CN107295651A

CN107295651A - The sending method and device of Physical Uplink Shared Channel

Info

Publication number: CN107295651A
Application number: CN201610200558.3A
Authority: CN
Inventors: 弓宇宏; 鲁照华; 李儒岳
Original assignee: ZTE Corp
Current assignee: ZTE Corp
Priority date: 2016-03-31
Filing date: 2016-03-31
Publication date: 2017-10-24
Anticipated expiration: 2036-03-31
Also published as: CN107295651B; WO2017167242A1

Abstract

The invention provides a kind of sending method of Physical Uplink Shared Channel and device.Wherein, this method includes：According to the configuration information of acquisition and/or predefined rule, on the corresponding running time-frequency resource of uplink pilot time slot in the special subframe of radio frames Physical Uplink Shared Channel PUSCH is sent to base station, wherein, the time domain orthogonal frequency division multiplex OFDM symbolic number of the uplink pilot time slot is N, and N value at least includes the integer between 1 to 6.By the present invention, solve in correlation technique, the problem of Physical Uplink Shared Channel PUSCH is transmitted on uplink pilot time slot UpPTS is not supported under TDD system, and then reached the technique effect of effective utilization uplink frequency spectrum resource.

Description

The sending method and device of Physical Uplink Shared Channel

Technical field

The present invention relates to the communications field, in particular to the sending method and device of a kind of Physical Uplink Shared Channel.

Background technology

Radio frames (radio frame) bag in Long Term Evolution (Long Term Evolution, referred to as LTE) system Include FDD (Frequency Division Duplex, referred to as FDD) pattern and time division duplex (Time Division Duplex, referred to as TDD) pattern frame structure.The frame structure of fdd mode, as shown in figure 1, one 10 milliseconds (ms's) is wireless Frame is 0.5ms by 20 length, and the time slot (slot) of numbering 0~19 is constituted, the son that time slot 2i and 2i+1 composition length are 1ms Frame (subframe) i.The frame structure of tdd mode, as shown in Fig. 2 field of the 10ms radio frames by two a length of 5ms (half frame) is constituted, and a field includes the subframe that 5 length are 1ms, and subframe i is defined as 2 a length of 0.5ms time slot 2i and 2i+1.

In above two frame structure, for standard cyclic prefix (Normal Cyclic Prefix, referred to as Normal CP), a time slot includes the symbol that 7 length are 66.7 microseconds (us), wherein the CP length of first symbol is 5.21us, The CP length of remaining 6 symbol is 4.69us；For extended cyclic prefix, (Extended Cyclic Prefix are referred to as Extended CP), a time slot includes 6 symbols, and the CP length of all symbols is 16.67us.Chronomere T_sDefinition For T_s=1/ (15000 × 2048) second, the uplink-downlink configuration of support is seen below shown in table 1, to every height in a radio frames Frame, " D " represents to be exclusively used in the subframe of downlink transfer, and " U " represents to be exclusively used in the subframe of uplink, and " S " represents to be used for descending lead Frequency time slot Downlink Pilot TimeSlot, referred to as DwPTS), protection interval (GuardPeriod, referred to as GP) and The special subframe in uplink pilot time slot (Uplink Pilot TimeSlot, referred to as UpPTS) these three domains, DwPTS and UpPTS length is shown in Table 2, and their length obeys DwPTS, GP and UpPTS threes total length is 30720T_s=1ms. Each subframe i is represented by 2 time slots 2i and 2i+1, each a length of T of time slot_slot=15360T_s=0.5ms.

LTE TDD support 5ms and 10ms up-downgoing switching cycle.It is special if the downstream-to-upstream transfer point cycle is 5ms Different subframe can be present in two fields；If downstream-to-upstream transfer point cycle 10ms, special subframe exists only in first In field.Subframe 0 and subframe 5 and DwPTS are always used for downlink transfer.UpPTS and immediately following special in the subframe after special subframe For uplink.

Table 1:UL/DL is configured

Table 2:Special subframe configures (DwPTS/GP/UpPTS length)

In LTE, physical downlink control channel PDCCH is used to carry uplink and downlink schedule information, and uplink power control letter Breath.Downlink Control Information (Downlink Control Information, referred to as DCI) form (format) is divided into DCI Format 0,1,1A, 1B, 1C, 1D, 2,2A, 3,3A etc..Base station (e-Node-B, referred to as eNB) can be believed by descending control Configurating terminal device (User Equipment, referred to as UE) is ceased, or terminal device receives high-rise (higher layers) Configuration, also referred to as configures UE by high-level signaling.

Table 3:Special subframe configures (DwPTS/GP/UpPTS length)

Senior LTE (LTE-Advanced, referred to as LTE-A) system is the evolution system of future generation of LTE system.Prior art In, do not support Physical Uplink Shared Channel (Physical Shared Channel, referred to as PUSCH) to exist under TDD system Transmitted on UpPTS symbols.This is due to UpPTS symbols at most only 2 before LTE-A Release 13, as shown in table 2. In the stages of LTE-A Release 13, MIMO (the Full Dimension-MIMO, referred to as FD- of complete dimension are being configured MIMO) or a large amount of antenna MIMO (Massive-MIMO) scene under, with increasing and TDD channel reciprocities for number of users Increase to SRS measurement demands, it is determined that the UpPTS symbolic numbers that introduce inside special subframe by increasing TDD strengthen SRS's Multiplexing capacity.The UpPTS symbolic numbers X newly increased is 2 or 4, is signaled by user proprietary (UE-specific) to end End, as shown in table 3.Therefore, UpPTS symbolic numbers at most can reach 6 in special subframe.In order to better profit from uplink spectrum money Source, it is necessary to the problem of how research sends PUSCH on UpPTS.

For in correlation technique, not supporting Physical Uplink Shared Channel PUSCH to be led up under TDD system The problem of being transmitted on frequency time slot UpPTS, not yet proposes to efficiently solve scheme.

The content of the invention

The invention provides a kind of sending method of Physical Uplink Shared Channel and device, at least to solve in correlation technique Do not support what Physical Uplink Shared Channel PUSCH transmitted on uplink pilot time slot UpPTS to ask under TDD system Topic.

According to an aspect of the invention, there is provided a kind of sending method of Physical Uplink Shared Channel, including：According to obtaining The configuration information taken and/or predefined rule, the corresponding time-frequency money of uplink pilot time slot in the special subframe of radio frames Physical Uplink Shared Channel PUSCH is sent to base station on source, wherein, the time domain orthogonal frequency division multiplexing of the uplink pilot time slot OFDM symbol number is N, and N value at least includes the integer between 1 to 6.

Alternatively, sent out on the corresponding running time-frequency resource of the uplink pilot time slot in the special subframe of radio frames to base station The PUSCH is sent to include：The PUSCH is sent to the base station in the M OFDM symbol in the uplink pilot time slot, its In, the M OFDM symbol is the subset of N number of OFDM symbol, and M is 1 between N and including 1 and N integer.

Alternatively, the PUSCH is sent to the base station in the M OFDM symbol in the uplink pilot time slot Including：The PUSCH is sent to the base station in the M OFDM symbol adjacent with the protection interval of the special subframe, its In, the value of the M is by base station is by signal deployment and is issued to the terminal.

Alternatively, position of the M OFDM symbol in N number of OFDM symbol of the uplink pilot time slot is led to by base station Cross signal deployment and be issued to terminal.

Alternatively, the configuration information and/or predefined rule include at least one of：The resource of the PUSCH The method of salary distribution, the resource distribution of the demodulation pilot tone of the PUSCH, the transmission subframe index of the PUSCH and the scheduling PUSCH Physical downlink control channel PDCCH reception subframe index between corresponding relation, the transmission subframe index of the PUSCH and Corresponding relation and the PUSCH between corresponding physical mixed automatic re-transmission indicating channel PHICH reception subframe index Transmit power control.

Alternatively, the resource distribution mode of the PUSCH include it is following any one：By uplink pilot time slot correspondence Running time-frequency resource as an independent Physical Uplink Shared Channel time-frequency resource allocating to terminal；By the uplink pilot time slot Corresponding running time-frequency resource with after the uplink pilot time slot and the sub-frame of uplink adjacent with the uplink pilot time slot Running time-frequency resource gives the terminal together as an independent Physical Uplink Shared Channel time-frequency resource allocating.

Alternatively, the resource distribution of the demodulation pilot tone of the PUSCH includes：The demodulation pilot tone is in the ascending pilot frequency Time-domain OFDM symbol position in gap, wherein, time-domain OFDM symbol position of the demodulation pilot tone in the uplink pilot time slot Put by base station by signal deployment and be handed down to terminal, or, time domain of the demodulation pilot tone in the uplink pilot time slot OFDM symbol position is located at the location of OFDM symbol adjacent with protection interval in the radio frames.

Alternatively, the resource distribution of the demodulation pilot tone of the PUSCH also includes：In the resource distribution mode of the PUSCH For by the corresponding running time-frequency resource of the uplink pilot time slot with after the uplink pilot time slot and with the ascending pilot frequency The running time-frequency resource of the adjacent sub-frame of uplink of time slot is given together as an independent Physical Uplink Shared Channel time-frequency resource allocating During the terminal, the PUSCH sent on the PUSCH and the sub-frame of uplink sent on the uplink pilot time slot is shared on described The PUSCH sent in row subframe demodulation pilot resources.

Alternatively, the PUSCH resource distribution mode be by the corresponding running time-frequency resource of the uplink pilot time slot with After the uplink pilot time slot and the sub-frame of uplink adjacent with the uplink pilot time slot running time-frequency resource together as one It is used to send institute when individual independent Physical Uplink Shared Channel time-frequency resource allocating gives the terminal, in the uplink pilot time slot State PUSCH M OFDM symbol be used for repeat send be located at the uplink pilot time slot after and with the uplink pilot time slot The PUSCH information for the M OFDM symbol specified in adjacent sub-frame of uplink, wherein, the position of the M OFDM symbol specified It is set to base station and terminal is made an appointment, or by base station is by signal deployment and is issued to terminal, the M is 1 between N and wrapping Include 1 and N integer.

Alternatively, between the PUSCH transmission subframe index and the scheduling PUSCH PDCCH reception subframe index Corresponding relation include：The PUSCH resource distribution mode be by the corresponding running time-frequency resource of the uplink pilot time slot with After the uplink pilot time slot and the sub-frame of uplink adjacent with the uplink pilot time slot running time-frequency resource together as When one independent Physical Uplink Shared Channel time-frequency resource allocating gives the terminal, the PUSCH sends subframe index and tune Corresponding relation between the reception subframe index for the PDCCH for spending the PUSCH follows the PUSCH in the sub-frame of uplink with adjusting The corresponding relation spent between the PDCCH reception subframe of the PUSCH.

Alternatively, the PUSCH sends the corresponding relation bag between subframe index and corresponding PHICH reception subframe index Include：It is that the corresponding running time-frequency resource of the uplink pilot time slot is described up with being located in the resource distribution mode of the PUSCH After pilot time slot and the sub-frame of uplink adjacent with the uplink pilot time slot running time-frequency resource together as an independent thing When managing Uplink Shared Channel time-frequency resource allocating to the terminal, the PUSCH sends connecing for subframe index and corresponding PHICH Receive the corresponding relation between subframe index and follow the PUSCH between the sub-frame of uplink receives subframe with corresponding PHICH Corresponding relation.

Alternatively, it is to regard the running time-frequency resource of the uplink pilot time slot as one in the resource distribution mode of the PUSCH When individual independent Physical Uplink Shared Channel time-frequency resource allocating is to terminal, the PUSCH is not supported on TDD Row/downstream arrangements are the corresponding time-frequency money of uplink pilot time slot that 0, TDD uplink/downlinks are configured in the case of at least one of 6 Sent on source.

Alternatively, the transmission subframe index of the PUSCH and scheduling PUSCH physical downlink control channel PDCCH Reception subframe index between corresponding relation include at least one of：0 is configured in the uplink/downlink of TDD Or in the case of 1, when PUSCH transmission subframe index is 1, the PDCCH reception subframe index for dispatching the PUSCH is 5, PUSCH When transmission subframe index is 6, the PDCCH reception subframe index for dispatching the PUSCH is 0；In TDD uplink/downlinks configuration In the case of 2, when PUSCH transmission subframe index is 1, the PDCCH reception subframe index for dispatching the PUSCH is 6, PUSCH When transmission subframe index is 6, the PDCCH reception subframe index for dispatching the PUSCH is 1；In TDD uplink/downlinks configuration For 3,4,5 in the case of any one, PUSCH sends subframe index when being 1, dispatches the PDCCH reception subframe rope of the PUSCH It is cited as 7；It is configured in the TDD uplink/downlinks in the case of 6, when PUSCH transmission subframe index is 1, dispatches the PUSCH PDCCH reception subframe index be that 5, PUSCH sends subframe index when be 6, scheduling PUSCH PDCCH reception subframe rope It is cited as 0.

Alternatively, the transmission subframe index of the PUSCH and scheduling PUSCH physical downlink control channel PDCCH Reception subframe index between corresponding relation also include at least one of：0 is configured in TDD uplink/downlink In the case of, scheduling PUSCH PDCCH reception subframe is the upper line index domain in the Downlink Control Information of 5 and PDCCH carryings Least significant bit indicated value be 1 when, PUSCH send subframe index be 1；0 feelings are configured in TDD uplink/downlink Under condition, scheduling PUSCH PDCCH reception subframe is the upper line index domain in the Downlink Control Information of 5 and PDCCH carryings When highest significant position indicated value is 1, it is 9 that PUSCH, which sends subframe index,；0 situation is configured in TDD uplink/downlink Under, scheduling PUSCH PDCCH reception subframe for the 0 and PDCCH carry Downlink Control Information in upper line index domain most When low order indicated value is 1, it is 6 that PUSCH, which sends subframe index,；It is configured in TDD uplink/downlink in the case of 0, Dispatch the highest in the upper line index domain in the Downlink Control Information that PUSCH PDCCH reception subframe carries for the 0 and PDCCH When significance bit indicated value is 1, it is 4 that PUSCH, which sends subframe index,.

Alternatively, the transmission subframe index of the PUSCH and scheduling PUSCH physical downlink control channel PDCCH Reception subframe index between corresponding relation also include at least one of：6 are configured in TDD uplink/downlink In the case of, scheduling PUSCH PDCCH reception subframe is the upper line index domain in the Downlink Control Information of 5 and PDCCH carryings Least significant bit indicated value be 1 when, PUSCH send subframe index be 1；6 feelings are configured in TDD uplink/downlink Under condition, scheduling PUSCH PDCCH reception subframe is the upper line index domain in the Downlink Control Information of 5 and PDCCH carryings When highest significant position indicated value is 1, it is 2 that PUSCH, which sends subframe index,；6 situations are configured in TDD uplink/downlink Under, scheduling PUSCH PDCCH reception subframe for the 0 and PDCCH carry Downlink Control Information in upper line index domain most When low order indicated value is 1, it is 6 that PUSCH, which sends subframe index,；It is configured in TDD uplink/downlink in the case of 6, Dispatch the highest in the upper line index domain in the Downlink Control Information that PUSCH PDCCH reception subframe carries for the 0 and PDCCH When significance bit indicated value is 1, it is 7 that PUSCH, which sends subframe index,.

Alternatively, the transmission subframe index of the PUSCH and corresponding physical mixed automatic re-transmission indicating channel PHICH The corresponding relation received between subframe index also includes at least one of:0 is configured in TDD uplink/downlink In the case of, when PUSCH transmission subframe index is 1, it is that 6, PUSCH transmission subframe index is 6 that corresponding PHICH, which receives subframe index, When, it is 1 that corresponding PHICH, which receives subframe index,；The TDD uplink/downlinks are configured in the case of 1 or 2, and PUSCH sends son When frame index is 1, it be 5, PUSCH when to send subframe index be 6, corresponding PHICH receptions that corresponding PHICH, which receives subframe index, Subframe index is 0；The TDD uplink/downlinks are configured to 3,4,5 in the case of any one, and it is 1 that PUSCH, which sends subframe index, When, it is 7 that corresponding PHICH, which receives subframe index,；The TDD uplink/downlinks are configured in the case of 6, and PUSCH sends subframe rope When being cited as 1, it be 5, PUSCH when to send subframe index be 6, corresponding PHICH receptions subframe that corresponding PHICH, which receives subframe index, Index as 0.

Alternatively, the transmission subframe index of the PUSCH and corresponding physical mixed automatic re-transmission indicating channel PHICH The corresponding relation received between subframe index also includes at least one of:0 is configured in TDD uplink/downlink In the case of, when it is 6 that the PHICH, which receives subframe index, there are two PHICH group resources in the subframe 6, wherein, when When PUSCH transmission subframe index is 2, PHICH corresponding with the PUSCH is mapped in the first of described two PHICH groups resources In individual PHICH groups resource, when it is 1 that PUSCH, which sends subframe index, PHICH corresponding with the PUSCH is mapped in described two In second PHICH group resource of PHICH group resources；It is configured in TDD uplink/downlink in the case of 0, when described When PHICH reception subframe index is 1, there are two PHICH group resources in the subframe 1, wherein, when PUSCH sends subframe rope When being cited as 7, PHICH corresponding with the PUSCH is mapped in first PHICH group resource of described two PHICH groups resources, When it is 6 that PUSCH, which sends subframe index, PHICH corresponding with the PUSCH is mapped in the of described two PHICH groups resources In two PHICH group resources.

Alternatively, the transmission subframe index of the PUSCH and corresponding physical mixed automatic re-transmission indicating channel PHICH The corresponding relation received between subframe index also includes:It is configured in TDD uplink/downlink in the case of 6, when described When PHICH reception subframe index is 5, there are two PHICH group resources in the subframe 5, wherein, when PUSCH sends subframe rope When being cited as 8, PHICH corresponding with the PUSCH is mapped in first PHICH group resource of described two PHICH groups resources, When it is 1 that PUSCH, which sends subframe index, PHICH corresponding with the PUSCH is mapped in the of described two PHICH groups resources In two PHICH group resources；It is configured in TDD uplink/downlink in the case of 6, when the PHICH receives subframe Index for 0 when, there are two PHICH group resources in the subframe 0, wherein, when PUSCH send subframe index for 4 when, it is and described The corresponding PHICH of PUSCH are mapped in first PHICH group resource of described two PHICH groups resources, when PUSCH sends son When frame index is 6, PHICH corresponding with the PUSCH is mapped in second PHICH group money of described two PHICH groups resources In source.

Alternatively, the transmit power control of the PUSCH includes：Being in the resource distribution mode of the PUSCH will be described The corresponding running time-frequency resource of uplink pilot time slot is after the uplink pilot time slot and adjacent with the uplink pilot time slot with being located at Sub-frame of uplink running time-frequency resource together as an independent Physical Uplink Shared Channel time-frequency resource allocating give the terminal When, send described according to independent Power Control on the running time-frequency resource of the uplink pilot time slot and the sub-frame of uplink respectively PUSCH。

Alternatively, it is described respectively on the running time-frequency resource of the uplink pilot time slot and the sub-frame of uplink according to independent Power Control, which sends the PUSCH, to be included：Receive the first power contorl parameters and the second power contorl parameters that base station is sent；It is logical Cross first power contorl parameters and the PUSCH is sent on the running time-frequency resource of the uplink pilot time slot, pass through described Two power contorl parameters send the PUSCH on the running time-frequency resource of the sub-frame of uplink.

