CN104640214A - Data transmission method, base station and user equipment - Google Patents

Abstract

The invention discloses a data transmission method, a base station and user equipment. The data transmission method includes: if a scheduling sub-frame with which a first common sub-frame meets HARQ (hybrid auto repeat request) time sequence relation is a special sub-frame, determining that DCI (downlink control information) is sent to the UE (user equipment) on a second common sub-frame located before the scheduling sub-frame, with the DCI being used for scheduling uplink data transmission on the first common sub-frame; sending the DCI to the UE on the second common sub-frame; receiving uplink data which the UE sends out on the first common sub-frame according to the DCI. The data transmission method has the advantages that in the presence of the special sub-frame, the base station schedules and feeds back the UE on the common sub-frame, the problem that the presence of the special sub-frame causes failure of normal data transmission between the UE and the base station is solved, and system performance and user experience are improved.

Description

Transmit the method for data, base station and subscriber equipment

Technical field

The embodiment of the present invention relates to the communications field, and more specifically, relates to the method for transmission data, base station and subscriber equipment.

Background technology

At Long Term Evolution (Long Term Evolution, referred to as " LTE ") in system, when base station needs to dispatch some subscriber equipmenies, can on the uplink to this subscriber equipment (User Equipment, referred to as " UE ") send Downlink Control Information (Downlink Control Information, referred to as " DCI "), this DCI can dispatch the transfer of data that this UE carries out in up link, also can dispatch the data receiver that this UE carries out on down link.For uplink scheduling, if UE receive on subframe n base station send DCI and this DCI for schedules uplink transmission, this UE can send upstream data to base station on subframe n+k, this subframe n+k and subframe n meets hybrid automatic repeat-request (Hybrid Automatic Repeat reQuest, referred to as " HARQ ") sequential relationship, particularly, for Frequency Division Duplexing (FDD) (the Frequency Division Duplex of the 8th version, referred to as " FDD ") system, the value of k is 4, and for time division duplex (Time Division Duplex, referred to as " TDD ") system, the value of k can by acquisition of tabling look-up.Further, when this base station receives the upstream data of this UE transmission on subframe n+k, this base station can send to this UE and confirm (Acknowledgement on subframe n+k+l, referred to as " ACK ") or deny (Non-Acknowledgement, referred to as " NACK ") message, with the upstream data success or the failure that indicate this base station to receive this UE transmission respectively.Wherein, this subframe n+k+l and subframe n+k meets HARQ sequential relationship.Particularly, for the FDD system of the 8th version, the value of this l is 4, and for TDD system, the value of this l can by acquisition of tabling look-up.

For downlink scheduling, if UE receive on subframe n base station send DCI and this DCI for schedule downlink transmissions, this base station on subframe n to this UE send downlink data, correspondingly, this UE can receive on subframe n base station send downlink data.Further, when this UE receives the downlink data of this base station transmission on subframe n, this UE can send ACK or NACK message to this base station on subframe n+k, with the downlink data success or the failure that indicate this UE to receive the transmission of this base station respectively.Wherein, this subframe n+l and subframe n meets HARQ sequential relationship.Particularly, for the FDD system of the 8th version, the value of this l is 4, and for TDD system, the value of this l can by acquisition of tabling look-up.

But, along with the progress of technology, special subframe has been introduced in LTE system, these special subframes may in up link or in the downlink, and these special subframes can only be used for some particular services, such as, multimedia broadcast multi-broadcasting business (Multimedia Broadcast Multicast Service, referred to as " MBMS "), device-to-device (Device to Device, referred to as " D2D ") business or machine type communication (Machine Type Communication, referred to as " MTC ") business etc., these special subframes cannot be used for the transfer of data in the general service except above-mentioned particular service, also these data dispatch and feedback cannot be used for.Like this, due to the existence of special subframe, base station may be caused cannot normally to send dispatch and feedback, or subscriber equipment cannot feed back normally, have impact on the normal data transfer between subscriber equipment and base station.Main purpose of the present invention is exactly to solve the problem cannot carrying out normal transfer of data between subscriber equipment and base station caused due to the existence of special subframe.

Summary of the invention

Embodiments provide a kind of transmit data method, base station and subscriber equipment, base station can be made can to deposit at special subframe with subscriber equipment and normally to communicate in case.

First aspect, provide a kind of method transmitting data, comprise: if the scheduling subframe meeting hybrid automatic repeat-request HARQ sequential relationship with the first common subframe is special subframe, determine be positioned to user equipment (UE) transmission Downlink Control Information DCI in the second common subframe before this scheduling subframe, this DCI is for dispatching the transmitting uplink data in this first common subframe; This second common subframe sends this DCI to this UE; Receive the upstream data that this UE sends in this first common subframe according to this DCI.

In conjunction with first aspect, in the implementation that the first is possible, the first enhancement mode Physical Downlink Control Channel EPDCCH resource collection in this second common subframe is corresponding with this first common subframe; In this second common subframe, this DCI should be sent to this UE, comprise: in the EPDCCH resource collection in this second common subframe, send this DCI to this UE.

In conjunction with the first possible implementation of first aspect, in the implementation that the second is possible, the EPDCCH of this UE takies at least three EPDCCH resource collections in this second common subframe, and each EPDCCH resource collection in these at least three EPDCCH resource collections comprises at least one Physical Resource Block PRB.

In conjunction with first aspect, in the implementation that the third is possible, the first Physical Resource Block PRB in this second common subframe is corresponding with this first common subframe; In this second common subframe, this DCI should be sent to this UE, comprise: the PRB in this second common subframe sends this DCI to this UE.

In conjunction with first aspect, in the 4th kind of possible implementation, the indication bit position that this DCI comprises indicates this DCI for dispatching the transmitting uplink data in this first common subframe.

In conjunction with the 4th kind of possible implementation of first aspect, in the 5th kind of possible implementation, the value of this indication bit position is after basis is positioned at this second common subframe and the quantity of the continuous print special subframe nearest with this second common subframe is arranged.

In conjunction with first aspect or in conjunction with the first of first aspect to any one the possible implementation in the 5th kind of possible implementation, in the 6th kind of possible implementation, the method also comprises: if the feedback subframe meeting this HARQ sequential relationship with this first common subframe is special subframe, be positioned in the 3rd common subframe after this feedback subframe to this UE send feedback information, this feedback information is used to indicate whether correctly receive this upstream data.

In conjunction with the 6th kind of possible implementation of first aspect, in the 7th kind of possible implementation, the first physical hybrid automatic repeat request indicator channel PHICH group in the 3rd common subframe is corresponding with this first common subframe; Should be positioned in the 3rd common subframe after this feedback subframe to this UE send feedback information, comprising: in the PHICH group in the 3rd common subframe, send this feedback information to this UE.

In conjunction with the 6th kind of possible implementation of first aspect, in the 8th kind of possible implementation, this feedback information comprises indication bit position, and this indication bit position is used to indicate this feedback information corresponding to the transmitting uplink data in this first common subframe.

In conjunction with the 8th kind of possible implementation of first aspect, in the 9th kind of possible implementation, the value of this indication bit position is before basis is positioned at the 3rd common subframe and the quantity of the continuous print special subframe nearest with the 3rd common subframe is arranged.

In conjunction with first aspect or in conjunction with the first of first aspect to any one the possible implementation in the 9th kind of possible implementation, in the tenth kind of possible implementation, determine to send before DCI to UE being positioned in the second common subframe before this scheduling subframe at this, the method also comprises: send indication information to this UE, this indication information is used to indicate the position of special subframe.

Second aspect, provides a kind of method transmitting data, comprising: receive the Downlink Control Information DCI that base station sends in the second common subframe; Determine that this DCI is for dispatching the transmitting uplink data in the first common subframe, wherein, the scheduling subframe meeting hybrid automatic repeat-request HARQ sequential relationship with this first common subframe is special subframe and before this second common subframe is positioned at this scheduling subframe; According to this DCI, this first common subframe sends upstream data to this base station.

In conjunction with second aspect, in the implementation that the first is possible, the DCI that this reception base station sends in the second common subframe, comprising: receive this DCI sent in the first enhancement mode Physical Downlink Control Channel EPDCCH resource collection of this base station in this second common subframe; This determines that this DCI is for dispatching the transmitting uplink data in the first common subframe, comprising: according to the corresponding relation of an EPDCCH resource collection and this first common subframe, determine that this DCI is for dispatching the transmitting uplink data in this first common subframe.

In conjunction with the first possible implementation of second aspect, in the implementation that the second is possible, the EPDCCH of this UE takies at least three EPDCCH resource collections in this second common subframe, and each EPDCCH resource collection in these at least three EPDCCH resource collections comprises at least one Physical Resource Block PRB.

In conjunction with second aspect, in the implementation that the third is possible, the DCI that this reception base station sends in the second common subframe, comprising: receive this DCI that this base station sends on the first Physical Resource Block PRB of this second common subframe; This determines that this DCI is for dispatching the transmitting uplink data in the first common subframe, comprising: according to the corresponding relation of a PRB and this first common subframe, determine that this DCI is for dispatching the transmitting uplink data in this first common subframe.

In conjunction with second aspect, in the 4th kind of possible implementation, this determines that this DCI is for dispatching the transmitting uplink data in the first common subframe, comprising: according to the value of the indication bit position that this DCI comprises, and determines that this DCI is for dispatching the transmitting uplink data in the first common subframe.

In conjunction with the 4th kind of possible implementation of second aspect, in the 5th kind of possible implementation, the value of this indication bit position comprised according to this DCI, determine that this DCI is for dispatching the transmitting uplink data in the first common subframe, comprise: according to the value of this indication bit position and after being positioned at this second common subframe and the quantity of the continuous print special subframe nearest with this second common subframe, determine that this DCI is for dispatching the transmitting uplink data in this first common subframe.

In conjunction with second aspect or in conjunction with the first of second aspect to any one the possible implementation in the 5th kind of possible implementation, in the 6th kind of possible implementation, the method also comprises: receive the feedback information that this base station sends in the 3rd common subframe, wherein, the feedback subframe meeting this HARQ sequential relationship with this first common subframe is special subframe and after the 3rd subframe is positioned at this feedback subframe; Determine that this feedback information corresponds to the transmitting uplink data in this first common subframe.

In conjunction with the 6th kind of possible implementation of second aspect, in the 7th kind of possible implementation, the feedback information that this base station of this reception sends in the 3rd common subframe, comprising: receive this feedback information sent in the first physical hybrid automatic repeat request indicator channel PHICH group of this base station in the 3rd common subframe; This determines that this feedback information corresponds to the transmitting uplink data in this first common subframe, comprising: according to the corresponding relation of a PHICH group and this first common subframe, determine that this feedback information is corresponding to the transmitting uplink data in this first common subframe.

In conjunction with the 6th kind of possible implementation of second aspect, in the 8th kind of possible implementation, this determines that this feedback information corresponds to the transmitting uplink data in this first common subframe, comprise: according to the value of the indication bit position that this feedback information comprises, determine that this feedback information corresponds to the transmitting uplink data in this first common subframe.

In conjunction with the 8th kind of possible implementation of second aspect, in the 9th kind of possible implementation, the value of this indication bit position comprised according to this feedback information, determine that this feedback information corresponds to the transmitting uplink data in this first common subframe, comprise: according to the value of this indication bit position with before being positioned at the 3rd common subframe and the quantity of the continuous print special subframe nearest with the 3rd common subframe, determine that this feedback information corresponds to the transmitting uplink data in this first common subframe.

In conjunction with second aspect or in conjunction with the first of second aspect to any one the possible implementation in the 9th kind of possible implementation, in the tenth kind of possible implementation, before the DCI that this reception base station sends in the second common subframe, the method also comprises: receive the indication information that this base station sends, this indication information is used to indicate the position of special subframe.

In conjunction with second aspect or in conjunction with the first of second aspect to any one the possible implementation in the tenth kind of possible implementation, in the 11 kind of possible implementation, the method also comprises: on special subframe, detect the DCI that this base station sends; If the DCI that this base station sends detected, in the subframe meeting this HARQ sequential relationship at this special subframe and carry out transfer of data between this base station and/or carry out transmission of feedback information.

The third aspect, provides a kind of method transmitting data, comprising: receive the upstream data that user equipment (UE) sends in the first common subframe; If the feedback subframe meeting hybrid automatic repeat-request HARQ sequential relationship with this first common subframe is special subframe, determine be positioned in the 3rd common subframe after this feedback subframe to this UE send feedback information, this feedback information is used to indicate whether correctly receive this upstream data; 3rd common subframe sends this feedback information to this UE.

In conjunction with the third aspect, in the implementation that the first is possible, the first physical hybrid automatic repeat request indicator channel PHICH group in the 3rd common subframe is corresponding with this first common subframe; In the 3rd common subframe, feedback information should be sent to this UE, comprise: in the PHICH group in the 3rd common subframe, send this feedback information to this UE.

In conjunction with the first possible implementation of the third aspect, in the implementation that the second is possible, the quantity of the PHICH group that the PHICH of this UE takies in the 3rd common subframe is greater than the quantity of the PHICH group that this PHICH takies in the 4th common subframe, and the 4th common subframe is for only feeding back the transmitting uplink data in a subframe.

In conjunction with the third aspect, in the implementation that the third is possible, this feedback information comprises indication bit position, and this indication bit position is used to indicate this feedback information corresponding to the transmitting uplink data in this first common subframe.

In conjunction with the third possible implementation of the third aspect, in the 4th kind of possible implementation, the value of this indication bit position is before basis is positioned at the 3rd common subframe and the quantity of the continuous print special subframe nearest with the 3rd common subframe is arranged.

In conjunction with the 4th kind of possible implementation of the third aspect, in the 5th kind of possible implementation, before the upstream data that this UE of this reception sends in the first general service subframe, the method also comprises: send indication information to this UE, this indication information is used to indicate the position of particular service subframe, this indication information by this UE for before determining to be positioned at the 3rd common subframe and the quantity of the continuous print special subframe nearest with the 3rd common subframe.

In conjunction with the third aspect or in conjunction with the first of the third aspect to any one the possible implementation in the 5th kind of possible implementation, in the 6th kind of possible implementation, before the upstream data that this UE of this reception sends in the first common subframe, the method also comprises: in the second common subframe, send Downlink Control Information DCI to this UE, this DCI is used to indicate this UE and sends upstream data in this first common subframe, and this DCI indicates this UE in the 3rd common subframe, receive this feedback information for this transmitting uplink data.

In conjunction with the 6th kind of possible implementation of the third aspect, in the 7th kind of possible implementation, if the scheduling subframe meeting this HARQ sequential relationship with this first common subframe is special subframe, before this second common subframe is positioned at this scheduling subframe.

Fourth aspect, provides a kind of method transmitting data, comprising: receive the feedback information that base station sends in the 3rd common subframe; Determine that this feedback information corresponds to the transmitting uplink data in the first common subframe, wherein, the feedback subframe meeting hybrid automatic repeat-request HARQ sequential relationship with this first common subframe is special subframe and after the 3rd common subframe is positioned at this feedback subframe.

In conjunction with fourth aspect, in the implementation that the first is possible, the feedback information that this reception base station sends in the 3rd common subframe, comprising: receive this feedback information sent in the first physical hybrid automatic repeat request indicator channel PHICH group of this base station in the 3rd common subframe; This determines that this feedback information corresponds to the transmitting uplink data in the first common subframe, comprising: according to the corresponding relation of a PHICH group and this first common subframe, determine that this feedback information is corresponding to the transmitting uplink data in the first common subframe.

In conjunction with the first possible implementation of fourth aspect, in the implementation that the second is possible, the quantity of the PHICH group that the PHICH of user equipment (UE) takies in the 3rd common subframe is greater than the quantity of the PHICH group that this PHICH takies in the 4th common subframe, and the 4th common subframe is for only feeding back the transmitting uplink data in a subframe.

In conjunction with fourth aspect, in the implementation that the third is possible, this determines that this feedback information corresponds to the transmitting uplink data in the first common subframe, comprise: according to the value of the indication bit position that this feedback information comprises, determine that this feedback information corresponds to the transmitting uplink data in the first common subframe.

In conjunction with the third possible implementation of fourth aspect, in the 4th kind of possible implementation, the value of this indication bit position comprised according to this feedback information, determine that this feedback information corresponds to the transmitting uplink data in the first common subframe, comprise: according to the value of this indication bit position and before being positioned at the 3rd common subframe and the quantity of the continuous print special subframe nearest with the 3rd common subframe, determine that this feedback information corresponds to the transmitting uplink data in the first common subframe.

In conjunction with the 4th kind of possible implementation of fourth aspect, in the 5th kind of possible implementation, at this according to the value of this indication bit position and before being positioned at the 3rd common subframe and the quantity of the continuous print special subframe nearest with the 3rd common subframe, before determining the transmitting uplink data that this feedback information corresponds in the first common subframe, the method also comprises: receive the indication information that this base station sends, this indication information is used to indicate the position of particular service subframe; According to this indication information, determine this be positioned at the 3rd common subframe before and the quantity of the continuous print special subframe nearest with the 3rd common subframe.

In conjunction with fourth aspect or in conjunction with the first of fourth aspect to any one the possible implementation in the 5th kind of possible implementation, in the 6th kind of possible implementation, before the feedback information that this reception base station sends in the 3rd common subframe, the method also comprises: receive the Downlink Control Information DCI that this base station sends in the second common subframe, this DCI is used to indicate user equipment (UE) and sends upstream data in this first common subframe, and indicates this UE in the 3rd common subframe, receive this feedback information for this transmitting uplink data; The feedback information that this reception base station sends in the 3rd common subframe, comprising: according to this DCI, and the 3rd common subframe receives this feedback information that base station sends.

In conjunction with the 6th kind of possible implementation of fourth aspect, in the 7th kind of possible implementation, if the scheduling subframe meeting this HARQ sequential relationship with this first common subframe is special subframe, before this second common subframe is positioned at this scheduling subframe.

5th aspect, provides a kind of method transmitting data, comprising: receive the downlink data that base station sends in the first common subframe; If the feedback subframe meeting hybrid automatic repeat-request HARQ sequential relationship with this first common subframe is special subframe, determine the second common subframe after this feedback subframe sends feedback information to this base station, this feedback information is used to indicate whether correctly receive this downlink data; This second common subframe sends this feedback information to this base station.

In conjunction with the 5th aspect, in the implementation that the first is possible, the first Physical Uplink Control Channel PUCCH resource in this second common subframe is corresponding with this first common subframe; In this second common subframe, this feedback information should be sent to this base station, comprise: in this first PUCCH resource in this second common subframe, send this feedback information to this base station.

In conjunction with the first possible implementation of the 5th aspect, in the implementation that the second is possible, the quantity of the PUCCH resource that the PUCCH of user equipment (UE) takies in this second common subframe is greater than the quantity of the PUCCH resource that this PUCCH takies in the 3rd common subframe, and the 3rd common subframe is for only feeding back the downlink data transmission in a subframe.

In conjunction with the 5th aspect, in the implementation that the third is possible, this feedback information comprises indication bit position, and this indication bit position is used to indicate this feedback information corresponding to the downlink data transmission in this first common subframe.

In conjunction with the third possible implementation of the 5th aspect, in the 4th kind of possible implementation, the value of this indication bit position is before basis is positioned at this second common subframe and the quantity of the continuous print special subframe nearest with this second common subframe is arranged.

In conjunction with the 4th kind of possible implementation of the 5th aspect, in the 5th kind of possible implementation, before the downlink data that this reception base station sends in the first common subframe, the method also comprises: receive the indication information that this base station sends, this indication information is used to indicate the position of special subframe; According to this indication information, determine this be positioned at this second common subframe before and the quantity of the continuous print special subframe nearest with this second common subframe.

In conjunction with the 5th aspect or in conjunction with the first of the 5th aspect to any one the possible implementation in the 5th kind of possible implementation, in the 6th kind of possible implementation, before the downlink data that this reception base station sends in the first common subframe, the method also comprises: receive the Downlink Control Information DCI that this base station sends, this DCI is used to indicate user equipment (UE) in this first common subframe, receives this downlink data that this base station sends, and this DCI indicates this UE in this second common subframe, send this feedback information for this downlink data transmission; This determines the second common subframe after this feedback subframe sends feedback information to this base station, comprising: according to this DCI, determines to send this feedback information to this base station in this second common subframe.

6th aspect, provides a kind of method transmitting data, comprising: receive the feedback information that user equipment (UE) sends in the second common subframe; Determine that this feedback information corresponds to the downlink data transmission in the first common subframe, wherein, the feedback subframe meeting hybrid automatic repeat-request HARQ sequential relationship with this first common subframe is special subframe and after this second common subframe is positioned at this feedback subframe.

In conjunction with the 6th aspect, in the implementation that the first is possible, the feedback information that this reception UE sends in the second common subframe, comprising: receive this feedback information sent in the first Physical Uplink Control Channel PUCCH resource of this UE in this second common subframe; This determines that this feedback information corresponds to the downlink data transmission in the first common subframe, comprising: according to the corresponding relation of this first PUCCH resource with this first common subframe, determines that this feedback information is corresponding to the downlink data transmission in the first common subframe.

In conjunction with the first possible implementation of the 6th aspect, in the implementation that the second is possible, the quantity of the PUCCH resource that the PUCCH of this UE takies in this second common subframe is greater than the quantity of the PUCCH resource that this PUCCH takies in the 3rd common subframe, and the 3rd common subframe is for only feeding back the downlink data transmission in a subframe.

In conjunction with the 6th aspect, in the implementation that the third is possible, this determines that this feedback information corresponds to the downlink data transmission in the first common subframe, comprise: according to the value of the indication bit position that this feedback information comprises, determine that this feedback information corresponds to the downlink data transmission in the first common subframe.

In conjunction with the third possible implementation of the 6th aspect, in the 4th kind of possible implementation, the value of this indication bit position comprised according to this feedback information, determine that this feedback information corresponds to the downlink data transmission in the first common subframe, comprise: according to the value of this indication bit position and before being positioned at this second common subframe and the quantity of the continuous print special subframe nearest with this second common subframe, determine that this feedback information corresponds to the downlink data transmission in the first common subframe.

In conjunction with the 4th kind of possible implementation of the 6th aspect, in the 5th kind of possible implementation, at this UE of this reception before this feedback information sent in the second common subframe, the method also comprises: send indication information to this UE, this indication information is used to indicate the position of special subframe, this indication information is used to indicate the position of special subframe, this indication information by this UE for determine this be positioned at this second common subframe before and the quantity of the continuous print special subframe nearest with this second common subframe.

In conjunction with the 6th aspect or in conjunction with the first of the 6th aspect to any one the possible implementation in the 5th kind of possible implementation, in the 6th kind of possible implementation, before the feedback information that this UE of this reception sends in the second common subframe, the method also comprises: send Downlink Control Information DCI to this UE, this DCI is used to indicate this UE downlink data receiving in this first common subframe, and this DCI indicates this UE to send this feedback information for this downlink data transmission in this second common subframe, this DCI by this UE for determining to send this feedback information in this second common subframe.

7th aspect, provide a kind of base station, comprise: determination module, if be special subframe for the scheduling subframe meeting hybrid automatic repeat-request HARQ sequential relationship with the first common subframe, determine be positioned to user equipment (UE) transmission Downlink Control Information DCI in the second common subframe before this scheduling subframe, this DCI is for dispatching the transmitting uplink data in this first common subframe; Sending module, sends this DCI to this UE in this second common subframe determined at this determination module; Receiver module, the upstream data that this DCI sent according to this sending module for receiving this UE sends in this first common subframe.

In conjunction with the 7th aspect, in the implementation that the first is possible, the first enhancement mode Physical Downlink Control Channel EPDCCH resource collection in this second common subframe is corresponding with this first common subframe; This sending module is specifically for sending this DCI to this UE in the EPDCCH resource collection in this second common subframe.

In conjunction with the first possible implementation of the 7th aspect, in the implementation that the second is possible, the EPDCCH of this UE takies at least three EPDCCH resource collections in this second common subframe, and each EPDCCH resource collection in these at least three EPDCCH resource collections comprises at least one Physical Resource Block PRB.

In conjunction with the 7th aspect, in the implementation that the third is possible, the first Physical Resource Block PRB in this second common subframe is corresponding with this first common subframe; This sending module is specifically for the PRB in this second common subframe sends this DCI to this UE.

