CN107529226A

CN107529226A - The transmission method and device of a kind of Physical Uplink Shared Channel

Info

Publication number: CN107529226A
Application number: CN201610671946.XA
Authority: CN
Inventors: 高雪娟; 潘学明
Original assignee: China Academy of Telecommunications Technology CATT
Current assignee: China Academy of Telecommunications Technology CATT
Priority date: 2016-06-22
Filing date: 2016-08-15
Publication date: 2017-12-29

Abstract

The invention discloses a kind of transmission method of Physical Uplink Shared Channel and device, including：The PUSCH that terminal is transmitted according to the down control channel and/or PHICH using up DCI format detected in subframe n, adjustment or scheduling in special subframe n+k, wherein k are pre-defined value.Base station sends the down control channel and/or PHICH using up DCI format in subframe n, PUSCH is transmitted in special subframe n+k for adjustment or dispatch terminal, wherein k is pre-defined value.The present invention gives a kind of scheduling time sequence definition that PUSCH is transmitted in special subframe, so as to ensure normally to transmit PUSCH in special subframe.

Description

The transmission method and device of a kind of Physical Uplink Shared Channel

Technical field

The present invention relates to wireless communication technology field, the transmission method and dress of more particularly to a kind of Physical Uplink Shared Channel Put.

Background technology

Below first to existing LTE (Long Term Evolution, Long Term Evolution) TDD (Time Division Duplex, time division duplex) frame structure (LTE Rel-8/9/10/11/12/13) is introduced.

Fig. 1 is LTE tdd frame structural representations, as illustrated, existing LTE TDD systems use frame structure (frame Structure type 2, abbreviation FS2), in a tdd system, uplink and downlink transmission uses difference in identical frequency Frame or different time-gap.Each 10ms radio frames are made up of two 5ms fields in FS2, comprising 5 1ms length in each field Subframe.Subframe in FS2 is divided into three classes：Descending sub frame, sub-frame of uplink and special subframe, each special subframe is by DwPTS (Downlink Pilot Time Slot, downlink transfer time slot), GP (Guard Period, protection interval) and UpPTS (Uplink Pilot Time Slot, upstream transmission time slot) three parts are formed.The 7 kinds of ascending-descending subframes configuration supported in FS2 Mode is as shown in table 1.Special subframe all provides by the end of supporting as shown in table 2 10 kinds to configure in Rel-13 in every kind of configuration DwPTS and UpPTS symbol lengths, GP length can pass through total number of symbols in a subframe and DwPTS and UpPTS The difference of symbol lengths obtains.In table 2, X is the value of high-level signaling configuration, for additional extension UpPTS length, supports X=2 at present Or 4 symbols, a part is marked off as UpPTS equivalent to using GP.DwPTS can transmit descending pilot frequency, downlink service data (such as DSCH Downlink Shared Channel) and descending control signaling (such as down control channel), GP do not transmit any signal, UpPTS only transmit with Machine accesses and SRS (Sounding Reference Symbol, detection reference signal), it is impossible to it is (such as up common to transmit uplink service Enjoy channel) or ascending control information (such as ascending control channel).

Table 1：Ascending-descending subframes configuration mode

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

To existing LTE TDD PUSCH, (Physical Uplink Shared Channel, physical uplink are shared below Channel) ACK/NACK (Acknowledgement/Negative Acknowledgement, positive acknowledgment/NACK) it is anti- Feedback sequential illustrates.