According to another aspect of the present invention there is provided a kind of sending method of Physical Uplink Shared Channel, including：Pass through letter Make to terminal and issue configuration information；The Physical Uplink Shared Channel PUSCH that the terminal is sent is received, wherein, the PUSCH is The terminal is according to the configuration information and/or predefined rule of acquisition, during ascending pilot frequency in the special subframe of radio frames Sent on the corresponding running time-frequency resource of gap to base station, the time domain orthogonal frequency division multiplex OFDM symbolic number of the uplink pilot time slot is N, N value at least include the integer between 1 to 6.

Alternatively, the configuration information and/or predefined rule include at least one of：The PUSCH is described Resource distribution mode configuration, the demodulation of the PUSCH of time-domain OFDM symbol configuration, the PUSCH in uplink pilot time slot The physical downlink control channel PDCCH of the resource distribution of pilot tone, the transmission subframe index of the PUSCH and the scheduling PUSCH Reception subframe index between corresponding relation, the transmission subframe index of the PUSCH and corresponding physical mixed autonomous retransmission Indicate the transmit power control of the corresponding relation and the PUSCH between channel PHICH reception subframe index.

Alternatively, time-domain OFDM symbol configurations of the PUSCH in the uplink pilot time slot includes：On configuration is described M OFDM symbol in row pilot time slot is used for terminal and sends the PUSCH, wherein, the M OFDM symbol is described N number of The subset of OFDM symbol, M is 1 between N and including 1 and N integer.

Alternatively, position of the M OFDM symbol in N number of OFDM symbol of the uplink pilot time slot is led to by base station Cross signal deployment and be handed down to terminal.

Alternatively, M OFDM symbol in the configuration uplink pilot time slot is used for the terminal transmission PUSCH bags Include：The terminal is made an appointment in the M time-domain OFDM symbol length adjacent with protection interval in the special subframe with terminal Uplink pilot time slot on send PUSCH, wherein, the value of the M is allocated to terminal by base station by high-level signaling.

Alternatively, time-domain OFDM symbol configurations of the PUSCH in the uplink pilot time slot by bit map or The mode of bit diagram configures and is handed down to the terminal.

Alternatively, the resource distribution mode configuration of the PUSCH includes：Added bits are set in Downlink Control Information, Wherein, the added bits be used for indicate using the corresponding running time-frequency resource of the uplink pilot time slot as one it is independent physically Row shared channel time-frequency resource allocating is described with being located to terminal, or by the corresponding running time-frequency resource of the uplink pilot time slot After uplink pilot time slot and the sub-frame of uplink adjacent with the uplink pilot time slot running time-frequency resource together as an independence Physical Uplink Shared Channel time-frequency resource allocating give the terminal.

Alternatively, the resource distribution mode configuration of the PUSCH also includes：When the uplink pilot time slot is corresponding Frequency resource with after the uplink pilot time slot and the sub-frame of uplink adjacent with the uplink pilot time slot running time-frequency resource When giving the terminal together as an independent Physical Uplink Shared Channel time-frequency resource allocating, in the uplink pilot time slot It is used to repeat to send the M specified in the sub-frame of uplink for sending the M orthogonal frequency division multiplex OFDM symbol of the PUSCH PUSCH in OFDM symbol, wherein, the M OFDM symbol position specified is by base station is by signal deployment and is issued to institute Terminal is stated, or is pre-configured with by base station and terminal and is issued to the terminal, the M is 1 between N and including the whole of 1 and N Number.

Alternatively, the resource distribution of the demodulation pilot tone of the PUSCH includes following at least one：The demodulation pilot tone is in institute State the time-domain OFDM symbol position in uplink pilot time slot, wherein, it is described demodulation pilot tone in the uplink pilot time slot when Domain OFDM symbol position by base station is by signal deployment and is handed down to terminal, or, it is described demodulation pilot tone in the ascending pilot frequency Time-domain OFDM symbol position in time slot is located at the location of OFDM symbol adjacent with protection interval in the radio frames.

Alternatively, the PUSCH is sent between subframe index and scheduling PUSCH PDSCH reception subframe index Corresponding relation is base station and the predefined rule of terminal both sides；The PUSCH sends subframe index and corresponding PHICH receives son Corresponding relation between frame index is base station and the predefined rule of terminal both sides.

Alternatively, the transmit power control of the PUSCH includes：Being in the resource distribution mode of the PUSCH will be described The corresponding running time-frequency resource of uplink pilot time slot is after the uplink pilot time slot and adjacent with the uplink pilot time slot with being located at Sub-frame of uplink running time-frequency resource together as an independent Physical Uplink Shared Channel time-frequency resource allocating give the terminal When, difference receiving terminal is on the running time-frequency resource of the uplink pilot time slot and the sub-frame of uplink according to independent Power Control The PUSCH of transmission.

Alternatively, respectively receiving terminal on the running time-frequency resource of the uplink pilot time slot and the sub-frame of uplink according to Also include before the PUSCH that independent Power Control is sent：The first power contorl parameters and the second Power Control are issued to terminal Parameter, wherein, first power contorl parameters are sent for the terminal on the running time-frequency resource of the uplink pilot time slot The PUSCH, second power contorl parameters send described for the terminal on the running time-frequency resource of the sub-frame of uplink PUSCH。

According to a further aspect of the invention there is provided a kind of dispensing device of Physical Uplink Shared Channel, including：First Sending module, for the configuration information according to acquisition and/or predefined rule, up in the special subframe of radio frames is led Physical Uplink Shared Channel PUSCH is sent to base station on the corresponding running time-frequency resource of frequency time slot, wherein, the uplink pilot time slot Time domain orthogonal frequency division multiplex OFDM symbolic number is N, and N value at least includes the integer between 1 to 6.

Alternatively, first sending module includes：First transmitting element, for the M in the uplink pilot time slot The PUSCH is sent to the base station in individual OFDM symbol, wherein, the M OFDM symbol is the son of N number of OFDM symbol Collection, M is 1 between N and including 1 and N integer.

Alternatively, first transmitting element is additionally operable in the M OFDM adjacent with the protection interval of the special subframe The PUSCH is sent to the base station on symbol, wherein, the value of the M is by base station is by signal deployment and is issued to the end End.

Alternatively, described device also includes：First processing module, in the configuration information and/or predefined rule Then for the PUSCH resource distribution mode in the case of, regard the corresponding running time-frequency resource of the uplink pilot time slot as one Independent Physical Uplink Shared Channel time-frequency resource allocating is to terminal；Second processing module, for by the uplink pilot time slot Corresponding running time-frequency resource with after the uplink pilot time slot and the sub-frame of uplink adjacent with the uplink pilot time slot Running time-frequency resource gives the terminal together as an independent Physical Uplink Shared Channel time-frequency resource allocating.

Alternatively, described device also includes：3rd processing module, in the configuration information and/or predefined rule Then for the PUSCH demodulation pilot tone resource distribution in the case of, the PUSCH resource distribution mode be will be described on The corresponding running time-frequency resource of row pilot time slot is after the uplink pilot time slot and adjacent with the uplink pilot time slot with being located at When the running time-frequency resource of sub-frame of uplink gives the terminal together as an independent Physical Uplink Shared Channel time-frequency resource allocating, The PUSCH sent on the PUSCH and the sub-frame of uplink sent on the uplink pilot time slot shares to be sent out on the sub-frame of uplink The PUSCH sent demodulation pilot resources.

Alternatively, described device also includes：Fourth processing module, for being to incite somebody to action in the resource distribution mode of the PUSCH The corresponding running time-frequency resource of the uplink pilot time slot with after the uplink pilot time slot and with the uplink pilot time slot phase The running time-frequency resource of adjacent sub-frame of uplink gives the end together as an independent Physical Uplink Shared Channel time-frequency resource allocating Being used to send the M OFDM symbol of the PUSCH during end, in the uplink pilot time slot is used to repeat to send positioned at described up The PUSCH information for the M OFDM symbol specified after pilot time slot and in the sub-frame of uplink adjacent with the uplink pilot time slot, Wherein, the position of the M OFDM symbol specified is that base station and terminal are made an appointment, or by base station by signal deployment simultaneously It is issued to terminal, the M is 1 between N and including 1 and N integer.

Alternatively, described device also includes：5th processing module, in the configuration information and/or predefined rule It is then the corresponding relation between PUSCH transmission subframe index and scheduling PUSCH PDCCH reception subframe index In the case of, it is that the corresponding running time-frequency resource of the uplink pilot time slot is described with being located in the resource distribution mode of the PUSCH After uplink pilot time slot and the sub-frame of uplink adjacent with the uplink pilot time slot running time-frequency resource together as an independence Physical Uplink Shared Channel time-frequency resource allocating when giving the terminal, the PUSCH sends subframe index and scheduling is described It is described with scheduling in the sub-frame of uplink that corresponding relation between PUSCH PDCCH reception subframe index follows the PUSCH Corresponding relation between PUSCH PDCCH reception subframe.

Alternatively, described device also includes：6th processing module, in the configuration information and/or predefined rule In the case of then sending the corresponding relation between subframe index and corresponding PHICH reception subframe index for the PUSCH, in institute The resource distribution mode for stating PUSCH is with being located at the uplink pilot time slot by the corresponding running time-frequency resource of the uplink pilot time slot Afterwards and the sub-frame of uplink adjacent with the uplink pilot time slot running time-frequency resource it is common together as an independent physical uplink When enjoying channel time-frequency resource allocating to the terminal, the PUSCH sends subframe index and corresponding PHICH reception subframe rope Corresponding relation between drawing follows correspondences of the PUSCH between the sub-frame of uplink receives subframe with corresponding PHICH and closed System.

Alternatively, described device also includes：7th processing module, for being to incite somebody to action in the resource distribution mode of the PUSCH The running time-frequency resource of the uplink pilot time slot as an independent Physical Uplink Shared Channel time-frequency resource allocating to terminal when, The PUSCH does not support that being configured to 0, TDD uplink/downlinks in TDD uplink/downlink is configured at least one of 6 feelings Sent on the corresponding running time-frequency resource of uplink pilot time slot under condition.

Alternatively, described device also includes：First setup module, in the configuration information and/or predefined rule Transmission subframe index then for the PUSCH and the reception subframe rope of scheduling PUSCH physical downlink control channel PDCCH During corresponding relation between drawing, execution includes the operation of at least one of：0 is configured in the uplink/downlink of TDD Or in the case of 1, when PUSCH transmission subframe index is 1, the PDCCH reception subframe index for dispatching the PUSCH is 5, PUSCH When transmission subframe index is 6, the PDCCH reception subframe index for dispatching the PUSCH is 0；In TDD uplink/downlinks configuration In the case of 2, when PUSCH transmission subframe index is 1, the PDCCH reception subframe index for dispatching the PUSCH is 6, PUSCH When transmission subframe index is 6, the PDCCH reception subframe index for dispatching the PUSCH is 1；In TDD uplink/downlinks configuration For 3,4,5 in the case of any one, PUSCH sends subframe index when being 1, dispatches the PDCCH reception subframe rope of the PUSCH It is cited as 7；It is configured in the TDD uplink/downlinks in the case of 6, when PUSCH transmission subframe index is 1, dispatches the PUSCH PDCCH reception subframe index be that 5, PUSCH sends subframe index when be 6, scheduling PUSCH PDCCH reception subframe rope It is cited as 0.

Alternatively, described device also includes：Second setup module, in the configuration information and/or predefined rule Transmission subframe index then for the PUSCH and the reception subframe rope of scheduling PUSCH physical downlink control channel PDCCH During corresponding relation between drawing, execution includes the operation of at least one of：0 feelings are configured in TDD uplink/downlink Under condition, scheduling PUSCH PDCCH reception subframe is the upper line index domain in the Downlink Control Information of 5 and PDCCH carryings When least significant bit indicated value is 1, it is 1 that PUSCH, which sends subframe index,；0 situation is configured in TDD uplink/downlink Under, scheduling PUSCH PDCCH reception subframe for the 5 and PDCCH carry Downlink Control Information in upper line index domain most When high significance bit indicated value is 1, it is 9 that PUSCH, which sends subframe index,；It is configured in TDD uplink/downlink in the case of 0, It is the minimum of the upper line index domain in the Downlink Control Information of 0 and PDCCH carryings to dispatch PUSCH PDCCH reception subframe When significance bit indicated value is 1, it is 6 that PUSCH, which sends subframe index,；It is configured in the case of 0, adjusts in TDD uplink/downlink The highest in the upper line index domain in the Downlink Control Information that degree PUSCH PDCCH reception subframe carries for the 0 and PDCCH has When effect position indicated value is 1, it is 4 that PUSCH, which sends subframe index,.

Alternatively, described device also includes：3rd setup module, in the configuration information and/or predefined rule Transmission subframe index then for the PUSCH and the reception subframe rope of scheduling PUSCH physical downlink control channel PDCCH During corresponding relation between drawing, execution includes the operation of at least one of：6 feelings are configured in TDD uplink/downlink Under condition, scheduling PUSCH PDCCH reception subframe is the upper line index domain in the Downlink Control Information of 5 and PDCCH carryings When least significant bit indicated value is 1, it is 1 that PUSCH, which sends subframe index,；6 situations are configured in TDD uplink/downlink Under, scheduling PUSCH PDCCH reception subframe for the 5 and PDCCH carry Downlink Control Information in upper line index domain most When high significance bit indicated value is 1, it is 2 that PUSCH, which sends subframe index,；It is configured in TDD uplink/downlink in the case of 6, It is the minimum of the upper line index domain in the Downlink Control Information of 0 and PDCCH carryings to dispatch PUSCH PDCCH reception subframe When significance bit indicated value is 1, it is 6 that PUSCH, which sends subframe index,；It is configured in the case of 6, adjusts in TDD uplink/downlink The highest in the upper line index domain in the Downlink Control Information that degree PUSCH PDCCH reception subframe carries for the 0 and PDCCH has When effect position indicated value is 1, it is 7 that PUSCH, which sends subframe index,.

Alternatively, described device also includes：4th setup module, in the configuration information and/or predefined rule Transmission subframe index then for the PUSCH and corresponding physical mixed automatic re-transmission indicating channel PHICH reception subframe rope During corresponding relation between drawing, execution includes the operation of at least one of：0 is configured in TDD uplink/downlink In the case of, when PUSCH transmission subframe index is 1, it is that 6, PUSCH transmission subframe index is 6 that corresponding PHICH, which receives subframe index, When, it is 1 that corresponding PHICH, which receives subframe index,；The TDD uplink/downlinks are configured in the case of 1 or 2, and PUSCH sends son When frame index is 1, it be 5, PUSCH when to send subframe index be 6, corresponding PHICH receptions that corresponding PHICH, which receives subframe index, Subframe index is 0；The TDD uplink/downlinks are configured to 3,4,5 in the case of any one, and it is 1 that PUSCH, which sends subframe index, When, it is 7 that corresponding PHICH, which receives subframe index,；The TDD uplink/downlinks are configured in the case of 6, and PUSCH sends subframe rope When being cited as 1, it be 5, PUSCH when to send subframe index be 6, corresponding PHICH receptions subframe that corresponding PHICH, which receives subframe index, Index as 0.

Alternatively, described device also includes：5th setup module, in the configuration information and/or predefined rule Transmission subframe index then for the PUSCH and corresponding physical mixed automatic re-transmission indicating channel PHICH reception subframe rope During corresponding relation between drawing, execution includes the operation of at least one of：0 is configured in TDD uplink/downlink In the case of, when it is 6 that the PHICH, which receives subframe index, there are two PHICH group resources in the subframe 6, wherein, when When PUSCH transmission subframe index is 2, PHICH corresponding with the PUSCH is mapped in the first of described two PHICH groups resources In individual PHICH groups resource, when it is 1 that PUSCH, which sends subframe index, PHICH corresponding with the PUSCH is mapped in described two In second PHICH group resource of PHICH group resources；It is configured in TDD uplink/downlink in the case of 0, when described When PHICH reception subframe index is 1, there are two PHICH group resources in the subframe 1, wherein, when PUSCH sends subframe rope When being cited as 7, PHICH corresponding with the PUSCH is mapped in first PHICH group resource of described two PHICH groups resources, When it is 6 that PUSCH, which sends subframe index, PHICH corresponding with the PUSCH is mapped in the of described two PHICH groups resources In two PHICH group resources.

Alternatively, described device also includes：5th setup module, in the configuration information and/or predefined rule Transmission subframe index then for the PUSCH and corresponding physical mixed automatic re-transmission indicating channel PHICH reception subframe rope During corresponding relation between drawing, execution includes the operation of at least one of：6 are configured in TDD uplink/downlink In the case of, when it is 5 that the PHICH, which receives subframe index, there are two PHICH group resources in the subframe 5, wherein, when When PUSCH transmission subframe index is 8, PHICH corresponding with the PUSCH is mapped in the first of described two PHICH groups resources In individual PHICH groups resource, when it is 1 that PUSCH, which sends subframe index, PHICH corresponding with the PUSCH is mapped in described two In second PHICH group resource of PHICH group resources；It is configured in TDD uplink/downlink in the case of 6, when described When PHICH reception subframe index is 0, there are two PHICH group resources in the subframe 0, wherein, when PUSCH sends subframe rope When being cited as 4, PHICH corresponding with the PUSCH is mapped in first PHICH group resource of described two PHICH groups resources, When it is 6 that PUSCH, which sends subframe index, PHICH corresponding with the PUSCH is mapped in the of described two PHICH groups resources In two PHICH group resources.

Alternatively, described device also includes:Control module, for being in the configuration information and/or predefined rule It is by the uplink pilot time slot in the resource distribution mode of the PUSCH in the case of the transmit power control of the PUSCH Corresponding running time-frequency resource with after the uplink pilot time slot and the sub-frame of uplink adjacent with the uplink pilot time slot When running time-frequency resource gives the terminal together as an independent Physical Uplink Shared Channel time-frequency resource allocating, respectively described On the running time-frequency resource of uplink pilot time slot and the sub-frame of uplink PUSCH is sent according to independent Power Control.

Alternatively, the control module includes：Receiving unit, for receive base station transmission the first power contorl parameters and Second power contorl parameters；Second transmitting element, for by first power contorl parameters in the uplink pilot time slot Running time-frequency resource on send the PUSCH, by second power contorl parameters on the running time-frequency resource of the sub-frame of uplink Send the PUSCH.

According to a further aspect of the invention there is provided a kind of dispensing device of Physical Uplink Shared Channel, second sends Module, for issuing configuration information to terminal by signaling；First receiving module, sends physically for receiving the terminal Row shared channel PUSCH, wherein, the PUSCH is configuration information and/or predefined rule of the terminal according to acquisition, Sent on the corresponding running time-frequency resource of uplink pilot time slot in the special subframe of radio frames to base station, during the ascending pilot frequency The time domain orthogonal frequency division multiplex OFDM symbolic number of gap is N, and N value at least includes the integer between 1 to 6.

Alternatively, described device includes：Configuration module, for being institute in the configuration information and/or predefined rule When stating time-domain OFDM symbol configurations of the PUSCH in the uplink pilot time slot, M in the uplink pilot time slot are configured OFDM symbol is used for terminal and sends the PUSCH, wherein, the M OFDM symbol is the subset of N number of OFDM symbol, and M is 1 between N and including 1 and N integer.