In conjunction with the 7th aspect, in the 4th kind of possible implementation, the indication bit position that this DCI that this sending module sends comprises indicates this DCI for dispatching the transmitting uplink data in this first common subframe.

In conjunction with the 4th kind of possible implementation of the 7th aspect, in the 5th kind of possible implementation, the value of this indication bit position is after basis is positioned at this second common subframe and the quantity of the continuous print special subframe nearest with this second common subframe is arranged.

In conjunction with the 7th aspect or in conjunction with the first of the 7th aspect to any one the possible implementation in the 5th kind of possible implementation, in the 6th kind of possible implementation, if the feedback subframe of this sending module also for meeting this HARQ sequential relationship with this first common subframe is special subframe, be positioned in the 3rd common subframe after this feedback subframe to this UE send feedback information, this feedback information is used to indicate whether correctly receive this upstream data.

In conjunction with the 6th kind of possible implementation of the 7th aspect, in the 7th kind of possible implementation, the first physical hybrid automatic repeat request indicator channel PHICH group in the 3rd common subframe is corresponding with this first common subframe; This sending module is specifically for sending this feedback information to this UE in the PHICH group in the 3rd common subframe.

In conjunction with the 6th kind of possible implementation of the 7th aspect, in the 8th kind of possible implementation, this feedback information comprises indication bit position, and this indication bit position is used to indicate this feedback information corresponding to the transmitting uplink data in this first common subframe.

In conjunction with the 8th kind of possible implementation of the 7th aspect, in the 9th kind of possible implementation, the value of this indication bit position is before basis is positioned at the 3rd common subframe and the quantity of the continuous print special subframe nearest with the 3rd common subframe is arranged.

In conjunction with the 7th aspect or in conjunction with the first of the 7th aspect to any one the possible implementation in the 9th kind of possible implementation, in the tenth kind of possible implementation, this sending module is also for determining at this determination module to send before DCI to UE being positioned in the second common subframe before this scheduling subframe, send indication information to this UE, this indication information is used to indicate the position of special subframe.

Eighth aspect, provides a kind of user equipment (UE), comprising: receiver module, for receiving the Downlink Control Information DCI that base station sends in the second common subframe; Determination module, for determining that this DCI that this receiver module receives is for dispatching the transmitting uplink data in the first common subframe, wherein, the scheduling subframe meeting hybrid automatic repeat-request HARQ sequential relationship with this first common subframe is special subframe and before this second common subframe is positioned at this scheduling subframe; Sending module, for according to this DCI, this first common subframe that this determination module is determined sends upstream data to this base station.

In conjunction with eighth aspect, in the implementation that the first is possible, this receiver module is specifically for receiving this DCI sent in the first enhancement mode Physical Downlink Control Channel EPDCCH resource collection of this base station in this second common subframe; This determination module, specifically for the corresponding relation according to an EPDCCH resource collection and this first common subframe, determines that this DCI that this receiver module receives is for dispatching the transmitting uplink data in this first common subframe.

In conjunction with the first possible implementation of eighth aspect, in the implementation that the second is possible, the EPDCCH of this UE takies at least three EPDCCH resource collections in this second common subframe, and each EPDCCH resource collection in these at least three EPDCCH resource collections comprises at least one Physical Resource Block PRB.

In conjunction with eighth aspect, in the implementation that the third is possible, this DCI that this receiver module sends on the first Physical Resource Block PRB of this second common subframe specifically for receiving this base station; This determination module, specifically for the corresponding relation according to a PRB and this first common subframe, determines that this DCI is for dispatching the transmitting uplink data in this first common subframe.

In conjunction with eighth aspect, in the 4th kind of possible implementation, this determination module, specifically for the value of indication bit position comprised according to this DCI, determines that this DCI is for dispatching the transmitting uplink data in the first common subframe.

In conjunction with the 4th kind of possible implementation of eighth aspect, in the 5th kind of possible implementation, this determination module, specifically for according to the value of this indication bit position and after being positioned at this second common subframe and the quantity of the continuous print special subframe nearest with this second common subframe, determines that this DCI is for dispatching the transmitting uplink data in this first common subframe.

In conjunction with eighth aspect or in conjunction with the first of eighth aspect to any one the possible implementation in the 5th kind of possible implementation, in the 6th kind of possible implementation, this receiver module is also for receiving the feedback information that this base station sends in the 3rd common subframe, wherein, the feedback subframe meeting this HARQ sequential relationship with this first common subframe is special subframe and after the 3rd subframe is positioned at this feedback subframe; This determination module is also for determining that this feedback information that this receiver module receives corresponds to the transmitting uplink data in this first common subframe.

In conjunction with the 6th kind of possible implementation of eighth aspect, in the 7th kind of possible implementation, this receiver module is specifically for receiving this feedback information sent in the first physical hybrid automatic repeat request indicator channel PHICH group of this base station in the 3rd common subframe; This determination module, specifically for the corresponding relation according to a PHICH group and this first common subframe, determines that this feedback information that this receiver module receives corresponds to the transmitting uplink data in this first common subframe.

In conjunction with the 6th kind of possible implementation of eighth aspect, in the 8th kind of possible implementation, the value of indication bit position of this determination module specifically for comprising according to this feedback information, determines that this feedback information that this receiver module receives corresponds to the transmitting uplink data in this first common subframe.

In conjunction with the 8th kind of possible implementation of eighth aspect, in the 9th kind of possible implementation, this determination module, specifically for according to the value of this indication bit position with before being positioned at the 3rd common subframe and the quantity of the continuous print special subframe nearest with the 3rd common subframe, determines that this feedback information corresponds to the transmitting uplink data in this first common subframe.

In conjunction with eighth aspect or in conjunction with the first of eighth aspect to any one the possible implementation in the 9th kind of possible implementation, in the tenth kind of possible implementation, this receiver module is also before the DCI sent in the second common subframe in this reception base station, receive the indication information that this base station sends, this indication information is used to indicate the position of special subframe.

In conjunction with eighth aspect or in conjunction with the first of eighth aspect to any one the possible implementation in the tenth kind of possible implementation, in the 11 kind of possible implementation, this UE also comprises: detection module, for detecting the DCI that this base station sends on special subframe; Transport module, if detect for this detection module the DCI that this base station sends, in the subframe meeting this HARQ sequential relationship at this special subframe and carry out transfer of data between this base station and/or carry out transmission of feedback information.

9th aspect, provides a kind of base station, comprising: receiver module, for receiving the upstream data that user equipment (UE) sends in the first common subframe; Determination module, if be special subframe for the feedback subframe meeting hybrid automatic repeat-request HARQ sequential relationship with this first common subframe, determine be positioned in the 3rd common subframe after this feedback subframe to this UE send feedback information, this feedback information is used to indicate this receiver module and whether correctly receives this upstream data; Sending module, sends this feedback information to this UE in the 3rd common subframe determined at this determination module.

In conjunction with the 9th aspect, in the implementation that the first is possible, the first physical hybrid automatic repeat request indicator channel PHICH group in the 3rd common subframe is corresponding with this first common subframe; This sending module is specifically for sending this feedback information to this UE in the PHICH group in the 3rd common subframe.

In conjunction with the first possible implementation of the 9th aspect, in the implementation that the second is possible, the quantity of the PHICH group that the PHICH of this UE takies in the 3rd common subframe is greater than the quantity of the PHICH group that this PHICH takies in the 4th common subframe, and the 4th common subframe is for only feeding back the transmitting uplink data in a subframe.

In conjunction with the 9th aspect, in the implementation that the third is possible, this feedback information comprises indication bit position, and this indication bit position is used to indicate this feedback information corresponding to the transmitting uplink data in this first common subframe.

In conjunction with the third possible implementation of the 9th aspect, in the 4th kind of possible implementation, the value of this indication bit position is before basis is positioned at the 3rd common subframe and the quantity of the continuous print special subframe nearest with the 3rd common subframe is arranged.

In conjunction with the 4th kind of possible implementation of the 9th aspect, in the 5th kind of possible implementation, this sending module is also before receiving the upstream data that this UE sends in the first common subframe at this receiver module, indication information is sent to this UE, this indication information is used to indicate the position of particular service subframe, this indication information by this UE for before determining to be positioned at the 3rd common subframe and the quantity of the continuous print special subframe nearest with the 3rd common subframe.

In conjunction with the 9th aspect or in conjunction with the first of the 9th aspect to any one the possible implementation in the 5th kind of possible implementation, in the 6th kind of possible implementation, this sending module is also before receiving the upstream data that this UE sends in the first common subframe at this receiver module, second common subframe sends Downlink Control Information DCI to this UE, this DCI is used to indicate this UE and sends upstream data in this first common subframe, and this DCI indicates this UE in the 3rd common subframe, receive this feedback information for this transmitting uplink data.

In conjunction with the 6th kind of possible implementation of the 9th aspect, in the 7th kind of possible implementation, if the scheduling subframe meeting this HARQ sequential relationship with this first common subframe is special subframe, before this second common subframe is positioned at this scheduling subframe.

Tenth aspect, provides a kind of user equipment (UE), comprising: receiver module, for receiving the feedback information that base station sends in the 3rd common subframe; Determination module, for determining that this feedback information that this receiver module receives corresponds to the transmitting uplink data in the first common subframe, wherein, the feedback subframe meeting hybrid automatic repeat-request HARQ sequential relationship with this first common subframe is special subframe and after the 3rd common subframe is positioned at this feedback subframe.

In conjunction with the tenth aspect, in the implementation that the first is possible, this receiver module is specifically for receiving this feedback information sent in the first physical hybrid automatic repeat request indicator channel PHICH group of this base station in the 3rd common subframe; This determination module, specifically for the corresponding relation according to a PHICH group and this first common subframe, determines that feedback information that this receiver module receives corresponds to the transmitting uplink data in the first common subframe.

In conjunction with the first possible implementation of the tenth aspect, in the implementation that the second is possible, the quantity of the PHICH group that the PHICH of this UE takies in the 3rd common subframe is greater than the quantity of the PHICH group that this PHICH takies in the 4th common subframe, and the 4th common subframe is for only feeding back the transmitting uplink data in a subframe.

In conjunction with the tenth aspect, in the implementation that the third is possible, the value of indication bit position of this determination module specifically for comprising according to this feedback information, determines that this feedback information that this receiver module receives corresponds to the transmitting uplink data in the first common subframe.

In conjunction with the third possible implementation of the tenth aspect, in the 4th kind of possible implementation, this determination module specifically for according to the value of this indication bit position and before being positioned at the 3rd common subframe and the quantity of the continuous print special subframe nearest with the 3rd common subframe, determines that this feedback information that this receiver module receives corresponds to the transmitting uplink data in the first common subframe.

In conjunction with the 4th kind of possible implementation of the tenth aspect, in the 5th kind of possible implementation, this receiver module also at this determination module according to the value of this indication bit position and before being positioned at the 3rd common subframe and the quantity of the continuous print special subframe nearest with the 3rd common subframe, before determining that this feedback information that this receiver module receives corresponds to the transmitting uplink data in the first common subframe, receive the indication information that this base station sends, this indication information is used to indicate the position of particular service subframe; This determination module this indication information also for receiving according to this receiver module, determine this be positioned at the 3rd common subframe before and the quantity of the continuous print special subframe nearest with the 3rd common subframe.

In conjunction with the tenth aspect or in conjunction with the first of the tenth aspect to any one the possible implementation in the 5th kind of possible implementation, in the 6th kind of possible implementation, this receiver module is also before the feedback information sent in the 3rd common subframe in this reception base station, receive the Downlink Control Information DCI that this base station sends in the second common subframe, this DCI is used to indicate user equipment (UE) and sends upstream data in this first common subframe, and indicates this UE in the 3rd common subframe, receive this feedback information for this transmitting uplink data; This receiver module, specifically for according to this DCI, the 3rd common subframe receives this feedback information that base station sends.

In conjunction with the 6th kind of possible implementation of the tenth aspect, in the 7th kind of possible implementation, if the scheduling subframe meeting this HARQ sequential relationship with this first common subframe is special subframe, before this second common subframe is positioned at this scheduling subframe.

11 aspect, provides a kind of user equipment (UE), comprising: receiver module, for receiving the downlink data that base station sends in the first common subframe; Determination module, if be special subframe for the feedback subframe meeting hybrid automatic repeat-request HARQ sequential relationship with this first common subframe, determine the second common subframe after this feedback subframe sends feedback information to this base station, this feedback information is used to indicate this receiver module and whether correctly receives this downlink data; Sending module, sends this feedback information to this base station in this second common subframe determined at this determination module.

In conjunction with the 11 aspect, in the implementation that the first is possible, the first Physical Uplink Control Channel PUCCH resource in this second common subframe is corresponding with this first common subframe; This sending module is specifically for sending this feedback information to this base station in this first PUCCH resource in this second common subframe.

In conjunction with the first possible implementation of the 11 aspect, in the implementation that the second is possible, the quantity of the PUCCH resource that the PUCCH of this UE takies in this second common subframe is greater than the quantity of the PUCCH resource that this PUCCH takies in the 3rd common subframe, and the 3rd common subframe is for only feeding back the downlink data transmission in a subframe.

In conjunction with the 11 aspect, in the implementation that the third is possible, this feedback information comprises indication bit position, and this indication bit position is used to indicate this feedback information corresponding to the downlink data transmission in this first common subframe.

In conjunction with the third possible implementation of the 11 aspect, in the 4th kind of possible implementation, the value of this indication bit position is before basis is positioned at this second common subframe and the quantity of the continuous print special subframe nearest with this second common subframe is arranged.

In conjunction with the 4th kind of possible implementation of the 11 aspect, in the 5th kind of possible implementation, this receiver module is also before the downlink data sent in the first common subframe in this reception base station, receive the indication information that this base station sends, this indication information is used to indicate the position of special subframe; This determination module this indication information specifically for receiving according to this receiver module, determine this be positioned at this second common subframe before and the quantity of the continuous print special subframe nearest with this second common subframe.

In conjunction with the 11 aspect or in conjunction with the first of the 11 aspect to any one the possible implementation in the 5th kind of possible implementation, in the 6th kind of possible implementation, this receiver module is also before the downlink data sent in the first common subframe in this reception base station, receive the Downlink Control Information DCI that this base station sends, this DCI is used to indicate user equipment (UE) in this first common subframe, receives this downlink data that this base station sends, and this DCI indicates this UE in this second common subframe, send this feedback information for this downlink data transmission; This determination module this DCI specifically for receiving according to this receiver module, determines to send this feedback information to this base station in this second common subframe.

12 aspect, provides a kind of base station, comprising: receiver module, for receiving the feedback information that user equipment (UE) sends in the second common subframe; Determination module, for determining that this feedback information that this receiver module receives corresponds to the downlink data transmission in the first common subframe, wherein, the feedback subframe meeting hybrid automatic repeat-request HARQ sequential relationship with this first common subframe is special subframe and after this second common subframe is positioned at this feedback subframe.

In conjunction with the 12 aspect, in the implementation that the first is possible, this receiver module is specifically for receiving this feedback information sent in the first Physical Uplink Control Channel PUCCH resource of this UE in this second common subframe; This determination module, specifically for the corresponding relation according to this first PUCCH resource and this first common subframe, determines that this feedback information corresponds to the downlink data transmission in this first common subframe.

In conjunction with the first possible implementation of the 12 aspect, in the implementation that the second is possible, the quantity of the PUCCH resource that the PUCCH of this UE takies in this second common subframe is greater than the quantity of the PUCCH resource that this PUCCH takies in the 3rd common subframe, and the 3rd common subframe is for only feeding back the downlink data transmission in a subframe.

In conjunction with the 12 aspect, in the implementation that the third is possible, the value of indication bit position of this determination module specifically for comprising according to this feedback information, determines that this feedback information corresponds to the downlink data transmission in the first common subframe.

In conjunction with the third possible implementation of the 12 aspect, in the 4th kind of possible implementation, this determination module, specifically for according to the value of this indication bit position and before being positioned at this second common subframe and the quantity of the continuous print special subframe nearest with this second common subframe, determines that this feedback information corresponds to the downlink data transmission in the first common subframe.

In conjunction with the 4th kind of possible implementation of the 12 aspect, in the 5th kind of possible implementation, this base station also comprises: the first sending module, for receiving this UE at this receiver module before this feedback information sent in the second common subframe, indication information is sent to this UE, this indication information is used to indicate the position of special subframe, this indication information by this UE for determine this be positioned at this second common subframe before and the quantity of the continuous print special subframe nearest with this second common subframe.

In conjunction with the 12 aspect or in conjunction with the first of the 12 aspect to any one the possible implementation in the 5th kind of possible implementation, in the 6th kind of possible implementation, this base station also comprises: the second sending module, for receiving this UE at this receiver module before this feedback information sent in the second common subframe, Downlink Control Information DCI is sent to this UE, this DCI is used to indicate this UE downlink data receiving in this first common subframe, and this DCI indicates this UE to send this feedback information for this downlink data transmission in this second common subframe, this DCI by this UE for determining to send this feedback information in this second common subframe.

Based on technique scheme, according to the method for the transmission data of the embodiment of the present invention, base station and subscriber equipment, if the scheduling subframe meeting HARQ sequential relationship with the first common subframe is special subframe, then base station is being positioned in the before this special subframe second common subframe to UE transmission dispatch, this dispatch indicates this UE to send upstream data in this first common subframe, to make to deposit in case at special subframe, this base station can be dispatched UE, and then can normal transfer of data be carried out between base station and UE, thus the problem cannot carrying out normal transfer of data between UE and base station caused due to the existence of special subframe can be solved, improve systematic function and Consumer's Experience.

Accompanying drawing explanation

In order to be illustrated more clearly in the technical scheme of the embodiment of the present invention, be briefly described to the accompanying drawing used required in the embodiment of the present invention or description of the prior art below, apparently, accompanying drawing described is below only some embodiments of the present invention, for those of ordinary skill in the art, under the prerequisite not paying creative work, other accompanying drawing can also be obtained according to these accompanying drawings.

Fig. 1 is the indicative flowchart of the method for the transmission data of the embodiment of the present invention.

Fig. 2 is another indicative flowchart of the method for the transmission data of the embodiment of the present invention.

Fig. 3 is the indicative flowchart of the method for the transmission data of another embodiment of the present invention.

Fig. 4 is another indicative flowchart of the method for the transmission data of another embodiment of the present invention.

Fig. 5 is an indicative flowchart again of the method for the transmission data of another embodiment of the present invention.

Fig. 6 is an indicative flowchart again of the method for the transmission data of another embodiment of the present invention.

Fig. 7 is the indicative flowchart of the method for the transmission data of yet another embodiment of the invention.

Fig. 8 is the indicative flowchart of the method for the transmission data of yet another embodiment of the invention.

Fig. 9 is the indicative flowchart of the method for the transmission data of yet another embodiment of the invention.

Figure 10 is another indicative flowchart of the method for the transmission data of yet another embodiment of the invention.

Figure 11 is the indicative flowchart of the method for the transmission data of yet another embodiment of the invention.

Figure 12 is another indicative flowchart of the method for the transmission data of yet another embodiment of the invention.

Figure 13 is the schematic block diagram of the base station of the embodiment of the present invention.

Figure 14 is the schematic block diagram of the subscriber equipment of the embodiment of the present invention.

Figure 15 is another schematic block diagram of the subscriber equipment of the embodiment of the present invention.

Figure 16 is the schematic block diagram of the base station of another embodiment of the present invention.

Figure 17 is the schematic block diagram of the subscriber equipment of another embodiment of the present invention.

Figure 18 is the schematic block diagram of the subscriber equipment of yet another embodiment of the invention.

Figure 19 is the schematic block diagram of the base station of yet another embodiment of the invention.

Figure 20 is another schematic block diagram of the base station of yet another embodiment of the invention.

Figure 21 is the schematic block diagram of the base station of yet another embodiment of the invention.

Figure 22 is the schematic block diagram of the subscriber equipment of yet another embodiment of the invention.

Figure 23 is the schematic block diagram of the base station of yet another embodiment of the invention.

Figure 24 is the schematic block diagram of the subscriber equipment of yet another embodiment of the invention.

Figure 25 is the schematic block diagram of the subscriber equipment of yet another embodiment of the invention.

Figure 26 is the schematic block diagram of the base station of yet another embodiment of the invention.

Embodiment

Below in conjunction with the accompanying drawing in the embodiment of the present invention, be clearly and completely described the technical scheme in the embodiment of the present invention, obviously, described embodiment is a part of embodiment of the present invention, instead of whole embodiment.Based on the embodiment in the present invention, the every other embodiment that those of ordinary skill in the art obtain under the prerequisite not making creative work, all should belong to the scope of protection of the invention.

Should understand, the technical scheme of the embodiment of the present invention can be applied to various communication system, such as: global system for mobile telecommunications (Global System of Mobile communication, referred to as " GSM ") system, code division multiple access (Code Division Multiple Access, referred to as " CDMA ") system, Wideband Code Division Multiple Access (WCDMA) (Wideband Code Division Multiple Access, referred to as " WCDMA ") system, GPRS (General Packet Radio Service, referred to as " GPRS "), Long Term Evolution (Long Term Evolution, referred to as " LTE ") system, LTE Frequency Division Duplexing (FDD) (Frequency Division Duplex, referred to as " FDD ") system, LTE time division duplex (Time Division Duplex, referred to as " TDD "), universal mobile telecommunications system (Universal Mobile Telecommunication System, referred to as " UMTS "), global interconnection inserting of microwave (Worldwide Interoperability for Microwave Access, referred to as " WiMAX ") communication system etc.

Will also be understood that, in embodiments of the present invention, subscriber equipment (User Equipment, referred to as " UE ") terminal (Terminal) can be referred to as, travelling carriage (Mobile Station, referred to as " MS "), mobile terminal (Mobile Terminal) etc., this subscriber equipment can through wireless access network (Radio Access Network, referred to as " RAN ") communicate with one or more core net, such as, subscriber equipment can be mobile phone (or being called " honeycomb " phone), there is the computer etc. of mobile terminal, such as, subscriber equipment can also be portable, pocket, hand-hold type, built-in computer or vehicle-mounted mobile device, they and wireless access network switched voice and/or data.

Will also be understood that, in embodiments of the present invention, base station, can be base station (the Base Transceiver Station in GSM or CDMA, referred to as " BTS "), also can be the base station (NodeB) in WCDMA, can also be evolved base station (the evolved Node B in LTE, referred to as " eNB " or " e-NodeB "), the present invention is to this and be not construed as limiting.

Should also be understood that in embodiments of the present invention, common subframe refers to the subframe that may be used for transmitting data and signaling, and this common subframe has the ability sending scheduling and feedback signaling.Such as, from the flow process of downlink transfer, a common subframe may be used for sending DCI, Physical Downlink Shared Channel (the Physical Downlink Shared Channel transmitted in this subframe is received in dispatch UE, referred to as " PDSCH "), UE can receive PDSCH according to this DCI in this scheduling subframe, and whether correct with this scheduling subframe if meeting the reception of feeding back this PDSCH in the common subframe of HARQ sequential relationship; From the flow process of uplink, a common subframe may be used for sending DCI, Physical Uplink Shared Channel (Physical Uplink Shared Channel is sent to dispatch UE, referred to as " PUSCH "), UE can meet with this scheduling subframe the transmission carrying out PUSCH in the common subframe of HARQ sequential relationship according to this DCI, and after base station receives this PUSCH in above-mentioned transmission subframe, this PUSCH can be fed back in the common subframe of HARQ sequential relationship and whether correctly receives meeting with transmission subframe.Alternatively, special subframe can comprise the subframe being exclusively used in data in some particular service and information transmission, and this particular service can comprise MBMS, D2D business or MTC service, etc.; Alternatively, this special subframe also can comprise the subframe owing to being closed by base station without the ability sending scheduling or feedback signaling, particularly, in some cases, base station is in order to save the power consumption of self, some descending sub frame can be closed, and carry out dispatching and feeding back on not pent descending sub frame, now, pent subframe can be called special subframe, and not pent subframe can be called common subframe, but the embodiment of the present invention is not limited thereto.

In addition, for convenience of description, the embodiment of the present invention is mainly described for FDD system, but the embodiment of the present invention can also be applied to TDD system, and the embodiment of the present invention can be applied to FDD system and the TDD system of various version.