In existing LTE TDD systems, Physical Uplink Control Channel PUSCH is only transmitted in sub-frame of uplink.Terminal is being compiled It to be n+k in numbering that PUSCH is transmitted in number sub-frame of uplink for being n_PHICHDescending sub frame in receive PHICH (Physical Hybrid-ARQ Indicator Channel, Physical HARQ Indicator Channel), to obtain the ACK/NACK feedback letters of the PUSCH Breath, wherein, k_PHICHDefinition it is as shown in table 3, if PHICH carry NACK, terminal according to previous PUSCH transmission configuration Retransmit defeated；In addition, terminal, which also needs to the detection in detection PHICH subframe, uses up DCI (Downlink Control Indicator, it is descending control instruction) form down control channel (carrying uplink scheduling license (UL grant) descending control Channel processed), NDI (New Data Indicator, new data instructions field) is included in the down control channel；Adjusted for dynamic Degree, indicated whether with whether NDI overturns as new data, such as when PUSCH is transmitted for the first time in corresponding down control channel NDI be 0, then if receiving NDI=0 down control channel in the PHICH detection subframes after PUSCH, that is, illustrate NDI is not overturn, i.e., the down control channel is retransmitted for dispatching this PUSCH；For semi-continuous scheduling, NDI is 1 expression Retransmit, NDI is 0 expression activation/deactivation dispatch；If NDI is designated as new data, illustrate that the down control channel is adjusted One new PUSCH of degree first time transmission, if NDI is designated as retransmitting, illustrate that down control channel scheduling is previous PUSCH transmission again.Therefore, PHICH and the down control channel using up DCI format may serve to scheduling one PUSCH is retransmitted, and a new PUSCH transmission can also be dispatched using the down control channel of up DCI format, i.e., initial Transmission.If PHICH and down control channel are detected simultaneously by a PHICH detects subframe, with down control channel Information be defined, i.e., according to the NDI of down control channel determine whether for retransmit, if retransmit, according to this it is descending control believe Schedule information (may be obstructed with the schedule information of first time transmission) indicated by road retransmits to the PUSCH, if only received When having arrived PHICH and PHICH instruction NACK, then using the PUSCH, the configuration of transmission identical is retransmitted for the first time；Therefore, exist In above-mentioned detection PHICH subframe, the down control channel using up DCI format might not be able to detect that, if do not had Have, then determine whether to retransmit on the basis of the feedback information of PHICH carryings, if it is detected to use up DCI format Determine whether to retransmit on the basis of down control channel.

In addition, also define when terminal detects down control channel and/or PHICH using up DCI format, weight Biography or the just subframe corresponding to biography where PUSCH, i.e. the scheduling sequential of PUSCH, as shown in table 4.Terminal is according in subframe n The down control channel and/or PHICH using up DCI format detected, adjusts the PUSCH transmission in subframe n+k.

Table 3:k_PHICH for TDD

Table 4：k for TDD configurations 0-6

Explanation：Numbering in table 3, table 4 is the subframe that numbering is n+k in units of radio frames, if n+k is more than 9, The subframe being then shown to be in next radio frames.

The deficiencies in the prior art are：

In LTE existing systems, do not support to transmit PUSCH in the UpPTS in special subframe, therefore, and it is undefined The PUSCH transmitted in UpPTS in special subframe scheduling sequential.

The content of the invention

The invention provides the transmission method of PUSCH a kind of and device, to ensure normally in special subframe PUSCH is transmitted in UpPTS.

A kind of PUSCH transmission method is provided in the embodiment of the present invention, including：

Terminal is according to the down control channel and/or PHICH using up DCI format detected in subframe n, adjustment Or the PUSCH that scheduling is transmitted in special subframe n+k, wherein k are pre-defined value.

It is preferred that for TDD uplink-downlink configurations 0, in subframe n=0 or 5, PHICH for corresponding special subframe and/ Or down control channel, define k=6 or 11, or, in subframe n=1 or 6, PHICH for corresponding special subframe and/or Down control channel, define k=5 or 10.

It is preferred that the down control channel of the corresponding special subframe is to pass through 2 bits in the down control channel The down control channel for the corresponding special subframe that upper line index UL index instructions field determines.

It is preferred that specifically include：

When the LSB and MSB of the UL index are set to 0, the down control channel corresponds in special subframe The PUSCH of transmission, when at least one in the LSB or MBS of the UL index is set to 1, the down control channel is corresponding In the PUSCH transmitted in generic uplink subframe.