Alternatively, the configuration module includes：Processing unit, for terminal make an appointment the terminal with the spy PUSCH is sent on the uplink pilot time slot of M adjacent time-domain OFDM symbol length of protection interval in different subframe, wherein, the M Value terminal is allocated to by high-level signaling by base station.

Alternatively, described device also includes：First issues module, for the PUSCH in the uplink pilot time slot Time-domain OFDM symbol configuration configured by way of bit map or bit diagram and be handed down to the terminal.

Alternatively, described device also includes：6th setup module, in the configuration information and/or predefined rule In the case that then the resource distribution mode for the PUSCH is configured, added bits are set in Downlink Control Information, wherein, institute State added bits be used for indicate shared the corresponding running time-frequency resource of the uplink pilot time slot as an independent physical uplink Channel time-frequency resource allocating is to terminal, or by the corresponding running time-frequency resource of the uplink pilot time slot and is located at the ascending pilot frequency After time slot and the sub-frame of uplink adjacent with the uplink pilot time slot running time-frequency resource together as one it is independent physically Row shared channel time-frequency resource allocating gives the terminal.

Alternatively, described device also includes：7th setup module, in the configuration information and/or predefined rule Then for the PUSCH resource distribution mode configuration in the case of, by the corresponding running time-frequency resource of the uplink pilot time slot with After the uplink pilot time slot and the sub-frame of uplink adjacent with the uplink pilot time slot running time-frequency resource together as When one independent Physical Uplink Shared Channel time-frequency resource allocating gives the terminal, it is used to send in the uplink pilot time slot The M orthogonal frequency division multiplex OFDM symbol of the PUSCH is used to repeat to send the M OFDM symbol specified in the sub-frame of uplink On PUSCH, wherein, the M OFDM symbol position specified by base station is by signal deployment and is issued to the terminal, or Person is pre-configured with by base station and terminal and is issued to the terminal, and the M is 1 between N and including 1 and N integer.

Alternatively, described device also includes：Second receiving module, in the configuration information and/or predefined rule It is by the ascending pilot frequency in the resource distribution mode of the PUSCH in the case that then the transmit power for the PUSCH is controlled The corresponding running time-frequency resource of time slot with after the uplink pilot time slot and the up son adjacent with the uplink pilot time slot When the running time-frequency resource of frame gives the terminal together as an independent Physical Uplink Shared Channel time-frequency resource allocating, connect respectively Receive what terminal was sent on the running time-frequency resource of the uplink pilot time slot and the sub-frame of uplink according to independent Power Control PUSCH。

Alternatively, described device also includes：Second issues module, for when receiving terminal is in the ascending pilot frequency respectively Before the PUSCH sent on the running time-frequency resource of gap and the sub-frame of uplink according to independent Power Control, first is issued to terminal Power contorl parameters and the second power contorl parameters, wherein, first power contorl parameters are used for the terminal described The PUSCH is sent on the running time-frequency resource of row pilot time slot, second power contorl parameters are used for the terminal described The PUSCH is sent on the running time-frequency resource of row subframe.

By the present invention, using the configuration information according to acquisition and/or predefined rule, in the special subframe of radio frames In the corresponding running time-frequency resource of uplink pilot time slot on send Physical Uplink Shared Channel PUSCH to base station, wherein, this is up to lead The time domain orthogonal frequency division multiplex OFDM symbolic number of frequency time slot is N, and N value at least includes the integer between 1 to 6, solves phase Do not support Physical Uplink Shared Channel PUSCH on uplink pilot time slot UpPTS in the technology of pass, under TDD system The problem of transmission, and then reached the technique effect of effective utilization uplink frequency spectrum resource.

Brief description of the drawings

Accompanying drawing described herein is used for providing a further understanding of the present invention, constitutes the part of the application, this hair Bright schematic description and description is used to explain the present invention, does not constitute inappropriate limitation of the present invention.In the accompanying drawings：

Fig. 1 is the frame structure schematic diagram of fdd mode in correlation technique；

Fig. 2 is the frame structure schematic diagram of tdd mode in correlation technique；

Fig. 3 is the transmission flow figure of Physical Uplink Shared Channel according to embodiments of the present invention；

Fig. 4 is the dispensing device structured flowchart of Physical Uplink Shared Channel according to embodiments of the present invention；

Fig. 5 is the dispensing device structured flowchart (one) of Physical Uplink Shared Channel according to embodiments of the present invention；

Fig. 6 is the dispensing device structured flowchart (two) of Physical Uplink Shared Channel according to embodiments of the present invention；

Fig. 7 is the dispensing device structured flowchart (three) of Physical Uplink Shared Channel according to embodiments of the present invention；

Fig. 8 is the dispensing device structured flowchart (four) of Physical Uplink Shared Channel according to embodiments of the present invention；

Fig. 9 is the dispensing device structured flowchart (five) of Physical Uplink Shared Channel according to embodiments of the present invention；

Figure 10 is the dispensing device structured flowchart (five) of Physical Uplink Shared Channel according to embodiments of the present invention；

Figure 11 is the dispensing device structured flowchart (five) of Physical Uplink Shared Channel according to embodiments of the present invention；

Figure 12 is the dispensing device structured flowchart (six) of Physical Uplink Shared Channel according to embodiments of the present invention；

Figure 13 is the dispensing device structured flowchart (seven) of Physical Uplink Shared Channel according to embodiments of the present invention；

Figure 14 is the dispensing device structured flowchart (eight) of Physical Uplink Shared Channel according to embodiments of the present invention；

Figure 15 is the sending method flow chart (one) of Physical Uplink Shared Channel according to embodiments of the present invention；

Figure 16 is the dispensing device structured flowchart (nine) of Physical Uplink Shared Channel according to embodiments of the present invention；

Figure 17 is the dispensing device structured flowchart (ten) of Physical Uplink Shared Channel according to embodiments of the present invention；

Figure 18 is the dispensing device structured flowchart (11) of Physical Uplink Shared Channel according to embodiments of the present invention；

Figure 19 is the dispensing device structured flowchart (12) of Physical Uplink Shared Channel according to embodiments of the present invention；

Figure 20 is the dispensing device structured flowchart (13) of Physical Uplink Shared Channel according to embodiments of the present invention；

Figure 21 is the dispensing device structured flowchart (14) of Physical Uplink Shared Channel according to embodiments of the present invention；

Figure 22 is the dispensing device structured flowchart (15) of Physical Uplink Shared Channel according to embodiments of the present invention；

Figure 23 A are the time-domain position schematic diagrames according to embodiments of the present invention that PUSCH is sent on UpPTS；

Figure 23 B are the time-domain position schematic diagrames (one) according to embodiments of the present invention that PUSCH is sent on UpPTS；

Figure 24 is the time-domain position schematic diagram (two) according to embodiments of the present invention that PUSCH is sent on UpPTS；

Figure 25 A are the time-domain position schematic diagrames (three) according to embodiments of the present invention that PUSCH is sent on UpPTS；

Figure 25 B are the time-domain position schematic diagrames (four) according to embodiments of the present invention that PUSCH is sent on UpPTS；

Figure 26 is the corresponding son of special subframe where transmission PUSCH according to embodiments of the present invention uplink pilot time slot Corresponding relation schematic diagram between frame index and the PDCCH reception subframe index for dispatching the PUSCH；

Figure 27 is the corresponding son of special subframe where transmission PUSCH according to embodiments of the present invention uplink pilot time slot Corresponding relation schematic diagram between frame index and corresponding PHICH reception subframe index.

Embodiment

Describe the present invention in detail below with reference to accompanying drawing and in conjunction with the embodiments.It should be noted that not conflicting In the case of, the feature in embodiment and embodiment in the application can be mutually combined.

It should be noted that term " first " in description and claims of this specification and above-mentioned accompanying drawing, " Two " etc. be for distinguishing similar object, without for describing specific order or precedence.

A kind of sending method of Physical Uplink Shared Channel is provided in the present embodiment, and Fig. 3 is according to present invention implementation The sending method flow chart of the Physical Uplink Shared Channel of example, as shown in figure 3, the flow comprises the following steps：

Step S302, it is upper in the special subframe of radio frames according to the configuration information of acquisition and/or predefined rule On the corresponding running time-frequency resource of row pilot time slot Physical Uplink Shared Channel PUSCH is sent to base station.

It should be noted that the time domain orthogonal frequency division multiplex OFDM symbolic number of the uplink pilot time slot is N, N's corrects to Include the integer between 1 to 6 less.

Alternatively, in the present embodiment, the application scenarios of the sending method of above-mentioned Physical Uplink Shared Channel are included but simultaneously It is not limited to：In radio frames (radio frame) in Long Term Evolution (Long Term Evolution, referred to as LTE) system, Under the application scenarios, terminal is according to the configuration information and/or predefined rule of acquisition, in the special subframe of radio frames Physical Uplink Shared Channel PUSCH is sent to base station on the corresponding running time-frequency resource of uplink pilot time slot, wherein, uplink pilot time slot Time domain orthogonal frequency division multiplex OFDM symbolic number be N, N value at least includes the integer between 1 to 6.That is, in this reality Apply in example, terminal can by base station configure or according to predefined criterion determine in uplink pilot time slot send PUSCH when Domain OFDM symbol position, related demodulation pilot frequency configuration, the resource distribution mode of the PUSCH, the PUSCH and dispatch the PUSCH PDCCH between sequential relationship and the PUSCH and corresponding PHICH between the resource such as sequential relationship, then wireless On the corresponding running time-frequency resource of uplink pilot time slot in the special subframe of frame Physical Uplink Shared Channel PUSCH is sent to base station. By the present embodiment, solve in correlation technique, Physical Uplink Shared Channel PUSCH is not supported under TDD system The problem of being transmitted on uplink pilot time slot UpPTS, and then reached the technique effect of effective utilization uplink frequency spectrum resource.

In one alternatively embodiment, the corresponding time-frequency of uplink pilot time slot in the special subframe of radio frames is somebody's turn to do The PUSCH is sent in resource to base station to comprise the following steps：

The PUSCH is sent to the base station in step S11, the M OFDM symbol in the uplink pilot time slot, wherein, the M Individual OFDM symbol is the subset of N number of OFDM symbol, and M is 1 between N and including 1 and N integer.

Alternatively, above-mentioned steps S11 is further realized by following steps：

Step S12, being sent in the M OFDM symbol adjacent with the protection interval of the special subframe to the base station should PUSCH, wherein, the value of the M is by base station is by signal deployment and is issued to the terminal.

M OFDM symbol being related in above-mentioned steps, can be that the M OFDM symbol is up at this in the present embodiment Position in N number of OFDM symbol of pilot time slot is by base station is by signal deployment and is issued to terminal.

The configuration information and/or predefined rule being related in above-mentioned steps S302 include at least one of：Should PUSCH resource distribution mode, the resource distribution of the demodulation pilot tone of the PUSCH, the transmission subframe index of the PUSCH and scheduling should The transmission subframe rope of corresponding relation, the PUSCH between the reception subframe index of PUSCH physical downlink control channel PDCCH Draw the corresponding relation between corresponding physical mixed automatic re-transmission indicating channel PHICH reception subframe index and be somebody's turn to do PUSCH transmit power control.

Alternatively, in the present embodiment, PUSCH resource distribution mode include it is following any one：

Mode one, using the corresponding running time-frequency resource of the uplink pilot time slot as an independent Physical Uplink Shared Channel when Frequency resource allocation is to terminal；

Mode two, by the corresponding running time-frequency resource of the uplink pilot time slot with after the uplink pilot time slot and with this The running time-frequency resource of the adjacent sub-frame of uplink of row pilot time slot is together as an independent Physical Uplink Shared Channel running time-frequency resource Distribute to the terminal.

In one alternatively embodiment, the resource distribution of above-mentioned PUSCH demodulation pilot tone includes：The demodulation pilot tone exists Time-domain OFDM symbol position in the uplink pilot time slot, wherein, the time domain of the demodulation pilot tone in the uplink pilot time slot OFDM symbol position by base station is by signal deployment and is handed down to terminal, or, the demodulation pilot tone is in the uplink pilot time slot Time-domain OFDM symbol position be located at the location of OFDM symbol adjacent with protection interval in the radio frames.

In another optional embodiment, the resource distribution of above-mentioned PUSCH demodulation pilot tone also includes：The PUSCH's Resource distribution mode be by the corresponding running time-frequency resource of the uplink pilot time slot with after the uplink pilot time slot and with this The running time-frequency resource of the adjacent sub-frame of uplink of row pilot time slot is together as an independent Physical Uplink Shared Channel running time-frequency resource When distributing to the terminal, it is up that the PUSCH sent on the PUSCH and the sub-frame of uplink sent on the uplink pilot time slot shares this The PUSCH sent in subframe demodulation pilot resources.

Or, being in the resource distribution mode of the PUSCH should with being located at by the corresponding running time-frequency resource of the uplink pilot time slot After uplink pilot time slot and the sub-frame of uplink adjacent with the uplink pilot time slot running time-frequency resource it is independent together as one It is used for send the PUSCH M when Physical Uplink Shared Channel time-frequency resource allocating gives the terminal, in the uplink pilot time slot OFDM symbol is used to repeat to send to be located at after the uplink pilot time slot and in the sub-frame of uplink adjacent with the uplink pilot time slot The PUSCH information for the M OFDM symbol specified, wherein, the position of the M OFDM symbol specified is that base station and terminal are appointed in advance Fixed, or by base station is by signal deployment and is issued to terminal, the M is 1 between N and including 1 and N integer.

Alternatively, PUSCH included in above-mentioned configuration information and/or predefined rule sends subframe index and scheduling Corresponding relation between the PDCCH of PUSCH reception subframe index includes：Being in the resource distribution mode of the PUSCH should The corresponding running time-frequency resource of uplink pilot time slot with it is after the uplink pilot time slot and adjacent with the uplink pilot time slot upper , should when the running time-frequency resource of row subframe gives the terminal together as an independent Physical Uplink Shared Channel time-frequency resource allocating The corresponding relation that PUSCH sends subframe index and dispatched between the PDCCH of PUSCH reception subframe index follows the PUSCH Corresponding relation between the sub-frame of uplink and the PDCCH reception subframe for dispatching the PUSCH.

Included PUSCH sends subframe index and corresponding PHICH in above-mentioned configuration information and/or predefined rule The corresponding relation received between subframe index includes：It is by uplink pilot time slot correspondence in the resource distribution mode of the PUSCH Running time-frequency resource with after the uplink pilot time slot and the sub-frame of uplink adjacent with the uplink pilot time slot running time-frequency resource When giving the terminal together as an independent Physical Uplink Shared Channel time-frequency resource allocating, the PUSCH sends subframe index Corresponding relation between corresponding PHICH reception subframe index follows the PUSCH in the sub-frame of uplink and corresponding PHICH Receive the corresponding relation between subframe.

In one alternatively embodiment, when the resource distribution mode of the PUSCH is by the uplink pilot time slot Frequency resource as an independent Physical Uplink Shared Channel time-frequency resource allocating to terminal when, the PUSCH was not supported in the time-division Duplexing TDD uplink/downlinks are configured to the uplink pilot time slot correspondence that 0, TDD uplink/downlinks are configured in the case of at least one of 6 Running time-frequency resource on send.

Alternatively, the reception of PUSCH transmission subframe index and the scheduling PUSCH physical downlink control channel PDCCH Corresponding relation between subframe index includes at least one of：0 or 1 feelings are configured in the uplink/downlink of TDD Under condition, when PUSCH transmission subframe index is 1, dispatches the PDCCH reception subframe index of the PUSCH and send subframe rope for 5, PUSCH When being cited as 6, the PDCCH reception subframe index for dispatching the PUSCH is 0；It is configured in the TDD uplink/downlinks in the case of 2, When PUSCH transmission subframe index is 1, the PDCCH reception subframe index for dispatching the PUSCH is that 6, PUSCH transmission subframe index is 6 When, the PDCCH reception subframe index for dispatching the PUSCH is 1；3,4,5 feelings of any one are configured in the TDD uplink/downlinks Under condition, when PUSCH transmission subframe index is 1, the PDCCH reception subframe index for dispatching the PUSCH is 7；The TDD it is up/under Row is configured in the case of 6, and when PUSCH transmission subframe index is 1, the PDCCH reception subframe index for dispatching the PUSCH is 5, When PUSCH transmission subframe index is 6, the PDCCH reception subframe index for dispatching the PUSCH is 0.

Alternatively, the transmission subframe index of the PUSCH and dispatch the physical downlink control channel PDCCH of the PUSCH and connect The corresponding relation received between subframe index also includes at least one of：0 situation is configured in TDD uplink/downlink Under, scheduling PUSCH PDCCH reception subframe is the minimum of the upper line index domain in the Downlink Control Information of 5 and PDCCH carryings When significance bit indicated value is 1, it is 1 that PUSCH, which sends subframe index,；It is configured in the case of 0, adjusts in TDD uplink/downlink The highest in the upper line index domain spent in the Downlink Control Information that PUSCH PDCCH reception subframe carries for the 5 and PDCCH is effective When position indicated value is 1, it is 9 that PUSCH, which sends subframe index,；It is configured in the case of 0, dispatches in TDD uplink/downlink The least significant bit in the upper line index domain in the Downlink Control Information that PUSCH PDCCH reception subframe carries for the 0 and PDCCH When indicated value is 1, it is 6 that PUSCH, which sends subframe index,；It is configured in the case of 0, dispatches in TDD uplink/downlink The highest significant position in the upper line index domain in the Downlink Control Information that PUSCH PDCCH reception subframe carries for the 0 and PDCCH When indicated value is 1, it is 4 that PUSCH, which sends subframe index,.

Alternatively, the reception of PUSCH transmission subframe index and the scheduling PUSCH physical downlink control channel PDCCH Corresponding relation between subframe index also includes at least one of：6 situations are configured in TDD uplink/downlink Under, scheduling PUSCH PDCCH reception subframe is the minimum of the upper line index domain in the Downlink Control Information of 5 and PDCCH carryings When significance bit indicated value is 1, it is 1 that PUSCH, which sends subframe index,；It is configured in the case of 6, adjusts in TDD uplink/downlink The highest in the upper line index domain spent in the Downlink Control Information that PUSCH PDCCH reception subframe carries for the 5 and PDCCH is effective When position indicated value is 1, it is 2 that PUSCH, which sends subframe index,；It is configured in the case of 6, dispatches in TDD uplink/downlink The least significant bit in the upper line index domain in the Downlink Control Information that PUSCH PDCCH reception subframe carries for the 0 and PDCCH When indicated value is 1, it is 6 that PUSCH, which sends subframe index,；It is configured in the case of 6, dispatches in TDD uplink/downlink The highest significant position in the upper line index domain in the Downlink Control Information that PUSCH PDCCH reception subframe carries for the 0 and PDCCH When indicated value is 1, it is 7 that PUSCH, which sends subframe index,.

In another optional mode of the present embodiment, PUSCH transmission subframe index and corresponding physical mixed is automatic Corresponding relation between retransmission indicating chanel PHICH reception subframe index also includes at least one of:

It is configured in TDD uplink/downlink in the case of 0, when PUSCH transmission subframe index is 1, accordingly It is that 6, PUSCH sends subframe index when be 6 that PHICH, which receives subframe index, and corresponding PHICH receptions subframe index is 1；

TDD uplink/downlinks are configured in the case of 1 or 2, and when PUSCH transmission subframe index is 1, corresponding PHICH is received Subframe index is 5, PUSCH when to send subframe index be 6, and it is 0 that corresponding PHICH, which receives subframe index,；

TDD uplink/downlinks are configured to 3,4,5 in the case of any one, and PUSCH sends subframe index when being 1, accordingly It is 7 that PHICH, which receives subframe index,；

TDD uplink/downlinks are configured in the case of 6, and when PUSCH transmission subframe index is 1, corresponding PHICH receives son Frame index is 5, PUSCH when to send subframe index be 6, and it is 0 that corresponding PHICH, which receives subframe index,.