Fig. 1 shows the indicative flowchart of the method 100 of the transmission data according to the embodiment of the present invention, the method can be performed by any suitable device, such as can be performed by base station, base station controller or other network equipment, for convenience of description, be described for base station execution below, but the embodiment of the present invention is not limited thereto.As shown in Figure 1, the method 100 comprises:

S110, if the scheduling subframe meeting hybrid automatic repeat-request HARQ sequential relationship with the first common subframe is special subframe, determine be positioned to user equipment (UE) transmission Downlink Control Information DCI in the second common subframe before this scheduling subframe, this DCI is for dispatching the transmitting uplink data in this first common subframe;

S120, this second common subframe sends this DCI to this UE;

S130, receives the upstream data that this UE sends in this first common subframe according to this DCI.

Therefore, according to the method for the transmission data of the embodiment of the present invention, if the scheduling subframe meeting HARQ sequential relationship with the first common subframe is special subframe, then base station is being positioned in the before this special subframe second common subframe to UE transmission dispatch, this dispatch indicates this UE to send upstream data in this first common subframe, to make to deposit in case at special subframe, this base station can be dispatched UE, and then can normal transfer of data be carried out between base station and UE, thus the problem cannot carrying out normal transfer of data between UE and base station caused due to the existence of special subframe can be solved, improve systematic function and Consumer's Experience.

For convenience of description, that supposes to dispatch in HARQ sequential relationship subframe and upstream or downstream data transmission subframes below is spaced apart k, and upstream or downstream data transmission subframes and feedback subframe between be spaced apart l, wherein, for the FDD system of LTE the 8th version, k and l is 4, and for TDD system, k and l is all by acquisition of tabling look-up, but the HARQ sequential relationship in the embodiment of the present invention can be also other HARQ sequential relationship, and the embodiment of the present invention is not limited thereto.

If this first common subframe is subframe n, but the scheduling subframe meeting HARQ sequential relationship with this first common subframe is special subframe, namely subframe n-k is special subframe, in order to not affect normal transfer of data, the second common subframe of base station before this special subframe sends dispatch to this UE, suppose that this second common subframe is subframe m, then n-m>k.Alternatively, base station can be integer and 1≤x1≤10 at the xth 1(x1 counted forward for starting point with this special subframe (subframe n-k)) individual common subframe sends dispatch to this UE, wherein, when with subframe n-k for starting point forward number before x1 subframe be common subframe time, then m=n-k-x1; And when there is s1 special subframe between xth 1 the common subframe counted forward for starting point with subframe n-k and subframe n-k, s1 be more than or equal to 1 integer, then m=n-k-s1-x1.Alternatively, also can have the interval of other numerical value between this second common subframe and this first common subframe, but the embodiment of the present invention is not limited thereto.

Particularly, the value of this x1 can pre-define, such as, can at the good x1=1 of protocol definition, also can be determined the concrete numerical value of x1 according to current network state by base station, and the numerical value of x1 is notified this UE, the numerical value of the ratio-dependent x1 of such as base station shared by the special subframe in a radio frames in system, but the embodiment of the present invention is not limited thereto.

In embodiments of the present invention, the transfer of data in this first common subframe is dispatched in this base station in the second common subframe, wherein, interval between this first common subframe and this second common subframe is greater than k the subframe defined in HARQ sequential relationship, in this case, this base station also may meet the transmitting uplink data in the subframe (subframe m+k) of HARQ sequential relationship in the upper scheduling of this second common subframe (subframe m) and this second common subframe, like this, the DCI that this base station sends in this second common subframe may for dispatching the transfer of data in multiple subframe.Now, this base station can indicate this DCI specifically for dispatching which subframe, particularly, this base station can be dispatched subframe indication information by DCI and be indicated this DCI for dispatching the transfer of data in which subframe, subframe indication information can be dispatched according to DCI to make this UE and determine that this DCI is specifically for dispatching the transfer of data in which subframe, and send upstream data in the subframe of this correspondence.

Particularly, this base station can indicate this DCI for dispatching the transfer of data in which subframe by least one bit carried in DCI, for convenience of description, at least one bit being used to indicate the subframe that this DCI dispatches carried in DCI is called indication bit position below.

Correspondingly, the indication bit position that this DCI comprises indicates this DCI for dispatching the transmitting uplink data in this first common subframe.Now, this DCI dispatches the information that subframe indication information is the indication bit position of carrying in this DCI.

Particularly, this indication bit position can be at least one bit newly-increased in this DCI, also can be at least one bit existing in this DCI, such as, the bit of the resource of dispatching for this UE can be used to indicate by compression, indicate the information of subframe of this DCI for dispatching to reserve at least one bit, but the embodiment of the present invention is not limited thereto.

Be 2 for the quantity of this indication bit position and k for 4, the subframe that the value of these 2 indication bit positions can be dispatched with this DCI has fixing corresponding relation.Such as, as shown in table 1, if the value of 2 indication bit positions of carrying in the DCI of this base station transmission in the second common subframe (subframe m) is " 00 ", then show that this DCI is for dispatching the transfer of data on subframe m+4; And when the value of these 2 indication bit positions is " 01 ", then show that this DCI is for dispatching the transfer of data on subframe m+5; Alternatively, the subframe that the value of these 2 indication bit positions and this DCI dispatch also can have other corresponding relation, and the embodiment of the present invention is not construed as limiting this.

The corresponding relation of the subframe that the value of 2 indication bit positions of carrying in table 1DCI and this DCI dispatch

The value of 2 indication bit positions	00	01	10	11
					The subframe of scheduling	m+4	m+5	m+6	m+7

Alternatively, as another embodiment, the subframe that the value of these 2 indication bit positions and this DCI dispatch also can have revocable corresponding relation, but the quantity of continuous print special subframe after depending on subframe m.In this case, the value of this this indication bit position according to the position relationship of this second general service subframe and this first general service subframe and the quantity being positioned at the continuous subframes before this second general service subframe, can be determined in this base station.

Correspondingly, the value of this indication bit position be according to after being positioned at this second common subframe and the quantity of the continuous print special subframe nearest with this second common subframe arrange.

Particularly, still be 2 for the quantity of this indication bit position and k equals 4, this base station can by the value of these 2 indication bit positions and the subframe jointly indicating this DCI to dispatch at a distance of the quantity of nearest continuous print special subframe after being positioned at this second common subframe and with this second common subframe.Such as, as shown in table 2, if there are 2 continuous print special subframes after subframe m, then the value of these 2 indication bit positions is that " 01 " represents that this DCI is for dispatching the transfer of data on subframe m+5; If there are 4 continuous print special subframes after subframe m, then " 01 " represents that this DCI dispatches the transfer of data on subframe m+5 and subframe m+6 simultaneously, but the embodiment of the present invention is not construed as limiting this corresponding relation.

The corresponding relation of the subframe that the value of 2 indication bit positions of carrying in table 2DCI and this DCI dispatch

Alternatively, as another embodiment, this base station also can not by the indication bit position of carrying in this DCI, i.e. newly-increased in this DCI or compression bit position, this base station, but by subframe that the mode of recessiveness indicates this DCI to dispatch.Particularly, this base station can send this DCI by adopting different downlink resources, and with the subframe indicating this DCI to dispatch, correspondingly, this DCI scheduling subframe indication information can comprise the resource information for sending this DCI.Particularly, this base station can at Physical Downlink Control Channel (Physical Downlink Control Channel, referred to as " PDCCH ") middle this DCI of transmission, also this DCI can be sent in enhancement mode Physical Downlink Control Channel (Enhanced Physical Downlink Control Channel, referred to as " EPDCCH ").When this base station sends this DCI in EPDCCH, this DCI can be sent, with the subframe implicitly indicating this DCI to dispatch by adopting different EPDCCH resource collections.Correspondingly, the first enhancement mode Physical Downlink Control Channel EPDCCH resource collection in this second common subframe is corresponding with this first common subframe;

S120, this second common subframe sends this DCI to this UE, comprising:

S121, sends this DCI to this UE in the EPDCCH resource collection in this second common subframe.

Wherein, the numbering of the one EPDCCH resource collection can have corresponding relation with the subframe numbers of this first common subframe, this corresponding relation can pre-define, also this UE can be prenoticed by base station by high-level signaling, such as, the DCI sent in the EPDCCH resource collection being numbered 1 is for dispatching the transmitting uplink data on subframe m+k, and the DCI sent in the EPDCCH resource collection being numbered 2 is for dispatching the transmitting uplink data on subframe m+k+1, but the embodiment of the present invention is not limited thereto.

Now, if this base station needs the transmitting uplink data of dispatching respectively at upper transmission more than three DCI of this second common subframe (subframe m) in different subframe, and this EPDCCH takies one or two EPDCCH resource collection on subframe m, then this EPDCCH resource collection obviously can not meet the demand of scheduling, therefore, alternatively, this base station can be that this UE configures more than three EPDCCH resource collections on subframe m, and each EPDCCH resource collection comprises at least one PRB.

Correspondingly, the EPDCCH of this UE takies at least three EPDCCH resource collections in this second common subframe, and each EPDCCH resource collection in these at least three EPDCCH resource collections comprises at least one Physical Resource Block PRB.

Particularly, the number of the EPDCCH resource collection that the EPDCCH that this base station configures for this UE in this second common subframe takies can depend on the quantity of the special subframe be positioned at after this second common subframe, but the embodiment of the present invention is not limited thereto.Alternatively, the number of the EPDCCH resource collection of configuration on subframe m and positional information also can be prenoticed this UE by this base station in advance, correspondingly, the DCI that on all EPDCCH resource collections that this UE can configure in this base station, base stations detected sends, and according to the EPDCCH resource collection at the DCI place received, determine the subframe that this DCI dispatches, but the embodiment of the present invention is not limited thereto.

Alternatively, as another embodiment, this base station also can be passed through at different Physical Resource Block (Physical Resource Block, referred to as " PRB ") upper this DCI of transmission, with the subframe implicitly indicating this DCI to dispatch, correspondingly, the first Physical Resource Block PRB in this second common subframe is corresponding with this first common subframe;

S120, this second common subframe sends this DCI to this UE, comprising:

S122, the PRB in this second common subframe sends this DCI to this UE.

Particularly, this base station can be according to actual needs, one or more PRB sends DCI, and there is corresponding relation between such as, subframe numbers by the subframe that the information of this one or more PRB indicates this DCI to dispatch, for the scheduling subframe of the minimum or maximum numbering and this DCI that send at least one PRB of this DCI, wherein, the PRB that this at least one PRB can take for PDCCH, the PRB that also can take for EPDCCH, the embodiment of the present invention is not limited thereto.Alternatively, as another embodiment, when this base station sends this DCI in EPDCCH, this base station can also indicate the scheduling subframe of this DCI jointly by transmission at least one PRB of this DCI and the EPDCCH resource collection at this at least one PRB place, the embodiment of the present invention is not limited thereto.

Alternatively, after this base station receives the upstream data that this UE sends in this first common subframe, if meet the feedback subframe of HARQ sequential relationship (such as with this first common subframe, subframe n+l) be common subframe, this base station can send ACK/NACK message to this UE on subframe n+l, whether correctly receives this upstream data to indicate this base station; And if subframe n+l is special subframe, then this base station can the 3rd common subframe after this special subframe be fed back, and supposes that the 3rd common subframe is subframe p, then p-n>l.Correspondingly, as shown in Figure 2, the method 100 also comprises:

S140, if the feedback subframe meeting this HARQ sequential relationship with this first common subframe is special subframe, send feedback information to this UE being positioned in the 3rd common subframe after this feedback subframe, this feedback information is used to indicate whether correctly receive this upstream data.

Therefore, according to the method for the transmission data of the embodiment of the present invention, when the subframe for HARQ feedback is special subframe, this base station can the common subframe after this special subframe be fed back, make can carry out follow-up data and signalling between this base station and this UE, avoid impacting the feedback between UE and base station due to the existence of special subframe, thus improve systematic function and Consumer's Experience.

Particularly, this base station can be integer and 1≤x2≤10 at the xth 2(x2 counted backward for starting point with special subframe (subframe n+l)) individual common subframe carries out ACK/NACK feedback, wherein, when with subframe n+l for starting point backward number before x2 subframe be common subframe time, then p=n+l+x2; And when there is s2 special subframe between xth 2 the common subframes counted backward for starting point with this subframe n+l and subframe n+l, s2 be more than or equal to 1 integer, then p=n+l+s2+x2.Alternatively, also can have the interval of other numerical value between the 3rd common subframe and this first common subframe, but the embodiment of the present invention is not limited thereto.

Particularly, the value of this x2 can pre-define, such as, can at the good x2=1 of protocol definition, also can be determined the concrete numerical value of x2 by base station according to current network state, and the numerical value of x2 is notified this UE, the numerical value of the ratio-dependent x2 of such as base station shared by the special subframe in a radio frames in system, this x2 can equal the numerical value of this x1, but the embodiment of the present invention is not limited thereto.

In embodiments of the present invention, the transfer of data in this first common subframe is fed back in this base station in the 3rd common subframe, wherein, interval between 3rd common subframe and this first common subframe is greater than l, alternatively, whether the transmitting uplink data that this base station also may meet in the subframe (subframe p-l) of HARQ sequential relationship in the upper feedback of the 3rd common subframe (subframe p) and the 3rd common subframe is successful, like this, the ACK/NACK that this base station sends in the 3rd common subframe may correspond to the transfer of data in different subframe.Now, this base station can indicate this ACK/NACK corresponding to the transmitting uplink data in which subframe by feedback subframe indication information, can determine whether this base station correctly receives the upstream data that corresponding subframe is transmitted to make this UE according to this feedback sub-frame information and feedback information.Particularly, this base station can indicate this ACK/NACK corresponding to the transfer of data in which subframe by the mode increasing bit in ACK/NACK.

Correspondingly, this feedback information comprises indication bit position, and this indication bit position is used to indicate this feedback information corresponding to the transmitting uplink data in this first common subframe.Namely the indication bit position that this feedback information comprises indicates this feedback information to be the feedback information of the transmitting uplink data in this first common subframe.

Alternatively, this base station can increase the subframe that 2 bits feed back to indicate this ACK/NACK in this ACK/NACK, and the subframe that the value of these 2 bits can be fed back with this ACK/NACK has fixing corresponding relation.Such as, the value of this l is 4, as shown in table 3, if the value of 2 bits that this base station is newly-increased in the upper ACK/NACK sent of the 3rd common subframe (subframe p) is " 00 ", then this ACK/NACK corresponds to the transfer of data on subframe p-4, and namely this ACK/NACK is used to indicate the whether success of transfer of data on subframe p-4; And when the value of new 2 bits of this increasing is " 01 ", then this ACK/NACK corresponds to the transfer of data on subframe p-5, but the subframe that the value of these 2 newly-increased bits and this ACK/NACK feed back also can have other corresponding relation, and the embodiment of the present invention is not construed as limiting this.

The corresponding relation of the subframe that the value of 2 bits increased in table 3ACK/NACK and this ACK/NACK feed back

The value of newly-increased 2 bits	00	01	10	11
					The subframe of feedback	p-4	p-5	p-6	p-7

Alternatively, as another embodiment, the subframe that value and this ACK/NACK of these 2 newly-increased bits feed back also can have revocable corresponding relation, but depend on be positioned at subframe p before and the quantity of the continuous print special subframe nearest apart with this subframe p.

Correspondingly, the value of this indication bit position be according to before being positioned at the 3rd common subframe and the quantity of the continuous print special subframe nearest with the 3rd common subframe arrange.

Such as, the value of this l is 4, as shown in table 4, if there are 2 continuous print special subframes before subframe p, then the value of these 2 newly-increased bits is the transfer of data that this ACK/NACK of 01 expression corresponds on subframe p-5; If there are 4 continuous print special subframes before subframe p, then 01 represents that this ACK/NACK corresponds to the transfer of data on subframe p-5 and subframe p-6 simultaneously, namely this ACK/NACK can indicate whether correctly to receive the upstream data of transmission on subframe p-5 and subframe p-6 simultaneously, but the embodiment of the present invention is not construed as limiting this corresponding relation.In addition, description above is all described with 2 bits newly-increased in this ACK/NACK, but also can be indicated the subframe that this ACK/NACK feeds back in this ACK/NACK by the bit increasing other quantity, and the embodiment of the present invention is not construed as limiting this.

The corresponding relation of the subframe that the value of 2 bits increased in table 4ACK/NACK and this ACK/NACK feed back

Alternatively, as another embodiment, this base station also can not increase the bit of this ACK/NACK, but by subframe that recessive mode indicates this ACK/NACK to feed back.Alternatively, the subframe that this base station can indicate this ACK/NACK to feed back by the resource information sending this ACK/NACK, namely this feedback subframe indication information comprises the resource information sending this feedback information.Particularly, this base station is at physical hybrid automatic repeat request indicator channel (Physical Hybrid Automatic Repeat reQuest Indicator Channel, referred to as " PHICH ") in send this ACK/NACK time, this ACK/NACK can be sent, with the subframe implicitly indicating this ACK/NACK to feed back by adopting different PHICH groups.

Correspondingly, the first physical hybrid automatic repeat request indicator channel PHICH group in the 3rd common subframe is corresponding with this first common subframe;

S140, be positioned in the 3rd common subframe after this feedback subframe to this UE send feedback information, comprising:

S141, sends this feedback information to this UE in the PHICH group in the 3rd common subframe.

Now, if this base station needs when the quantity of the upper ACK/NACK sent of the 3rd common subframe (subframe p) is more, this base station can, for this UE configures a fairly large number of PHICH group in the 3rd common subframe, can adopt different PHICH groups to send feedback information for the transmitting uplink data in the different subframe of feedback to make this base station respectively.

Correspondingly, the quantity of the PHICH group that the PHICH of this UE takies in the 3rd common subframe is greater than the quantity of the PHICH group that this PHICH takies in the 4th common subframe, and the 4th common subframe is for only feeding back the transmitting uplink data in a subframe.

Such as, if the 4th common subframe is the adjacent sub-frame of the 3rd common subframe, and the 4th common subframe is for only feeding back the upstream data in a common subframe, then network side can for this UE configures 5 PHICH groups in the 4th common subframe, and for this UE configures 10 PHICH groups in the 3rd common subframe.Alternatively, before the quantity of PHICH group that network side configures for this UE in the 3rd common subframe can depend on and be positioned at the 3rd common subframe and the quantity of the continuous special subframe nearest apart with the 3rd common subframe, but the embodiment of the present invention is not limited thereto.

Alternatively, the quantity of this special subframe and position can pre-define; The distributed intelligence of this special subframe also can be notified this UE by high-level signaling by this base station in advance; Alternatively, this base station semi-statically can also configure quantity and the position of special subframe, and notifies the distributed intelligence of the special subframe in this UE a period of time, but the embodiment of the present invention is not limited thereto.Correspondingly, before S110, the method 100 also comprises:

S150, send indication information to this UE, this indication information is used to indicate the position of this special subframe.

Therefore, according to the method for the transmission data of the embodiment of the present invention, if the scheduling subframe meeting HARQ sequential relationship with the first common subframe is special subframe, then base station is being positioned in the before this special subframe second common subframe to UE transmission dispatch, this dispatch indicates this UE to send upstream data in this first common subframe, to make to deposit in case at special subframe, this base station can be dispatched UE, and then can normal transfer of data be carried out between base station and UE, thus the problem cannot carrying out normal transfer of data between UE and base station caused due to the existence of special subframe can be solved, improve systematic function and Consumer's Experience.In addition, when the feedback subframe meeting HARQ sequential relationship with this first common subframe is special subframe, the common subframe of this base station after this special subframe is fed back the transfer of data in this first common subframe, to make to deposit in case at special subframe, this base station still can be fed back, thus the problem cannot carrying out feeding back in the base station of causing due to the existence of special subframe can be solved, improve systematic function and Consumer's Experience further.

Above composition graphs 1 and Fig. 2, describes the method for the transmission data according to the embodiment of the present invention in detail from the angle of base station, below in conjunction with Fig. 3 to Fig. 6, describe the method according to the transmission data of the embodiment of the present invention in detail from the angle of UE.

Fig. 3 shows the indicative flowchart of the method 200 transmitting data according to another embodiment of the present invention, and the method 200 can be performed by UE, and as shown in Figure 3, the method 200 comprises:

S210, receives the Downlink Control Information DCI that base station sends in the second common subframe;

S220, determine that this DCI is for dispatching the transmitting uplink data in the first common subframe, wherein, the scheduling subframe meeting hybrid automatic repeat-request HARQ sequential relationship with this first common subframe is special subframe and before this second common subframe is positioned at this scheduling subframe;

S230, according to this DCI, this first common subframe sends upstream data to this base station.

Therefore, according to the method for the transmission data of the embodiment of the present invention, if the scheduling subframe meeting HARQ sequential relationship with the first common subframe is special subframe, then base station is being positioned in the before this special subframe second common subframe to UE transmission dispatch, this dispatch indicates this UE to send upstream data in this first common subframe, to make to deposit in case at special subframe, this base station can be dispatched UE, and then can normal transfer of data be carried out between base station and UE, thus the problem cannot carrying out normal transfer of data between UE and base station caused due to the existence of special subframe can be solved, improve systematic function and Consumer's Experience.

In S220, this UE can dispatch subframe indication information according to DCI, determines that this DCI is for dispatching the transmitting uplink data in this first common subframe.Wherein, this DCI dispatches the information that subframe indication information can be the indication bit position of carrying in this DCI, also can be the resource information of this DCI of transmission, wherein, this resource information can comprise the information of EPDCCH resource collection and/or the information of PRB, but the embodiment of the present invention is not limited thereto.

Alternatively, this base station can by subframe that indication bit position indicates this DCI to dispatch in DCI, the subframe that the value of this indication bit position specifically can be dispatched with this DCI has fixing corresponding relation, correspondingly, S220, determine that this DCI is for dispatching the transmitting uplink data in the first common subframe, comprising:

S221, according to the value of the indication bit position that this DCI comprises, determines that this DCI is for dispatching the transmitting uplink data in the first common subframe.

Alternatively, as another embodiment, the corresponding relation between the subframe that the value of this indication bit position and DCI dispatch also can depend on the quantity of the continuous print special subframe be positioned at after this second common subframe.Correspondingly, S221, according to the value of the indication bit position that this DCI comprises, determines that this DCI is for dispatching the transmitting uplink data in the first common subframe, comprising:

S2211, according to the value of this indication bit position and after being positioned at this second common subframe and the quantity of the continuous print special subframe nearest with this second common subframe, determines that this DCI is for dispatching the transmitting uplink data in this first common subframe.

Alternatively, as another embodiment, this base station also can by sending this DCI at different EPDCCH resource collections, with the subframe indicating this DCI specifically to dispatch, now, the numbering of EPDCCH resource collection can and the subframe numbers of subframe dispatched of DCI between there is fixing corresponding relation, this corresponding relation can pre-define or this corresponding relation is notified this UE by high-level signaling by base station in advance.

As shown in Figure 4, S210, receives the DCI that base station sends in the second common subframe, comprising:

S212, receives this DCI sent in the first enhancement mode Physical Downlink Control Channel EPDCCH resource collection of this base station in this second common subframe;

Correspondingly, S220, determines that this DCI is for dispatching the transmitting uplink data in the first common subframe, comprising:

S222, according to the corresponding relation of an EPDCCH resource collection and this first common subframe, determines that this DCI is for dispatching the transmitting uplink data in this first common subframe.

Now, alternatively, network side can configure at least three EPDCCH resource collections for this UE in this first common subframe, correspondingly, the EPDCCH of this UE takies at least three EPDCCH resource collections in this second common subframe, and each EPDCCH resource collection in these at least three EPDCCH resource collections comprises at least one Physical Resource Block PRB.

Alternatively, as another embodiment, this base station also can by transmitting this DCI, with the subframe indicating this DCI to dispatch in different PRB.Now, the subframe that PRB and this DCI dispatches has fixed correspondence, such as, have fixing corresponding relation between the subframe numbers transmitting the subframe that numbering at least one PRB of this DCI minimum or maximum PRB and this DCI dispatches, this corresponding relation can pre-define or this corresponding relation is notified this UE by high-level signaling by base station in advance.