It is preferred that for TDD uplink-downlink configurations 1, in subframe n=0 or 5, k=6 or 11 is defined；Or

For TDD uplink-downlink configurations 1, in subframe n=4 or 9, PHICH and/or descending control for corresponding special subframe Channel processed, define k=2 or 7 or 12；Or in subframe n=1 or 6, PHICH for corresponding special subframe and/or descending Control channel, define k=5 or 10.

It is preferred that for TDD uplink-downlink configurations 2, in subframe n=4 or 9, k=2 or 7 or 12 is defined；Or in subframe In n=0 or 5, k=6 or 11 is defined；Or in subframe n=1 or 6, define k=5 or 10；Or

For TDD uplink-downlink configurations 2, in subframe n=3 or 8, PHICH and/or descending control for corresponding special subframe Channel processed, define k=3 or 8 or 13.

It is preferred that for TDD uplink-downlink configurations 3, in subframe n=7, k=4 is defined；Or in subframe n=5, it is fixed Adopted k=6；Or in subframe=6, define k=5；Or in subframe n=1, define k=10；Or

For TDD uplink-downlink configurations 3, in subframe n=8, PHICH and/or descending control for corresponding special subframe Channel, define k=3 or 13；Or in subframe n=9, PHICH and/or down control channel for corresponding to special subframe, Define k=2 or 12；Or in subframe n=0, for the PHICH and/or down control channel of corresponding special subframe, define k =11.

It is preferred that for TDD uplink-downlink configurations 4, in subframe n=4, k=7 is defined；Or in subframe n=5, it is fixed Adopted k=6；Or in subframe=6, define k=5；Or in subframe n=7, define k=4；Or in subframe n=0 In, define k=11；Or in subframe n=1, define k=10；Or

For TDD uplink-downlink configurations 4, in subframe n=8, PHICH and/or descending control for corresponding special subframe Channel, define k=3 or 13；Or in subframe n=9, PHICH and/or down control channel for corresponding to special subframe, Define k=2 or 12.

It is preferred that for TDD uplink-downlink configurations 5, in subframe n=3, k=8 is defined；Or in subframe n=4, it is fixed Adopted k=7；Or in subframe n=5, define k=6；Or in subframe=6, define k=5；Or in subframe n=7 In, define k=4；Or in subframe n=0, define k=11；Or in subframe n=1, define k=10；Or in son In frame n=9, k=2 or 12 is defined；Or

For TDD uplink-downlink configurations 5, in subframe n=8, PHICH and/or descending control for corresponding special subframe Channel, define k=3 or 13.

It is preferred that for TDD uplink-downlink configurations 6, in subframe n=0 or 5, PHICH for corresponding special subframe and/or Down control channel, define k=6 or 11；Or in subframe n=1 or 6, PHICH for corresponding special subframe and/or under Row control channel, define k=5 or 10；Or in subframe 9, PHICH and/or descending control for corresponding special subframe believe Road, define k=2 or 7 or 12.

It is preferred that the PHICH of the corresponding special subframe is corresponding I_PHICH=2 PHICH or corresponding I_PHICH=1 PHICH, wherein, the I_PHICHFor the parameter for determining PHICH resource.

It is preferred that the down control channel of the corresponding special subframe is to pass through the instruction in RNTI or DCI sizes or DCI The down control channel for the corresponding special subframe that domain determines.

Base station sends the down control channel and/or PHICH using up DCI format in subframe n, for adjusting or adjusting Degree terminal transmits PUSCH in special subframe n+k, and wherein k is pre-defined value.

It is preferred that specifically include：

A kind of PUSCH transmitting device is provided in the embodiment of the present invention, including：

Detection module, for detecting down control channel and/or PHICH in subframe n；

Adjusting module, for according to detected in subframe n using up DCI format down control channel and/or The PUSCH that PHICH, adjustment or scheduling are transmitted in special subframe n+k, wherein k are pre-defined value.

