (DM-RS), N PHICH   group  denotes the number of PHICH groups, I PHICH  denotes a value of 1 in a case of PUSCH transmission in subframe n=4 or n=9 in Time Division Duplex (TDD) UL/EL configuration 0 and denotes a value of 0 for the rest, and n SF   PHICH  denotes a spreading factor used for PHICH modulation, and has a value of 4 in the case of the normal CP and has a value of 2 in the case of the extended CP. 
     Referring to Equation 2, the PHICH group number n PHICH   group  and the orthogonal sequence index n PHICH   seq  are determined based on the index I PRB     —     RA  of the lowest PRB for PUSCH transmission and the value of the CS for the DM-RS. 
     Meanwhile, when a plurality of TPs cooperate for communication, a PHICH resource conflict may occur. 
       FIG. 3  illustrates a case in which a single macro evolved Node B (eNB)  311  and one or more RRHs  312  and  313  cooperate for communication, and the macro eNB  311  and the one or more RRHs  312  and  131  use an identical cell ID. Each of a plurality of UEs  321  through  327  may communicate with a single TP or with a plurality of TPs. In  FIG. 3 , the UE1  321  is through the UE3  323  transmit uplink data to the macro eNB  311  through a PUSCH, the UE4  324  and the UE5  325  transmit uplink data to the RRH1  312  through a PUSCH, and the UE6  326  and the UE7  327  transmit uplink data to the RRH2  313  through a PUSCH. The macro eNB  311  and the RRHs  312  and  313  transmit, to the UEs  321  through  327  through a PHICH, an HARQ A/N corresponding to the PUSCH that each UE transmits. 
     To effectively use an electromagnetic wave resource, it is considered that UEs that communicate with different TPs execute communication using identical time-frequency resources. In  FIG. 3 , the UE1  321  that communicates with the macro eNB  311  and the UE4  324  that communicates with the RRH1  312  may execute PUSCH transmission using identical time-frequency resources, through use of different UL DMRS resources. 
     However, when the UE1  321  and the UE4  324  even have an identical CS value of group the DM-RS, PHICH group numbers n PHICH   group  and orthogonal sequence indices n PHICH   seq  for the UE1  321  and the UE4  324  may be identical, with reference to Equation 2. In this instance, PUSCH resources for the UE1  321  and the UE4  324  may not conflict but PHICH resources for the UE1  321  and the UE4  324  may conflict. 
     The above problem may become worse when a plurality of uplink Semi-Persistent Scheduling (SPS) UEs exist. As a condition for triggering uplink SPS transmission, a CS of a DM-RS may be set to ‘000’. When the plurality of SPS UEs use an identical resource block, a PHICH resource conflict may occur. 
     According to an embodiment of the present invention, a different virtual cell ID is is set for each TP and a PHICH resource may be allocated based on the virtual cell ID. 
     In  FIG. 3 , a virtual cell ID A is applied to a PHICH transmitted from the macro eNB  311 , a virtual cell ID B is applied to a PHICH transmitted from the RRH1  312 , and a virtual cell ID C is applied to a PHICH transmitted from the RRH2  313 . Here, transmission of a PHICH indicates transmission of an A/N through a channel named PHICH, and applying a virtual cell ID to a PHICH indicates determination of an index of an REG on a frequency domain using the virtual cell ID. 
     One of the virtual cell IDs may be identical to a cell ID. For example, the virtual cell ID A applied to the PHICH transmitted from the macro eNB  311  may be a value identical to the cell ID. 
     When the number of UEs that communicate with a predetermined TP is relatively smaller than a reference number set in advance, or smaller than the number of UEs that communicate with another TP, it is possible that an identical virtual cell ID is applied to resources of PHICHs transmitted from a plurality of TPs. For example, when the number of UEs that communicate with the RRH1  312  and the number of UEs that communicate with the RRH2  313  are smaller than the number of UEs that communicate with the macro eNB  311 , a virtual cell ID applied to a PHICH resource configuration of a PHICH transmitted from the RRH1  312  and a virtual cell ID applied to a PHICH resource configuration of a PHICH transmitted from the RRH2  313  may be identical, which are different from a virtual cell ID applied to a PHICH resource configuration of a PHICH transmitted from the macro eNB  311 . 
     In this instance, mapping of an REG for a PHICH in a frequency domain may be based on the following Equation 3. 
     