As shown in Figure 5, S210, receives the DCI that base station sends in the second common subframe, comprising:

S213, receives this DCI that this base station sends on the first Physical Resource Block PRB of this second common subframe;

Correspondingly, S220, determines that this DCI is for dispatching the transmitting uplink data in the first common subframe, comprising:

S223, according to the corresponding relation of a PRB and this first common subframe, determines that this DCI is for dispatching the transmitting uplink data in this first common subframe.

Alternatively, as another embodiment, as shown in Figure 6, the method 200 also comprises:

S240, receives the feedback information that this base station sends in the 3rd common subframe, and wherein, the feedback subframe meeting this HARQ sequential relationship with this first common subframe is special subframe and after the 3rd subframe is positioned at this feedback subframe;

S250, determines that this feedback information corresponds to the transmitting uplink data in this first common subframe.

Wherein, this feedback information can be ACK/NACK, in S250, this UE can according to feedback subframe indication information, determine that this feedback information is the feedback information of the transmitting uplink data in this first common subframe, wherein, this feedback subframe indication information can be the information of the added bits position in this feedback information, also can be the information of the added bits position in this feedback information and the number information being positioned at the continuous special subframe before the 3rd common subframe, it can also be the resource information of this feedback information of transmission, wherein, this resource information can be PHICH group information, also can be the information of at least one PRB, but the embodiment of the present invention is not limited thereto.

Alternatively, as another embodiment, S250, this determines that this feedback information corresponds to the transmitting uplink data in this first common subframe, comprising:

S251, according to the value of the indication bit position that this feedback information comprises, determines that this feedback information corresponds to the transmitting uplink data in this first common subframe.

Alternatively, as another embodiment, S251, according to the value of the indication bit position that this feedback information comprises, determines that this feedback information corresponds to the transmitting uplink data in this first common subframe, comprising:

S2511, according to the value of this indication bit position with before being positioned at the 3rd common subframe and the quantity of the continuous print special subframe nearest with the 3rd common subframe, determines that this feedback information corresponds to the transmitting uplink data in this first common subframe.

Alternatively, as another embodiment, S240, receives the feedback information that this base station sends in the 3rd common subframe, comprising:

S242, receives this feedback information sent in the first physical hybrid automatic repeat request indicator channel PHICH group of this base station in the 3rd common subframe;

Correspondingly, S250, determines that this feedback information corresponds to the transmitting uplink data in this first common subframe, comprising:

S252, according to the corresponding relation of a PHICH group and this first common subframe, determines that this feedback information corresponds to the transmitting uplink data in this first common subframe.

Alternatively, as another embodiment, before S210, the method 200 also comprises:

S260, receive the indication information that this base station sends, this indication information is used to indicate the position of special subframe.

Alternatively, as another embodiment, after this UE receives the position of the indication information instruction special subframe that this base station sends in advance, this base station may according to actual needs, and such as, the volume of transmitted data in particular service is less, originally be that special subframe is configured to common subframe some, and scheduling or feedback signaling is sent to this UE in these subframes, therefore, this UE also can detect scheduling or the feedback signaling of the transmission of this base station on special subframe.Correspondingly, the method 200 also comprises:

S270, this special subframe detects the DCI that this base station sends;

S280, if the DCI that this base station sends detected, in the subframe meeting this HARQ sequential relationship at this special subframe and carry out transfer of data between this base station and/or carry out transmission of feedback information.

Wherein, this feedback information can be ACK/NACK, and the subframe meeting this HARQ sequential relationship with this special subframe can be common subframe.Particularly, when this UE at a certain special subframe (such as, subframe q) on when the dispatch for dispatching uplink transfer of data that this base station sends being detected, this UE can carry out transmitting uplink data on subframe q+k, also can determine that this DCI dispatches the transmitting uplink data in which subframe according to the DCI sub-frame information of DCI, the embodiment of the present invention is not limited thereto.Alternatively, when this UE at a certain special subframe (such as, subframe q) on detect that this base station sends correspond to the ACK/NACK of transmitting uplink data time, this UE can determine whether the upstream data of transmission on subframe q-l is correctly received, also can determine that this ACK/NACK corresponds to the transmitting uplink data in which subframe according to the feedback subframe indication information of this ACK/NACK, the embodiment of the present invention is not limited thereto.

Therefore, according to the method for the transmission data of the embodiment of the present invention, if the scheduling subframe meeting HARQ sequential relationship with the first common subframe is special subframe, then base station is being positioned in the before this special subframe second common subframe to UE transmission dispatch, this dispatch indicates this UE to send upstream data in this first common subframe, to make to deposit in case at special subframe, this base station can be dispatched UE, and then can normal transfer of data be carried out between base station and UE, thus the problem cannot carrying out normal transfer of data between UE and base station caused due to the existence of special subframe can be solved, improve systematic function and Consumer's Experience.In addition, when the feedback subframe meeting HARQ sequential relationship with this first common subframe is special subframe, the common subframe of this base station after this special subframe is fed back the transfer of data in this first common subframe, to make to deposit in case at special subframe, this base station still can be fed back, thus the problem cannot carrying out feeding back in the base station of causing due to the existence of special subframe can be solved, improve systematic function and Consumer's Experience further.

Above composition graphs 1 to Fig. 6, describe the method for the transmission data according to the embodiment of the present invention in detail, cause base station cannot carry out the problem of data dispatch to solve due to the existence of special subframe, below in conjunction with Fig. 7 to Fig. 8, describe the method transmitting data according to another embodiment of the present invention in detail, to solve the problem that the base station of causing due to the existence of special subframe cannot carry out feeding back.

Fig. 7 shows the indicative flowchart of the method 300 of transmission data according to yet another embodiment of the invention, the method can be performed by any suitable device, such as can be performed by base station, base station controller or other network equipment, for convenience of description, be described for base station execution below, but the embodiment of the present invention is not limited thereto.As shown in Figure 7, the method 300 comprises:

S310, receives the upstream data that this UE sends in the first common subframe;

S320, if the feedback subframe meeting hybrid automatic repeat-request HARQ sequential relationship with this first common subframe is special subframe, determine be positioned in the 3rd common subframe after this feedback subframe to this UE send feedback information, this feedback information is used to indicate whether correctly receive this upstream data;

S330, the 3rd common subframe sends this feedback information to this UE.

Therefore, according to the method for the transmission data of the embodiment of the present invention, if the feedback subframe meeting HARQ sequential relationship with this first common subframe is special subframe, then the common subframe of this base station after this special subframe is fed back the transfer of data in this first common subframe, to make to deposit in case at special subframe, this base station still can be fed back, thus the problem cannot carrying out feeding back in the base station of causing due to the existence of special subframe can be solved, improve systematic function and Consumer's Experience further.

Alternatively, this base station can indicate this feedback information corresponding to the transmitting uplink data in which subframe by feedback subframe indication information, wherein, this feedback subframe indication information can be the information of added bits position in this feedback information, also can be the information of added bits position in this feedback information and the number information being positioned at the continuous special subframe before the 3rd common subframe, it can also be the resource information of this feedback information of transmission, wherein, this resource information can be PHICH group information, also can be the information of at least one PRB, but the embodiment of the present invention is not limited thereto.

Alternatively, this feedback subframe indication information can be the information of added bits position in this feedback information, and correspondingly, the indication bit position that this feedback information comprises indicates this feedback information corresponding to the transmitting uplink data in this first common subframe.

Alternatively, as another embodiment, the value of this indication bit position is before basis is positioned at the 3rd common subframe and the quantity of the continuous print special subframe nearest with the 3rd common subframe is arranged.

Alternatively, as another embodiment, this feedback subframe indication information also can comprise the PHICH group information for sending this feedback information, and the first physical hybrid automatic repeat request indicator channel PHICH group in the 3rd common subframe is corresponding with this first common subframe;

Correspondingly, S330, the 3rd common subframe sends feedback information to this UE, comprising:

S331, sends this feedback information to this UE in the PHICH group in the 3rd common subframe.

Alternatively, as another embodiment, the quantity of the PHICH group that the PHICH of this UE takies in the 3rd common subframe is greater than the quantity of the PHICH group that this PHICH takies in the 4th common subframe, and the 4th common subframe is for only feeding back the transmitting uplink data in a subframe.

Alternatively, as another embodiment, this base station can also in advance by the quantity of the special subframe in a radio frames and location information notification UE, so that UE determines according to this receives information DCI the subframe that this DCI dispatches, correspondingly, before S310, the method 300 also comprises:

S340, indication information is sent to this UE, this indication information is used to indicate the position of particular service subframe so that this UE determine to be positioned at the 3rd common subframe according to this indication information before and the quantity of the continuous print special subframe nearest with the 3rd common subframe.

Alternatively, as another embodiment, carry indication information in the DCI that this base station also can send at it, indicate this UE to receive this feedback information in the 3rd common subframe.Correspondingly, before S310, the method 300 also comprises:

S350, second common subframe sends Downlink Control Information DCI to this UE, this DCI is used to indicate this UE and sends upstream data in this first common subframe, and this DCI indicates this UE in the 3rd common subframe, receive this feedback information for this transmitting uplink data.

Alternatively, as another embodiment, when the scheduling subframe meeting this HARQ sequential relationship with this first common subframe is special subframe, before this second common subframe is positioned at this scheduling subframe.

Therefore, according to the method for the transmission data of the embodiment of the present invention, if the feedback subframe meeting HARQ sequential relationship with this first common subframe is special subframe, then the common subframe of this base station after this special subframe is fed back the transfer of data in this first common subframe, to make to deposit in case at special subframe, this base station still can be fed back, thus the problem cannot carrying out feeding back in the base station of causing due to the existence of special subframe can be solved, improve systematic function and Consumer's Experience further.

Fig. 8 shows the indicative flowchart of the method 400 of transmission data according to yet another embodiment of the invention, and the method can be performed by UE.As shown in Figure 8, the method 400 comprises:

S410, receives the feedback information that base station sends in the 3rd common subframe;

S420, determine that this feedback information corresponds to the transmitting uplink data in the first common subframe, wherein, the feedback subframe meeting hybrid automatic repeat-request HARQ sequential relationship with this first common subframe is special subframe and after the 3rd common subframe is positioned at this feedback subframe.

Therefore, according to the method for the transmission data of the embodiment of the present invention, if the feedback subframe meeting HARQ sequential relationship with this first common subframe is special subframe, then the common subframe of this base station after this special subframe is fed back the transfer of data in this first common subframe, to make to deposit in case at special subframe, this base station still can be fed back, thus the problem cannot carrying out feeding back in the base station of causing due to the existence of special subframe can be solved, improve systematic function and Consumer's Experience further.

Alternatively, S410, receives the feedback information that base station sends in the 3rd common subframe, comprising:

S411, receives this feedback information sent in the first physical hybrid automatic repeat request indicator channel PHICH group of this base station in the 3rd common subframe;

Correspondingly, S420, determines that this feedback information corresponds to the transmitting uplink data in the first common subframe, comprising:

S421, according to the corresponding relation of a PHICH group and this first common subframe, determines that this feedback information corresponds to the transmitting uplink data in the first common subframe.

Alternatively, as another embodiment, the quantity of the PHICH group that the PHICH of user equipment (UE) takies in the 3rd common subframe is greater than the quantity of the PHICH group that this PHICH takies in the 4th common subframe, and the 4th common subframe is for only feeding back the transmitting uplink data in a subframe.

Alternatively, as another embodiment, S420, determines that this feedback information corresponds to the transmitting uplink data in the first common subframe, comprising:

S422, according to the value of the indication bit position that this feedback information comprises, determines that this feedback information corresponds to the transmitting uplink data in the first common subframe.

Alternatively, as another embodiment, S422, according to the value of the indication bit position that this feedback information comprises, determines that this feedback information corresponds to the transmitting uplink data in the first common subframe, comprising:

S4221, according to the value of this indication bit position and before being positioned at the 3rd common subframe and the quantity of the continuous print special subframe nearest with the 3rd common subframe, determines that this feedback information corresponds to the transmitting uplink data in the first common subframe.

Alternatively, as another embodiment, before S4221, the method 400 also comprises:

S430, receive the indication information that this base station sends, this indication information is used to indicate the position of particular service subframe;

S440, according to this indication information, determine this be positioned at the 3rd common subframe before and the quantity of the continuous print special subframe nearest with the 3rd common subframe.

Alternatively, as another embodiment, before S410, the method 400 also comprises:

S450, receive the Downlink Control Information DCI that this base station sends in the second common subframe, this DCI is used to indicate user equipment (UE) and sends upstream data in this first common subframe, and indicates this UE in the 3rd common subframe, receive this feedback information for this transmitting uplink data;

Correspondingly, S410, receives the feedback information that base station sends in the 3rd common subframe, comprising:

S412, according to this DCI, the 3rd common subframe receives this feedback information that base station sends.

Alternatively, as another embodiment, when the scheduling subframe meeting this HARQ sequential relationship with this first common subframe is special subframe, before this second common subframe is positioned at this scheduling subframe.

Therefore, according to the method for the transmission data of the embodiment of the present invention, when the feedback subframe meeting HARQ sequential relationship with this first common subframe is special subframe, the common subframe of this base station after this special subframe is fed back the transfer of data in this first common subframe, to make to deposit in case at special subframe, this base station still can be fed back, thus the problem cannot carrying out feeding back in the base station of causing due to the existence of special subframe can be solved, improve systematic function and Consumer's Experience further.

To should be understood that between each embodiment that above-mentioned Fig. 1 to Fig. 8 describes that in correspondence with each other, the part do not described in certain embodiment can see other embodiment.

Below in conjunction with Fig. 9 to Figure 12, describe the method for transmission data according to yet another embodiment of the invention in detail, to solve the problem that the UE caused due to the existence of special subframe cannot carry out feeding back.

Fig. 9 shows the indicative flowchart of the method 500 of transmission data according to yet another embodiment of the invention, and the method 500 can be performed by UE, and as shown in Figure 9, the method 500 comprises:

S510, receives the downlink data that base station sends in the first common subframe;

S520, if the feedback subframe meeting hybrid automatic repeat-request HARQ sequential relationship with this first common subframe is special subframe, determine the second common subframe after this feedback subframe sends feedback information to this base station, this feedback information is used to indicate whether correctly receive this downlink data;

S530, this second common subframe sends this feedback information to this base station.

Therefore, according to the method for the transmission data of the embodiment of the present invention, if when the feedback subframe meeting HARQ sequential relationship with the first common subframe is special subframe, UE be positioned in the after this special subframe second common subframe to base station send feedback information, the downlink data that this feedback information indicates this UE whether correctly to receive this base station to send in this first common subframe, to make to deposit in case at special subframe, this UE still can feed back the downlink data that base station sends, thus the problem that the UE caused due to the existence of special subframe cannot carry out feeding back can be solved, improve systematic function and Consumer's Experience.

Particularly, suppose that this first common subframe is subframe p, when the subframe (subframe p+l) then meeting HARQ sequential relationship with this first common subframe is for special subframe, this UE can feed back the downlink data transmission in this first common subframe in the second common subframe (subframe h), wherein, h-p>l.Alternatively, this UE can be integer and 1≤x3≤10 at the xth 3(x3 counted backward for starting point with this special subframe (subframe p+l)) individual common subframe carries out ACK/NACK feedback, wherein, when with subframe l+k for starting point backward number before x3 subframe be common subframe time, then h=p+l+x3; And when there is s3 special subframe between xth 3 the common subframes counted backward for starting point with this subframe p+l and subframe p+l, s3 be more than or equal to 1 integer, then h=p+l+s3+x3.Alternatively, also can have the interval of other numerical value between this second common subframe and this first common subframe, but the embodiment of the present invention is not limited thereto.

Particularly, the value of this x3 can pre-define, such as, can at the good x3=1 of protocol definition, also by high-level signaling, the value of this x3 can be notified this UE in advance by base station, alternatively, this x3 can equal the numerical value of this x1 or x2, but the embodiment of the present invention is not limited thereto.

In embodiments of the present invention, this UE feeds back the downlink data transmission in this first common subframe in the second common subframe, wherein, interval between this second common subframe and this first common subframe is greater than l, alternatively, whether the downlink data transmission that this UE also may meet in the subframe (subframe h-l) of HARQ sequential relationship in the upper feedback of this second common subframe (subframe h) and this second common subframe is successful, like this, the ACK/NACK that this base station sends in this second common subframe may correspond to the downlink data transmission in different subframe.Now, this UE can indicate this ACK/NACK to be the ACK/NACK of the downlink data transmission in which subframe by feedback subframe indication information, can determine the whether success of downlink data transmission in corresponding subframe to make this base station according to this feedback subframe indication information and feedback information.Wherein, this feedback subframe indication information can predefine, or the high-level signaling sent in advance by this base station is determined, the embodiment of the present invention is not limited thereto.

Particularly, this UE can indicate this ACK/NACK corresponding to the transfer of data in which subframe by the mode increasing bit in ACK/NACK.Alternatively, this UE can increase the subframe that 2 bits feed back to indicate this ACK/NACK in this ACK/NACK, and the subframe that the value of these 2 bits can be fed back with this ACK/NACK has fixing corresponding relation.Such as, suppose that the value of this l is 4, if the value of 2 bits newly-increased in the ACK/NACK of this UE transmission in the second common subframe (subframe h) is " 00 ", then this ACK/NACK corresponds to the transfer of data on subframe h-4; And when the value of new 2 bits of this increasing is " 01 ", then this ACK/NACK corresponds to the transfer of data on subframe h-5, but the subframe that the value of these 2 newly-increased bits and this ACK/NACK feed back also can have other corresponding relation, and the embodiment of the present invention is not construed as limiting this.

Correspondingly, the indication bit position that this feedback information comprises indicates this feedback information corresponding to the downlink data transmission in this first common subframe.

Alternatively, as another embodiment, the subframe that value and this ACK/NACK of these 2 newly-increased bits feed back also can have revocable corresponding relation, but depend on be positioned at subframe h before and the quantity of the continuous print special subframe nearest apart with this subframe h.Correspondingly, the value of this indication bit position be according to before being positioned at this second common subframe and the quantity of the continuous print special subframe nearest with this second common subframe arrange.

Such as, suppose that the value of this l is 4, if there are 2 continuous print special subframes before subframe h, then the value of these 2 newly-increased bits is the transfer of data that this ACK/NACK of 01 expression corresponds on subframe h-5; If there are 4 continuous print special subframes before subframe h, then 01 represents that this ACK/NACK corresponds to the transfer of data on subframe h-5 and subframe h-6 simultaneously, but the embodiment of the present invention is not construed as limiting this corresponding relation.In addition, description above is all described with 2 bits newly-increased in this ACK/NACK, but also can be indicated the subframe that this ACK/NACK feeds back in this ACK/NACK by the bit increasing other quantity, and the embodiment of the present invention is not construed as limiting this.

Alternatively, as another embodiment, this UE also can not increase the bit of this ACK/NACK, but by subframe that recessive mode indicates this ACK/NACK to feed back.Alternatively, the subframe that this UE can indicate this ACK/NACK to feed back by the resource information sending this ACK/NACK, namely this feedback subframe indication information comprises the resource information of this feedback information of transmission.Particularly, this UE is row control channel (Physical Uplink Control Channel physically, referred to as " PUCCH ") in send this ACK/NACK time, can by employing different PUCCH resource send this ACK/NACK, with the subframe implicitly indicating this ACK/NACK to feed back.The first Physical Uplink Control Channel PUCCH resource in this second common subframe is corresponding with this first common subframe;

Correspondingly, S530, this second common subframe sends this feedback information to this base station, comprising:

S531, sends this feedback information to this base station in this first PUCCH resource.

Now, if this UE needs when the quantity of the upper ACK/NACK sent of this second common subframe (subframe h) is more, this base station can, for this UE configures a fairly large number of PUCCH resource in this second common subframe, can adopt different PUCCH resource to send feedback information for the downlink data transmission in the different subframe of feedback to make this UE respectively.

Alternatively, as another embodiment, the quantity of the PUCCH resource that the PUCCH of user equipment (UE) takies in this second common subframe is greater than the quantity of the PUCCH resource that this PUCCH takies in the 3rd common subframe, and the 3rd common subframe is for only feeding back the downlink data transmission in a subframe.

Such as, if the 3rd common subframe is the adjacent sub-frame of this second common subframe, and the 3rd common subframe is for only feeding back the downlink data transmission in a common subframe, then network side can configure 5 PUCCH resource for this UE in the 3rd common subframe, and for this UE configures 10 PUCCH resource in this second common subframe, before the quantity of PUCCH resource that this network side configures for this UE in this second common subframe can depend on and be positioned at this second common subframe and with the quantity of this second common subframe at a distance of nearest continuous special subframe, but the embodiment of the present invention is not limited thereto.

Alternatively, as another embodiment, before S510, the method 500 also comprises:

S540, receive the indication information that this base station sends, this indication information is used to indicate the position of special subframe;

S550, according to this indication information, determine this be positioned at this second common subframe before and the quantity of the continuous print special subframe nearest with this second common subframe.

Alternatively, as another embodiment, as shown in Figure 10, before S510, the method 500 also comprises:

S560, receive the Downlink Control Information DCI that this base station sends, this DCI is used to indicate user equipment (UE) in this first common subframe, receives this downlink data that this base station sends, and this DCI indicates this UE in this second common subframe, send this feedback information for this downlink data transmission;

Correspondingly, S520, determines the second common subframe after this feedback subframe sends feedback information to this base station, comprising:

S521, according to this DCI, determines to send this feedback information to this base station in this second common subframe.

Therefore, according to the method for the transmission data of the embodiment of the present invention, if when the feedback subframe meeting HARQ sequential relationship with the first common subframe is special subframe, UE be positioned in the after this special subframe second common subframe to base station send feedback information, the downlink data that this feedback information indicates this UE whether correctly to receive this base station to send in this first common subframe, to make to deposit in case at special subframe, this UE still can feed back the downlink data that base station sends, thus the problem that the UE caused due to the existence of special subframe cannot carry out feeding back can be solved, improve systematic function and Consumer's Experience.

Figure 11 shows the indicative flowchart of the method 600 of transmission data according to yet another embodiment of the invention, the method can be performed by any suitable device, such as can be performed by base station, base station controller or other network equipment, for convenience of description, be described for base station execution below, but the embodiment of the present invention is not limited thereto.As shown in figure 11, the method 600 comprises:

S610, receives the feedback information that user equipment (UE) sends in the second common subframe;

S620, determine that this feedback information corresponds to the downlink data transmission in the first common subframe, wherein, the feedback subframe meeting hybrid automatic repeat-request HARQ sequential relationship with this first common subframe is special subframe and after this second common subframe is positioned at this feedback subframe.

Therefore, according to the method for the transmission data of the embodiment of the present invention, if the feedback subframe meeting HARQ sequential relationship with the first common subframe is special subframe, UE be positioned in the after this special subframe second common subframe to base station send feedback information, the downlink data that this feedback information indicates this UE whether correctly to receive this base station to send in this first common subframe, to make to deposit in case at special subframe, this UE still can feed back the downlink data that base station sends, thus the problem that the UE caused due to the existence of special subframe cannot carry out feeding back can be solved, improve systematic function and Consumer's Experience.

Alternatively, as another embodiment, as shown in figure 12, S610, receives the feedback information that UE sends in the second common subframe, comprising:

S611, receives this feedback information sent in the first Physical Uplink Control Channel PUCCH resource of this UE in this second common subframe;

Correspondingly, S620, determines that this feedback information corresponds to the downlink data transmission in the first common subframe, comprising:

S621, according to the corresponding relation of this first PUCCH resource and this first common subframe, determines that this feedback information corresponds to the downlink data transmission in the first common subframe.

Alternatively, as another embodiment, the quantity of the PUCCH resource that the PUCCH of this UE takies in the 5th common subframe is greater than the quantity of the PUCCH resource that this PUCCH takies in other common subframe, and this other common subframe is only for feeding back the downlink data transmission in a subframe.

Alternatively, as another embodiment, S620, determines that this feedback information corresponds to the downlink data transmission in the first common subframe, comprising:

S622, according to the value of the indication bit position that this feedback information comprises, determines that this feedback information corresponds to the downlink data transmission in the first common subframe.