Alternatively, the transmission subframe index of the PUSCH and connecing for corresponding physical mixed automatic re-transmission indicating channel PHICH The corresponding relation received between subframe index also includes at least one of:

It is configured in TDD uplink/downlink in the case of 0, when it is 6 that the PHICH, which receives subframe index, the son There are two PHICH group resources on frame 6, wherein, when it is 2 that PUSCH, which sends subframe index, PHICH corresponding with the PUSCH reflects Penetrate in first PHICH group resource of two PHICH group resources, when it is 1 that PUSCH, which sends subframe index, with the PUSCH Corresponding PHICH is mapped in second PHICH group resource of two PHICH group resources；

It is configured in TDD uplink/downlink in the case of 0, when it is 1 that the PHICH, which receives subframe index, the son There are two PHICH group resources on frame 1, wherein, when it is 7 that PUSCH, which sends subframe index, PHICH corresponding with the PUSCH reflects Penetrate in first PHICH group resource of two PHICH group resources, when it is 6 that PUSCH, which sends subframe index, with the PUSCH Corresponding PHICH is mapped in second PHICH group resource of two PHICH group resources.

Alternatively, the transmission subframe index of the PUSCH and connecing for corresponding physical mixed automatic re-transmission indicating channel PHICH The corresponding relation received between subframe index also includes:It is configured in TDD uplink/downlink in the case of 6, when this When PHICH reception subframe index is 5, there are two PHICH group resources in the subframe 5, wherein, when PUSCH sends subframe index For 8 when, PHICH corresponding with the PUSCH is mapped in first PHICH group resource of two PHICH group resources, when When PUSCH transmission subframe index is 1, PHICH corresponding with the PUSCH is mapped in second of two PHICH group resources In PHICH group resources；It is configured in TDD uplink/downlink in the case of 6, is 0 when the PHICH receives subframe index When, there are two PHICH group resources in the subframe 0, wherein, when PUSCH send subframe index for 4 when, it is corresponding with the PUSCH PHICH is mapped in first PHICH group resource of two PHICH group resources, when it is 6 that PUSCH, which sends subframe index, with The corresponding PHICH of the PUSCH are mapped in second PHICH group resource of two PHICH group resources.

Alternatively, the transmit power control of the PUSCH includes：It is up to lead this in the resource distribution mode of the PUSCH The corresponding running time-frequency resource of frequency time slot with after the uplink pilot time slot and the sub-frame of uplink adjacent with the uplink pilot time slot Running time-frequency resource together as an independent Physical Uplink Shared Channel time-frequency resource allocating give the terminal when, respectively on this On the running time-frequency resource of row pilot time slot and the sub-frame of uplink PUSCH is sent according to independent Power Control.

Alternatively, this is respectively on the running time-frequency resource of the uplink pilot time slot and the sub-frame of uplink according to independent power control System, which sends the PUSCH, to be included：Receive the first power contorl parameters and the second power contorl parameters that base station is sent；By this first Power contorl parameters send the PUSCH on the running time-frequency resource of the uplink pilot time slot, are existed by second power contorl parameters The PUSCH is sent on the running time-frequency resource of the sub-frame of uplink.

A kind of dispensing device of Physical Uplink Shared Channel is additionally provided in the present embodiment, and the device is above-mentioned for realizing Embodiment and preferred embodiment, had carried out repeating no more for explanation.As used below, term " module " can be real The combination of the software and/or hardware of existing predetermined function.Although the device described by following examples is preferably realized with software, But hardware, or the realization of the combination of software and hardware is also that may and be contemplated.

Fig. 4 is the dispensing device structured flowchart of Physical Uplink Shared Channel according to embodiments of the present invention, as shown in figure 4, The device includes：

1) the first sending module 42, for the configuration information according to acquisition and/or predefined rule, in the spy of radio frames Physical Uplink Shared Channel PUSCH is sent to base station on the corresponding running time-frequency resource of uplink pilot time slot in different subframe, wherein, should The time domain orthogonal frequency division multiplex OFDM symbolic number of uplink pilot time slot is N, and N value at least includes the integer between 1 to 6.

Alternatively, in the present embodiment, the application scenarios of the dispensing device of above-mentioned Physical Uplink Shared Channel are included but simultaneously It is not limited to：In radio frames (radio frame) in Long Term Evolution (Long Term Evolution, referred to as LTE) system, Under the application scenarios, terminal is according to the configuration information and/or predefined rule of acquisition, in the special subframe of radio frames Physical Uplink Shared Channel PUSCH is sent to base station on the corresponding running time-frequency resource of uplink pilot time slot, wherein, uplink pilot time slot Time domain orthogonal frequency division multiplex OFDM symbolic number be N, N value at least includes the integer between 1 to 6.That is, in this reality Apply in example, terminal can by base station configure or according to predefined criterion determine in uplink pilot time slot send PUSCH when Domain OFDM symbol position, related demodulation pilot frequency configuration, the resource distribution mode of the PUSCH, the PUSCH and dispatch the PUSCH PDCCH between sequential relationship and the PUSCH and corresponding PHICH between the resource such as sequential relationship, then wireless On the corresponding running time-frequency resource of uplink pilot time slot in the special subframe of frame Physical Uplink Shared Channel PUSCH is sent to base station. By the present embodiment, solve in correlation technique, Physical Uplink Shared Channel PUSCH is not supported under TDD system The problem of being transmitted on uplink pilot time slot UpPTS, and then reached the technique effect of effective utilization uplink frequency spectrum resource.

In one alternatively embodiment, Fig. 5 is the transmission of Physical Uplink Shared Channel according to embodiments of the present invention Apparatus structure block diagram (one), as shown in figure 5, first sending module 42 includes：

1) the first transmitting element 52, being sent in the M OFDM symbol in the uplink pilot time slot to the base station should PUSCH, wherein, the M OFDM symbol is the subset of N number of OFDM symbol, and M is 1 between N and including 1 and N integer.

In one alternatively embodiment, first transmitting element 52 is additionally operable in the protection interval with the special subframe The PUSCH is sent to the base station in M adjacent OFDM symbol, wherein, the value of the M is by base station is by signal deployment and is issued to The terminal.

Alternatively, position of the M OFDM symbol in N number of OFDM symbol of the uplink pilot time slot passes through letter by base station Order configures and is issued to terminal.

Alternatively, the configuration information and/or predefined rule include at least one of：The resource allocation of the PUSCH Mode, the resource distribution of the demodulation pilot tone of the PUSCH, the transmission subframe index of the PUSCH and the physical down for dispatching the PUSCH The transmission subframe index and corresponding physics of corresponding relation, the PUSCH between control channel PDCCH reception subframe index are mixed Close the transmit power control of the corresponding relation and the PUSCH between automatic re-transmission indicating channel PHICH reception subframe index.

In one alternatively embodiment, Fig. 6 is the transmission of Physical Uplink Shared Channel according to embodiments of the present invention Apparatus structure block diagram (two), as shown in fig. 6, the device also includes：

1) first processing module 62, for the resource allocation for being the PUSCH in the configuration information and/or predefined rule In the case of mode, the corresponding running time-frequency resource of the uplink pilot time slot is regard as an independent Physical Uplink Shared Channel time-frequency Resource allocation is to terminal；

2) Second processing module 64, during for by the corresponding running time-frequency resource of the uplink pilot time slot with positioned at the ascending pilot frequency After gap and the sub-frame of uplink adjacent with the uplink pilot time slot running time-frequency resource it is common together as an independent physical uplink Channel time-frequency resource allocating is enjoyed to the terminal.

Alternatively, the resource distribution of PUSCH demodulation pilot tone includes：The demodulation pilot tone in the uplink pilot time slot when Domain OFDM symbol position, wherein, time-domain OFDM symbol position of the demodulation pilot tone in the uplink pilot time slot is passed through by base station Signal deployment is simultaneously handed down to terminal, or, time-domain OFDM symbol position of the demodulation pilot tone in the uplink pilot time slot is located at The location of OFDM symbol adjacent with protection interval in the radio frames.

In one alternatively embodiment, Fig. 7 is the transmission of Physical Uplink Shared Channel according to embodiments of the present invention Apparatus structure block diagram (three), as shown in fig. 7, the device also includes in addition to including all modules shown in Fig. 4：

1) the 3rd processing module 72, for the demodulation pilot tone for being the PUSCH in the configuration information and/or predefined rule Resource distribution in the case of, the PUSCH resource distribution mode be by the corresponding running time-frequency resource of the uplink pilot time slot with After the uplink pilot time slot and the sub-frame of uplink adjacent with the uplink pilot time slot running time-frequency resource together as one The PUSCH that is sent when independent Physical Uplink Shared Channel time-frequency resource allocating gives the terminal, on the uplink pilot time slot and should The PUSCH sent on sub-frame of uplink shares the PUSCH sent on the sub-frame of uplink demodulation pilot resources.

Or, including fourth processing module, for being by the uplink pilot time slot pair in the resource distribution mode of the PUSCH The running time-frequency resource answered with after the uplink pilot time slot and the time-frequency of the sub-frame of uplink adjacent with the uplink pilot time slot is provided When the terminal is given in source together as an independent Physical Uplink Shared Channel time-frequency resource allocating, used in the uplink pilot time slot It is used to repeat to send after the uplink pilot time slot in M OFDM symbol for sending the PUSCH and during with the ascending pilot frequency The PUSCH information for the M OFDM symbol specified in the adjacent sub-frame of uplink of gap, wherein, the position of the M OFDM symbol specified It is that base station and terminal are made an appointment, or by base station is by signal deployment and is issued to terminal, the M is 1 between N and including 1 With N integer.

In one alternatively embodiment, Fig. 8 is the transmission of Physical Uplink Shared Channel according to embodiments of the present invention Apparatus structure block diagram (four), as shown in figure 8, the device also includes in addition to including all modules shown in Fig. 4：

1) the 5th processing module 82, for sending subframe rope in the configuration information and/or predefined rule for the PUSCH Draw and dispatch the PUSCH PDCCH reception subframe index between corresponding relation in the case of, in the resource point of the PUSCH With mode be by the corresponding running time-frequency resource of the uplink pilot time slot with after the uplink pilot time slot and with the ascending pilot frequency The running time-frequency resource of the adjacent sub-frame of uplink of time slot is given together as an independent Physical Uplink Shared Channel time-frequency resource allocating During the terminal, the PUSCH sends subframe index and dispatches the corresponding relation between the PDCCH of PUSCH reception subframe index Follow corresponding relations of the PUSCH between the sub-frame of uplink and the PDCCH reception subframe for dispatching the PUSCH.

In one alternatively embodiment, Fig. 9 is the transmission of Physical Uplink Shared Channel according to embodiments of the present invention Apparatus structure block diagram (five), as shown in figure 9, the device also includes in addition to including all modules shown in Fig. 4：

1) the 6th processing module 94, for sending subframe rope in the configuration information and/or predefined rule for the PUSCH In the case of drawing the corresponding relation between corresponding PHICH receptions subframe index, being in the resource distribution mode of the PUSCH will The corresponding running time-frequency resource of the uplink pilot time slot is after the uplink pilot time slot and adjacent with the uplink pilot time slot with being located at , should when the running time-frequency resource of sub-frame of uplink gives the terminal together as an independent Physical Uplink Shared Channel time-frequency resource allocating It is up at this that the corresponding relation that PUSCH is sent between subframe index and corresponding PHICH reception subframe index follows the PUSCH Corresponding relation between subframe and corresponding PHICH reception subframes.

In one alternatively embodiment, Figure 10 is the transmission of Physical Uplink Shared Channel according to embodiments of the present invention Apparatus structure block diagram (five), as shown in Figure 10, the device also include in addition to including all modules shown in Fig. 4：

1) the 7th processing module 104, for being by the time-frequency of the uplink pilot time slot in the resource distribution mode of the PUSCH Resource as an independent Physical Uplink Shared Channel time-frequency resource allocating to terminal when, the PUSCH does not support double in the time-division It is corresponding that work TDD uplink/downlinks are configured to the uplink pilot time slot that 0, TDD uplink/downlinks are configured in the case of at least one of 6 Sent on running time-frequency resource.

In one alternatively embodiment, Figure 11 is the transmission of Physical Uplink Shared Channel according to embodiments of the present invention Apparatus structure block diagram (five), as shown in figure 11, the device also include in addition to including all modules shown in Fig. 4：

1) the first setup module 112, for sub for the transmission of the PUSCH in the configuration information and/or predefined rule Frame index and dispatch the PUSCH physical downlink control channel PDCCH reception subframe index between corresponding relation when, perform Operation including at least one of：In the case where the uplink/downlink of TDD is configured to 0 or 1, PUSCH sends son When frame index is 1, the PDCCH reception subframe index for dispatching the PUSCH be that 5, PUSCH sends subframe index when be 6, dispatches this PUSCH PDCCH reception subframe index is 0；It is configured in the TDD uplink/downlinks in the case of 2, PUSCH sends subframe index For 1 when, the PDCCH reception subframe index for dispatching the PUSCH is that 6, PUSCH sends subframe index when being 6, dispatches the PUSCH's PDCCH reception subframe index is 1；3,4,5 are configured in the case of any one in the TDD uplink/downlinks, and PUSCH sends son When frame index is 1, the PDCCH reception subframe index for dispatching the PUSCH is 7；6 situation is configured in the TDD uplink/downlinks Under, when PUSCH transmission subframe index is 1, dispatches the PDCCH reception subframe index of the PUSCH and send subframe index for 5, PUSCH For 6 when, dispatch the PUSCH PDCCH reception subframe index be 0.

Or, the second setup module, for sub for the transmission of the PUSCH in the configuration information and/or predefined rule Frame index and dispatch the PUSCH physical downlink control channel PDCCH reception subframe index between corresponding relation when, perform Operation including at least one of：It is configured in TDD uplink/downlink in the case of 0, scheduling PUSCH PDCCH connects When the least significant bit indicated value for receiving the upper line index domain in the Downlink Control Information that subframe is 5 and the PDCCH is carried is 1, It is 1 that PUSCH, which sends subframe index,；It is configured in TDD uplink/downlink in the case of 0, dispatches PUSCH PDCCH reception When the highest significant position indicated value in the upper line index domain in the Downlink Control Information that subframe is 5 and the PDCCH is carried is 1, PUSCH It is 9 to send subframe index；It is configured in TDD uplink/downlink in the case of 0, dispatches PUSCH PDCCH reception subframe When the least significant bit indicated value in the upper line index domain in the Downlink Control Information carried for the 0 and PDCCH is 1, PUSCH is sent Subframe index is 6；Be configured in TDD uplink/downlink in the case of 0, scheduling PUSCH PDCCH reception subframe for 0 and When the highest significant position indicated value in the upper line index domain in the Downlink Control Information of PDCCH carryings is 1, PUSCH sends subframe Index as 4.

Or, the 3rd setup module, for sub for the transmission of the PUSCH in the configuration information and/or predefined rule Frame index and dispatch the PUSCH physical downlink control channel PDCCH reception subframe index between corresponding relation when, perform Operation including at least one of：It is configured in TDD uplink/downlink in the case of 6, scheduling PUSCH PDCCH connects When the least significant bit indicated value for receiving the upper line index domain in the Downlink Control Information that subframe is 5 and the PDCCH is carried is 1, It is 1 that PUSCH, which sends subframe index,；It is configured in TDD uplink/downlink in the case of 6, dispatches PUSCH PDCCH reception When the highest significant position indicated value in the upper line index domain in the Downlink Control Information that subframe is 5 and the PDCCH is carried is 1, PUSCH It is 2 to send subframe index；It is configured in TDD uplink/downlink in the case of 6, dispatches PUSCH PDCCH reception subframe When the least significant bit indicated value in the upper line index domain in the Downlink Control Information carried for the 0 and PDCCH is 1, PUSCH is sent Subframe index is 6；Be configured in TDD uplink/downlink in the case of 6, scheduling PUSCH PDCCH reception subframe for 0 and When the highest significant position indicated value in the upper line index domain in the Downlink Control Information of PDCCH carryings is 1, PUSCH sends subframe Index as 7.

In one alternatively embodiment, Figure 12 is the transmission of Physical Uplink Shared Channel according to embodiments of the present invention Apparatus structure block diagram (six), as shown in figure 12, the device also include in addition to including all modules shown in Fig. 4：

1) the 4th setup module 122, for sub for the transmission of the PUSCH in the configuration information and/or predefined rule During corresponding relation between frame index and corresponding physical mixed automatic re-transmission indicating channel PHICH reception subframe index, hold Row includes the operation of at least one of：It is configured in TDD uplink/downlink in the case of 0, PUSCH sends subframe Index for 1 when, it be 6, PUSCH when to send subframe index be 6 that corresponding PHICH, which receives subframe index, and corresponding PHICH receptions are sub Frame index is 1；The TDD uplink/downlinks are configured in the case of 1 or 2, when PUSCH transmission subframe index is 1, corresponding PHICH It is that 5, PUSCH sends subframe index when be 6 to receive subframe index, and corresponding PHICH receptions subframe index is 0；The TDD is up/ Downstream arrangements are that PUSCH sends subframe index 3,4,5 in the case of any one when being 1, and corresponding PHICH receives subframe rope It is cited as 7；The TDD uplink/downlinks are configured in the case of 6, and when PUSCH transmission subframe index is 1, corresponding PHICH receives son Frame index is 5, PUSCH when to send subframe index be 6, and it is 0 that corresponding PHICH, which receives subframe index,.

Or, the 5th setup module, for sub for the transmission of the PUSCH in the configuration information and/or predefined rule During corresponding relation between frame index and corresponding physical mixed automatic re-transmission indicating channel PHICH reception subframe index, hold Row includes the operation of at least one of：It is configured in TDD uplink/downlink in the case of 0, when the PHICH is received When subframe index is 6, there are two PHICH group resources in the subframe 6, wherein, when it is 2 that PUSCH, which sends subframe index, with this The corresponding PHICH of PUSCH are mapped in first PHICH group resource of two PHICH group resources, when PUSCH sends subframe Index for 1 when, PHICH corresponding with the PUSCH is mapped in second PHICH group resource of two PHICH group resources； TDD uplink/downlink is configured in the case of 0, when it is 1 that the PHICH, which receives subframe index, is existed in the subframe 1 Two PHICH group resources, wherein, when PUSCH send subframe index be 7 when, PHICH corresponding with the PUSCH be mapped in this two It is corresponding with the PUSCH when it is 6 that PUSCH, which sends subframe index, in first PHICH group resource of individual PHICH groups resource PHICH is mapped in second PHICH group resource of two PHICH group resources.