It is preferred that specifically include：

Determining module, for determine in subframe n send using up DCI format down control channel and/or PHICH；

Sending module, for sending down control channel and/or PHICH using up DCI format in subframe n, use PUSCH is transmitted in special subframe n+k in adjustment or dispatch terminal, wherein k is pre-defined value.

It is preferred that specifically include：

The present invention has the beneficial effect that：

In technical scheme provided by the invention, base station is sent in subframe n is believed using the descending control of up DCI format Road and/or PHICH, PUSCH is transmitted in special subframe n+k for adjustment or dispatch terminal, terminal detects according in subframe n What the down control channel and/or PHICH using up DCI format arrived, adjustment or scheduling were transmitted in special subframe n+k PUSCH, wherein k are pre-defined value.A kind of scheduling sequential for transmitting PUSCH in special subframe is given in scheme to determine Justice, so as to ensure normally to transmit PUSCH in special subframe.

Brief description of the drawings

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

Fig. 1 is LTE tdd frame structural representations in background technology；

Fig. 2 is the transmission method implementation process diagram of the PUSCH of end side in the embodiment of the present invention；

Fig. 3 is the transmitting device structural representation of the PUSCH in terminal in the embodiment of the present invention；

Fig. 4 is the transmitting device structural representation of the PUSCH on base station in the embodiment of the present invention；

Fig. 5 is terminal structure schematic diagram in the embodiment of the present invention；

Fig. 6 is architecture of base station schematic diagram in the embodiment of the present invention.

Embodiment

With the development and change of mobile communication business demand, uplink is carried out in TDD special subframes in order to realize, is proposed The new TDD special subframes configuration of definition, such as 6 symbols DwPTS, 2 symbol GP and 6 symbol UpPTS；In new spy In different sub-frame configuration, UpPTS length is added, so that terminal can transmit the channels such as Uplink Shared Channel in UpPTS.

But in LTE existing systems, do not support to transmit PUSCH in UpPTS, therefore, be not defined on UpPTS The PUSCH of middle transmission scheduling sequential, that is, do not have also scheme come it is clear and definite how dispatch terminal transmitted in UpPTS it is up common Channel is enjoyed, based on this, the information transmission scheme on a kind of PUSCH is provided in the embodiment of the present invention, to ensure in UpPTS Normal transmission PUSCH.The embodiment of the present invention is illustrated below in conjunction with the accompanying drawings.

In declarative procedure, it will be illustrated respectively from the implementation of terminal and base station side, wherein, due to the implementation of end side It is corresponding with base station side, therefore will mainly carries out implementation explanation by taking terminal as an example, those skilled in the art is according to the reality of end side The implementation for easily knowing base station side is applied, the two then will be also provided and coordinates the example implemented to more fully understand the embodiment of the present invention In the implementation of scheme that provides.Such explanation mode is not meant to that the two must coordinate implementation or must individually implement, In fact, when terminal and base station are performed separately, it also each solves the problems, such as end side, base station side, and the two is used in combination When, superior technique effect can be obtained.

Fig. 2 is the PUSCH of end side transmission method implementation process diagram, as illustrated, can include：

Step 201, terminal detect down control channel and/or PHICH in subframe n；

Step 202, terminal according to detected in subframe n using up DCI format down control channel and/or The PUSCH that PHICH, adjustment or scheduling are transmitted in special subframe n+k, wherein k are pre-defined value.

Specific implementation explanation is carried out below, and the TDD uplink-downlink configurations in implementation are specifically as follows following two situations：TDD Uplink-downlink configuration is the up TDD uplink-downlink configurations configured with reference to TDD uplink-downlink configurations or system information.It is then specific as follows：

In implementation, for TDD uplink-downlink configurations 0, in subframe n=0 or 5, PHICH for corresponding special subframe and/ Or down control channel, define k=6 or 11, or, in subframe n=1 or 6, PHICH for corresponding special subframe and/or Down control channel, define k=5 or 10.