Alternatively, as another embodiment, S622, according to the value of the indication bit position that this feedback information comprises, determines that this feedback information corresponds to the downlink data transmission in the first common subframe, comprising:

S6221, according to the value of this indication bit position and before being positioned at this second common subframe and the quantity of the continuous print special subframe nearest with this second common subframe, determines that this feedback information corresponds to the downlink data transmission in the first common subframe.

Alternatively, as another embodiment, before S610, the method 600 also comprises:

S630, send indication information to this UE, this indication information is used to indicate the position of special subframe so that this UE according to this indication information determine this be positioned at this second common subframe before and the quantity of the continuous print special subframe nearest with this second common subframe.

Alternatively, as another embodiment, before S610, the method 600 also comprises:

S640, Downlink Control Information DCI is sent to this UE, this DCI is used to indicate this UE downlink data receiving in this first common subframe, and this DCI indicates this UE to send this feedback information for this downlink data transmission in this second common subframe, so that this UE determines to send this feedback information in this second common subframe according to this DCI.

Therefore, according to the method for the transmission data of the embodiment of the present invention, if when the feedback subframe meeting HARQ sequential relationship with the first common subframe is special subframe, UE be positioned in the after this special subframe second common subframe to base station send feedback information, the downlink data that this feedback information indicates this UE whether correctly to receive this base station to send in this first common subframe, to make to deposit in case at special subframe, this UE still can feed back the downlink data that base station sends, thus the problem that the UE caused due to the existence of special subframe cannot carry out feeding back can be solved, improve systematic function and Consumer's Experience.

Should be understood that the size of the sequence number of above-mentioned each process and do not mean that the priority of execution sequence, the execution sequence of each process should be determined with its function and internal logic, and should not form any restriction to the implementation process of the embodiment of the present invention.In addition, in embodiments of the present invention, term " first ", " second " are only used to distinguish different contents with " the 3rd ", should not form any restriction to the embodiment of the present invention.

Above composition graphs 1 to Figure 12, describes the method for the transmission data according to the embodiment of the present invention in detail, below in conjunction with Figure 13 to Figure 26, describes the base station according to the embodiment of the present invention and subscriber equipment.

Figure 13 shows the schematic block diagram of the base station 700 according to the embodiment of the present invention, and as shown in figure 13, this base station 700 comprises:

Determination module 710, if be special subframe for the scheduling subframe meeting hybrid automatic repeat-request HARQ sequential relationship with the first common subframe, determine be positioned to user equipment (UE) transmission Downlink Control Information DCI in the second common subframe before this scheduling subframe, this DCI is for dispatching the transmitting uplink data in this first common subframe;

Sending module 720, sends this DCI to this UE in this second common subframe determined at this determination module 710;

Receiver module 730, for receiving the upstream data that this UE sends in this first common subframe according to this DCI that this sending module 720 sends.

Therefore, according to the base station of the embodiment of the present invention, if the scheduling subframe meeting HARQ sequential relationship with the first common subframe is special subframe, then base station is being positioned in the before this special subframe second common subframe to UE transmission dispatch, this dispatch indicates this UE to send upstream data in this first common subframe, to make to deposit in case at special subframe, this base station can be dispatched UE, and then can normal transfer of data be carried out between base station and UE, thus the problem cannot carrying out normal transfer of data between UE and base station caused due to the existence of special subframe can be solved, improve systematic function and Consumer's Experience.

Alternatively, the first enhancement mode Physical Downlink Control Channel EPDCCH resource collection in this second common subframe is corresponding with this first common subframe;

Correspondingly, this sending module 720 specifically for sending this DCI to this UE in an EPDCCH resource collection.

Alternatively, as another embodiment, the EPDCCH of this UE takies at least three EPDCCH resource collections in this second common subframe, and each EPDCCH resource collection in these at least three EPDCCH resource collections comprises at least one Physical Resource Block PRB.

Alternatively, as another embodiment, the first Physical Resource Block PRB in this second common subframe is corresponding with this first common subframe;

Correspondingly, this sending module 720 specifically for sending this DCI to this UE on a PRB.

Alternatively, as another embodiment, the indication bit position that this DCI that this sending module 720 sends comprises indicates this DCI for dispatching the transmitting uplink data in this first common subframe.

Alternatively, as another embodiment, the value of this indication bit position is after basis is positioned at this second common subframe and the quantity of the continuous print special subframe nearest with this second common subframe is arranged.

Alternatively, as another embodiment, if the feedback subframe of this sending module 720 also for meeting this HARQ sequential relationship with this first common subframe is special subframe, be positioned in the 3rd common subframe after this feedback subframe to this UE send feedback information, this feedback information is used to indicate whether correctly receive this upstream data.

Alternatively, as another embodiment, the first physical hybrid automatic repeat request indicator channel PHICH group in the 3rd common subframe is corresponding with this first common subframe;

Correspondingly, this sending module 720 specifically for sending this feedback information to this UE in a PHICH group.

Alternatively, as another embodiment, the indication bit position that this feedback information that this sending module 720 sends comprises indicates this feedback information corresponding to the transmitting uplink data in this first common subframe.

Alternatively, as another embodiment, the value of this indication bit position is before basis is positioned at the 3rd common subframe and the quantity of the continuous print special subframe nearest with the 3rd common subframe is arranged.

Alternatively, as another embodiment, this sending module 720 is also for determining at this determination module 710 to send before DCI to UE being positioned in the second common subframe before this scheduling subframe, and send indication information to this UE, this indication information is used to indicate the position of special subframe.

According to the base station that the base station 700 of the embodiment of the present invention may correspond in the method for the transmission data according to the embodiment of the present invention, and above-mentioned and other operation of the modules in base station 700 and/or function are respectively in order to realize the corresponding flow process of each method in Fig. 1 and Fig. 2, for simplicity, do not repeat them here.

Therefore, according to the base station of the embodiment of the present invention, if the scheduling subframe meeting HARQ sequential relationship with the first common subframe is special subframe, then base station is being positioned in the before this special subframe second common subframe to UE transmission dispatch, this dispatch indicates this UE to send upstream data in this first common subframe, to make to deposit in case at special subframe, this base station can be dispatched UE, and then can normal transfer of data be carried out between base station and UE, thus the problem cannot carrying out normal transfer of data between UE and base station caused due to the existence of special subframe can be solved, improve systematic function and Consumer's Experience.

Figure 14 shows the schematic block diagram of the user equipment (UE) 800 according to the embodiment of the present invention, and as shown in figure 14, this UE800 comprises:

Receiver module 810, for receiving the Downlink Control Information DCI that base station sends in the second common subframe;

Determination module 820, for determining that this DCI that this receiver module 810 receives is for dispatching the transmitting uplink data in the first common subframe, wherein, the scheduling subframe meeting hybrid automatic repeat-request HARQ sequential relationship with this first common subframe is special subframe and before this second common subframe is positioned at this scheduling subframe;

Sending module 830, for according to this DCI, this first common subframe that this determination module 820 is determined sends upstream data to this base station.

Therefore, according to the subscriber equipment of the embodiment of the present invention, if the scheduling subframe meeting HARQ sequential relationship with the first common subframe is special subframe, then base station is being positioned in the before this special subframe second common subframe to UE transmission dispatch, this dispatch indicates this UE to send upstream data in this first common subframe, to make to deposit in case at special subframe, this base station can be dispatched UE, and then can normal transfer of data be carried out between base station and UE, thus the problem cannot carrying out normal transfer of data between UE and base station caused due to the existence of special subframe can be solved, improve systematic function and Consumer's Experience.

Alternatively, as another embodiment, this receiver module 810 is specifically for receiving this DCI sent in the first enhancement mode Physical Downlink Control Channel EPDCCH resource collection of this base station in this second common subframe;

Correspondingly, this determination module 820, specifically for the corresponding relation according to an EPDCCH resource collection and this first common subframe, determines that this DCI that this receiver module 810 receives is for dispatching the transmitting uplink data in this first common subframe.

Alternatively, as another embodiment, the EPDCCH of this UE takies at least three EPDCCH resource collections in this second common subframe, and each EPDCCH resource collection in these at least three EPDCCH resource collections comprises at least one Physical Resource Block PRB.

Alternatively, as another embodiment, this DCI that this receiver module 810 sends on the first Physical Resource Block PRB of this second common subframe specifically for receiving this base station;

Correspondingly, this determination module 820, specifically for the corresponding relation according to a PRB and this first common subframe, determines that this DCI that this receiver module 810 receives is for dispatching the transmitting uplink data in this first common subframe.

Alternatively, as another embodiment, this determination module 820, specifically for the value of indication bit position comprised according to this DCI, determines that this DCI is for dispatching the transmitting uplink data in the first common subframe.

Alternatively, as another embodiment, this determination module 820, specifically for according to the value of this indication bit position and after being positioned at this second common subframe and the quantity of the continuous print special subframe nearest with this second common subframe, determines that this DCI is for dispatching the transmitting uplink data in this first common subframe.

Alternatively, as another embodiment, this receiver module 810 is also for receiving the feedback information that this base station sends in the 3rd common subframe, and wherein, the feedback subframe meeting this HARQ sequential relationship with this first common subframe is special subframe and after the 3rd subframe is positioned at this feedback subframe;

Correspondingly, this determination module 820 is also for determining that this feedback information that this receiver module 810 receives corresponds to the transmitting uplink data in this first common subframe.

Alternatively, as another embodiment, this receiver module 810 is specifically for receiving this feedback information sent in the first physical hybrid automatic repeat request indicator channel PHICH group of this base station in the 3rd common subframe;

Correspondingly, this determination module 820, specifically for the corresponding relation according to a PHICH group and this first common subframe, determines that this feedback information that this receiver module 810 receives corresponds to the transmitting uplink data in this first common subframe.

Alternatively, as another embodiment, the value of indication bit position of this determination module 820 specifically for comprising according to this feedback information, determines that this feedback information corresponds to the transmitting uplink data in this first common subframe.

Alternatively, as another embodiment, this determination module 820, specifically for according to the value of this indication bit position with before being positioned at the 3rd common subframe and the quantity of the continuous print special subframe nearest with the 3rd common subframe, determines that this feedback information corresponds to the transmitting uplink data in this first common subframe.

Alternatively, as another embodiment, this receiver module 810 is also before the DCI sent in the second common subframe in this reception base station, and receive the indication information that this base station sends, this indication information is used to indicate the position of special subframe.

Alternatively, as another embodiment, as shown in figure 15, this UE800 also comprises:

Detection module 840, for detecting the DCI that this base station sends on special subframe;

Transport module 850, if detect for this detection module 840 DCI that this base station sends, in the subframe meeting this HARQ sequential relationship at this special subframe and carry out transfer of data between this base station and/or carry out transmission of feedback information.

According to the subscriber equipment that the subscriber equipment 800 of the embodiment of the present invention may correspond in the method for the transmission data according to the embodiment of the present invention, and above-mentioned and other operation of the modules in subscriber equipment 800 and/or function are respectively in order to realize the corresponding flow process of each method in Fig. 3 to Fig. 6, for simplicity, do not repeat them here.

Therefore, according to the subscriber equipment of the embodiment of the present invention, if the scheduling subframe meeting HARQ sequential relationship with the first common subframe is special subframe, then base station is being positioned in the before this special subframe second common subframe to UE transmission dispatch, this dispatch indicates this UE to send upstream data in this first common subframe, to make to deposit in case at special subframe, this base station can be dispatched UE, and then can normal transfer of data be carried out between base station and UE, thus the problem cannot carrying out normal transfer of data between UE and base station caused due to the existence of special subframe can be solved, improve systematic function and Consumer's Experience.

Figure 16 shows the schematic block diagram of base station 900 according to another embodiment of the present invention, and as shown in figure 16, this base station 900 comprises:

Receiver module 910, for receiving the upstream data that this UE sends in the first common subframe;

Determination module 920, if be special subframe for the feedback subframe meeting hybrid automatic repeat-request HARQ sequential relationship with this first common subframe, determine be positioned in the 3rd common subframe after this feedback subframe to this UE send feedback information, this feedback information is used to indicate this receiver module 910 and whether correctly receives this upstream data;

Sending module 930, sends this feedback information to this UE in the 3rd common subframe determined at this determination module 920.

Therefore, according to the base station of the transmission data of the embodiment of the present invention, if the feedback subframe meeting HARQ sequential relationship with this first common subframe is special subframe, then the common subframe of this base station after this special subframe is fed back the transfer of data in this first common subframe, to make to deposit in case at special subframe, this base station still can be fed back, thus the problem cannot carrying out feeding back in the base station of causing due to the existence of special subframe can be solved, improve systematic function and Consumer's Experience further.

Alternatively, the first physical hybrid automatic repeat request indicator channel PHICH group in the 3rd common subframe is corresponding with this first common subframe;

Correspondingly, this sending module 930 specifically for sending this feedback information to this UE in a PHICH group.

Alternatively, as another embodiment, the quantity of the PHICH group that the PHICH of this UE takies in the 3rd common subframe is greater than the quantity of the PHICH group that this PHICH takies in the 4th common subframe, and the 4th common subframe is for only feeding back the transmitting uplink data in a subframe.

Alternatively, as another embodiment, the indication bit position that this feedback information comprises indicates this feedback information corresponding to the transmitting uplink data in this first common subframe.

Alternatively, as another embodiment, the value of this indication bit position is before basis is positioned at the 3rd common subframe and the quantity of the continuous print special subframe nearest with the 3rd common subframe is arranged.

Alternatively, as another embodiment, this sending module 930 is also before receiving the upstream data that this UE sends in the first common subframe at this receiver module 910, indication information is sent to this UE, this indication information is used to indicate the position of particular service subframe so that this UE determine to be positioned at the 3rd common subframe according to this indication information before and the quantity of the continuous print special subframe nearest with the 3rd common subframe.

Alternatively, as another embodiment, this sending module 930 is also before receiving the upstream data that this UE sends in the first common subframe at this receiver module 910, second common subframe sends Downlink Control Information DCI to this UE, this DCI is used to indicate this UE and sends upstream data in this first common subframe, and this DCI indicates this UE in the 3rd common subframe, receive this feedback information for this transmitting uplink data.

Alternatively, as another embodiment, if the scheduling subframe meeting this HARQ sequential relationship with this first common subframe is special subframe, before this second common subframe is positioned at this scheduling subframe.

According to the base station that the base station 900 of the embodiment of the present invention may correspond in the method for the transmission data according to the embodiment of the present invention, and above-mentioned and other operation of the modules in base station 900 and/or function are respectively in order to realize the corresponding flow process of each method in Fig. 7, for simplicity, do not repeat them here.

Therefore, according to the base station of the embodiment of the present invention, if the feedback subframe meeting HARQ sequential relationship with this first common subframe is special subframe, then the common subframe of this base station after this special subframe is fed back the transfer of data in this first common subframe, to make to deposit in case at special subframe, this base station still can be fed back, thus can solve the problem cannot carrying out feeding back in the base station of causing due to the existence of special subframe, improves systematic function and Consumer's Experience further.

Figure 17 shows the schematic block diagram of user equipment (UE) 1000 according to another embodiment of the present invention, and as shown in figure 17, this UE1000 comprises:

Receiver module 1010, for receiving the feedback information that base station sends in the 3rd common subframe;

Determination module 1020, for determining that this feedback information that this receiver module 1010 receives corresponds to the transmitting uplink data in the first common subframe, wherein, the feedback subframe meeting hybrid automatic repeat-request HARQ sequential relationship with this first common subframe is special subframe and after the 3rd common subframe is positioned at this feedback subframe.

Therefore, according to the subscriber equipment of the embodiment of the present invention, when the feedback subframe meeting HARQ sequential relationship with this first common subframe is special subframe, the common subframe of this base station after this special subframe is fed back the transfer of data in this first common subframe, to make to deposit in case at special subframe, this base station still can be fed back, thus can solve the problem cannot carrying out feeding back in the base station of causing due to the existence of special subframe, improves systematic function and Consumer's Experience further.

Alternatively, this receiver module 1010 is specifically for receiving this feedback information sent in the first physical hybrid automatic repeat request indicator channel PHICH group of this base station in the 3rd common subframe;

Correspondingly, this determination module 1020, specifically for the corresponding relation according to a PHICH group and this first common subframe, determines that this feedback information corresponds to the transmitting uplink data in the first common subframe.

Alternatively, as another embodiment, the quantity of the PHICH group that the PHICH of this UE takies in the 3rd common subframe is greater than the quantity of the PHICH group that this PHICH takies in the 4th common subframe, and the 4th common subframe is for only feeding back the transmitting uplink data in a subframe.

Alternatively, as another embodiment, the value of indication bit position of this determination module 1020 specifically for comprising according to this feedback information, determines that this feedback information corresponds to the transmitting uplink data in this first common subframe.

Alternatively, as another embodiment, this determination module 1020, specifically for according to the value of this indication bit position and before being positioned at the 3rd common subframe and the quantity of the continuous print special subframe nearest with the 3rd common subframe, determines that this feedback information corresponds to the transmitting uplink data in this first common subframe.

Alternatively, as another embodiment, this receiver module 1010 also at this determination module 1020 according to the value of this indication bit position and before being positioned at the 3rd common subframe and the quantity of the continuous print special subframe nearest with the 3rd common subframe, before determining the transmitting uplink data that this feedback information corresponds in this first common subframe, receive the indication information that this base station sends, this indication information is used to indicate the position of particular service subframe;

Correspondingly, this determination module 1020 this indication information also for receiving according to this receiver module 1010, determine this be positioned at the 3rd common subframe before and the quantity of the continuous print special subframe nearest with the 3rd common subframe.

Alternatively, as another embodiment, this receiver module 1010 is also before the feedback information sent in the 3rd common subframe in this reception base station, receive the Downlink Control Information DCI that this base station sends in the second common subframe, this DCI is used to indicate user equipment (UE) and sends upstream data in this first common subframe, and indicates this UE in the 3rd common subframe, receive this feedback information for this transmitting uplink data;

Correspondingly, this receiver module 1010, specifically for according to this DCI, the 3rd common subframe receives this feedback information that base station sends.

Alternatively, as another embodiment, if the scheduling subframe meeting this HARQ sequential relationship with this first common subframe is special subframe, before this second common subframe is positioned at this scheduling subframe.

According to the subscriber equipment that the subscriber equipment 1000 of the embodiment of the present invention may correspond in the method for the transmission data according to the embodiment of the present invention, and above-mentioned and other operation of the modules in subscriber equipment 1000 and/or function are respectively in order to realize the corresponding flow process of each method in Fig. 8, for simplicity, do not repeat them here.

Therefore, according to the subscriber equipment of the transmission data of the embodiment of the present invention, when the feedback subframe meeting HARQ sequential relationship with this first common subframe is special subframe, the common subframe of this base station after this special subframe is fed back the transfer of data in this first common subframe, to make to deposit in case at special subframe, this base station still can be fed back, thus the problem cannot carrying out feeding back in the base station of causing due to the existence of special subframe can be solved, improve systematic function and Consumer's Experience further.

Figure 18 shows the schematic block diagram of user equipment (UE) 1100 according to yet another embodiment of the invention, and as shown in figure 18, this UE1100 comprises:

Receiver module 1110, for receiving the downlink data that base station sends in the first common subframe;

Determination module 1120, if be special subframe for the feedback subframe meeting hybrid automatic repeat-request HARQ sequential relationship with this first common subframe, determine the second common subframe after this feedback subframe sends feedback information to this base station, this feedback information is used to indicate this receiver module 1110 and whether correctly receives this downlink data;

Sending module 1130, sends this feedback information to this base station in this second common subframe determined at this determination module 1120.

Therefore, according to the user equipment (UE) of the transmission data of the embodiment of the present invention, when the feedback subframe meeting HARQ sequential relationship with this first common subframe is special subframe, the common subframe of this base station after this special subframe is fed back the transfer of data in this first common subframe, to make to deposit in case at special subframe, this base station still can be fed back, thus the problem cannot carrying out feeding back in the base station of causing due to the existence of special subframe can be solved, improve systematic function and Consumer's Experience further.

Alternatively, the first Physical Uplink Control Channel PUCCH resource in this second common subframe is corresponding with this first common subframe;

Correspondingly, this sending module 1130 specifically for sending this feedback information to this base station in this first PUCCH resource.

Alternatively, as another embodiment, the quantity of the PUCCH resource that the PUCCH of this UE takies in this second common subframe is greater than the quantity of the PUCCH resource that this PUCCH takies in the 3rd common subframe, and the 3rd common subframe is for only feeding back the downlink data transmission in a subframe.

Alternatively, as another embodiment, the indication bit position that this feedback information comprises indicates this feedback information corresponding to the downlink data transmission in this first common subframe.

Alternatively, as another embodiment, the value of this indication bit position is before basis is positioned at this second common subframe and the quantity of the continuous print special subframe nearest with this second common subframe is arranged.

Alternatively, as another embodiment, this receiver module 1110 is also before the downlink data sent in the first common subframe in this reception base station, and receive the indication information that this base station sends, this indication information is used to indicate the position of special subframe;

Correspondingly, this determination module 1120 this indication information specifically for receiving according to this receiver module 1110, determine this be positioned at this second common subframe before and the quantity of the continuous print special subframe nearest with this second common subframe.

Alternatively, as another embodiment, this receiver module 1110 is also before the downlink data sent in the first common subframe in this reception base station, receive the Downlink Control Information DCI that this base station sends, this DCI is used to indicate user equipment (UE) in this first common subframe, receives this downlink data that this base station sends, and this DCI indicates this UE in this second common subframe, send this feedback information for this downlink data transmission;

Correspondingly, this determination module 1120 this DCI specifically for receiving according to this receiver module 1110, determines to send this feedback information to this base station in this second common subframe.

According to the subscriber equipment that the subscriber equipment 1100 of the embodiment of the present invention may correspond in the method for the transmission data according to the embodiment of the present invention, and above-mentioned and other operation of the modules in subscriber equipment 1100 and/or function are respectively in order to realize the corresponding flow process of each method in Fig. 9 and Figure 10, for simplicity, do not repeat them here.

Therefore, according to the subscriber equipment of the transmission data of the embodiment of the present invention, when the feedback subframe meeting HARQ sequential relationship with the 4th common subframe is special subframe, the five common subframe of UE after being positioned at this special subframe sends feedback information to base station, the downlink data that this feedback information indicates this UE whether correctly to receive this base station to send in the 4th common subframe, to make to deposit in case at special subframe, this UE still can feed back the downlink data that base station sends, thus the problem that the UE caused due to the existence of special subframe cannot carry out feeding back can be solved, improve systematic function and Consumer's Experience.

Figure 19 shows the schematic block diagram of base station 1200 according to yet another embodiment of the invention, and as shown in figure 19, this base station 1200 comprises:

Receiver module 1210, for receiving the feedback information that user equipment (UE) sends in the second common subframe;

Determination module 1220, for determining that this feedback information that this receiver module 1210 receives corresponds to the downlink data transmission in the first common subframe, wherein, the feedback subframe meeting hybrid automatic repeat-request HARQ sequential relationship with this first common subframe is special subframe and after this second common subframe is positioned at this feedback subframe.

Therefore, according to the base station of the embodiment of the present invention, when the feedback subframe meeting HARQ sequential relationship with the first common subframe is special subframe, UE be positioned in the after this special subframe second common subframe to base station send feedback information, the downlink data that this feedback information indicates this UE whether correctly to receive this base station to send in this first common subframe, to make to deposit in case at special subframe, this UE still can feed back the downlink data that base station sends, thus the problem that the UE caused due to the existence of special subframe cannot carry out feeding back can be solved, improve systematic function and Consumer's Experience.

Alternatively, this receiver module 1210 is specifically for receiving this feedback information sent in first PUCCH resource of this UE in this second common subframe;

Correspondingly, this determination module 1220, specifically for the corresponding relation according to this first PUCCH resource and this first common subframe, determines that this feedback information corresponds to the downlink data transmission in this first common subframe.

Alternatively, as another embodiment, the quantity of the PUCCH resource that the PUCCH of this UE takies in this second common subframe is greater than the quantity of the PUCCH resource that this PUCCH takies in the 3rd common subframe, and the 3rd common subframe is for only feeding back the downlink data transmission in a subframe.

Alternatively, as another embodiment, the value of indication bit position of this determination module 1220 specifically for comprising according to this feedback information, determines that this feedback information corresponds to the downlink data transmission in the first common subframe.