       
         
           
             
               
                 
                   
                     
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                     3 
                   
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     In Equation 3,  n   i  denotes an index of an REG in which a PHICH is transmitted, N ID   Virtual cell  denotes a virtual cell ID, m′ denotes an index of a PHICH group, n l′     i    denotes the number of REGs available for PHICH transmission in an OFDM symbol l′ i , and n l′     i   /n 1  or n l′     i   /n 0  are used for adjusting the number of available REGs since the number n l′     i    of available REGs is different for each OFDM symbol. A first equation of Equation 3 may be applied to a case of an extended PHICH duration of a Multicast/Broadcast over a Single Frequency Network (MBSFN) subframe or an extended PHICH duration of subframes 1 and 6 of a frame structure 2, and a second equation may be applied to the rest. According to Equation 3, each REG for a PHICH is located by being spaced apart at intervals of ⅓ of a downlink cell bandwidth, and the offset may be determined based on a cell ID. 
     According to Equation 3, a different virtual cell ID N ID   Virtual cell  may be set for each TP that executes communication, and accordingly, when an identical PHICH group index m′ is used, an index of REG in which a PHICH is transmitted may be different. Accordingly, UEs that communicate with different TPs may avoid a PHICH resource conflict. 
       FIG. 4  illustrates an HARQ information transmitting method according to an embodiment of the present invention. 
     Referring to  FIG. 4 , a TP (for example, eNB) may set a virtual cell ID N ID   Virtual cell  as a parameter related to a PHICH, in operation S 410 . The virtual cell ID may be set based on a TP unit (for example, eNB and RRH). 
     A TP may transmit the set virtual cell ID N ID   Virtual cell  to a UE, through a higher layer signaling such as a Radio Resource Control (RRC), in operation S 420 . 
     The TP transmits uplink scheduling information for PUSCH transmission through a Physical Downlink Control Channel (PDCCH) or an E-PDCCH, in operation S 430 . The uplink scheduling information may include information associated with a resource block to which a PUSCH is allocated, information associated with a CS of a DM-RS, and the like. 
     The UE may transmit uplink data through a PUSCH, based on the received uplink scheduling information, in operation S 440 . 
     Based on Equation 2, the TP calculates a PHICH group number n PHICH   group  and an orthogonal sequence index n PHICH   seq , based on an index I PRB     —     RA  of the lowest PRB for PUSCH transmission and a CS value n DMRS  for a DM-RS, based on Equation 2, in operation S 450 . Also, the TP maps a PHICH resource, which is expressed by an REG index  n   i  based on the virtual cell ID N ID   Virtual cell , using Equation 3, in operation S 460 . 
     The TP transmits an HARQ A/N (that is, HARQ information or HARQ A/N information) through the PHICH resource mapped in operation S 460 , in operation S 470 . 
     The UE receives the HARQ A/N transmitted from the TP, in operation S 480 . In particular, the UE extracts information associated with a physical resource to which a PHICH is allocated using Equation 3, and identifies a PHICH resource for the UE using Equation 2. 
     The above described embodiment describes a PHICH located in a control area. Meanwhile, in addition to the PHICH allocated to the control area, a new channel for transmission of a HARQ A/N may be required, for the reasons below. 
     (1) A carrier that does not have a control area, or a carrier that does not have a CRS, may be considered in a downlink. That is, there may be a case in which allocation of a PHICH is difficult. 
     (2) Decoding a HARQ ACK/NACK may be required using a reference signal which is different from a CRS, to improve a transmission environment using beamforming, Spatial Multiplexing (SM), and frequency domain Inter Cell Interference Coordination (ICIC). 