Or, the 5th setup module, for sub for the transmission of the PUSCH in the configuration information and/or predefined rule During corresponding relation between frame index and corresponding physical mixed automatic re-transmission indicating channel PHICH reception subframe index, hold Row includes the operation of at least one of：It is configured in TDD uplink/downlink in the case of 6, when the PHICH is received When subframe index is 5, there are two PHICH group resources in the subframe 5, wherein, when it is 8 that PUSCH, which sends subframe index, with this The corresponding PHICH of PUSCH are mapped in first PHICH group resource of two PHICH group resources, when PUSCH sends subframe Index for 1 when, PHICH corresponding with the PUSCH is mapped in second PHICH group resource of two PHICH group resources； TDD uplink/downlink is configured in the case of 6, when it is 0 that the PHICH, which receives subframe index, is existed in the subframe 0 Two PHICH group resources, wherein, when PUSCH send subframe index be 4 when, PHICH corresponding with the PUSCH be mapped in this two It is corresponding with the PUSCH when it is 6 that PUSCH, which sends subframe index, in first PHICH group resource of individual PHICH groups resource PHICH is mapped in second PHICH group resource of two PHICH group resources.

In one alternatively embodiment, Figure 13 is the transmission of Physical Uplink Shared Channel according to embodiments of the present invention Apparatus structure block diagram (seven), as shown in figure 13, the device also include in addition to including all modules shown in Fig. 4：

1) control module 132, for the transmit power control for being the PUSCH in the configuration information and/or predefined rule It is with being located on this by the corresponding running time-frequency resource of the uplink pilot time slot in the resource distribution mode of the PUSCH in the case of system After row pilot time slot and the sub-frame of uplink adjacent with the uplink pilot time slot running time-frequency resource together as an independent thing When managing Uplink Shared Channel time-frequency resource allocating to the terminal, provided respectively in the time-frequency of the uplink pilot time slot and the sub-frame of uplink On source the PUSCH is sent according to independent Power Control.

In one alternatively embodiment, Figure 14 is the transmission of Physical Uplink Shared Channel according to embodiments of the present invention Apparatus structure block diagram (eight), as shown in figure 14, control module 132 includes：

1) receiving unit 142, the first power contorl parameters and the second power contorl parameters for receiving base station transmission；

2) the second transmitting element 144, is provided for the time-frequency by first power contorl parameters in the uplink pilot time slot The PUSCH is sent on source, the PUSCH is sent on the running time-frequency resource of the sub-frame of uplink by second power contorl parameters.

It should be noted that above-mentioned modules can be by software or hardware to realize, for the latter, Ke Yitong Cross in the following manner realization, but not limited to this：Above-mentioned module is respectively positioned in same processor；Or, above-mentioned module is located at many respectively In individual processor.

A kind of sending method of Physical Uplink Shared Channel is additionally provided in the present embodiment, and Figure 15 is according to of the invention real The sending method flow chart (one) of the Physical Uplink Shared Channel of example is applied, as shown in figure 15, the flow comprises the following steps：

Step S1502, configuration information is issued by signaling to terminal；

Step S1504, receives the Physical Uplink Shared Channel PUSCH of terminal transmission, wherein, the PUSCH is the terminal According to the configuration information of acquisition and/or predefined rule, the uplink pilot time slot in the special subframe of radio frames is corresponding Sent on running time-frequency resource to base station, the time domain orthogonal frequency division multiplex OFDM symbolic number of the uplink pilot time slot is N, N value At least include the integer between 1 to 6.

Alternatively, in the present embodiment, the application scenarios of the sending method of above-mentioned Physical Uplink Shared Channel are included but simultaneously It is not limited to：In radio frames (radio frame) in Long Term Evolution (Long Term Evolution, referred to as LTE) system, Under the application scenarios, base station issues configuration information by signaling to terminal, receives the shared letter of physical uplink of terminal transmission Road PUSCH, wherein, the PUSCH is configuration information and/or predefined rule of the terminal according to acquisition, in the spy of radio frames Sent on the corresponding running time-frequency resource of uplink pilot time slot in different subframe to base station, the time domain orthogonal frequency of the uplink pilot time slot It is N to divide multiplexing OFDM symbol number, and N value at least includes the integer between 1 to 6.By the present embodiment, correlation technique is solved In, do not support what Physical Uplink Shared Channel PUSCH was transmitted on uplink pilot time slot UpPTS under TDD system Problem, and then reached the technique effect of effective utilization uplink frequency spectrum resource.

In one alternatively embodiment, the configuration information and/or predefined rule include at least one of：Should Time-domain OFDM symbol configurations of the PUSCH in the uplink pilot time slot, the resource distribution mode configuration of the PUSCH, the PUSCH Demodulate resource distribution, the transmission subframe index of the PUSCH and the physical downlink control channel PDCCH for dispatching the PUSCH of pilot tone Reception subframe index between corresponding relation, the transmission subframe index of the PUSCH and corresponding physical mixed autonomous retransmission refer to Show the transmit power control of the corresponding relation and the PUSCH between channel PHICH reception subframe index.

Alternatively, time-domain OFDM symbol configurations of the PUSCH in the uplink pilot time slot comprises the following steps：

Step S21, the M OFDM symbol configured in the uplink pilot time slot sends the PUSCH for terminal, wherein, the M Individual OFDM symbol is the subset of N number of OFDM symbol, and M is 1 between N and including 1 and N integer.

Alternatively, position of the M OFDM symbol in N number of OFDM symbol of the uplink pilot time slot passes through letter by base station Order configures and is handed down to terminal.

M OFDM symbol in the above-mentioned configuration uplink pilot time slot sends the PUSCH for terminal to be included：

Step S31, and terminal make an appointment the terminal in the M time domain OFDM adjacent with protection interval in the special subframe PUSCH is sent on the uplink pilot time slot of symbol lengths, wherein, the value of the M is allocated to terminal by base station by high-level signaling.

Alternatively, time-domain OFDM symbol configurations of the PUSCH in the uplink pilot time slot passes through bit map or bit The mode of figure configures and is handed down to the terminal.

In one alternatively embodiment, PUSCH resource distribution mode configuration includes：Set in Downlink Control Information Added bits are put, wherein, the added bits are used to indicate to regard the corresponding running time-frequency resource of the uplink pilot time slot as an independence Physical Uplink Shared Channel time-frequency resource allocating to terminal, or by the corresponding running time-frequency resource of the uplink pilot time slot with being located at After the uplink pilot time slot and the sub-frame of uplink adjacent with the uplink pilot time slot running time-frequency resource together as an independence Physical Uplink Shared Channel time-frequency resource allocating give the terminal.

Or, PUSCH resource distribution mode configuration also includes：By the corresponding running time-frequency resource of the uplink pilot time slot with After the uplink pilot time slot and the sub-frame of uplink adjacent with the uplink pilot time slot running time-frequency resource together as one It is used to send the PUSCH when independent Physical Uplink Shared Channel time-frequency resource allocating gives the terminal, in the uplink pilot time slot M orthogonal frequency division multiplex OFDM symbol be used to repeat to send PUSCH in the M OFDM symbol specified in the sub-frame of uplink, Wherein, the M OFDM symbol position specified by signal deployment and is issued to the terminal by base station, or by base station and terminal It is pre-configured with and is issued to the terminal, the M is 1 between N and including 1 and N integer.

In another optional embodiment, the resource distribution of the demodulation pilot tone of the PUSCH includes following at least one：The solution Time-domain OFDM symbol position of the pilot tone in the uplink pilot time slot is adjusted, wherein, the demodulation pilot tone is in the uplink pilot time slot Time-domain OFDM symbol position by base station is by signal deployment and is handed down to terminal, or, the demodulation pilot tone is in the ascending pilot frequency Time-domain OFDM symbol position in time slot is located at the location of OFDM symbol adjacent with protection interval in the radio frames.

Alternatively, PUSCH sends the correspondence pass between subframe index and the PDSCH reception subframe index for dispatching the PUSCH It is for base station and the predefined rule of terminal both sides；PUSCH is sent between subframe index and corresponding PHICH reception subframe index Corresponding relation be base station and the predefined rule of terminal both sides.

In one alternatively embodiment, PUSCH transmit power control comprises the following steps：

Step S41, is with being located at by the corresponding running time-frequency resource of the uplink pilot time slot in the resource distribution mode of the PUSCH After the uplink pilot time slot and the sub-frame of uplink adjacent with the uplink pilot time slot running time-frequency resource together as an independence Physical Uplink Shared Channel time-frequency resource allocating when giving the terminal, receiving terminal is in the uplink pilot time slot respectively and this is up The PUSCH sent on the running time-frequency resource of subframe according to independent Power Control.

Wherein, receiving terminal is being distinguished on the running time-frequency resource of the uplink pilot time slot and the sub-frame of uplink according to independent Also include before the PUSCH that Power Control is sent：

Step S51, the first power contorl parameters and the second power contorl parameters are issued to terminal, wherein, first power Control parameter sends the PUSCH for the terminal on the running time-frequency resource of the uplink pilot time slot, second power contorl parameters The PUSCH is sent on the running time-frequency resource of the sub-frame of uplink for the terminal.

Figure 16 is the dispensing device structured flowchart (nine) of Physical Uplink Shared Channel according to embodiments of the present invention, such as Figure 16 Shown, the device includes：

1) the second sending module 162, for issuing configuration information to terminal by signaling；

2) the first receiving module 164, the Physical Uplink Shared Channel PUSCH for receiving terminal transmission, wherein, should PUSCH is the terminal according to the configuration information and/or predefined rule of acquisition, and up in the special subframe of radio frames is led Sent on the corresponding running time-frequency resource of frequency time slot to base station, the time domain orthogonal frequency division multiplex OFDM symbolic number of the uplink pilot time slot For N, N value at least includes the integer between 1 to 6.

Alternatively, in the present embodiment, the application scenarios of the dispensing device of above-mentioned Physical Uplink Shared Channel are included but simultaneously It is not limited to：In radio frames (radio frame) in Long Term Evolution (Long Term Evolution, referred to as LTE) system, Under the application scenarios, base station issues configuration information by signaling to terminal, receives the shared letter of physical uplink of terminal transmission Road PUSCH, wherein, the PUSCH is configuration information and/or predefined rule of the terminal according to acquisition, in the spy of radio frames Sent on the corresponding running time-frequency resource of uplink pilot time slot in different subframe to base station, the time domain orthogonal frequency of the uplink pilot time slot It is N to divide multiplexing OFDM symbol number, and N value at least includes the integer between 1 to 6.By the present embodiment, correlation technique is solved In, do not support what Physical Uplink Shared Channel PUSCH was transmitted on uplink pilot time slot UpPTS under TDD system Problem, and then reached the technique effect of effective utilization uplink frequency spectrum resource.

In one alternatively embodiment, Figure 17 is the transmission of Physical Uplink Shared Channel according to embodiments of the present invention Apparatus structure block diagram (ten), as shown in figure 17, the device also include in addition to including all modules shown in Figure 16：

1) configuration module 172, for the configuration information and/or it is predefined rule for the PUSCH in the ascending pilot frequency When time-domain OFDM symbol in time slot is configured, the M OFDM symbol configured in the uplink pilot time slot should for terminal transmission PUSCH, wherein, the M OFDM symbol is the subset of N number of OFDM symbol, and M is 1 between N and including 1 and N integer.

Alternatively, position of the M OFDM symbol in N number of OFDM symbol of the uplink pilot time slot passes through signaling by base station Configure and be handed down to terminal.

In one alternatively embodiment, Figure 18 is the transmission of Physical Uplink Shared Channel according to embodiments of the present invention Apparatus structure block diagram (11), as shown in figure 18, the configuration module 172 include：

1) processing unit 182, for making an appointment the terminal in the M adjacent with protection interval in the special subframe with terminal PUSCH is sent on the uplink pilot time slot of individual time-domain OFDM symbol length, wherein, the value of the M is matched somebody with somebody by base station by high-level signaling Put to terminal.

In one alternatively embodiment, Figure 19 is the transmission of Physical Uplink Shared Channel according to embodiments of the present invention Apparatus structure block diagram (12), as shown in figure 19, the device also includes：

1) first module 192 is issued, passed through for time-domain OFDM symbol configurations of the PUSCH in the uplink pilot time slot The mode of bit map or bit diagram configures and is handed down to the terminal.

In one alternatively embodiment, Figure 20 is the transmission of Physical Uplink Shared Channel according to embodiments of the present invention Apparatus structure block diagram (13), as shown in figure 20, the device also includes in addition to including the module shown in Figure 16：

1) the 6th setup module 202, for dividing in the configuration information and/or predefined rule for the resource of the PUSCH In the case of being configured with mode, added bits are set in Downlink Control Information, wherein, the added bits are used to indicate this The corresponding running time-frequency resource of row pilot time slot as an independent Physical Uplink Shared Channel time-frequency resource allocating to terminal, or The corresponding running time-frequency resource of the uplink pilot time slot is after the uplink pilot time slot and adjacent with the uplink pilot time slot with being located at Sub-frame of uplink running time-frequency resource together as an independent Physical Uplink Shared Channel time-frequency resource allocating give the terminal.

Or, the 7th setup module, for dividing in the configuration information and/or predefined rule for the resource of the PUSCH In the case of being configured with mode, by the corresponding running time-frequency resource of the uplink pilot time slot with after the uplink pilot time slot and When the running time-frequency resource of the sub-frame of uplink adjacent with the uplink pilot time slot is together as an independent Physical Uplink Shared Channel It is used for M orthogonal frequency division multiplex OFDM symbol for sending the PUSCH when frequency resource allocation gives the terminal, in the uplink pilot time slot For repeating to send the PUSCH in the M OFDM symbol specified in the sub-frame of uplink, wherein, the M OFDM symbol specified position Put by base station by signal deployment and be issued to the terminal, or be pre-configured with by base station and terminal and be issued to the terminal, the M For 1 between N and including 1 and N integer.

Alternatively, the resource distribution of the demodulation pilot tone of the PUSCH includes following at least one：The demodulation pilot tone is up at this Time-domain OFDM symbol position in pilot time slot, wherein, the time-domain OFDM symbol of the demodulation pilot tone in the uplink pilot time slot Position by base station is by signal deployment and is handed down to terminal, or, the time domain of the demodulation pilot tone in the uplink pilot time slot OFDM symbol position is located at the location of OFDM symbol adjacent with protection interval in the radio frames.

Alternatively, the PUSCH sends the correspondence between subframe index and the PDSCH reception subframe index for dispatching the PUSCH Relation is base station and the predefined rule of terminal both sides；The PUSCH sends subframe index and corresponding PHICH receives subframe index Between corresponding relation be base station and the predefined rule of terminal both sides.

In one alternatively embodiment, Figure 21 is the transmission of Physical Uplink Shared Channel according to embodiments of the present invention Apparatus structure block diagram (14), as shown in figure 21, the device also includes：

1) the second receiving module 212, for the transmission work(for being the PUSCH in the configuration information and/or predefined rule It is with being located at by the corresponding running time-frequency resource of the uplink pilot time slot in the resource distribution mode of the PUSCH in the case that rate is controlled After the uplink pilot time slot and the sub-frame of uplink adjacent with the uplink pilot time slot running time-frequency resource together as an independence Physical Uplink Shared Channel time-frequency resource allocating when giving the terminal, receiving terminal is in the uplink pilot time slot respectively and this is up The PUSCH sent on the running time-frequency resource of subframe according to independent Power Control.

In one alternatively embodiment, Figure 22 is the transmission of Physical Uplink Shared Channel according to embodiments of the present invention Apparatus structure block diagram (15), as shown in figure 22, the device also includes：

1) second issue module 222, for receiving terminal respectively the uplink pilot time slot and the sub-frame of uplink when Before the PUSCH sent in frequency resource according to independent Power Control, the first power contorl parameters and the second work(are issued to terminal Rate control parameter, wherein, first power contorl parameters are sent for the terminal on the running time-frequency resource of the uplink pilot time slot The PUSCH, second power contorl parameters send the PUSCH for the terminal on the running time-frequency resource of the sub-frame of uplink.

With reference to specific embodiment, the embodiment of the present invention is illustrated.

Alternative embodiment 1

In an alternative embodiment, the symbol configuration for sending PUSCH is used for mainly in UpPTS, position to be fixed, a notif iotaer Number.

During the application scenarios of the present embodiment are time division duplex (TDD) system, configuration information according to table 1 by it is up- Downstream arrangements are set as 3, and descending sub frame uses conventional cyclic prefix, and sub-frame of uplink uses conventional cyclic prefix.

On the corresponding running time-frequency resource of uplink pilot time slot of the terminal in the special subframe of radio frames physics is sent to base station Uplink Shared Channel (PUSCH), and terminal Y time-domain OFDM symbol adjacent with protection interval (GP) in special subframe Physical Uplink Shared Channel is sent on the uplink pilot time slot of length, wherein, Y value passes through the proprietary high-rise letter of user by base station Order configuration, as shown in table 4, it is assumed that uplink pilot time slot has N number of symbol lengths altogether, N is the integer between 1 to 6, and N is by three Partial and composition, a part of OFDM symbol length determines by special subframe configuration, is traditional available for SRS transmission OFDM symbol, Part II X is the OFDM symbol for SRS transmission newly increased, and Part III is to newly increase for PUSCH The OFDM symbol of transmission, wherein the OFDM symbol for PUSCH transmission is most adjacent with the protection interval in the special subframe, secondly It is the OFDM symbol for SRS transmission, the OFDM symbol configured by special subframe is near the subframe 2 in radio frames.Figure 23 A and Figure 23 B is send PUSCH time-domain position schematic diagram on UpPTS, and wherein special subframe is configured in 0, Figure 23 A, X=2, Y =2, illustrate that continuous 2 OFDM symbols of the protection interval (GP) near in special subframe are used to send in PUSCH, Figure 23 B, X =0, Y=4, illustrate that continuous 4 OFDM symbols of the protection interval (GP) near in special subframe are used to send PUSCH.

Table 4:Special subframe configures (DwPTS/GP/UpPTS length)

If it is worth noting that, terminal is not received by Y configuration, then it is assumed that Y=0, and Y value must be configured under can not causing Length, protection interval, the length of uplink pilot time slot and the length more than a subframe of row pilot time slot, otherwise Y=0.

Alternative embodiment 2

In an alternative embodiment, the symbol configuration for sending PUSCH is used in UpPTS, position to be notified by bitmap modes.

During the application scenarios of the present embodiment are time division duplex (TDD) system, configuration information according to table 1 by it is up/ Downstream arrangements are set as 3, and descending sub frame uses conventional cyclic prefix, and sub-frame of uplink uses conventional cyclic prefix.

On the corresponding running time-frequency resource of uplink pilot time slot of the terminal in the special subframe of radio frames physics is sent to base station Uplink Shared Channel (PUSCH), base station will be used to send PUSCH's by the proprietary high-level signaling of user in uplink pilot time slot Time-domain OFDM symbol position is allocated to terminal, and base station is led by way of bit map or bit diagram (bitmap) by up The time-domain OFDM symbol position for being used to send PUSCH in frequency time slot is allocated to terminal.As shown in table 3, terminal is according to special subframe Configuration and X worth configuration determine that the OFDM symbol number N in uplink pilot time slot altogether, wherein N are the integer between 1 to 6, bag 1 to 6 is included, the bit diagram that terminal is configured according to base station determines to be used for the OFDM symbol position for sending PUSCH in uplink pilot time slot. It is assumed that special subframe is configured in the case of 0, traditional OFDM symbol that can be used for sending SRS is 1, and terminal receives base The X stood is configured to 4, i.e. uplink pilot time slot and has 5 OFDM symbol length, and although 5 OFDM symbols can be used in sending SRS, but not all OFDM is actual for sending SRS, it is assumed that wherein only have 1 symbol to be used to send SRS, then surplus 4 remaining symbol base stations, which can just be allocated to user, to be used to send PUSCH.For example shown in Figure 24, terminal is according to the configuration of base station Know the symbol for sending SRS, and remaining 4 symbols are used to send PUSCH.