Alternatively, as another embodiment, this determination module 1220, specifically for according to the value of this indication bit position and before being positioned at this second common subframe and the quantity of the continuous print special subframe nearest with this second common subframe, determines that this feedback information corresponds to the downlink data transmission in the first common subframe.

Alternatively, as another embodiment, as shown in figure 20, this base station 1200 also comprises:

First sending module 1230, for receiving this UE at this receiver module 1210 before this feedback information sent in the second common subframe, indication information is sent to this UE, this indication information is used to indicate the position of special subframe so that this UE according to this indication information determine this be positioned at this second common subframe before and the quantity of the continuous print special subframe nearest with this second common subframe.

Alternatively, as another embodiment, as shown in figure 20, this base station 1200 also comprises:

Second sending module 1240, for receiving this UE at this receiver module 1210 before this feedback information sent in the second common subframe, Downlink Control Information DCI is sent to this UE, this DCI is used to indicate this UE downlink data receiving in this first common subframe, and this DCI indicates this UE to send this feedback information for this downlink data transmission in this second common subframe, so that this UE determines to send this feedback information in this second common subframe according to this DCI.

According to the base station that the base station 1200 of the embodiment of the present invention may correspond in the method for the transmission data according to the embodiment of the present invention, and above-mentioned and other operation of the modules in base station 1200 and/or function are respectively in order to realize the corresponding flow process of each method in Figure 11 and Figure 12, for simplicity, do not repeat them here.

Therefore, according to the base station of the transmission data of the embodiment of the present invention, when the feedback subframe meeting HARQ sequential relationship with this first common subframe is special subframe, the common subframe of this base station after this special subframe is fed back the transfer of data in this first common subframe, to make to deposit in case at special subframe, this base station still can be fed back, thus the problem cannot carrying out feeding back in the base station of causing due to the existence of special subframe can be solved, improve systematic function and Consumer's Experience further.

Figure 21 shows the schematic block diagram of the base station 1300 according to the embodiment of the present invention, and as shown in figure 21, this base station 1300 comprises processor 1310, memory 1320, bus system 1330, transmitter 1340 and receiver 1350.Wherein, processor 1310, memory 1320, transmitter 1340 is connected by bus system 1330 with receiver 1350, this memory 1320 is for storing instruction, this processor 1310 is by this bus system 1330, call this instruction stored in this memory 1320, particularly, if this processor 1310 is special subframe for the scheduling subframe for meeting hybrid automatic repeat-request HARQ sequential relationship with the first common subframe, determine be positioned in the second common subframe before this scheduling subframe to user equipment (UE) transmission Downlink Control Information DCI, this DCI is for dispatching the transmitting uplink data in this first common subframe, this transmitter 1340 sends this DCI to this UE in this second common subframe determined at this processor 1310, the upstream data that this receiver sends according to this DCI that this transmitter 1340 sends for receiving this UE in this first common subframe.

Therefore, according to the base station of the embodiment of the present invention, when the scheduling subframe meeting HARQ sequential relationship with the first common subframe is special subframe, base station is being positioned in the before this special subframe second common subframe to UE transmission dispatch, this dispatch indicates this UE to send upstream data in this first common subframe, to make to deposit in case at special subframe, this base station can be dispatched UE, and then can normal transfer of data be carried out between base station and UE, thus the problem cannot carrying out normal transfer of data between UE and base station caused due to the existence of special subframe can be solved, improve systematic function and Consumer's Experience.

Should understand, in embodiments of the present invention, this processor 1310 can be CPU (Central Processing Unit, referred to as " CPU "), this processor 1310 can also be other general processors, digital signal processor (DSP), application-specific integrated circuit (ASIC) (ASIC), ready-made programmable gate array (FPGA) or other programmable logic devices, discrete gate or transistor logic, discrete hardware components etc.The processor etc. of general processor can be microprocessor or this processor also can be any routine.

This memory 1320 can comprise read-only memory and random access memory, and provides instruction and data to processor 1310.A part for memory 1320 can also comprise nonvolatile RAM.Such as, the information of all right storage device type of memory 1320.

This bus system 1330, except comprising data/address bus, can also comprise power bus, control bus and status signal bus in addition etc.But for the purpose of clearly demonstrating, in the drawings various bus is all designated as bus system 1330.

In implementation procedure, each step of said method can be completed by the instruction of the integrated logic circuit of the hardware in processor 1310 or software form.Step in conjunction with the method disclosed in the embodiment of the present invention can directly be presented as that hardware processor is complete, or hardware in purpose processor and software module combination complete.Software module can be positioned at random asccess memory, flash memory, read-only memory, in the storage medium of this area maturations such as programmable read only memory or electrically erasable programmable memory, register.This storage medium is positioned at memory 1320, and processor 1310 reads the information in memory 1320, completes the step of said method in conjunction with its hardware.For avoiding repetition, be not described in detail here.

Alternatively, the first enhancement mode Physical Downlink Control Channel EPDCCH resource collection in this second common subframe is corresponding with this first common subframe;

Correspondingly, this transmitter 1340 specifically for sending this DCI to this UE in an EPDCCH resource collection.

Alternatively, as another embodiment, the EPDCCH of this UE takies at least three EPDCCH resource collections in this second common subframe, and each EPDCCH resource collection in these at least three EPDCCH resource collections comprises at least one Physical Resource Block PRB.

Alternatively, as another embodiment, the first Physical Resource Block PRB in this second common subframe is corresponding with this first common subframe;

Correspondingly, this transmitter 1340 specifically for sending this DCI to this UE on a PRB.

Alternatively, as another embodiment, the indication bit position that this DCI that this transmitter 1340 sends comprises indicates this DCI for dispatching the transmitting uplink data in this first common subframe.

Alternatively, as another embodiment, the value of this indication bit position is after basis is positioned at this second common subframe and the quantity of the continuous print special subframe nearest with this second common subframe is arranged.

Alternatively, as another embodiment, if the feedback subframe of this transmitter 1340 also for meeting this HARQ sequential relationship with this first common subframe is special subframe, be positioned in the 3rd common subframe after this feedback subframe to this UE send feedback information, this feedback information is used to indicate whether correctly receive this upstream data.

Alternatively, as another embodiment, the first physical hybrid automatic repeat request indicator channel PHICH group in the 3rd common subframe is corresponding with this first common subframe;

Correspondingly, this transmitter 1340 specifically for sending this feedback information to this UE in a PHICH group.

Alternatively, as another embodiment, the indication bit position that this feedback information that this transmitter 1340 sends comprises indicates this feedback information corresponding to the transmitting uplink data in this first common subframe.

Alternatively, as another embodiment, the value of this indication bit position is before basis is positioned at the 3rd common subframe and the quantity of the continuous print special subframe nearest with the 3rd common subframe is arranged.

Alternatively, as another embodiment, this transmitter 1340 is also for determining at this processor 1310 to send before DCI to UE being positioned in the second common subframe before this scheduling subframe, and send indication information to this UE, this indication information is used to indicate the position of special subframe.

According to the base station that the base station 1300 of the embodiment of the present invention may correspond in the method for the transmission data according to the embodiment of the present invention, and above-mentioned and other operation of the modules in base station 1300 and/or function are respectively in order to realize the corresponding flow process of each method in Fig. 1 and Fig. 2, for simplicity, do not repeat them here.

Therefore, according to the base station of the embodiment of the present invention, when the scheduling subframe meeting HARQ sequential relationship with the first common subframe is special subframe, base station is being positioned in the before this special subframe second common subframe to UE transmission dispatch, this dispatch indicates this UE to send upstream data in this first common subframe, to make to deposit in case at special subframe, this base station can be dispatched UE, and then can normal transfer of data be carried out between base station and UE, thus the problem cannot carrying out normal transfer of data between UE and base station caused due to the existence of special subframe can be solved, improve systematic function and Consumer's Experience.

Figure 22 shows the schematic block diagram of the user equipment (UE) 1400 according to the embodiment of the present invention, and as shown in figure 22, this UE1400 comprises processor 1410, memory 1420, bus system 1430, receiver 1440 and transmitter 1450.Wherein, processor 1410, memory 1420, receiver 1440 are connected by bus system 1430 with transmitter 1450, this memory 1420 is for storing instruction, this processor 1410 is by this bus system 1430, call this instruction stored in this memory 1420, particularly, the Downlink Control Information DCI that sends in the second common subframe for receiving base station of this receiver 1440; This processor 1410 for this DCI of determining this receiver 1440 and receiving for dispatching the transmitting uplink data in the first common subframe, wherein, the scheduling subframe meeting hybrid automatic repeat-request HARQ sequential relationship with this first common subframe is special subframe and before this second common subframe is positioned at this scheduling subframe; This transmitter 1450, for according to this DCI, this first common subframe that this processor 1410 is determined sends upstream data to this base station.

Therefore, according to the subscriber equipment of the embodiment of the present invention, when the scheduling subframe meeting HARQ sequential relationship with the first common subframe is special subframe, base station is being positioned in the before this special subframe second common subframe to UE transmission dispatch, this dispatch indicates this UE to send upstream data in this first common subframe, to make to deposit in case at special subframe, this base station can be dispatched UE, and then can normal transfer of data be carried out between base station and UE, thus the problem cannot carrying out normal transfer of data between UE and base station caused due to the existence of special subframe can be solved, improve systematic function and Consumer's Experience.

Should understand, in embodiments of the present invention, this processor 1410 can be CPU (Central Processing Unit, referred to as " CPU "), this processor 1410 can also be other general processors, digital signal processor (DSP), application-specific integrated circuit (ASIC) (ASIC), ready-made programmable gate array (FPGA) or other programmable logic devices, discrete gate or transistor logic, discrete hardware components etc.The processor etc. of general processor can be microprocessor or this processor also can be any routine.

This memory 1420 can comprise read-only memory and random access memory, and provides instruction and data to processor 1410.A part for memory 1420 can also comprise nonvolatile RAM.Such as, the information of all right storage device type of memory 1420.

This bus system 1430, except comprising data/address bus, can also comprise power bus, control bus and status signal bus in addition etc.But for the purpose of clearly demonstrating, in the drawings various bus is all designated as bus system 1430.

In implementation procedure, each step of said method can be completed by the instruction of the integrated logic circuit of the hardware in processor 1410 or software form.Step in conjunction with the method disclosed in the embodiment of the present invention can directly be presented as that hardware processor is complete, or hardware in purpose processor and software module combination complete.Software module can be positioned at random asccess memory, flash memory, read-only memory, in the storage medium of this area maturations such as programmable read only memory or electrically erasable programmable memory, register.This storage medium is positioned at memory 1420, and processor 1410 reads the information in memory 1420, completes the step of said method in conjunction with its hardware.For avoiding repetition, be not described in detail here.

Alternatively, as another embodiment, this receiver 1440 is specifically for receiving this DCI sent in the first enhancement mode Physical Downlink Control Channel EPDCCH resource collection of this base station in this second common subframe;

Correspondingly, this processor 1410, specifically for the corresponding relation according to an EPDCCH resource collection and this first common subframe, determines that this DCI that this receiver 1440 receives is for dispatching the transmitting uplink data in this first common subframe.

Alternatively, as another embodiment, the EPDCCH of this UE takies at least three EPDCCH resource collections in this second common subframe, and each EPDCCH resource collection in these at least three EPDCCH resource collections comprises at least one Physical Resource Block PRB.

Alternatively, as another embodiment, this DCI that this receiver 1440 sends on the first Physical Resource Block PRB of this second common subframe specifically for receiving this base station;

Correspondingly, this processor 1410, specifically for the corresponding relation according to a PRB and this first common subframe, determines that this DCI that this receiver 1440 receives is for dispatching the transmitting uplink data in this first common subframe.

Alternatively, as another embodiment, this processor 1410, specifically for the value of indication bit position comprised according to this DCI, determines that this DCI is for dispatching the transmitting uplink data in the first common subframe.

Alternatively, as another embodiment, this processor 1410, specifically for according to the value of this indication bit position and after being positioned at this second common subframe and the quantity of the continuous print special subframe nearest with this second common subframe, determines that this DCI is for dispatching the transmitting uplink data in this first common subframe.

Alternatively, as another embodiment, this receiver 1440 is also for receiving the feedback information that this base station sends in the 3rd common subframe, and wherein, the feedback subframe meeting this HARQ sequential relationship with this first common subframe is special subframe and after the 3rd subframe is positioned at this feedback subframe;

Correspondingly, this processor 1410 is also for determining that this feedback information that this receiver 1440 receives corresponds to the transmitting uplink data in this first common subframe.

Alternatively, as another embodiment, this receiver 1440 is specifically for receiving this feedback information sent in the first physical hybrid automatic repeat request indicator channel PHICH group of this base station in the 3rd common subframe;

Correspondingly, this processor 1410, specifically for the corresponding relation according to a PHICH group and this first common subframe, determines that this feedback information that this receiver 1440 receives corresponds to the transmitting uplink data in this first common subframe.

Alternatively, as another embodiment, the value of indication bit position of this processor 1410 specifically for comprising according to this feedback information, determines that this feedback information corresponds to the transmitting uplink data in this first common subframe.

Alternatively, as another embodiment, this processor 1410, specifically for according to the value of this indication bit position with before being positioned at the 3rd common subframe and the quantity of the continuous print special subframe nearest with the 3rd common subframe, determines that this feedback information corresponds to the transmitting uplink data in this first common subframe.

Alternatively, as another embodiment, this receiver 1440 is also before the DCI sent in the second common subframe in this reception base station, and receive the indication information that this base station sends, this indication information is used to indicate the position of special subframe.

Alternatively, as another embodiment, this processor 1410 also for detecting the DCI that this base station sends on special subframe; And if the DCI that this base station sends detected, in the subframe meeting this HARQ sequential relationship at this special subframe and carry out transfer of data between this base station and/or carry out transmission of feedback information.

According to the subscriber equipment that the subscriber equipment 1400 of the embodiment of the present invention may correspond in the method for the transmission data according to the embodiment of the present invention, and above-mentioned and other operation of the modules in subscriber equipment 1400 and/or function are respectively in order to realize the corresponding flow process of each method in Fig. 3 to Fig. 6, for simplicity, do not repeat them here.

Therefore, according to the subscriber equipment of the embodiment of the present invention, when the scheduling subframe meeting HARQ sequential relationship with the first common subframe is special subframe, base station is being positioned in the before this special subframe second common subframe to UE transmission dispatch, this dispatch indicates this UE to send upstream data in this first common subframe, to make to deposit in case at special subframe, this base station can be dispatched UE, and then can normal transfer of data be carried out between base station and UE, thus the problem cannot carrying out normal transfer of data between UE and base station caused due to the existence of special subframe can be solved, improve systematic function and Consumer's Experience.

Figure 23 shows the schematic block diagram of base station 1500 according to another embodiment of the present invention, and as shown in figure 23, this base station 1500 comprises processor 1510, memory 1520, bus system 1530, receiver 1540 and transmitter 1550.Wherein, processor 1510, memory 1520, receiver 1540 are connected by bus system 1530 with transmitter 1550, this memory 1520 is for storing instruction, this processor 1510 is by this bus system 1530, call this instruction stored in this memory 1520, particularly, the upstream data that sends in the first common subframe for receiving this UE of this receiver 1540; If this processor 1510 is special subframe for the feedback subframe meeting hybrid automatic repeat-request HARQ sequential relationship with this first common subframe, determine be positioned in the 3rd common subframe after this feedback subframe to this UE send feedback information, this feedback information is used to indicate this receiver 1540 and whether correctly receives this upstream data; This transmitter 1550 sends this feedback information to this UE in the 3rd common subframe determined at this processor 1510.

Therefore, according to the base station of the transmission data of the embodiment of the present invention, when the feedback subframe meeting HARQ sequential relationship with this first common subframe is special subframe, the common subframe of this base station after this special subframe is fed back the transfer of data in this first common subframe, to make to deposit in case at special subframe, this base station still can be fed back, thus the problem cannot carrying out feeding back in the base station of causing due to the existence of special subframe can be solved, improve systematic function and Consumer's Experience further.

Should understand, in embodiments of the present invention, this processor 1510 can be CPU (Central Processing Unit, referred to as " CPU "), this processor 1510 can also be other general processors, digital signal processor (DSP), application-specific integrated circuit (ASIC) (ASIC), ready-made programmable gate array (FPGA) or other programmable logic devices, discrete gate or transistor logic, discrete hardware components etc.The processor etc. of general processor can be microprocessor or this processor also can be any routine.

This memory 1520 can comprise read-only memory and random access memory, and provides instruction and data to processor 1510.A part for memory 1520 can also comprise nonvolatile RAM.Such as, the information of all right storage device type of memory 1520.

This bus system 1530, except comprising data/address bus, can also comprise power bus, control bus and status signal bus in addition etc.But for the purpose of clearly demonstrating, in the drawings various bus is all designated as bus system 1530.

In implementation procedure, each step of said method can be completed by the instruction of the integrated logic circuit of the hardware in processor 1510 or software form.Step in conjunction with the method disclosed in the embodiment of the present invention can directly be presented as that hardware processor is complete, or hardware in purpose processor and software module combination complete.Software module can be positioned at random asccess memory, flash memory, read-only memory, in the storage medium of this area maturations such as programmable read only memory or electrically erasable programmable memory, register.This storage medium is positioned at memory 1520, and processor 1510 reads the information in memory 1520, completes the step of said method in conjunction with its hardware.For avoiding repetition, be not described in detail here.

Alternatively, the first physical hybrid automatic repeat request indicator channel PHICH group in the 3rd common subframe is corresponding with this first common subframe;

Correspondingly, this transmitter 1550 specifically for sending this feedback information to this UE in a PHICH group.

Alternatively, as another embodiment, the quantity of the PHICH group that the PHICH of this UE takies in the 3rd common subframe is greater than the quantity of the PHICH group that this PHICH takies in the 4th common subframe, and the 4th common subframe is for only feeding back the transmitting uplink data in a subframe.

Alternatively, as another embodiment, the indication bit position that this feedback information comprises indicates this feedback information corresponding to the transmitting uplink data in this first common subframe.

Alternatively, as another embodiment, the value of this indication bit position is before basis is positioned at the 3rd common subframe and the quantity of the continuous print special subframe nearest with the 3rd common subframe is arranged.

Alternatively, as another embodiment, this transmitter 1550 is also before receiving the upstream data that this UE sends in the first common subframe at this receiver 1540, indication information is sent to this UE, this indication information is used to indicate the position of particular service subframe so that this UE determine to be positioned at the 3rd common subframe according to this indication information before and the quantity of the continuous print special subframe nearest with the 3rd common subframe.

Alternatively, as another embodiment, this transmitter 1550 is also before receiving the upstream data that this UE sends in the first common subframe at this receiver 1540, second common subframe sends Downlink Control Information DCI to this UE, this DCI is used to indicate this UE and sends upstream data in this first common subframe, and this DCI indicates this UE in the 3rd common subframe, receive this feedback information for this transmitting uplink data.

Alternatively, as another embodiment, if the scheduling subframe meeting this HARQ sequential relationship with this first common subframe is special subframe, before this second common subframe is positioned at this scheduling subframe.

According to the base station that the base station 1500 of the embodiment of the present invention may correspond in the method for the transmission data according to the embodiment of the present invention, and above-mentioned and other operation of the modules in base station 1500 and/or function are respectively in order to realize the corresponding flow process of each method in Fig. 7, for simplicity, do not repeat them here.

Therefore, according to the base station of the embodiment of the present invention, when the feedback subframe meeting HARQ sequential relationship with this first common subframe is special subframe, the common subframe of this base station after this special subframe is fed back the transfer of data in this first common subframe, to make to deposit in case at special subframe, this base station still can be fed back, thus can solve the problem cannot carrying out feeding back in the base station of causing due to the existence of special subframe, improves systematic function and Consumer's Experience further.

Figure 24 shows the schematic block diagram of user equipment (UE) 1600 according to another embodiment of the present invention, and as shown in figure 24, this UE1600 comprises processor 1610, memory 1620, bus system 1630 and receiver 1640.Wherein, processor 1610, memory 1620 are connected by bus system 1630 with receiver 1640, this memory 1620 is for storing instruction, this processor 1610 is by this bus system 1630, call this instruction stored in this memory 1620, particularly, the feedback information that sends in the 3rd common subframe for receiving base station of this receiver 1640; This processor 1610 corresponds to the transmitting uplink data in the first common subframe for this feedback information determined this receiver 1640 and receive, wherein, the feedback subframe meeting hybrid automatic repeat-request HARQ sequential relationship with this first common subframe is special subframe and after the 3rd common subframe is positioned at this feedback subframe.

Therefore, according to the subscriber equipment of the embodiment of the present invention, when the feedback subframe meeting HARQ sequential relationship with this first common subframe is special subframe, the common subframe of this base station after this special subframe is fed back the transfer of data in this first common subframe, to make to deposit in case at special subframe, this base station still can be fed back, thus can solve the problem cannot carrying out feeding back in the base station of causing due to the existence of special subframe, improves systematic function and Consumer's Experience further.

Should understand, in embodiments of the present invention, this processor 1610 can be CPU (Central Processing Unit, referred to as " CPU "), this processor 1610 can also be other general processors, digital signal processor (DSP), application-specific integrated circuit (ASIC) (ASIC), ready-made programmable gate array (FPGA) or other programmable logic devices, discrete gate or transistor logic, discrete hardware components etc.The processor etc. of general processor can be microprocessor or this processor also can be any routine.

This memory 1620 can comprise read-only memory and random access memory, and provides instruction and data to processor 1610.A part for memory 1620 can also comprise nonvolatile RAM.Such as, the information of all right storage device type of memory 1620.

This bus system 1630, except comprising data/address bus, can also comprise power bus, control bus and status signal bus in addition etc.But for the purpose of clearly demonstrating, in the drawings various bus is all designated as bus system 1630.

In implementation procedure, each step of said method can be completed by the instruction of the integrated logic circuit of the hardware in processor 1610 or software form.Step in conjunction with the method disclosed in the embodiment of the present invention can directly be presented as that hardware processor is complete, or hardware in purpose processor and software module combination complete.Software module can be positioned at random asccess memory, flash memory, read-only memory, in the storage medium of this area maturations such as programmable read only memory or electrically erasable programmable memory, register.This storage medium is positioned at memory 1620, and processor 1610 reads the information in memory 1620, completes the step of said method in conjunction with its hardware.For avoiding repetition, be not described in detail here.

Alternatively, this receiver 1640 is specifically for receiving this feedback information sent in the first physical hybrid automatic repeat request indicator channel PHICH group of this base station in the 3rd common subframe;

Correspondingly, this processor 1610, specifically for the corresponding relation according to a PHICH group and this first common subframe, determines that this feedback information corresponds to the transmitting uplink data in the first common subframe.

Alternatively, as another embodiment, the quantity of the PHICH group that the PHICH of this UE takies in the 3rd common subframe is greater than the quantity of the PHICH group that this PHICH takies in the 4th common subframe, and the 4th common subframe is for only feeding back the transmitting uplink data in a subframe.

Alternatively, as another embodiment, the value of indication bit position of this processor 1610 specifically for comprising according to this feedback information, determines that this feedback information corresponds to the transmitting uplink data in this first common subframe.

Alternatively, as another embodiment, this processor 1610, specifically for according to the value of this indication bit position and before being positioned at the 3rd common subframe and the quantity of the continuous print special subframe nearest with the 3rd common subframe, determines that this feedback information corresponds to the transmitting uplink data in this first common subframe.

Alternatively, as another embodiment, this receiver 1640 also at this processor 1610 according to the value of this indication bit position and before being positioned at the 3rd common subframe and the quantity of the continuous print special subframe nearest with the 3rd common subframe, before determining the transmitting uplink data that this feedback information corresponds in this first common subframe, receive the indication information that this base station sends, this indication information is used to indicate the position of particular service subframe;

Correspondingly, this processor 1610 this indication information also for receiving according to this receiver 1640, determine this be positioned at the 3rd common subframe before and the quantity of the continuous print special subframe nearest with the 3rd common subframe.

Alternatively, as another embodiment, this receiver 1640 is also before the feedback information sent in the 3rd common subframe in this reception base station, receive the Downlink Control Information DCI that this base station sends in the second common subframe, this DCI is used to indicate user equipment (UE) and sends upstream data in this first common subframe, and indicates this UE in the 3rd common subframe, receive this feedback information for this transmitting uplink data;

Correspondingly, this receiver 1640, specifically for according to this DCI, the 3rd common subframe receives this feedback information that base station sends.