     (3) When a plurality of TPs have an identical cell ID and cooperate for communication, as described in Coordinated Multi-Point (CoMP) scenario  4 , the limited PHICH resource may act as bottleneck when the plurality of TPs cooperate for communication and may limit the cooperative communication. 
     (4) In a case of uplink SPS, the probability of a PHICH resource conflict may increase. To avoid the above, additional UL grant scheduling limitations may be caused. 
     Due to the above described reasons, a resource for transmitting control information may be allocated to a data area, as opposed to a control area, and a channel for HARQ transmission with respect to uplink transmission corresponding to a PHICH and/or a channel for transmission of downlink control information corresponding to a PDCCH may be set in the resource. 
     In the present specification, a channel allocated to the data area for transmitting the control information is referred to as an Enhanced Control CHannel or an Extended Control Channel (E-CCH), a channel corresponding to a PHICH in the E-CCH is referred to as an Enhanced PHICH or an Extended PHICH (E-PHICH), and a channel corresponding to a PDCCH is referred to as an Enhanced PDCCH or an Extended PDCCH (E-PDCCH). Alternatively, it is mainly used as a downlink control channel corresponding to a PDCCH and thus, the channel allocated to the data area for transmitting the control information may be referred to as an E-PDCCH. The above described names are for ease of description, and the present invention is not limited to the described names. The E-PHICH and the E-PDCCH are decoded using a downlink DM-RS. 
     A minimum mapping unit for mapping an E-PHICH may be an Enhance REG (EREG). In the same manner as the PHICH, a single EREG is formed of four REs. However, the present invention may not be limited thereto, and an EREG (or a minimum mapping unit) differently defined may be used. 
     The number of available REGs (or REs) that may be used in an E-CCH may be affected by various overhead configurations. Here, the overhead configurations that may be considered herein may include an existing control area, a Channel Status Information Reference signal (CSI-RS) configuration, zero-power CSI-RS configuration, a DM-RS configuration, a CRS configuration, and the like. 
     In an example, the E-CCH may be set in a Resource Block Pair (RBP) set in advance, and a resource for an E-PHICH may be set in a predetermined OFDM symbol from among resources for the E-PCCH. 
       FIG. 5  is a diagram illustrating E-PHICH mapping. The diagram “ 510 ” of  FIG. 5  illustrates an entire band, and the diagram “ 520 ” illustrates a magnified RBP. An area to which a control area, a CRS (or a reduced CRS which may be used in an NCT), a DM-RS, a CSI-RS, and the like are allocated in the RBP  520 , is illustrated. 
     Referring to  FIG. 5 , nine resource blocks (resource block indices 0, 1, 2, 24, 25, 26, 47, 48, and 49) from among a total of 50 resource blocks (resource block indices 0 through 49) may be provided for the E-CCH. A fifth OFDM symbol (1=4) in the nine resource blocks to which the E-CCH is allocated, is set to be a resource for an E-PHICH. In a single resource block, four resource elements are allocated for a CRS in the fifth OFDM symbol. Therefore, eight resource elements from among the twelve resource elements located in the fifth OFDM symbol may be set to be the resource for the E-PHICH. A single REG is formed of four resource elements. Accordingly, in the example of  FIG. 5 , two REGs may be located in a single resource block and a total of 18 (=9×2) REGs may be used for E-PHICH transmission. 
     The E-PHICH may be mapped to three REGs. Referring to  FIG. 5 , the E-PHICH may be mapped to three REGs out of the 18 REGs. 
     In this instance, mapping of an REG for an E-PHICH in a frequency domain may be based on the following Equation 4. 
     