Alternative embodiment 3

In an alternative embodiment, PUSCH demodulation pilot frequency configuration is sent mainly in UpPTS

The PUSCH's that terminal determines to send in uplink pilot time slot according to the configuration information of base station or predefined criterion Pilot resources configuration is demodulated, including demodulates OFDM symbol position of the pilot tone in uplink pilot time slot.

Mode one, is to determine OFDM symbol of the demodulation pilot tone in uplink pilot time slot according to the configuration information of base station, excellent Selection of land base station will be used to send PUSCH OFDM symbol position by the specific high-level signaling of user in the uplink pilot time slot Notify that, to terminal, preferably base station will be used to send PUSCH by way of bit map or bit diagram in the ascending time slot OFDM symbol position informing to terminal.Wherein it is described be used for send PUSCH OFDM symbol can be include or not include with Demodulation the frequency pilot sign related PUSCH.The mode of wherein described bit map or bit diagram refers to, it is assumed that uplink pilot time slot In include N number of OFDM symbol altogether, then base station is respectively used to indicate whether N number of OFDM symbol is used for terminal and sends by N-bit PUSCH, such as N=5, the configuration signal for the base station that terminal is received is 01011, then it represents that in the collocating uplink pilot time slot of base station The 2nd from left to right, the 4th, the 5th symbol be used to send PUSCH, terminal sends PUSCH on these symbols.

Mode two, is determined according to predefined criterion, such as because the time domain for sending PUSCH is provided in embodiment one Source is always several symbols of the protection interval (GP) near in special subframe, then can be by near protection interval (GP) That symbol is used as the OFDM symbol where the PUSCH sent in the ascending time slot demodulation pilot tone, it is preferable that up at this The mode of the PUSCH through-rates matching sent in time slot carries out resource impact in the OFDM symbol where the demodulation pilot tone, Such as Figure 25 A are that will be used as the symbol of demodulation pilot tone near GP that OFDM symbol on the basis of Figure 23 B.

Mode three, the resource distribution mode of the PUSCH with being sent in uplink pilot time slot is relevant, when in uplink pilot time slot For sending PUSCH running time-frequency resource together with sub-frame of uplink adjacent with the special subframe after the special subframe of this in radio frames When distributing to terminal, terminal is used as this using the pilot resources of sub-frame of uplink adjacent with the special subframe after the special subframe PUSCH common pilot resources in PUSCH and the sub-frame of uplink in special subframe, base station is no longer in the special subframe PUSCH is reconfigured at extra demodulation pilot resources, and such as Figure 25 B show up-downstream arrangements in the case of 3, subframe 1 The symbol for being used to send PUSCH in the UpPTS of (special subframe) distributes to terminal together with the running time-frequency resource of subframe 2, subframe 1 The PUSCH sent in UpPTS and the PUSCH of subframe 2 share no longer extra configuration solution in the demodulation pilot resources of subframe 2, subframe 1 Pilot resources are adjusted, when the running time-frequency resource for being used to send PUSCH in uplink pilot time slot is used as independently as other sub-frame of uplink Ascending resource when distributing to terminal, terminal (such as aforesaid way one) or base station and terminal in the way of base station is configured is pre- The criterion (such as aforesaid way two) of definition determines the demodulation pilot resources in the uplink pilot time slot.

Wherein, the PUSCH sent in mode three in uplink pilot time slot obtains resource distribution mode base station and terminal is appointed in advance Set, or base station by signal deployment to terminal, it is preferable that base station can be by Physical Downlink Control Channel information Increase a bit be used for indicate in uplink pilot time slot be used for send PUSCH running time-frequency resource be individually distribute to terminal or with Sub-frame of uplink adjacent afterwards distributes to terminal together.

When in uplink pilot time slot be used for send PUSCH running time-frequency resource be with after sub-frame of uplink together with distribute to end During end, it is assumed that it is M to be used to send PUSH symbol in uplink pilot time slot, then it can be it PUSCH to be sent on this M symbol The repetition of PUSCH on the M symbol specified of sub-frame of uplink afterwards is sent, wherein after sub-frame of uplink in be used for weight OFDM symbol where recurring the PUSCH sent is that base station and terminal are made an appointment, or is allocated to terminal by base station.

Alternative embodiment 4

In an alternative embodiment, corresponding sequential relationship between PUSCH and PDCCH mainly in UpPTS.

On the corresponding running time-frequency resource of uplink pilot time slot of the terminal in the special subframe of radio frames physics is sent to base station Uplink Shared Channel, wherein, base station and terminal both sides determine to send out in special subframe uplink pilot time slot according to predefined criterion Corresponding relation between the PUSCH sent transmission subframe index and the PDSCH reception subframe index for dispatching the PUSCH.Assuming that eventually Hold the PDCCH that scheduling PUSCH is received on subframe n, then terminal will send the PUSCH on subframe n+k, another equivalent Description assumes that terminal sends PUSCH on subframe i, then terminal can receive the PDCCH for dispatching the PUSCH on subframe i-k.When Uplink pilot time slot is provided together with sub-frame of uplink adjacent with the special subframe after the special subframe in special subframe When source is distributed, PDCCH reception subframe rope of the special subframe with dispatching the PUSCH where transmission PUSCH uplink pilot time slot Corresponding relation between drawing sends PUSCH according to the sub-frame of uplink adjacent with the special subframe and connect with dispatching the PDCCH of the PUSCH The sequential relationship received between subframe is carried out, i.e., TDD it is up-in the case that downstream arrangements are 0/1/6, if support special subframe PUSCH is sent on uplink pilot time slot, then the running time-frequency resource in the uplink pilot time slot in special subframe 1 and sub-frame of uplink 2 one Rise and distribute to terminal, the transmission subframe index of the PUSCH is the time-frequency in the uplink pilot time slot in subframe 2, special subframe 6 Resource distributes to terminal together with sub-frame of uplink 7, and the transmission subframe index of the PUSCH is subframe 7, wherein in subframe 2 and son Sequential relationship between the PUSCH sent on frame 7 and the PDCCH for dispatching the PUSCH has been defined in existing LTE protocol；Together Reason, TDD it is up-downstream arrangements be 2/3/4/5 in the case of, the running time-frequency resource in uplink pilot time slot in special subframe 1 Terminal is distributed to together with sub-frame of uplink 2, the transmission subframe index of the PUSCH is subframe 2, wherein being sent in subframe 2 Sequential relationship has been defined in existing LTE protocol between PUSCH and the PDCCH for dispatching the PUSCH.

When the uplink pilot time slot in special subframe and other sub-frame of uplink as single ascending resource distribute to terminal When, PDCCH reception of the corresponding subframe index of special subframe where sending PUSCH uplink pilot time slot with dispatching the PUSCH Corresponding relation between subframe index is as shown in figure 26：

TDD it is up-downstream arrangements be 0 in the case of, the uplink pilot time slot in the special subframe 1 of current radio frames The PUSCH of middle transmission transmission subframe index is 1, dispatches the PDCCH reception subframe index of the PUSCH in previous radio frames Subframe 5, k=6, when subframe index of the special subframe in current radio frames for sending PUSCH is 6, dispatch the PUSCH's PDCCH reception subframe index is the subframe 0, k=6 in current radio frames；

TDD it is up-downstream arrangements be 1 in the case of, the uplink pilot time slot in the special subframe 1 of current radio frames The PUSCH of middle transmission transmission subframe index is 1, dispatches the PDCCH reception subframe index of the PUSCH in previous radio frames Subframe 5, k=6, the PUSCH sent in the uplink pilot time slot in the special subframe 6 of current radio frames transmission subframe rope 6 are cited as, the PDCCH reception subframe index for dispatching the PUSCH is the subframe 0, k=6 in current radio frames；

TDD it is up-downstream arrangements be 2 in the case of, the uplink pilot time slot in the special subframe 1 of current radio frames The PUSCH of middle transmission transmission subframe index is 1, dispatches the PDCCH reception subframe index of the PUSCH in previous radio frames The PUSCH sent in subframe 6, k=5, the uplink pilot time slot in the special subframe 1 of current radio frames transmission subframe index For 1, the PDCCH reception subframe index for dispatching the PUSCH is the subframe 1, k=5 in current radio frames；

TDD it is up-downstream arrangements be 3 in the case of, the uplink pilot time slot in the special subframe 1 of current radio frames The PUSCH of middle transmission transmission subframe index is 1, dispatches the PDCCH reception subframe index of the PUSCH in previous radio frames Subframe 7, k=4；

TDD it is up-downstream arrangements be 4 in the case of, the uplink pilot time slot in the special subframe 1 of current radio frames The PUSCH of middle transmission transmission subframe index is 1, dispatches the PDCCH reception subframe index of the PUSCH in previous radio frames Subframe 7, k=4；

TDD it is up-downstream arrangements be 5 in the case of, the uplink pilot time slot in the special subframe 1 of current radio frames The PUSCH of middle transmission transmission subframe index is 1, dispatches the PDCCH reception subframe index of the PUSCH in previous radio frames Subframe 7, k=4；

TDD it is up-downstream arrangements be 6 in the case of, the uplink pilot time slot in the special subframe 1 of current radio frames The PUSCH of middle transmission transmission subframe index is 1, dispatches the PDCCH reception subframe index of the PUSCH in previous radio frames Subframe 5, k=6, when it is 6 to send subframe index of the PUSCH special subframe in current radio frames, dispatches the PUSCH's PDCCH reception subframe index is the subframe 0, k=6 in current radio frames.

TDD it is up-in the case that downstream arrangements are 0, if the running time-frequency resource corresponding to uplink pilot time slot is independent Terminal is distributed to, at this moment the ratio of the descending sub frame of radio frames and sub-frame of uplink is 1:2, illustrate that each descending sub frame is needed Two sub-frame of uplink can be dispatched.

TDD it is up-in the case that downstream arrangements are 0, when scheduling PUSCH PDCCH reception subframe is previous wireless During subframe 5 in frame, it is probably the subframe 9 in the previous radio frames that the up PUSCH of the PDCCH scheduling, which sends subframe, And/or the subframe 1 in current radio frames, then utilize the upper line index (UL in the Downlink Control Information carried in the PDCCH Index) domain is further distinguished, and UL index domains have 2 bits in the related art, when the highest in UL index domains has When the value for imitating position (MSB) is 1, it is the subframe in the previous radio frames that the up PUSCH of the PDCCH scheduling, which sends subframe, 9, when the value of the least significant bit (LSB) in UL index domains is 1, the up PUSCH of the PDCCH scheduling sends subframe and is Subframe 1 (special subframe i.e. where uplink pilot time slot) in current radio frames；When scheduling PUSCH PDCCH reception subframe During for subframe 0 in current radio frames, the up PUSCH of the PDCCH scheduling is sent during subframe is probably current radio frames Subframe 4 and/or subframe 6, are then entered using upper line index (UL index) domain in the Downlink Control Information carried in the PDCCH Row further difference, such as when the value of the highest significant position (MSB) in UL index domains is 1, it is up that the PDCCH is dispatched Subframe is the subframe 4 in current radio frames, when the value of the least significant bit (LSB) in UL index domains is 1, the PDCCH The up transmission subframe of scheduling is the subframe 6 (special subframe i.e. where uplink pilot time slot) in current radio frames.

TDD it is up-in the case that downstream arrangements are 6, if the running time-frequency resource corresponding to uplink pilot time slot is independent Terminal is distributed to, at this moment the ratio of the descending sub frame of radio frames and sub-frame of uplink is 5:7, illustrate there are certain two descending son Frame is respectively necessary for dispatching two sub-frame of uplink.

TDD it is up-in the case that downstream arrangements are 6, when scheduling PUSCH PDCCH reception subframe is previous wireless During subframe 5 in frame, the up PUSCH of the PDCCH scheduling send subframe be probably subframe 1 in current radio frames and/or Subframe 2, then carries out further area using upper line index (UL index) domain in the Downlink Control Information carried in the PDCCH Not, UL index domains have 2 bits in the related art, when the value of the highest significant position (MSB) in UL index domains is 1, It is the subframe 2 in current radio frames that the up PUSCH of PDCCH scheduling, which sends subframe, when minimum in UL index domains has When the value for imitating position (LSB) is 1, the up PUSCH transmission subframes that the PDCCH is dispatched are the subframe 1 in current radio frames (on i.e. Special subframe where row time slot scheduling)；When the PDCCH reception subframe for dispatching PUSCH is the subframe 0 in current radio frames, It is probably the subframe 6 and/or subframe 7 in current radio frames that the up PUSCH of the PDCCH scheduling, which sends subframe, is then utilized Upper line index (UL index) domain in the Downlink Control Information carried in the PDCCH is further distinguished, such as works as UL When the value of highest significant position (MSB) in index domains is 1, the sub-frame of uplink of the PDCCH scheduling is the son in current radio frames Frame 7, when the value of the least significant bit (LSB) in UL index domains is 1, the up transmission subframe of the PDCCH scheduling is to work as Subframe 6 (special subframe i.e. where uplink pilot time slot) in preceding radio frames.

It is used as an alternative embodiment of the invention, it is contemplated that TDD is up-and downstream arrangements are in the case of 0, except special subframe Outside sub-frame of uplink inherently compare many, and the ratio of descending sub frame and sub-frame of uplink is 2 in each radio frames:3, therefore Under this up-downstream arrangements, when terminal and base station can mutually arrange not support that terminal uses ascending pilot frequency in special subframe Gap sends PUSCH.

It is used as an alternative embodiment of the invention, it is contemplated that TDD is up-and downstream arrangements are in the case of 6, except special subframe Outside sub-frame of uplink also compare many in itself, and the ratio of descending sub frame and sub-frame of uplink is 1 in each radio frames:1, therefore Under this up-downstream arrangements, terminal and base station can also mutually arrange not support terminal to use ascending pilot frequency in special subframe Time slot sends PUSCH.

Alternative embodiment 5

In an alternative embodiment, the sequential relationship mainly in UpPTS between PUSCH and PHICH

On the corresponding running time-frequency resource of uplink pilot time slot of the terminal in the special subframe of radio frames physics is sent to base station Uplink Shared Channel, wherein, base station and terminal both sides determine to send out in special subframe uplink pilot time slot according to predefined criterion The PUSCH sent transmission subframe and the PHICH corresponding with the PUSCH receive the corresponding relation between subframe index.Assuming that eventually End sends PUSCH on subframe n, then terminal will receive PHICH corresponding with the PUSCH on subframe n+k, or another Equivalent saying is, it is assumed that terminal receives PHICH on subframe i, then terminal can send corresponding with PHICH on subframe i-k PUSCH.Wherein, PHICH corresponding with the PUSCH refers to for the ACK/NACK to the terminal notification PUSCH transmission (just Really/mistake) information.

The sub-frame of uplink adjacent with special subframe after uplink pilot time slot is with the special subframe in special subframe When carrying out resource allocation together, the special subframe where sending PUSCH uplink pilot time slot receives subframe with corresponding PHICH Corresponding relation between index sends PUSCH and corresponding PHICH reception according to the sub-frame of uplink adjacent with the special subframe Sequential relationship between frame is carried out, i.e., TDD it is up-in the case that downstream arrangements are 0/1/6, if support special subframe is up PUSCH is sent on pilot time slot, then the running time-frequency resource in the uplink pilot time slot in special subframe 1 divides together with sub-frame of uplink 2 Dispensing terminal, the transmission subframe index of the PUSCH is the running time-frequency resource in the uplink pilot time slot in subframe 2, special subframe 6 Terminal is distributed to together with sub-frame of uplink 7, the transmission subframe index of the PUSCH is subframe 7, wherein in subframe 2 and subframe 7 Sequential relationship between the PUSCH of transmission and corresponding PHICH has been defined in existing LTE protocol；Similarly, TDD it is up- In the case that downstream arrangements are 2/3/4/5, the running time-frequency resource and sub-frame of uplink 2 one in uplink pilot time slot in special subframe 1 Rise and distribute to terminal, the transmission subframe index of the PUSCH is subframe 2, wherein the PUSCH sent in subframe 2 with it is corresponding Sequential relationship between PHICH has been defined in existing LTE protocol.

When the uplink pilot time slot in special subframe and other sub-frame of uplink as single ascending resource distribute to terminal When, the corresponding subframe index of special subframe where sending PUSCH uplink pilot time slot receives subframe rope with corresponding PHICH Corresponding relation between drawing is as shown in figure 27：

TDD it is up-in the case that downstream arrangements are 0, when son of the special subframe in current radio frames for sending PUSCH When frame index is 1, it is the subframe 6, k=5 in current radio frames that corresponding PHICH, which receives subframe index, as the spy for sending PUSCH When subframe index of the different subframe in current radio frames is 6, corresponding PHICH receives subframe index in next radio frames Subframe 1, k=5；

TDD it is up-in the case that downstream arrangements are 1, when son of the special subframe in current radio frames for sending PUSCH When frame index is 1, it is the subframe 5, k=4 in current radio frames that corresponding PHICH, which receives subframe index, as the spy for sending PUSCH When subframe index of the different subframe in current radio frames is 6, corresponding PHICH receives subframe index in next radio frames Subframe 0, k=4；

TDD it is up-in the case that downstream arrangements are 2, when son of the special subframe in current radio frames for sending PUSCH When frame index is 1, it is the subframe 5, k=4 in current radio frames that corresponding PHICH, which receives subframe index, as the spy for sending PUSCH When subframe index of the different subframe in current radio frames is 6, corresponding PHICH receives subframe index in next radio frames Subframe 0, k=4；

TDD it is up-in the case that downstream arrangements are 3, when son of the special subframe in current radio frames for sending PUSCH When frame index is 1, it is the subframe 7, k=6 in current radio frames that corresponding PHICH, which receives subframe index,；

TDD it is up-in the case that downstream arrangements are 4, when son of the special subframe in current radio frames for sending PUSCH When frame index is 1, it is the subframe 7, k=6 in current radio frames that corresponding PHICH, which receives subframe index,；

TDD it is up-in the case that downstream arrangements are 5, when son of the special subframe in current radio frames for sending PUSCH When frame index is 1, it is the subframe 7, k=6 in current radio frames that corresponding PHICH, which receives subframe index,；

TDD it is up-in the case that downstream arrangements are 6, when son of the special subframe in current radio frames for sending PUSCH When frame index is 1, it is the subframe 5, k=4 in current radio frames that corresponding PHICH, which receives subframe index, as the spy for sending PUSCH When subframe index of the different subframe in current radio frames is 6, corresponding PHICH receives subframe index in next radio frames Subframe 0, k=4.

TDD it is up-in the case that downstream arrangements are 0, if the running time-frequency resource corresponding to uplink pilot time slot is independent Terminal is distributed to, at this moment the ratio of the descending sub frame of radio frames and sub-frame of uplink is 1:2, illustrate the up PUSCH of each two Subframe needs one descending PHICH subframe of correspondence.