Alternatively, as another embodiment, if the scheduling subframe meeting this HARQ sequential relationship with this first common subframe is special subframe, before this second common subframe is positioned at this scheduling subframe.

According to the subscriber equipment that the subscriber equipment 1600 of the embodiment of the present invention may correspond in the method for the transmission data according to the embodiment of the present invention, and above-mentioned and other operation of the modules in subscriber equipment 1600 and/or function are respectively in order to realize the corresponding flow process of each method in Fig. 8, for simplicity, do not repeat them here.

Therefore, according to the subscriber equipment of the transmission data of the embodiment of the present invention, when the feedback subframe meeting HARQ sequential relationship with this first common subframe is special subframe, the common subframe of this base station after this special subframe is fed back the transfer of data in this first common subframe, to make to deposit in case at special subframe, this base station still can be fed back, thus the problem cannot carrying out feeding back in the base station of causing due to the existence of special subframe can be solved, improve systematic function and Consumer's Experience further.

Figure 25 shows the schematic block diagram of user equipment (UE) 1700 according to yet another embodiment of the invention, and as shown in figure 25, this UE1700 comprises processor 1710, memory 1720, bus system 1730, receiver 1740 and transmitter 1750.Wherein, processor 1710, memory 1720, receiver 1740 are connected by bus system 1730 with transmitter 1750, this memory 1720 is for storing instruction, this processor 1710 is by this bus system 1730, call this instruction stored in this memory 1720, particularly, the downlink data that sends in the first common subframe for receiving base station of this receiver 1740; If this processor 1710 is special subframe for the feedback subframe meeting hybrid automatic repeat-request HARQ sequential relationship with this first common subframe, determine the second common subframe after this feedback subframe sends feedback information to this base station, this feedback information is used to indicate this receiver 1740 and whether correctly receives this downlink data; This transmitter 1750 sends this feedback information to this base station in this second common subframe determined at this processor 1710.

Therefore, according to the user equipment (UE) of the transmission data of the embodiment of the present invention, when the feedback subframe meeting HARQ sequential relationship with this first common subframe is special subframe, the common subframe of this base station after this special subframe is fed back the transfer of data in this first common subframe, to make to deposit in case at special subframe, this base station still can be fed back, thus the problem cannot carrying out feeding back in the base station of causing due to the existence of special subframe can be solved, improve systematic function and Consumer's Experience further.

Should understand, in embodiments of the present invention, this processor 1710 can be CPU (Central Processing Unit, referred to as " CPU "), this processor 1710 can also be other general processors, digital signal processor (DSP), application-specific integrated circuit (ASIC) (ASIC), ready-made programmable gate array (FPGA) or other programmable logic devices, discrete gate or transistor logic, discrete hardware components etc.The processor etc. of general processor can be microprocessor or this processor also can be any routine.

This memory 1720 can comprise read-only memory and random access memory, and provides instruction and data to processor 1710.A part for memory 1720 can also comprise nonvolatile RAM.Such as, the information of all right storage device type of memory 1720.

This bus system 1730, except comprising data/address bus, can also comprise power bus, control bus and status signal bus in addition etc.But for the purpose of clearly demonstrating, in the drawings various bus is all designated as bus system 1730.

In implementation procedure, each step of said method can be completed by the instruction of the integrated logic circuit of the hardware in processor 1710 or software form.Step in conjunction with the method disclosed in the embodiment of the present invention can directly be presented as that hardware processor is complete, or hardware in purpose processor and software module combination complete.Software module can be positioned at random asccess memory, flash memory, read-only memory, in the storage medium of this area maturations such as programmable read only memory or electrically erasable programmable memory, register.This storage medium is positioned at memory 1720, and processor 1710 reads the information in memory 1720, completes the step of said method in conjunction with its hardware.For avoiding repetition, be not described in detail here.

Alternatively, the first Physical Uplink Control Channel PUCCH resource in this second common subframe is corresponding with this first common subframe;

Correspondingly, this transmitter 1750 specifically for sending this feedback information to this base station in this first PUCCH resource.

Alternatively, as another embodiment, the quantity of the PUCCH resource that the PUCCH of this UE takies in this second common subframe is greater than the quantity of the PUCCH resource that this PUCCH takies in the 3rd common subframe, and the 3rd common subframe is for only feeding back the downlink data transmission in a subframe.

Alternatively, as another embodiment, the indication bit position that this feedback information comprises indicates this feedback information corresponding to the downlink data transmission in this first common subframe.

Alternatively, as another embodiment, the value of this indication bit position is before basis is positioned at this second common subframe and the quantity of the continuous print special subframe nearest with this second common subframe is arranged.

Alternatively, as another embodiment, this receiver 1740 is also before the downlink data sent in the first common subframe in this reception base station, and receive the indication information that this base station sends, this indication information is used to indicate the position of special subframe;

Correspondingly, this processor 1710 this indication information specifically for receiving according to this receiver 1740, determine this be positioned at this second common subframe before and the quantity of the continuous print special subframe nearest with this second common subframe.

Alternatively, as another embodiment, this receiver 1740 is also before the downlink data sent in the first common subframe in this reception base station, receive the Downlink Control Information DCI that this base station sends, this DCI is used to indicate user equipment (UE) in this first common subframe, receives this downlink data that this base station sends, and this DCI indicates this UE in this second common subframe, send this feedback information for this downlink data transmission;

Correspondingly, this processor 1710 this DCI specifically for receiving according to this receiver 1740, determines to send this feedback information to this base station in this second common subframe.

According to the subscriber equipment that the subscriber equipment 1700 of the embodiment of the present invention may correspond in the method for the transmission data according to the embodiment of the present invention, and above-mentioned and other operation of the modules in subscriber equipment 1700 and/or function are respectively in order to realize the corresponding flow process of each method in Fig. 9 and Figure 10, for simplicity, do not repeat them here.

Therefore, according to the subscriber equipment of the transmission data of the embodiment of the present invention, when the feedback subframe meeting HARQ sequential relationship with the 4th common subframe is special subframe, the five common subframe of UE after being positioned at this special subframe sends feedback information to base station, the downlink data that this feedback information indicates this UE whether correctly to receive this base station to send in the 4th common subframe, to make to deposit in case at special subframe, this UE still can feed back the downlink data that base station sends, thus the problem that the UE caused due to the existence of special subframe cannot carry out feeding back can be solved, improve systematic function and Consumer's Experience.

Figure 26 shows the schematic block diagram of base station 1800 according to yet another embodiment of the invention, and as shown in figure 26, this base station 1800 comprises processor 1810, memory 1820, bus system 1830 and receiver 1840.Wherein, processor 1810, memory 1820 are connected by bus system 1830 with receiver 1840, this memory 1820 is for storing instruction, this processor 1810 is by this bus system 1830, call this instruction stored in this memory 1820, particularly, the feedback information that sends in the second common subframe for receiving user equipment (UE) of this receiver 1840; This processor 1810 corresponds to the downlink data transmission in the first common subframe for this feedback information determined this receiver 1840 and receive, wherein, the feedback subframe meeting hybrid automatic repeat-request HARQ sequential relationship with this first common subframe is special subframe and after this second common subframe is positioned at this feedback subframe.

Therefore, according to the base station of the embodiment of the present invention, when the feedback subframe meeting HARQ sequential relationship with the 4th common subframe is special subframe, the five common subframe of UE after being positioned at this special subframe sends feedback information to base station, the downlink data that this feedback information indicates this UE whether correctly to receive this base station to send in the 4th common subframe, to make to deposit in case at special subframe, this UE still can feed back the downlink data that base station sends, thus the problem that the UE caused due to the existence of special subframe cannot carry out feeding back can be solved, improve systematic function and Consumer's Experience.

Should understand, in embodiments of the present invention, this processor 1810 can be CPU (Central Processing Unit, referred to as " CPU "), this processor 1810 can also be other general processors, digital signal processor (DSP), application-specific integrated circuit (ASIC) (ASIC), ready-made programmable gate array (FPGA) or other programmable logic devices, discrete gate or transistor logic, discrete hardware components etc.The processor etc. of general processor can be microprocessor or this processor also can be any routine.

This memory 1820 can comprise read-only memory and random access memory, and provides instruction and data to processor 1810.A part for memory 1820 can also comprise nonvolatile RAM.Such as, the information of all right storage device type of memory 1820.

This bus system 1830, except comprising data/address bus, can also comprise power bus, control bus and status signal bus in addition etc.But for the purpose of clearly demonstrating, in the drawings various bus is all designated as bus system 1830.

In implementation procedure, each step of said method can be completed by the instruction of the integrated logic circuit of the hardware in processor 1810 or software form.Step in conjunction with the method disclosed in the embodiment of the present invention can directly be presented as that hardware processor is complete, or hardware in purpose processor and software module combination complete.Software module can be positioned at random asccess memory, flash memory, read-only memory, in the storage medium of this area maturations such as programmable read only memory or electrically erasable programmable memory, register.This storage medium is positioned at memory 1820, and processor 1810 reads the information in memory 1820, completes the step of said method in conjunction with its hardware.For avoiding repetition, be not described in detail here.

Alternatively, this receiver 1840 is specifically for receiving this feedback information sent in first PUCCH resource of this UE in this second common subframe;

Correspondingly, this processor 1810, specifically for the corresponding relation according to this first PUCCH resource and this first common subframe, determines that this feedback information corresponds to the downlink data transmission in this first common subframe.

Alternatively, as another embodiment, the quantity of the PUCCH resource that the PUCCH of this UE takies in this second common subframe is greater than the quantity of the PUCCH resource that this PUCCH takies in the 3rd common subframe, and the 3rd common subframe is for only feeding back the downlink data transmission in a subframe.

Alternatively, as another embodiment, the value of indication bit position of this processor 1810 specifically for comprising according to this feedback information, determines that this feedback information corresponds to the downlink data transmission in the first common subframe.

Alternatively, as another embodiment, this processor 1810, specifically for according to the value of this indication bit position and before being positioned at this second common subframe and the quantity of the continuous print special subframe nearest with this second common subframe, determines that this feedback information corresponds to the downlink data transmission in the first common subframe.

Alternatively, as another embodiment, this base station 1800 also comprises:

Transmitter 1850, for receiving this UE at this receiver 1840 before this feedback information sent in the second common subframe, indication information is sent to this UE, this indication information is used to indicate the position of special subframe so that this UE according to this indication information determine this be positioned at this second common subframe before and the quantity of the continuous print special subframe nearest with this second common subframe.

Alternatively, as another embodiment, this base station 1800 also comprises:

Transmitter 1850, for receiving this UE at this receiver 1840 before this feedback information sent in the second common subframe, Downlink Control Information DCI is sent to this UE, this DCI is used to indicate this UE downlink data receiving in this first common subframe, and this DCI indicates this UE to send this feedback information for this downlink data transmission in this second common subframe, so that this UE determines to send this feedback information in this second common subframe according to this DCI.

According to the base station that the base station 1800 of the embodiment of the present invention may correspond in the method for the transmission data according to the embodiment of the present invention, and above-mentioned and other operation of the modules in base station 1800 and/or function are respectively in order to realize the corresponding flow process of each method in Figure 11 and Figure 12, for simplicity, do not repeat them here.

Therefore, according to the base station of the transmission data of the embodiment of the present invention, when the feedback subframe meeting HARQ sequential relationship with this first common subframe is special subframe, the common subframe of this base station after this special subframe is fed back the transfer of data in this first common subframe, to make to deposit in case at special subframe, this base station still can be fed back, thus the problem cannot carrying out feeding back in the base station of causing due to the existence of special subframe can be solved, improve systematic function and Consumer's Experience further.

Should be understood that in embodiments of the present invention, term "and/or" is only a kind of incidence relation describing affiliated partner, and expression can exist three kinds of relations.Such as, A and/or B, can represent: individualism A, exists A and B simultaneously, these three kinds of situations of individualism B.In addition, character "/" herein, general expression forward-backward correlation is to the relation liking a kind of "or".

Those of ordinary skill in the art can recognize, in conjunction with the various method steps described in embodiment disclosed herein and unit, can realize with electronic hardware, computer software or the combination of the two, in order to the interchangeability of hardware and software is clearly described, generally describe step and the composition of each embodiment in the above description according to function.These functions perform with hardware or software mode actually, depend on application-specific and the design constraint of technical scheme.Those of ordinary skill in the art can use distinct methods to realize described function to each specifically should being used for, but this realization should not thought and exceeds scope of the present invention.

Those skilled in the art can be well understood to, and for convenience of description and succinctly, the specific works process of the system of foregoing description, device and unit, with reference to the corresponding process in preceding method embodiment, can not repeat them here.

In several embodiments that the application provides, should be understood that disclosed system, apparatus and method can realize by another way.Such as, device embodiment described above is only schematic, such as, the division of described unit, be only a kind of logic function to divide, actual can have other dividing mode when realizing, such as multiple unit or assembly can in conjunction with or another system can be integrated into, or some features can be ignored, or do not perform.In addition, shown or discussed coupling each other or direct-coupling or communication connection can be indirect coupling by some interfaces, device or unit or communication connection, also can be electric, machinery or other form connect.

The described unit illustrated as separating component or can may not be and physically separates, and the parts as unit display can be or may not be physical location, namely can be positioned at a place, or also can be distributed in multiple network element.Some or all of unit wherein can be selected according to the actual needs to realize the object of embodiment of the present invention scheme.

In addition, each functional unit in each embodiment of the present invention can be integrated in a processing unit, and also can be that the independent physics of unit exists, also can be that two or more unit are in a unit integrated.Above-mentioned integrated unit both can adopt the form of hardware to realize, and the form of SFU software functional unit also can be adopted to realize.

If described integrated unit using the form of SFU software functional unit realize and as independently production marketing or use time, can be stored in a computer read/write memory medium.Based on such understanding, technical scheme of the present invention is in essence in other words to the part that prior art contributes, or all or part of of this technical scheme can embody with the form of software product, this computer software product is stored in a storage medium, comprising some instructions in order to make a computer equipment (can be personal computer, server, or the network equipment etc.) perform all or part of step of method described in each embodiment of the present invention.And aforesaid storage medium comprises: USB flash disk, portable hard drive, read-only memory (Read-Only Memory, referred to as " ROM "), random access memory (Random Access Memory, referred to as " RAM "), magnetic disc or CD etc. various can be program code stored medium.

The above; be only the specific embodiment of the present invention; but protection scope of the present invention is not limited thereto; anyly be familiar with those skilled in the art in the technical scope that the present invention discloses; can expect amendment or the replacement of various equivalence easily, these amendments or replacement all should be encompassed within protection scope of the present invention.Therefore, protection scope of the present invention should be as the criterion with the protection range of claim.

Claims (106)

1. transmit a method for data, it is characterized in that, comprising:

If the scheduling subframe meeting hybrid automatic repeat-request HARQ sequential relationship with the first common subframe is special subframe, determine be positioned to user equipment (UE) transmission Downlink Control Information DCI in the second common subframe before described scheduling subframe, the transmitting uplink data of described DCI in the common subframe of execution cost first;

Described second common subframe sends described DCI to described UE;

Receive the upstream data that described UE sends in described first common subframe according to described DCI.

2. method according to claim 1, is characterized in that, the first enhancement mode Physical Downlink Control Channel EPDCCH resource collection in described second common subframe is corresponding with described first common subframe;

Describedly in described second common subframe, send described DCI to described UE, comprising:

Described DCI is sent to described UE in a described EPDCCH resource collection in described second common subframe.

3. method according to claim 2, it is characterized in that, the EPDCCH of described UE takies at least three EPDCCH resource collections in described second common subframe, and each EPDCCH resource collection in described at least three EPDCCH resource collections comprises at least one Physical Resource Block PRB.

4. method according to claim 1, is characterized in that, the first Physical Resource Block PRB in described second common subframe is corresponding with described first common subframe;

Describedly in described second common subframe, send described DCI to described UE, comprising:

A described PRB in described second common subframe sends described DCI to described UE.

5. method according to claim 1, is characterized in that, the indication bit position that described DCI comprises indicates the transmitting uplink data of described DCI in the common subframe of execution cost first.

6. method according to claim 5, is characterized in that, the value of described indication bit position is after basis is positioned at described second common subframe and the quantity of the continuous print special subframe nearest with described second common subframe is arranged.

7. method according to any one of claim 1 to 6, is characterized in that, described method also comprises:

If the feedback subframe meeting described HARQ sequential relationship with described first common subframe is special subframe, send feedback information to described UE being positioned in the 3rd common subframe after described feedback subframe, whether correctly described feedback information is used to indicate the described upstream data of reception.

8. method according to claim 7, is characterized in that, the first physical hybrid automatic repeat request indicator channel PHICH group in described 3rd common subframe is corresponding with described first common subframe;

Describedly send feedback information to described UE being positioned in the 3rd common subframe after described feedback subframe, comprising:

Described feedback information is sent to described UE in a described PHICH group in described 3rd common subframe.

9. method according to claim 7, is characterized in that, described feedback information comprises indication bit position, and described indication bit position is used to indicate described feedback information corresponding to the transmitting uplink data in described first common subframe.

10. method according to claim 9, is characterized in that, the value of described indication bit position is before basis is positioned at described 3rd common subframe and the quantity of the continuous print special subframe nearest with described 3rd common subframe is arranged.

11. methods according to any one of claim 1 to 10, is characterized in that, determine to send before DCI to UE being positioned in the second common subframe before described scheduling subframe described, described method also comprises:

Send indication information to described UE, described indication information is used to indicate the position of special subframe.

12. 1 kinds of methods transmitting data, is characterized in that, comprising:

Receive the Downlink Control Information DCI that base station sends in the second common subframe;

Determine that described DCI is for dispatching the transmitting uplink data in the first common subframe, wherein, the scheduling subframe meeting hybrid automatic repeat-request HARQ sequential relationship with described first common subframe is special subframe and before described second common subframe is positioned at described scheduling subframe;

According to described DCI, described first common subframe sends upstream data to described base station.

13. methods according to claim 12, is characterized in that, the DCI that described reception base station sends in the second common subframe, comprising:

Receive the described DCI sent in the first enhancement mode Physical Downlink Control Channel EPDCCH resource collection of described base station in described second common subframe;

Describedly determine that described DCI is for dispatching the transmitting uplink data in the first common subframe, comprising:

According to the corresponding relation of a described EPDCCH resource collection and described first common subframe, determine the transmitting uplink data of described DCI in the common subframe of execution cost first.

14. methods according to claim 13, it is characterized in that, the EPDCCH of described UE takies at least three EPDCCH resource collections in described second common subframe, and each EPDCCH resource collection in described at least three EPDCCH resource collections comprises at least one Physical Resource Block PRB.

15. methods according to claim 12, is characterized in that, the DCI that described reception base station sends in the second common subframe, comprising:

Receive the described DCI that described base station sends on the first Physical Resource Block PRB of described second common subframe;

Describedly determine that described DCI is for dispatching the transmitting uplink data in the first common subframe, comprising:

According to the corresponding relation of a described PRB and described first common subframe, determine the transmitting uplink data of described DCI in the common subframe of execution cost first.

16. methods according to claim 12, is characterized in that, describedly determine that described DCI is for dispatching the transmitting uplink data in the first common subframe, comprising:

According to the value of the indication bit position that described DCI comprises, determine that described DCI is for dispatching the transmitting uplink data in the first common subframe.

17. methods according to claim 16, is characterized in that, the value of the described indication bit position comprised according to described DCI, determine that described DCI is for dispatching the transmitting uplink data in the first common subframe, comprising:

According to the value of described indication bit position and after being positioned at described second common subframe and the quantity of the continuous print special subframe nearest with described second common subframe, determine the transmitting uplink data of described DCI in the common subframe of execution cost first.

18., according to claim 12 to the method according to any one of 17, is characterized in that, described method also comprises:

Receive the feedback information that described base station sends in the 3rd common subframe, wherein, the feedback subframe meeting described HARQ sequential relationship with described first common subframe is special subframe and after described 3rd subframe is positioned at described feedback subframe;

Determine that described feedback information corresponds to the transmitting uplink data in described first common subframe.

19. methods according to claim 18, is characterized in that, the feedback information that the described base station of described reception sends in the 3rd common subframe, comprising:

Receive the described feedback information sent in the first physical hybrid automatic repeat request indicator channel PHICH group of described base station in described 3rd common subframe;

Describedly determine that described feedback information corresponds to the transmitting uplink data in described first common subframe, comprising:

According to the corresponding relation of a described PHICH group and described first common subframe, determine that described feedback information corresponds to the transmitting uplink data in described first common subframe.

20. methods according to claim 18, is characterized in that, describedly determine that described feedback information corresponds to the transmitting uplink data in described first common subframe, comprising:

According to the value of the indication bit position that described feedback information comprises, determine that described feedback information corresponds to the transmitting uplink data in described first common subframe.

21. methods according to claim 20, is characterized in that, the value of the described indication bit position comprised according to described feedback information, determine that described feedback information corresponds to the transmitting uplink data in described first common subframe, comprising:

According to the value of described indication bit position with before being positioned at described 3rd common subframe and the quantity of the continuous print special subframe nearest with described 3rd common subframe, determine that described feedback information corresponds to the transmitting uplink data in described first common subframe.

22., according to claim 12 to the method according to any one of 21, is characterized in that, before the DCI that described reception base station sends in the second common subframe, described method also comprises:

Receive the indication information that described base station sends, described indication information is used to indicate the position of special subframe.

23., according to claim 12 to the method according to any one of 22, is characterized in that, described method also comprises:

Special subframe detects the DCI that described base station sends;

If the DCI that described base station sends detected, in the subframe meeting described HARQ sequential relationship at described special subframe and carry out transfer of data between described base station and/or carry out transmission of feedback information.

24. 1 kinds of methods transmitting data, is characterized in that, comprising:

Receive the upstream data that user equipment (UE) sends in the first common subframe;

If the feedback subframe meeting hybrid automatic repeat-request HARQ sequential relationship with described first common subframe is special subframe, determine to send feedback information to described UE being positioned in the 3rd common subframe after described feedback subframe, whether correctly described feedback information is used to indicate the described upstream data of reception;

Described 3rd common subframe sends described feedback information to described UE.

25. methods according to claim 24, is characterized in that, the first physical hybrid automatic repeat request indicator channel PHICH group in described 3rd common subframe is corresponding with described first common subframe;

Describedly in the 3rd common subframe, send feedback information to described UE, comprising:

Described feedback information is sent to described UE in a described PHICH group in described 3rd common subframe.

26. methods according to claim 25, it is characterized in that, the quantity of the PHICH group that the PHICH of described UE takies in described 3rd common subframe is greater than the quantity of the PHICH group that described PHICH takies in the 4th common subframe, and described 4th common subframe is for only feeding back the transmitting uplink data in a subframe.

27. methods according to claim 24, is characterized in that, described feedback information comprises indication bit position, and described indication bit position is used to indicate described feedback information corresponding to the transmitting uplink data in described first common subframe.

28. methods according to claim 27, is characterized in that, the value of described indication bit position is before basis is positioned at described 3rd common subframe and the quantity of the continuous print special subframe nearest with described 3rd common subframe is arranged.

29. methods according to claim 28, is characterized in that, before the upstream data that the described UE of described reception sends in the first general service subframe, described method also comprises:

Indication information is sent to described UE, described indication information is used to indicate the position of particular service subframe, described indication information by described UE for before determining to be positioned at described 3rd common subframe and the quantity of the continuous print special subframe nearest with described 3rd common subframe.

30. methods according to any one of claim 24 to 29, it is characterized in that, before the upstream data that the described UE of described reception sends in the first common subframe, described method also comprises:

Second common subframe sends Downlink Control Information DCI to described UE, described DCI is used to indicate described UE and sends upstream data in described first common subframe, and described DCI indicates described UE in described 3rd common subframe, receive described feedback information for described transmitting uplink data.

31. methods according to claim 30, is characterized in that, if the scheduling subframe meeting described HARQ sequential relationship with described first common subframe is special subframe, before described second common subframe is positioned at described scheduling subframe.