       
         
           
             
               
                 
                   
                     
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     In Equation 4,  n   i  denotes an index of each REG through which an E-PHICH is transmitted and may have a value of 0 through 17 in the case of  FIG. 5 . n l′     i    denotes the number of REGs that may be considered for E-PHICH transmission in an OFDM symbol l′ i , and the value in the fifth OFDM symbol may be 18 in the case of  FIG. 5 . A physical resource area of an E-PHICH may be a physical resource area set through an RRC, instead of an entire system band. Accordingly, the value of n l′     i    may be affected by a physical frequency (physical resource block set by an RRC) and a time (OFDM symbol), allocated for E-PHICH transmission. n l′     i   /n l′     0i    is a factor obtained by considering E-PHICH transmission occurring in a plurality of OFDM symbols. m′ denotes an index of an E-PHICH group. 
     In Equation 4, N ID   Virtual cell  denotes a virtual cell ID. The virtual cell ID may be set to be different for each TP, in a system in which a plurality of TPs has an identical cell ID. 
       FIG. 6  illustrates a case in which a single macro eNB  611  and one or more RRHs  612  and  613  cooperate for communication, and the macro eNB  611  and the one or more RRHs  612  and  613  use an identical cell ID. Each of a plurality of UEs  621  through  627  may communicate with a single TP or with a plurality of TPs. In  FIG. 6 , the UE1  621  through the UE3  623  transmit uplink data to the macro eNB  611  through a PUSCH, the UE4  624  and the UE5  625  transmit uplink data to the RRH1  612  through a PUSCH, and the UE6  626  and the UE7  627  transmit uplink data to the RRH2  613  through a PUSCH. 
     The macro eNB  611  and the RRHs  612  and  613  transmit, to the UEs  621  through is  627  through an E-PHICH, an HARQ A/N corresponding to the PUSCH that each UE transmits. In this instance, a resource of an E-PHICH that each TP  611  through  613  transmits to a corresponding UE  621  through  627  is determined based on a virtual cell ID, and the virtual cell ID is determined based on the TP  621  through  627 . 
     For example, the macro eNB  611  sets an E-PHICH resource based on a virtual cell ID A in association with the UE1  621  through UE3  623 , and a DM-RS for E-PHICH demodulation may use a random sequence A and a DM-RS port 8. The RRH1  612  sets an E-PHICH resource based on a virtual cell ID B in association with the UE4  624  and UE5  625 , and a DM-RS for E-PHICH demodulation may use a random sequence B and a DM-RS port 7. The RRH2  613  sets an E-PHICH resource based on a virtual cell ID C in association with the UE6  626  and UE7  627 , and a DM-RS for E-PHICH demodulation may use a random sequence C and a DM-RS port 7. 
     As described in  FIG. 6 , when a different virtual cell ID is set for each TP  611  through  613 , each E-PHICH may be allocated to different resources in a frequency axis based on the different virtual cell IDs irrespective of which of the scrambling sequences is used in an identical port, and thus, an E-PHICH transmitted from each TP  611  through  614  may have complete orthogonality. That is, based on Equation 4, each TP  611  through  613  has different virtual cell IDs and thus, transmission may be executed with different offsets in physical frequency resources. 
     In  FIG. 6 , to reduce interference affected, by E-PHICH transmission from the macro eNB  611 , to transmission from RRHs  612  and  613 , a DM-RS related to an E-PHICH is transmitted from the macro eNB  611  may be transmitted on a DM-RS port which is different from a DM-RS related to an E-PHICH transmitted from the RRHs  612  and  613 . 
     In  FIG. 6 , a virtual cell ID is separately set for each TP  611  through  613 . In another embodiment, a virtual cell ID A is set for the macro eNB  611 , and an identical virtual cell ID B is set for the RRHs  612  and  613 . The macro eNB  611  and the RRHs  612  and  613  have different virtual cell IDs and thus, may provide complete orthogonality, having different frequency offsets. Also, the RRH1  612  and the RRH2  613  have the identical virtual cell ID but may have orthogonality by using different DM-RS random sequences. 
       FIG. 7  illustrates an HARQ information transmitting method according to an embodiment of the present invention. 
     Referring to  FIG. 7 , a TP (for example, eNB) sets a virtual cell ID N ID   Virtual cell  as a parameter related to an E-PHICH, in operation S 710 . The virtual cell ID may be set based on a TP unit (for example, eNB and RRH). 
     A TP may transmit the set virtual cell ID N ID   Virtual cell  to a UE, through a higher layer signaling such as a Radio Resource Control (RRC), in operation S 720 . 
     The TP transmits uplink scheduling information for PUSCH transmission through a Physical Downlink Control Channel (PDCCH) or an E-PDCCH, in operation S 730 . The uplink scheduling information may include information associated with a resource block to which a PUSCH is allocated, information associated with a CS of a DM-RS, and the like. 
     The UE may transmit uplink data through a PUSCH, based on the received uplink scheduling information, in operation S 740 . 
     Based on Equation 2, the TP calculates a PHICH group number n PHICH   group  seq and an orthogonal sequence index n PHICH   seq , based on an index I PRB     —     RA  of the lowest PRB is for PUSCH transmission and a CS value n DMRS  for a DM-RS, based on Equation 2, in operation S 750 . Also, the TP maps an E-PHICH resource, which is expressed by an REG index  n   i  based on the virtual cell ID N ID   Virtual cell , using Equation 4, in operation S 760 . 
     The TP transmits an HARQ A/N (that is, HARQ information or HARQ A/N information) through the E-PHICH resource mapped in operation S 760 , in operation S 770 . 
     The UE receives the HARQ A/N transmitted from the TP, in operation S 780 . In particular, the UE extracts information associated with a physical resource to which an E-PHICH is allocated using Equation 4, and identifies an E-PHICH resource for the UE using Equation 2. 
     Although the embodiments of the present invention have been described for illustrative purposes, those skilled in the art will appreciate that various modifications, additions and substitutions are possible, without departing from the scope and spirit of the invention. Accordingly, the embodiments disclosed in the present invention are only for describing, but not limiting, the technical idea of the present invention, and the scope of the technical idea of the present invention is not limited by the embodiments. The scope of the present invention shall be construed on the basis of the accompanying claims in such a manner that all of the technical ideas included within the scope equivalent to the claims belong to the present invention.