TDD it is up-downstream arrangements be 0 in the case of, the PUSCH sent in the subframe 1 and subframe 2 in current radio frames Corresponding PHICH subframes in subframe 6, have two all in current radio frames in the descending pilot frequency time slot wherein in subframe 6 The PHICH group numbers included in PHICH groups, each PHICH groups areThe two PHICH groups take difference respectively Descending pilot frequency time slot in running time-frequency resource, wherein, corresponding PHICH of PUSCH in subframe 2 are first PHICH group (I_PHICHFor 0), the corresponding PHICH of PUSCH in subframe 1 are second PHICH groups (I_PHICHFor 1)；In current radio frames The PHICH subframes corresponding with the PUSCH sent in subframe 7 of subframe 6 all in next radio frames in subframe 1, wherein subframe 1 On descending pilot frequency time slot in there is the PHICH group numbers included in two PHICH groups, each PHICH groups and be The two PHICH groups take the running time-frequency resource in different descending pilot frequency time slots respectively, wherein, the PUSCH correspondences in subframe 7 PHICH be first PHICH groups (I_PHICHFor 0), the corresponding PHICH of PUSCH in subframe 6 are second PHICH group (I_PHICHFor 1).

TDD it is up-in the case that downstream arrangements are 6, if the running time-frequency resource corresponding to uplink pilot time slot is independent Terminal is distributed to, at this moment the ratio of the descending sub frame of radio frames and sub-frame of uplink is 5:7, illustrate there are certain two PHICH Descending sub frame corresponds to two up PUSCH subframes respectively.

TDD it is up-downstream arrangements be 6 in the case of, the son in subframe 1 and previous radio frames in current radio frames The corresponding PHICH subframes of PUSCH sent on frame 8 are all in current radio frames in subframe 5, the descending pilot frequency time slot in subframe 5 Middle have the PHICH group numbers included in two PHICH groups, each PHICH groups and beThe two PHICH groups point The running time-frequency resource in different descending pilot frequency time slots is not taken, wherein, the PUSCH correspondences in the subframe 8 in previous radio frames PHICH be first PHICH groups (I_PHICHFor 0), corresponding PHICH of PUSCH in the subframe 1 in current radio frames are the Two PHICH groups (I_PHICHFor 1)；The PHICH subframes corresponding with the PUSCH sent in subframe 6 of subframe 4 of current radio frames are all In next radio frames in subframe 0, there are two PHICH groups, each PHICH groups in the descending pilot frequency time slot in subframe 0 The PHICH group numbers that include are in groupThe two PHICH groups take respectively in different descending pilot frequency time slots when Frequency resource, wherein, the corresponding PHICH of PUSCH in subframe 4 are first PHICH groups (I_PHICHFor 0), in subframe 6 The corresponding PHICH of PUSCH are second PHICH groups (I_PHICHFor 1).

WhereinAnd I_PHICHIt is defined in existing LTE protocol, whereinCan be from 3GPP TS36.211 Find related definition, I_PHICHRelated definition can be found from 3GPP TS36.213.

Alternative embodiment 6

In an alternative embodiment, mainly in UpPTS PUSCH Power Control.

On the corresponding running time-frequency resource of uplink pilot time slot of the terminal in the special subframe of radio frames physics is sent to base station Uplink Shared Channel (PUSCH), and the resource distribution mode of the Physical Uplink Shared Channel is the uplink pilot time slot Running time-frequency resource on the corresponding running time-frequency resource sub-frame of uplink adjacent with special subframe with after special subframe in the radio frames Terminal is distributed to together, and terminal distribution is on the running time-frequency resource of the uplink pilot time slot and the sub-frame of uplink according to independent Power Control sends PUSCH.

Further, terminal receives two sets of power contorl parameters from base station, wherein a set of power contorl parameters are for described PUSCH is sent on the running time-frequency resource of uplink pilot time slot, the time-frequency that another set of power contorl parameters are used for the sub-frame of uplink is provided PUSCH is sent on source.

Preferably, base station configures the related parameter of two sets of base station Power Control by high-level signaling, wherein a set of power control Parameter processed is used on the running time-frequency resource of the uplink pilot time slot send PUSCH, and another set of power contorl parameters are used for described PUSCH is sent on the running time-frequency resource of row subframe.

Through the above description of the embodiments, those skilled in the art can be understood that according to above-mentioned implementation The method of example can add the mode of required general hardware platform to realize by software, naturally it is also possible to by hardware, but a lot In the case of the former be more preferably embodiment.Understood based on such, technical scheme is substantially in other words to existing The part that technology contributes can be embodied in the form of software product, and the computer software product is stored in a storage In medium (such as ROM/RAM, magnetic disc, CD), including some instructions are to cause a station terminal equipment (can be mobile phone, calculate Machine, server, or network equipment etc.) perform method described in each of the invention embodiment.

Embodiments of the invention additionally provide a kind of storage medium.The application scenarios and example of the embodiment may be referred to Embodiment 1 and embodiment 2 and embodiment 3 are stated, be will not be described here.Alternatively, in the present embodiment, above-mentioned storage medium can be with It is arranged to the program code that storage is used to perform following steps：

S1, according to the configuration information of acquisition and/or predefined rule, the ascending pilot frequency in the special subframe of radio frames Physical Uplink Shared Channel PUSCH is sent to base station on the corresponding running time-frequency resource of time slot, wherein, the time domain of the uplink pilot time slot Orthogonal frequency division multiplex OFDM symbolic number is N, and N is the integer between 1 to 6；

Or, above-mentioned storage medium can be configured to the program code that storage is used to perform following steps：

S2, configuration information is issued by signaling to terminal；

S3, receives the Physical Uplink Shared Channel PUSCH of terminal transmission, wherein, the PUSCH is the terminal according to acquisition Configuration information and/or predefined rule, the corresponding running time-frequency resource of uplink pilot time slot in the special subframe of radio frames On sent to base station, the time domain orthogonal frequency division multiplex OFDM symbolic number of the uplink pilot time slot is N, and N value at least includes 1 Integer between to 6..

Alternatively, in the present embodiment, above-mentioned storage medium can include but is not limited to：USB flash disk, read-only storage (ROM, Read-Only Memory), random access memory (RAM, Random Access Memory), mobile hard disk, magnetic disc or CD etc. is various can be with the medium of store program codes.

Alternatively, in the present embodiment, processor performs above-mentioned steps according to the program code stored in storage medium S1；

Alternatively, in the present embodiment, processor performs above-mentioned steps according to the program code stored in storage medium S2、S3。

Alternatively, the specific example in the present embodiment may be referred to described in above-described embodiment and optional embodiment Example, the present embodiment will not be repeated here.

Obviously, those skilled in the art should be understood that above-mentioned each module of the invention or each step can be with general Computing device realize that they can be concentrated on single computing device, or be distributed in multiple computing devices and constituted Network on, alternatively, the program code that they can be can perform with computing device be realized, it is thus possible to they are stored Performed in the storage device by computing device, and in some cases, can be shown to be performed different from order herein The step of going out or describe, they are either fabricated to each integrated circuit modules respectively or by multiple modules in them or Step is fabricated to single integrated circuit module to realize.So, the present invention is not restricted to any specific hardware and software combination.

The preferred embodiments of the present invention are the foregoing is only, are not intended to limit the invention, for the skill of this area For art personnel, the present invention can have various modifications and variations.Within the spirit and principles of the invention, that is made any repaiies Change, equivalent substitution, improvement etc., should be included in the scope of the protection.

Claims

1. a kind of sending method of Physical Uplink Shared Channel, it is characterised in that including：

According to the configuration information of acquisition and/or predefined rule, the uplink pilot time slot pair in the special subframe of radio frames Physical Uplink Shared Channel PUSCH is sent to base station on the running time-frequency resource answered, wherein, the time domain orthogonal of the uplink pilot time slot Frequency division multiplex OFDM symbolic number is N, and N value at least includes the integer between 1 to 6.

2. according to the method described in claim 1, it is characterised in that during the ascending pilot frequency in the special subframe of radio frames Sending the PUSCH to base station on the corresponding running time-frequency resource of gap includes：

The PUSCH is sent to the base station in the M OFDM symbol in the uplink pilot time slot, wherein, the M OFDM symbol is the subset of N number of OFDM symbol, and M is 1 between N and including 1 and N integer.

3. method according to claim 2, it is characterised in that the M OFDM symbols in the uplink pilot time slot Sending the PUSCH to the base station on number includes：

The PUSCH is sent to the base station in the M OFDM symbol adjacent with the protection interval of the special subframe, its In, the value of the M is by base station is by signal deployment and is issued to terminal.

4. method according to claim 3, it is characterised in that N of the M OFDM symbol in the uplink pilot time slot Position in individual OFDM symbol is by base station is by signal deployment and is issued to terminal.

5. according to the method described in claim 1, it is characterised in that the configuration information and/or predefined rule include with It is at least one lower：

The resource distribution mode of the PUSCH, the resource distribution of the demodulation pilot tone of the PUSCH, the transmission subframe of the PUSCH It is corresponding relation between the reception subframe index for the physical downlink control channel PDCCH for indexing and dispatching the PUSCH, described Between PUSCH transmission subframe index and corresponding physical mixed automatic re-transmission indicating channel PHICH reception subframe index Corresponding relation and the PUSCH transmit power control.

6. method according to claim 5, it is characterised in that the resource distribution mode of the PUSCH includes following any It is a kind of：

It regard the corresponding running time-frequency resource of the uplink pilot time slot as an independent Physical Uplink Shared Channel running time-frequency resource point Dispensing terminal；

By the corresponding running time-frequency resource of the uplink pilot time slot with up being led after the uplink pilot time slot and with described The running time-frequency resource of the adjacent sub-frame of uplink of frequency time slot is together as an independent Physical Uplink Shared Channel time-frequency resource allocating To the terminal.

7. method according to claim 5, it is characterised in that the resource distribution of the demodulation pilot tone of the PUSCH includes：

Time-domain OFDM symbol position of the demodulation pilot tone in the uplink pilot time slot, wherein, the demodulation pilot tone is in institute State the time-domain OFDM symbol position in uplink pilot time slot and by signal deployment and be handed down to terminal by base station, or, the solution Time-domain OFDM symbol position of the pilot tone in the uplink pilot time slot is adjusted to be located at adjacent with protection interval in the radio frames The location of OFDM symbol.

8. method according to claim 6, it is characterised in that the resource distribution of the demodulation pilot tone of the PUSCH also includes：

It is that the corresponding running time-frequency resource of the uplink pilot time slot is described up with being located in the resource distribution mode of the PUSCH After pilot time slot and the sub-frame of uplink adjacent with the uplink pilot time slot running time-frequency resource together as an independent thing When managing Uplink Shared Channel time-frequency resource allocating to the terminal, the PUSCH that is sent on the uplink pilot time slot and it is described on The PUSCH sent in row subframe shares the PUSCH sent on the sub-frame of uplink demodulation pilot resources.

9. method according to claim 6, it is characterised in that

It is that the corresponding running time-frequency resource of the uplink pilot time slot is described up with being located in the resource distribution mode of the PUSCH After pilot time slot and the sub-frame of uplink adjacent with the uplink pilot time slot running time-frequency resource together as an independent physics It is used for send the PUSCH M when Uplink Shared Channel time-frequency resource allocating gives the terminal, in the uplink pilot time slot OFDM symbol is used to repeat to send to be located at after the uplink pilot time slot and the up son adjacent with the uplink pilot time slot The PUSCH information for the M OFDM symbol specified in frame, wherein, the position of the M OFDM symbol specified is base station and terminal Make an appointment, or by base station is by signal deployment and is issued to terminal, the M is 1 between N and including 1 and N integer.

10. method according to claim 6, it is characterised in that the PUSCH sends subframe index and scheduling is described Corresponding relation between PUSCH PDCCH reception subframe index includes：

It is that the corresponding running time-frequency resource of the uplink pilot time slot is described up with being located in the resource distribution mode of the PUSCH After pilot time slot and the sub-frame of uplink adjacent with the uplink pilot time slot running time-frequency resource together as an independent thing When managing Uplink Shared Channel time-frequency resource allocating to the terminal, the PUSCH sends subframe index and dispatches the PUSCH's Corresponding relation between PDCCH reception subframe index follows the PUSCH in the sub-frame of uplink with dispatching the PUSCH's Corresponding relation between PDCCH reception subframe.

11. method according to claim 6, it is characterised in that the PUSCH sends subframe index and corresponding PHICH The corresponding relation received between subframe index includes：

It is that the corresponding running time-frequency resource of the uplink pilot time slot is described up with being located in the resource distribution mode of the PUSCH After pilot time slot and the sub-frame of uplink adjacent with the uplink pilot time slot running time-frequency resource together as an independent thing When managing Uplink Shared Channel time-frequency resource allocating to the terminal, the PUSCH sends connecing for subframe index and corresponding PHICH Receive the corresponding relation between subframe index and follow the PUSCH between the sub-frame of uplink receives subframe with corresponding PHICH Corresponding relation.

12. method according to claim 6, it is characterised in that

It is to regard the running time-frequency resource of the uplink pilot time slot as an independent physics in the resource distribution mode of the PUSCH When Uplink Shared Channel time-frequency resource allocating is to terminal, the PUSCH does not support to be configured in TDD uplink/downlink 0th, TDD uplink/downlinks are configured to send on the corresponding running time-frequency resource of uplink pilot time slot in the case of at least one of 6.

13. method according to claim 5, it is characterised in that the transmission subframe index of the PUSCH and scheduling are described Corresponding relation between the reception subframe index of PUSCH physical downlink control channel PDCCH includes at least one of：

In the case where the uplink/downlink of TDD is configured to 0 or 1, when PUSCH transmission subframe index is 1, institute is dispatched The PDCCH reception subframe index for stating PUSCH is that 5, PUSCH sends subframe index when be 6, scheduling PUSCH PDCCH reception Subframe index is 0；

It is configured in the TDD uplink/downlinks in the case of 2, when PUSCH transmission subframe index is 1, dispatches the PUSCH's PDCCH reception subframe index is that 6, PUSCH sends subframe index when be 6, scheduling PUSCH PDCCH reception subframe index For 1；

3,4,5 are configured in the case of any one in the TDD uplink/downlinks, and PUSCH sends subframe index when being 1, scheduling The PDCCH reception subframe index of the PUSCH is 7；

It is configured in the TDD uplink/downlinks in the case of 6, when PUSCH transmission subframe index is 1, dispatches the PUSCH's PDCCH reception subframe index is that 5, PUSCH sends subframe index when be 6, scheduling PUSCH PDCCH reception subframe index For 0.

14. method according to claim 5, it is characterised in that the transmission subframe index of the PUSCH and scheduling are described Corresponding relation between the reception subframe index of PUSCH physical downlink control channel PDCCH also includes at least one of：

It is configured in TDD uplink/downlink in the case of 0, scheduling PUSCH PDCCH reception subframe is 5 and described When the least significant bit indicated value in the upper line index domain in the Downlink Control Information of PDCCH carryings is 1, PUSCH sends subframe rope It is cited as 1；

It is configured in TDD uplink/downlink in the case of 0, scheduling PUSCH PDCCH reception subframe is 5 and described When the highest significant position indicated value in the upper line index domain in the Downlink Control Information of PDCCH carryings is 1, PUSCH sends subframe rope It is cited as 9；

It is configured in TDD uplink/downlink in the case of 0, scheduling PUSCH PDCCH reception subframe is 0 and described When the least significant bit indicated value in the upper line index domain in the Downlink Control Information of PDCCH carryings is 1, PUSCH sends subframe rope It is cited as 6；

It is configured in TDD uplink/downlink in the case of 0, scheduling PUSCH PDCCH reception subframe is 0 and described When the highest significant position indicated value in the upper line index domain in the Downlink Control Information of PDCCH carryings is 1, PUSCH sends subframe rope It is cited as 4.

15. method according to claim 5, it is characterised in that the transmission subframe index of the PUSCH and scheduling are described Corresponding relation between the reception subframe index of PUSCH physical downlink control channel PDCCH also includes at least one of：

It is configured in TDD uplink/downlink in the case of 6, scheduling PUSCH PDCCH reception subframe is 5 and described When the least significant bit indicated value in the upper line index domain in the Downlink Control Information of PDCCH carryings is 1, PUSCH sends subframe rope It is cited as 1；

It is configured in TDD uplink/downlink in the case of 6, scheduling PUSCH PDCCH reception subframe is 5 and described When the highest significant position indicated value in the upper line index domain in the Downlink Control Information of PDCCH carryings is 1, PUSCH sends subframe rope It is cited as 2；

It is configured in TDD uplink/downlink in the case of 6, scheduling PUSCH PDCCH reception subframe is 0 and described When the least significant bit indicated value in the upper line index domain in the Downlink Control Information of PDCCH carryings is 1, PUSCH sends subframe rope It is cited as 6；

It is configured in TDD uplink/downlink in the case of 6, scheduling PUSCH PDCCH reception subframe is 0 and described When the highest significant position indicated value in the upper line index domain in the Downlink Control Information of PDCCH carryings is 1, PUSCH sends subframe rope It is cited as 7.

16. method according to claim 5, it is characterised in that the transmission subframe index and corresponding physics of the PUSCH Corresponding relation between mixed automatic re-transmission indicating channel PHICH reception subframe index also includes at least one of:

It is configured in TDD uplink/downlink in the case of 0, when PUSCH transmission subframe index is 1, corresponding PHICH It is that 6, PUSCH sends subframe index when be 6 to receive subframe index, and corresponding PHICH receptions subframe index is 1；

The TDD uplink/downlinks are configured in the case of 1 or 2, and when PUSCH transmission subframe index is 1, corresponding PHICH is received Subframe index is 5, PUSCH when to send subframe index be 6, and it is 0 that corresponding PHICH, which receives subframe index,；

The TDD uplink/downlinks are configured to 3,4,5 in the case of any one, and PUSCH sends subframe index when being 1, accordingly It is 7 that PHICH, which receives subframe index,；

The TDD uplink/downlinks are configured in the case of 6, and when PUSCH transmission subframe index is 1, corresponding PHICH receives son Frame index is 5, PUSCH when to send subframe index be 6, and it is 0 that corresponding PHICH, which receives subframe index,.

17. method according to claim 5, it is characterised in that the transmission subframe index and corresponding physics of the PUSCH Corresponding relation between mixed automatic re-transmission indicating channel PHICH reception subframe index also includes at least one of:

It is configured in TDD uplink/downlink in the case of 0, when it is 6 that the PHICH, which receives subframe index, the son There are two PHICH group resources on frame 6, wherein, when it is 2 that PUSCH, which sends subframe index, PHICH corresponding with the PUSCH It is mapped in first PHICH group resource of described two PHICH groups resources, when it is 1 that PUSCH, which sends subframe index, with institute The corresponding PHICH of PUSCH are stated to be mapped in second PHICH group resource of described two PHICH groups resources；

It is configured in TDD uplink/downlink in the case of 0, when it is 1 that the PHICH, which receives subframe index, the son There are two PHICH group resources on frame 1, wherein, when it is 7 that PUSCH, which sends subframe index, PHICH corresponding with the PUSCH It is mapped in first PHICH group resource of described two PHICH groups resources, when it is 6 that PUSCH, which sends subframe index, with institute The corresponding PHICH of PUSCH are stated to be mapped in second PHICH group resource of described two PHICH groups resources.