32. 1 kinds of methods transmitting data, is characterized in that, comprising:

Receive the feedback information that base station sends in the 3rd common subframe;

Determine that described feedback information corresponds to the transmitting uplink data in the first common subframe, wherein, the feedback subframe meeting hybrid automatic repeat-request HARQ sequential relationship with described first common subframe is special subframe and after described 3rd common subframe is positioned at described feedback subframe.

33. methods according to claim 32, is characterized in that, the feedback information that described reception base station sends in the 3rd common subframe, comprising:

Receive the described feedback information sent in the first physical hybrid automatic repeat request indicator channel PHICH group of described base station in described 3rd common subframe;

Describedly determine that described feedback information corresponds to the transmitting uplink data in the first common subframe, comprising:

According to the corresponding relation of a described PHICH group and described first common subframe, determine that described feedback information corresponds to the transmitting uplink data in the first common subframe.

34. methods according to claim 33, it is characterized in that, the quantity of the PHICH group that the PHICH of user equipment (UE) takies in described 3rd common subframe is greater than the quantity of the PHICH group that described PHICH takies in the 4th common subframe, and described 4th common subframe is for only feeding back the transmitting uplink data in a subframe.

35. methods according to claim 32, is characterized in that, describedly determine that described feedback information corresponds to the transmitting uplink data in the first common subframe, comprising:

According to the value of the indication bit position that described feedback information comprises, determine that described feedback information corresponds to the transmitting uplink data in the first common subframe.

36. methods according to claim 35, is characterized in that, the value of the described indication bit position comprised according to described feedback information, determine that described feedback information corresponds to the transmitting uplink data in the first common subframe, comprising:

According to the value of described indication bit position and before being positioned at described 3rd common subframe and the quantity of the continuous print special subframe nearest with described 3rd common subframe, determine that described feedback information corresponds to the transmitting uplink data in described first common subframe.

37. methods according to claim 36, it is characterized in that, in the described value according to described indication bit position and before being positioned at described 3rd common subframe and the quantity of the continuous print special subframe nearest with described 3rd common subframe, before determining the transmitting uplink data that described feedback information corresponds in described first common subframe, described method also comprises:

Receive the indication information that described base station sends, described indication information is used to indicate the position of particular service subframe;

According to described indication information, before being positioned at described 3rd common subframe described in determining and the quantity of the continuous print special subframe nearest with described 3rd common subframe.

38. methods according to any one of claim 32 to 37, it is characterized in that, before the feedback information that described reception base station sends in the 3rd common subframe, described method also comprises:

Receive the Downlink Control Information DCI that described base station sends in the second common subframe, described DCI is used to indicate user equipment (UE) and sends upstream data in described first common subframe, and indicates described UE in described 3rd common subframe, receive described feedback information for described transmitting uplink data;

The feedback information that described reception base station sends in the 3rd common subframe, comprising:

According to described DCI, described 3rd common subframe receives the described feedback information that base station sends.

39., according to method according to claim 38, is characterized in that, if the scheduling subframe meeting described HARQ sequential relationship with described first common subframe is special subframe, before described second common subframe is positioned at described scheduling subframe.

40. 1 kinds of methods transmitting data, is characterized in that, comprising:

Receive the downlink data that base station sends in the first common subframe;

If the feedback subframe meeting hybrid automatic repeat-request HARQ sequential relationship with described first common subframe is special subframe, determine the second common subframe after described feedback subframe sends feedback information to described base station, described feedback information is used to indicate whether correctly receive described downlink data;

Described second common subframe sends described feedback information to described base station.

41. methods according to claim 40, is characterized in that, the first Physical Uplink Control Channel PUCCH resource in described second common subframe is corresponding with described first common subframe;

Describedly in described second common subframe, send described feedback information to described base station, comprising:

Described feedback information is sent to described base station in described first PUCCH resource in described second common subframe.

42. methods according to claim 41, it is characterized in that, the quantity of the PUCCH resource that the PUCCH of user equipment (UE) takies in described second common subframe is greater than the quantity of the PUCCH resource that described PUCCH takies in the 3rd common subframe, and described 3rd common subframe is for only feeding back the downlink data transmission in a subframe.

43. methods according to claim 40, is characterized in that, described feedback information comprises indication bit position, and described indication bit position is used to indicate described feedback information corresponding to the downlink data transmission in described first common subframe.

44. methods according to claim 43, is characterized in that, the value of described indication bit position is before basis is positioned at described second common subframe and the quantity of the continuous print special subframe nearest with described second common subframe is arranged.

45. methods according to claim 44, is characterized in that, before the downlink data that described reception base station sends in the first common subframe, described method also comprises:

Receive the indication information that described base station sends, described indication information is used to indicate the position of special subframe;

According to described indication information, before being positioned at described second common subframe described in determining and the quantity of the continuous print special subframe nearest with described second common subframe.

46. methods according to any one of claim 40 to 45, it is characterized in that, before the downlink data that described reception base station sends in the first common subframe, described method also comprises:

Receive the Downlink Control Information DCI that described base station sends, described DCI is used to indicate user equipment (UE) in described first common subframe, receives the described downlink data that described base station sends, and described DCI indicates described UE in described second common subframe, send described feedback information for described downlink data transmission;

Described the second common subframe determined after described feedback subframe sends feedback information to described base station, comprising:

According to described DCI, determine to send described feedback information to described base station in described second common subframe.

47. 1 kinds of methods transmitting data, is characterized in that, comprising:

Receive the feedback information that user equipment (UE) sends in the second common subframe;

Determine that described feedback information corresponds to the downlink data transmission in the first common subframe, wherein, the feedback subframe meeting hybrid automatic repeat-request HARQ sequential relationship with described first common subframe is special subframe and after described second common subframe is positioned at described feedback subframe.

48. methods according to claim 47, is characterized in that, the feedback information that described reception UE sends in the second common subframe, comprising:

Receive the described feedback information sent in the first Physical Uplink Control Channel PUCCH resource of described UE in described second common subframe;

Describedly determine that described feedback information corresponds to the downlink data transmission in the first common subframe, comprising:

According to the corresponding relation of described first PUCCH resource and described first common subframe, determine that described feedback information corresponds to the downlink data transmission in described first common subframe.

49. methods according to claim 48, it is characterized in that, the quantity of the PUCCH resource that the PUCCH of described UE takies in described second common subframe is greater than the quantity of the PUCCH resource that described PUCCH takies in the 3rd common subframe, and described 3rd common subframe is for only feeding back the downlink data transmission in a subframe.

50. methods according to claim 47, is characterized in that, describedly determine that described feedback information corresponds to the downlink data transmission in the first common subframe, comprising:

According to the value of the indication bit position that described feedback information comprises, determine that described feedback information corresponds to the downlink data transmission in the first common subframe.

51. methods according to claim 50, is characterized in that, the value of the described indication bit position comprised according to described feedback information, determine that described feedback information corresponds to the downlink data transmission in the first common subframe, comprising:

According to the value of described indication bit position and before being positioned at described second common subframe and the quantity of the continuous print special subframe nearest with described second common subframe, determine that described feedback information corresponds to the downlink data transmission in the first common subframe.

52. methods according to claim 51, is characterized in that, at the described UE of described reception before the described feedback information sent in the second common subframe, described method also comprises:

Indication information is sent to described UE, described indication information is used to indicate the position of special subframe, described indication information by described UE for before being positioned at described second common subframe described in determining and the quantity of the continuous print special subframe nearest with described second common subframe.

53. methods according to any one of claim 47 to 52, it is characterized in that, before the feedback information that the described UE of described reception sends in the second common subframe, described method also comprises:

Downlink Control Information DCI is sent to described UE, described DCI is used to indicate described UE downlink data receiving in described first common subframe, and described DCI indicates described UE to send described feedback information for described downlink data transmission in described second common subframe, described DCI by described UE for determining to send described feedback information in described second common subframe.

54. 1 kinds of base stations, is characterized in that, comprising:

Determination module, if be special subframe for the scheduling subframe meeting hybrid automatic repeat-request HARQ sequential relationship with the first common subframe, determine be positioned to user equipment (UE) transmission Downlink Control Information DCI in the second common subframe before described scheduling subframe, the transmitting uplink data of described DCI in the common subframe of execution cost first;

Sending module, sends described DCI to described UE in the described second common subframe determined at described determination module;

Receiver module, the upstream data that the described DCI sent according to described sending module for receiving described UE sends in described first common subframe.

55. base stations according to claim 54, is characterized in that, the first enhancement mode Physical Downlink Control Channel EPDCCH resource collection in described second common subframe is corresponding with described first common subframe;

Described sending module is specifically for sending described DCI to described UE in the described EPDCCH resource collection in described second common subframe.

56. base stations according to claim 55, it is characterized in that, the EPDCCH of described UE takies at least three EPDCCH resource collections in described second common subframe, and each EPDCCH resource collection in described at least three EPDCCH resource collections comprises at least one Physical Resource Block PRB.

57. base stations according to claim 54, is characterized in that, the first Physical Resource Block PRB in described second common subframe is corresponding with described first common subframe;

Described sending module is specifically for the described PRB in described second common subframe sends described DCI to described UE.

58. base stations according to claim 54, is characterized in that, the indication bit position that the described DCI that described sending module sends comprises indicates the transmitting uplink data of described DCI in the common subframe of execution cost first.

59. base stations according to claim 58, is characterized in that, the value of described indication bit position is after basis is positioned at described second common subframe and the quantity of the continuous print special subframe nearest with described second common subframe is arranged.

60. base stations according to any one of claim 54 to 59, it is characterized in that, if the feedback subframe of described sending module also for meeting described HARQ sequential relationship with described first common subframe is special subframe, send feedback information to described UE being positioned in the 3rd common subframe after described feedback subframe, whether correctly described feedback information is used to indicate the described upstream data of reception.

61. base stations according to claim 60, is characterized in that, the first physical hybrid automatic repeat request indicator channel PHICH group in described 3rd common subframe is corresponding with described first common subframe;

Described sending module is specifically for sending described feedback information to described UE in the described PHICH group in described 3rd common subframe.

62. base stations according to claim 60, is characterized in that, described feedback information comprises indication bit position, and described indication bit position is used to indicate described feedback information corresponding to the transmitting uplink data in described first common subframe.

63. base stations according to claim 62, is characterized in that, the value of described indication bit position is before basis is positioned at described 3rd common subframe and the quantity of the continuous print special subframe nearest with described 3rd common subframe is arranged.

64. base stations according to any one of claim 54 to 63, it is characterized in that, described sending module is also for determining at described determination module to send before DCI to UE being positioned in the second common subframe before described scheduling subframe, send indication information to described UE, described indication information is used to indicate the position of special subframe.

65. 1 kinds of user equipment (UE)s, is characterized in that, comprising:

Receiver module, for receiving the Downlink Control Information DCI that base station sends in the second common subframe;

Determination module, for determining that described DCI that described receiver module receives is for dispatching the transmitting uplink data in the first common subframe, wherein, the scheduling subframe meeting hybrid automatic repeat-request HARQ sequential relationship with described first common subframe is special subframe and before described second common subframe is positioned at described scheduling subframe;

Sending module, for according to described DCI, the described first common subframe that described determination module is determined sends upstream data to described base station.

66. UE according to claim 65, is characterized in that, described receiver module is specifically for receiving the described DCI sent in the first enhancement mode Physical Downlink Control Channel EPDCCH resource collection of described base station in described second common subframe;

Described determination module, specifically for the corresponding relation according to a described EPDCCH resource collection and described first common subframe, determines the transmitting uplink data of described DCI in the common subframe of execution cost first that described receiver module receives.

67. UE according to claim 66, it is characterized in that, the EPDCCH of described UE takies at least three EPDCCH resource collections in described second common subframe, and each EPDCCH resource collection in described at least three EPDCCH resource collections comprises at least one Physical Resource Block PRB.

68. UE according to claim 65, is characterized in that, the described DCI that described receiver module sends on the first Physical Resource Block PRB of described second common subframe specifically for receiving described base station;

Described determination module, specifically for the corresponding relation according to a described PRB and described first common subframe, determines the transmitting uplink data of described DCI in the common subframe of execution cost first.

69. UE according to claim 65, is characterized in that, the value of indication bit position of described determination module specifically for comprising according to described DCI, determine that described DCI that described receiver module receives is for dispatching the transmitting uplink data in the first common subframe.

70. UE according to claim 69, it is characterized in that, described determination module, specifically for according to the value of described indication bit position and after being positioned at described second common subframe and the quantity of the continuous print special subframe nearest with described second common subframe, determines the transmitting uplink data of described DCI in the common subframe of execution cost first.

71. UE according to any one of claim 65 to 70, it is characterized in that, described receiver module is also for receiving the feedback information that described base station sends in the 3rd common subframe, wherein, the feedback subframe meeting described HARQ sequential relationship with described first common subframe is special subframe and after described 3rd subframe is positioned at described feedback subframe;

Described determination module is also for determining that described feedback information that described receiver module receives corresponds to the transmitting uplink data in described first common subframe.

72., according to the UE described in claim 71, is characterized in that, described receiver module is specifically for receiving the described feedback information sent in the first physical hybrid automatic repeat request indicator channel PHICH group of described base station in described 3rd common subframe;

Described determination module, specifically for the corresponding relation according to a described PHICH group and described first common subframe, determines that described feedback information that described receiver module receives corresponds to the transmitting uplink data in described first common subframe.

73. according to the UE described in claim 72, it is characterized in that, the value of indication bit position of described determination module specifically for comprising according to described feedback information, determines that described feedback information that described receiver module receives corresponds to the transmitting uplink data in described first common subframe.

74. according to the UE described in claim 73, it is characterized in that, described determination module specifically for according to the value of described indication bit position with before being positioned at described 3rd common subframe and the quantity of the continuous print special subframe nearest with described 3rd common subframe, determines that described feedback information that described receiver module receives is corresponding to the transmitting uplink data in described first common subframe.

75. UE according to any one of claim 65 to 74, it is characterized in that, described receiver module is also before the DCI sent in the second common subframe in described reception base station, and receive the indication information that described base station sends, described indication information is used to indicate the position of special subframe.

76. UE according to any one of claim 65 to 75, it is characterized in that, described UE also comprises:

Detection module, for detecting the downlink information that described base station sends on special subframe;

Transport module, if detect for described detection module the DCI that described base station sends, in the subframe meeting described HARQ sequential relationship at described special subframe and carry out transfer of data between described base station and/or carry out transmission of feedback information.

77. 1 kinds of base stations, is characterized in that, comprising:

Receiver module, for receiving the upstream data that user equipment (UE) sends in the first common subframe;

Determination module, if be special subframe for the feedback subframe meeting hybrid automatic repeat-request HARQ sequential relationship with described first common subframe, determine to send feedback information to described UE being positioned in the 3rd common subframe after described feedback subframe, described feedback information is used to indicate described receiver module and whether correctly receives described upstream data;

Sending module, sends described feedback information to described UE in the described 3rd common subframe determined at described determination module.

78., according to the base station described in claim 77, is characterized in that, the first physical hybrid automatic repeat request indicator channel PHICH group in described 3rd common subframe is corresponding with described first common subframe;

Described sending module is specifically for sending described feedback information to described UE in the described PHICH group in described 3rd common subframe.

79. according to the base station described in claim 78, it is characterized in that, the quantity of the PHICH group that the PHICH of described UE takies in described 3rd common subframe is greater than the quantity of the PHICH group that described PHICH takies in the 4th common subframe, and described 4th common subframe is for only feeding back the transmitting uplink data in a subframe.

80., according to the base station described in claim 77, is characterized in that, described feedback information comprises indication bit position, and described indication bit position is used to indicate described feedback information corresponding to the transmitting uplink data in described first common subframe.

81. base stations according to Claim 8 described in 0, is characterized in that, the value of described indication bit position be according to before being positioned at described 3rd common subframe and the quantity of the continuous print special subframe nearest with described 3rd common subframe arrange.

82. base stations according to Claim 8 described in 1, it is characterized in that, described sending module is also before receiving the upstream data that described UE sends in the first common subframe at described receiver module, indication information is sent to described UE, described indication information is used to indicate the position of particular service subframe, described indication information by described UE for before determining to be positioned at described 3rd common subframe and the quantity of the continuous print special subframe nearest with described 3rd common subframe.

83. base stations according to any one of claim 77 to 82, it is characterized in that, described sending module is also before receiving the upstream data that described UE sends in the first common subframe at described receiver module, second common subframe sends Downlink Control Information DCI to described UE, described DCI is used to indicate described UE and sends upstream data in described first common subframe, and described DCI indicates described UE in described 3rd common subframe, receive described feedback information for described transmitting uplink data.

84. base stations according to Claim 8 described in 3, is characterized in that, if the scheduling subframe meeting described HARQ sequential relationship with described first common subframe is special subframe, before described second common subframe is positioned at described scheduling subframe.

85. 1 kinds of user equipment (UE)s, is characterized in that, comprising:

Receiver module, for receiving the feedback information that base station sends in the 3rd common subframe;

Determination module, for determining that described feedback information that described receiver module receives corresponds to the transmitting uplink data in the first common subframe, wherein, the feedback subframe meeting hybrid automatic repeat-request HARQ sequential relationship with described first common subframe is special subframe and after described 3rd common subframe is positioned at described feedback subframe.

86. UE according to Claim 8 described in 5, it is characterized in that, described receiver module is specifically for receiving the described feedback information sent in the first physical hybrid automatic repeat request indicator channel PHICH group of described base station in described 3rd common subframe;

Described determination module, specifically for the corresponding relation according to a described PHICH group and described first common subframe, determines that described feedback information that described receiver module receives corresponds to the transmitting uplink data in the first common subframe.

87. UE according to Claim 8 described in 6, it is characterized in that, the quantity of the PHICH group that the PHICH of described UE takies in described 3rd common subframe is greater than the quantity of the PHICH group that described PHICH takies in the 4th common subframe, and described 4th common subframe is for only feeding back the transmitting uplink data in a subframe.

88. UE according to Claim 8 described in 5, it is characterized in that, the value of indication bit position of described determination module specifically for comprising according to described feedback information, determines that described feedback information that described receiver module receives corresponds to the transmitting uplink data in the first common subframe.

89. UE according to Claim 8 described in 8, it is characterized in that, described determination module specifically for according to the value of described indication bit position and before being positioned at described 3rd common subframe and the quantity of the continuous print special subframe nearest with described 3rd common subframe, determines that described feedback information that described receiver module receives corresponds to the transmitting uplink data in the first common subframe.

90. UE according to Claim 8 described in 9, it is characterized in that, described receiver module also at described determination module according to the value of described indication bit position and before being positioned at described 3rd common subframe and the quantity of the continuous print special subframe nearest with described 3rd common subframe, before determining that described feedback information that described receiver module receives corresponds to the transmitting uplink data in described first common subframe, receive the indication information that described base station sends, described indication information is used to indicate the position of particular service subframe;

The described indication information of described determination module also for receiving according to described receiver module, before being positioned at described 3rd common subframe and the quantity of the continuous print special subframe nearest with described 3rd common subframe described in determining.

91. UE according to Claim 8 according to any one of 5 to 90, it is characterized in that, described receiver module is also before the feedback information sent in the 3rd common subframe in described reception base station, receive the Downlink Control Information DCI that described base station sends in the second common subframe, described DCI is used to indicate user equipment (UE) and sends upstream data in described first common subframe, and indicates described UE in described 3rd common subframe, receive described feedback information for described transmitting uplink data;

Described receiver module, specifically for according to described DCI, described 3rd common subframe receives the described feedback information that base station sends.

92., according to the UE described in claim 91, is characterized in that, if the scheduling subframe meeting described HARQ sequential relationship with described first common subframe is special subframe, before described second common subframe is positioned at described scheduling subframe.

93. 1 kinds of user equipment (UE)s, is characterized in that, comprising:

Receiver module, for receiving the downlink data that base station sends in the first common subframe;

Determination module, if be special subframe for the feedback subframe meeting hybrid automatic repeat-request HARQ sequential relationship with described first common subframe, determine the second common subframe after described feedback subframe sends feedback information to described base station, described feedback information is used to indicate described receiver module and whether correctly receives described downlink data;

Sending module, sends described feedback information to described base station in the described second common subframe determined at described determination module.

94., according to the UE described in claim 93, is characterized in that, the first Physical Uplink Control Channel PUCCH resource in described second common subframe is corresponding with described first common subframe;

Described sending module is specifically for sending described feedback information to described base station in described first PUCCH resource in described second common subframe.

95. according to the UE described in claim 94, it is characterized in that, the quantity of the PUCCH resource that the PUCCH of described UE takies in described second common subframe is greater than the quantity of the PUCCH resource that described PUCCH takies in the 3rd common subframe, and described 3rd common subframe is for only feeding back the downlink data transmission in a subframe.

96., according to the UE described in claim 93, is characterized in that, described feedback information comprises indication bit position, and described indication bit position is used to indicate described feedback information corresponding to the downlink data transmission in described first common subframe.

97., according to the UE described in claim 96, is characterized in that, the value of described indication bit position is before basis is positioned at described second common subframe and the quantity of the continuous print special subframe nearest with described second common subframe is arranged.

98. according to the UE described in claim 97, it is characterized in that, described receiver module is also before the downlink data sent in the first common subframe in described reception base station, and receive the indication information that described base station sends, described indication information is used to indicate the position of special subframe;

The described indication information of described determination module specifically for receiving according to described receiver module, before being positioned at described second common subframe and the quantity of the continuous print special subframe nearest with described second common subframe described in determining.

99. UE according to any one of claim 93 to 98, it is characterized in that, described receiver module is also before the downlink data sent in the first common subframe in described reception base station, receive the Downlink Control Information DCI that described base station sends, described DCI is used to indicate user equipment (UE) in described first common subframe, receives the described downlink data that described base station sends, and described DCI indicates described UE in described second common subframe, send described feedback information for described downlink data transmission;

The described DCI of described determination module specifically for receiving according to described receiver module, determines to send described feedback information to described base station in described second common subframe.

100. one kinds of base stations, is characterized in that, comprising:

Receiver module, for receiving the feedback information that user equipment (UE) sends in the second common subframe;

Determination module, for determining that described feedback information that described receiver module receives corresponds to the downlink data transmission in the first common subframe, wherein, the feedback subframe meeting hybrid automatic repeat-request HARQ sequential relationship with described first common subframe is special subframe and after described second common subframe is positioned at described feedback subframe.

101., according to the base station described in claim 100, is characterized in that, described receiver module is specifically for receiving the described feedback information sent in the first Physical Uplink Control Channel PUCCH resource of described UE in described second common subframe;

Described determination module, specifically for the corresponding relation according to described first PUCCH resource and described first common subframe, determines that described feedback information corresponds to the downlink data transmission in described first common subframe.

102. according to the base station described in claim 101, it is characterized in that, the quantity of the PUCCH resource that the PUCCH of described UE takies in described second common subframe is greater than the quantity of the PUCCH resource that described PUCCH takies in the 3rd common subframe, and described 3rd common subframe is for only feeding back the downlink data transmission in a subframe.

103., according to the base station described in claim 100, is characterized in that, the value of indication bit position of described determination module specifically for comprising according to described feedback information, determine that described feedback information corresponds to the downlink data transmission in the first common subframe.

104. according to the base station described in claim 103, it is characterized in that, described determination module, specifically for according to the value of described indication bit position and before being positioned at described second common subframe and the quantity of the continuous print special subframe nearest with described second common subframe, determines that described feedback information corresponds to the downlink data transmission in the first common subframe.

105., according to the base station described in claim 104, is characterized in that, described base station also comprises:

First sending module, for receiving described UE at described receiver module before the described feedback information sent in the second common subframe, indication information is sent to described UE, described indication information is used to indicate the position of special subframe, described indication information by described UE for before being positioned at described second common subframe described in determining and the quantity of the continuous print special subframe nearest with described second common subframe.

106. base stations according to any one of claim 100 to 105, it is characterized in that, described base station also comprises:

Second sending module, for receiving described UE at described receiver module before the described feedback information sent in the second common subframe, Downlink Control Information DCI is sent to described UE, described DCI is used to indicate described UE downlink data receiving in described first common subframe, and described DCI indicates described UE to send described feedback information for described downlink data transmission in described second common subframe, described DCI by described UE for determining to send described feedback information in described second common subframe.