18. method according to claim 5, it is characterised in that the transmission subframe index and corresponding physics of the PUSCH Corresponding relation between mixed automatic re-transmission indicating channel PHICH reception subframe index also includes:

It is configured in TDD uplink/downlink in the case of 6, when it is 5 that the PHICH, which receives subframe index, the son There are two PHICH group resources on frame 5, wherein, when it is 8 that PUSCH, which sends subframe index, PHICH corresponding with the PUSCH It is mapped in first PHICH group resource of described two PHICH groups resources, when it is 1 that PUSCH, which sends subframe index, with institute The corresponding PHICH of PUSCH are stated to be mapped in second PHICH group resource of described two PHICH groups resources；

It is configured in TDD uplink/downlink in the case of 6, when it is 0 that the PHICH, which receives subframe index, the son There are two PHICH group resources on frame 0, wherein, when it is 4 that PUSCH, which sends subframe index, PHICH corresponding with the PUSCH It is mapped in first PHICH group resource of described two PHICH groups resources, when it is 6 that PUSCH, which sends subframe index, with institute The corresponding PHICH of PUSCH are stated to be mapped in second PHICH group resource of described two PHICH groups resources.

19. method according to claim 6, it is characterised in that the transmit power control of the PUSCH includes：

It is that the corresponding running time-frequency resource of the uplink pilot time slot is described up with being located in the resource distribution mode of the PUSCH After pilot time slot and the sub-frame of uplink adjacent with the uplink pilot time slot running time-frequency resource together as an independent thing When managing Uplink Shared Channel time-frequency resource allocating to the terminal, respectively in the uplink pilot time slot and the sub-frame of uplink On running time-frequency resource the PUSCH is sent according to independent Power Control.

20. method according to claim 19, it is characterised in that it is described respectively the uplink pilot time slot and it is described on Sending the PUSCH according to independent Power Control on the running time-frequency resource of row subframe includes：

Receive the first power contorl parameters and the second power contorl parameters that base station is sent；

The PUSCH is sent on the running time-frequency resource of the uplink pilot time slot by first power contorl parameters, is passed through Second power contorl parameters send the PUSCH on the running time-frequency resource of the sub-frame of uplink.

21. a kind of sending method of Physical Uplink Shared Channel, it is characterised in that including：

Configuration information is issued to terminal by signaling；

The Physical Uplink Shared Channel PUSCH that the terminal is sent is received, wherein, the PUSCH is the terminal according to acquisition Configuration information and/or predefined rule, the corresponding running time-frequency resource of uplink pilot time slot in the special subframe of radio frames On sent to base station, the time domain orthogonal frequency division multiplex OFDM symbolic number of the uplink pilot time slot is N, and N value is at least wrapped Include the integer between 1 to 6.

22. method according to claim 21, it is characterised in that the configuration information and/or predefined rule include At least one of：

Time-domain OFDM symbols of the PUSCH in the uplink pilot time slot is configured, the resource distribution mode of the PUSCH is matched somebody with somebody Put, the resource distribution of the demodulation pilot tone of the PUSCH, the transmission subframe index of the PUSCH and the scheduling PUSCH physics The transmission subframe index of corresponding relation, the PUSCH between down control channel PDCCH reception subframe index and corresponding The transmission of corresponding relation and the PUSCH between physical mixed automatic re-transmission indicating channel PHICH reception subframe index Power Control.

23. method according to claim 22, it is characterised in that the PUSCH in the uplink pilot time slot when Domain OFDM symbol configuration includes：

Configuring M OFDM symbol in the uplink pilot time slot is used for the terminal transmission PUSCH, wherein, the M OFDM Symbol is the subset of N number of OFDM symbol, and M is 1 between N and including 1 and N integer.

24. method according to claim 23, it is characterised in that the M OFDM symbol is in the uplink pilot time slot N number of OFDM symbol in position by base station is by signal deployment and is handed down to terminal.

25. method according to claim 23, it is characterised in that M in the configuration uplink pilot time slot OFDM symbol, which is used for the terminal transmission PUSCH, to be included：

The terminal is made an appointment in the M time-domain OFDM symbol length adjacent with protection interval in the special subframe with terminal Uplink pilot time slot on send PUSCH, wherein, the value of the M is allocated to terminal by base station by high-level signaling.

26. method according to claim 22, it is characterised in that the PUSCH in the uplink pilot time slot when Domain OFDM symbol configuration is configured by way of bit map or bit diagram and is handed down to the terminal.

27. method according to claim 22, it is characterised in that the resource distribution mode configuration of the PUSCH includes：

Added bits are set in Downlink Control Information, wherein, the added bits are used to indicate the uplink pilot time slot Corresponding running time-frequency resource as an independent Physical Uplink Shared Channel time-frequency resource allocating to terminal, or will be described up The corresponding running time-frequency resource of pilot time slot with it is after the uplink pilot time slot and adjacent with the uplink pilot time slot upper The running time-frequency resource of row subframe gives the terminal together as an independent Physical Uplink Shared Channel time-frequency resource allocating.

28. method according to claim 22, it is characterised in that the resource distribution mode configuration of the PUSCH also includes：

By the corresponding running time-frequency resource of the uplink pilot time slot with after the uplink pilot time slot and with it is described up The running time-frequency resource of the adjacent sub-frame of uplink of pilot time slot is together as an independent Physical Uplink Shared Channel running time-frequency resource point M orthogonal frequency division multiplex OFDM symbol for being used to send the PUSCH described in dispensing during terminal, in the uplink pilot time slot is used The PUSCH in the M OFDM symbol specified in the sub-frame of uplink is sent in repetition, wherein, the M OFDM symbol specified Position is by base station is by signal deployment and is issued to the terminal, or is pre-configured with by base station and terminal and is issued to the end End, the M is 1 between N and including 1 and N integer.

29. method according to claim 22, it is characterised in that the resource distribution of the demodulation pilot tone of the PUSCH includes Following at least one：

30. method according to claim 22, it is characterised in that

The PUSCH sends subframe index and scheduling PUSCH PDSCH receives the corresponding relation between subframe index for base Stand and the predefined rule of terminal both sides；

The PUSCH sends subframe index and corresponding PHICH receives the corresponding relation between subframe index for base station and terminal The predefined rule of both sides.

31. method according to claim 22, it is characterised in that the transmit power control of the PUSCH includes：

It is that the corresponding running time-frequency resource of the uplink pilot time slot is described up with being located in the resource distribution mode of the PUSCH After pilot time slot and the sub-frame of uplink adjacent with the uplink pilot time slot running time-frequency resource together as an independent thing When managing Uplink Shared Channel time-frequency resource allocating to the terminal, respectively receiving terminal the uplink pilot time slot and it is described on The PUSCH sent on the running time-frequency resource of row subframe according to independent Power Control.

32. method according to claim 22, it is characterised in that receiving terminal respectively in the uplink pilot time slot and Also include before the PUSCH sent on the running time-frequency resource of the sub-frame of uplink according to independent Power Control：

The first power contorl parameters and the second power contorl parameters are issued to terminal, wherein, first power contorl parameters are used The PUSCH is sent on the running time-frequency resource of the uplink pilot time slot in the terminal, second power contorl parameters are used The PUSCH is sent on the running time-frequency resource of the sub-frame of uplink in the terminal.

33. a kind of dispensing device of Physical Uplink Shared Channel, it is characterised in that including：

First sending module, for the configuration information according to acquisition and/or predefined rule, in the special subframe of radio frames The corresponding running time-frequency resource of uplink pilot time slot on send Physical Uplink Shared Channel PUSCH to base station, wherein, it is described up to lead The time domain orthogonal frequency division multiplex OFDM symbolic number of frequency time slot is N, and N value at least includes the integer between 1 to 6.

34. device according to claim 33, it is characterised in that first sending module includes：

First transmitting element, sends described in the M OFDM symbol in the uplink pilot time slot to the base station PUSCH, wherein, the M OFDM symbol is the subset of N number of OFDM symbol, and M is 1 between N and including the whole of 1 and N Number.

35. device according to claim 34, it is characterised in that first transmitting element be additionally operable to it is described special The PUSCH is sent to the base station in M adjacent OFDM symbol of the protection interval of subframe, wherein, the value of the M is by base station By signal deployment and it is issued to terminal.

36. device according to claim 35, it is characterised in that the M OFDM symbol is in the uplink pilot time slot N number of OFDM symbol in position by base station is by signal deployment and is issued to terminal.

37. device according to claim 33, it is characterised in that the configuration information and/or predefined rule include At least one of：

38. the device according to claim 37, it is characterised in that described device also includes：

First processing module, for the resource distribution mode for being the PUSCH in the configuration information and/or predefined rule In the case of, provided the corresponding running time-frequency resource of the uplink pilot time slot as an independent Physical Uplink Shared Channel time-frequency Distribute to terminal in source；

Second processing module, for by the corresponding running time-frequency resource of the uplink pilot time slot with positioned at the uplink pilot time slot it Afterwards and the sub-frame of uplink adjacent with the uplink pilot time slot running time-frequency resource it is shared together as an independent physical uplink Channel time-frequency resource allocating gives the terminal.

39. the device according to claim 37, it is characterised in that the resource distribution of the demodulation pilot tone of the PUSCH includes：

40. the device according to claim 38, it is characterised in that described device also includes：

3rd processing module, for the money in the configuration information and/or the predefined regular demodulation pilot tone for the PUSCH Source configure in the case of, the PUSCH resource distribution mode be by the corresponding running time-frequency resource of the uplink pilot time slot with After the uplink pilot time slot and the sub-frame of uplink adjacent with the uplink pilot time slot running time-frequency resource together as When one independent Physical Uplink Shared Channel time-frequency resource allocating gives the terminal, sent on the uplink pilot time slot The PUSCH sent on PUSCH and the sub-frame of uplink shares the PUSCH sent on the sub-frame of uplink demodulation pilot tone money Source.

41. the device according to claim 38, it is characterised in that described device also includes：

Fourth processing module, for being by the corresponding time-frequency of the uplink pilot time slot in the resource distribution mode of the PUSCH Resource with after the uplink pilot time slot and together with the running time-frequency resource of the sub-frame of uplink adjacent with the uplink pilot time slot When giving the terminal as an independent Physical Uplink Shared Channel time-frequency resource allocating, it is used in the uplink pilot time slot Sending the M OFDM symbol of the PUSCH is used to repeat to send to be located at after the uplink pilot time slot and up lead with described The PUSCH information for the M OFDM symbol specified in the adjacent sub-frame of uplink of frequency time slot, wherein, the M OFDM symbol specified Position made an appointment for base station and terminal, or by base station is by signal deployment and is issued to terminal, the M is 1 between N And include 1 and N integer.

42. the device according to claim 38, it is characterised in that described device also includes：

5th processing module, for the configuration information and/or it is predefined rule for the PUSCH send subframe index and In the case of corresponding relation between the reception subframe index for the PDCCH for dispatching the PUSCH, in the resource point of the PUSCH With mode be by the corresponding running time-frequency resource of the uplink pilot time slot with after the uplink pilot time slot and with it is described on The running time-frequency resource of the adjacent sub-frame of uplink of row pilot time slot is together as an independent Physical Uplink Shared Channel running time-frequency resource When distributing to the terminal, the PUSCH send subframe index and dispatch the PDCCH of the PUSCH reception subframe index it Between corresponding relation follow pairs of the PUSCH between the sub-frame of uplink and the scheduling PUSCH PDCCH reception subframe It should be related to.

43. the device according to claim 38, it is characterised in that described device also includes：

6th processing module, for the configuration information and/or it is predefined rule for the PUSCH send subframe index and In the case that corresponding PHICH receives the corresponding relation between subframe index, the PUSCH resource distribution mode for by institute State the corresponding running time-frequency resource of uplink pilot time slot with after the uplink pilot time slot and with the uplink pilot time slot phase The running time-frequency resource of adjacent sub-frame of uplink gives the end together as an independent Physical Uplink Shared Channel time-frequency resource allocating During end, the corresponding relation that the PUSCH is sent between subframe index and corresponding PHICH reception subframe index follows described Corresponding relations of the PUSCH between the sub-frame of uplink receives subframe with corresponding PHICH.

44. the device according to claim 38, it is characterised in that described device also includes：

7th processing module, for being by the running time-frequency resource of the uplink pilot time slot in the resource distribution mode of the PUSCH During as an independent Physical Uplink Shared Channel time-frequency resource allocating to terminal, the PUSCH is not supported in time division duplex TDD uplink/downlinks be configured to uplink pilot time slot that 0, TDD uplink/downlinks are configured in the case of at least one of 6 it is corresponding when Sent in frequency resource.

45. the device according to claim 37, it is characterised in that described device also includes：

First setup module, for the transmission subframe index for being the PUSCH in the configuration information and/or predefined rule During corresponding relation between the reception subframe index for the physical downlink control channel PDCCH for dispatching the PUSCH, execution includes The operation of at least one of：

46. the device according to claim 37, it is characterised in that described device also includes：

Second setup module, for the transmission subframe index for being the PUSCH in the configuration information and/or predefined rule During corresponding relation between the reception subframe index for the physical downlink control channel PDCCH for dispatching the PUSCH, execution includes The operation of at least one of：

47. the device according to claim 37, it is characterised in that described device also includes：

3rd setup module, for the transmission subframe index for being the PUSCH in the configuration information and/or predefined rule During corresponding relation between the reception subframe index for the physical downlink control channel PDCCH for dispatching the PUSCH, execution includes The operation of at least one of：

48. the device according to claim 37, it is characterised in that described device also includes：

4th setup module, for the transmission subframe index for being the PUSCH in the configuration information and/or predefined rule During corresponding relation between corresponding physical mixed automatic re-transmission indicating channel PHICH reception subframe index, execution includes The operation of at least one of：

49. the device according to claim 37, it is characterised in that described device also includes：

5th setup module, for the transmission subframe index for being the PUSCH in the configuration information and/or predefined rule During corresponding relation between corresponding physical mixed automatic re-transmission indicating channel PHICH reception subframe index, execution includes The operation of at least one of：

50. the device according to claim 37, it is characterised in that described device also includes：

51. the device according to claim 38, it is characterised in that described device also includes:

Control module, for the feelings controlled in the configuration information and/or predefined rule for the transmit power of the PUSCH It is with being located on described by the corresponding running time-frequency resource of the uplink pilot time slot in the resource distribution mode of the PUSCH under condition After row pilot time slot and the sub-frame of uplink adjacent with the uplink pilot time slot running time-frequency resource it is independent together as one When Physical Uplink Shared Channel time-frequency resource allocating gives the terminal, respectively in the uplink pilot time slot and the sub-frame of uplink Running time-frequency resource on send the PUSCH according to independent Power Control.

52. device according to claim 51, it is characterised in that the control module includes：

Receiving unit, the first power contorl parameters and the second power contorl parameters for receiving base station transmission；

Second transmitting element, for being sent out by first power contorl parameters on the running time-frequency resource of the uplink pilot time slot The PUSCH is sent, the PUSCH is sent on the running time-frequency resource of the sub-frame of uplink by second power contorl parameters.

53. a kind of dispensing device of Physical Uplink Shared Channel, it is characterised in that including：

Second sending module, for issuing configuration information to terminal by signaling；

First receiving module, for receiving the Physical Uplink Shared Channel PUSCH that the terminal is sent, wherein, the PUSCH is The terminal is according to the configuration information and/or predefined rule of acquisition, during ascending pilot frequency in the special subframe of radio frames Sent on the corresponding running time-frequency resource of gap to base station, the time domain orthogonal frequency division multiplex OFDM symbolic number of the uplink pilot time slot is N, N value at least include the integer between 1 to 6.

54. device according to claim 53, it is characterised in that the configuration information and/or predefined rule include At least one of：

55. device according to claim 53, it is characterised in that described device includes：

Configuration module, for the configuration information and/or it is predefined rule for the PUSCH in the uplink pilot time slot In time-domain OFDM symbol configuration when, configuring M OFDM symbol in the uplink pilot time slot is used for described in terminal sends PUSCH, wherein, the M OFDM symbol is the subset of N number of OFDM symbol, and M is 1 between N and including the whole of 1 and N Number.

56. device according to claim 55, it is characterised in that the M OFDM symbol is in the uplink pilot time slot N number of OFDM symbol in position by base station is by signal deployment and is handed down to terminal.

57. device according to claim 55, it is characterised in that the configuration module includes：

Processing unit, for making an appointment the terminal at M adjacent with protection interval in the special subframe with terminal PUSCH is sent on the uplink pilot time slot of domain OFDM symbol length, wherein, the value of the M is configured by base station by high-level signaling To terminal.

58. device according to claim 54, it is characterised in that described device also includes：

First issues module, and bit is passed through for time-domain OFDM symbol configurations of the PUSCH in the uplink pilot time slot The mode of mapping or bit diagram configures and is handed down to the terminal.

59. device according to claim 54, it is characterised in that described device also includes：

6th setup module, for the resource distribution mode for being the PUSCH in the configuration information and/or predefined rule In the case of configuration, added bits are set in Downlink Control Information, wherein, the added bits are used for instruction will be described up The corresponding running time-frequency resource of pilot time slot is as an independent Physical Uplink Shared Channel time-frequency resource allocating to terminal, or general The corresponding running time-frequency resource of the uplink pilot time slot with after the uplink pilot time slot and with the uplink pilot time slot The running time-frequency resource of adjacent sub-frame of uplink is together as an independent Physical Uplink Shared Channel time-frequency resource allocating to described Terminal.

60. device according to claim 59, it is characterised in that described device also includes：

7th setup module, for the resource distribution mode for being the PUSCH in the configuration information and/or predefined rule In the case of configuration, by the corresponding running time-frequency resource of the uplink pilot time slot with after the uplink pilot time slot and with When the running time-frequency resource of the adjacent sub-frame of uplink of the uplink pilot time slot is together as an independent Physical Uplink Shared Channel It is used for M OFDM for sending the PUSCH when frequency resource allocation gives the terminal, in the uplink pilot time slot OFDM symbol is used to repeat to send the PUSCH in the M OFDM symbol specified in the sub-frame of uplink, wherein, the M specified Individual OFDM symbol position by base station is by signal deployment and is issued to the terminal, or by base station and terminal be pre-configured with and under It is sent to the terminal, the M is 1 between N and including 1 and N integer.

61. device according to claim 54, it is characterised in that the resource distribution of the demodulation pilot tone of the PUSCH includes Following at least one：

62. device according to claim 54, it is characterised in that

63. device according to claim 59, it is characterised in that described device also includes：

Second receiving module, for being controlled in the configuration information and/or predefined rule for the transmit power of the PUSCH In the case of, the PUSCH resource distribution mode for by the corresponding running time-frequency resource of the uplink pilot time slot with positioned at institute State after uplink pilot time slot and the sub-frame of uplink adjacent with the uplink pilot time slot running time-frequency resource together as one solely When vertical Physical Uplink Shared Channel time-frequency resource allocating gives the terminal, respectively receiving terminal in the uplink pilot time slot and The PUSCH sent on the running time-frequency resource of the sub-frame of uplink according to independent Power Control.

64. device according to claim 63, it is characterised in that described device also includes：

Second issues module, for distinguishing receiving terminal in the uplink pilot time slot and the running time-frequency resource of the sub-frame of uplink On before the PUSCH that sends according to independent Power Control, issue the first power contorl parameters and the second Power Control to terminal Parameter, wherein, first power contorl parameters are sent for the terminal on the running time-frequency resource of the uplink pilot time slot The PUSCH, second power contorl parameters send described for the terminal on the running time-frequency resource of the sub-frame of uplink PUSCH。