Specifically, for TDD uplink-downlink configurations 0 (because downlink transfer subframe or time slot are less than up, therefore can only multiframe Dispatch, i.e. the down control channel and/or PHICH sent in a descending sub frame or time slot, on scheduling different time domain position PUSCH transmission in PUSCH transmission, such as two different sub-frame of uplink of scheduling, or one sub-frame of uplink of scheduling and one PUSCH transmission in special subframe), in subframe n=0 or 5, for corresponding I_PHICHUnder=2 PHICH or corresponding UpPTS Row control channel (such as pass through RNTI (Radio Network Tempory Identity, Radio Network Temporary Identifier) or DCI Corresponding instructions field in size or DCI can determine a down control channel received be corresponding generic uplink subframe also It is UpPTS, similarly hereinafter), k=6 or 11 is defined, or, in subframe n=1 or 6, for corresponding I_PHICH=1 PHICH or right UpPTS down control channel is answered, defines k=5 or 10；

Wherein, it 0 and 5 for a kind of definition mode, 1 and 6 is a kind of definition mode that subframe index, which are, in implementation A kind of definition can be only selected, i.e., only selects a kind of above-mentioned k definition, you can realization sends down control channel in subframe n And/or PHICH, for dispatching or adjusting the PUSCH transmission in special subframe n+k.

In implementation, for TDD uplink-downlink configurations 1, in subframe n=0 or 5, k=6 or 11 is defined；Or

Specifically, for TDD uplink-downlink configurations 1, there is following manner：

Mode 1 (without using more frame schedulings)：What is defined is used to dispatch the subframe and use of the PUSCH transmission in special subframe It is different in the subframe for dispatching the PUSCH transmission in generic uplink subframe, in subframe n=0 or 5, define k=6 or 11；

Mode 2 (uses more frame schedulings)：The subframe for being used to dispatch the PUSCH transmission in special subframe defined is with being used for It is identical to dispatch the subframe of the PUSCH transmission in generic uplink subframe, in subframe n=4 or 9, for corresponding I_PHICH=1 PHICH or corresponding UpPTS down control channel, defines k=2 or 7 or 12；Or in subframe n=1 or 6, for corresponding I_PHICH=1 PHICH or corresponding UpPTS down control channel, defines k=5 or 10；

Wherein, it 0 and 5 for a kind of definition mode, 1 and 6 is a kind of definition mode, 4 and 9 that subframe index, which are, For a kind of definition mode, a kind of definition can be only selected in implementation, i.e., only selects a kind of above-mentioned k definition, you can realized in son Down control channel and/or PHICH are sent in frame n, for dispatching or adjusting the PUSCH transmission in special subframe n+k.

In implementation, for TDD uplink-downlink configurations 2, in subframe n=4 or 9, k=2 or 7 or 12 is defined；Or in subframe In n=0 or 5, k=6 or 11 is defined；Or in subframe n=1 or 6, define k=5 or 10；Or

Specifically, for TDD uplink-downlink configurations 2, there is following manner：

Mode 1 (without using more frame schedulings)：In subframe n=4 or 9, k=2 or 7 or 12 is defined；Or in subframe n=0 Or in 5, define k=6 or 11；Or in subframe n=1 or 6, define k=5 or 10；

Mode 2 (uses more frame schedulings)：In subframe n=3 or 8, for corresponding I_PHICH=1 PHICH or corresponding UpPTS Down control channel, define k=3 or 8 or 13；

Wherein, it 0 and 5 for a kind of definition mode, 1 and 6 is a kind of definition mode, 3 and 8 that subframe index, which are, It is a kind of definition mode for a kind of definition mode, 4 and 9, a kind of definition can be only selected in implementation, i.e., only selects above-mentioned one kind K definition, you can realize and down control channel and/or PHICH are sent in subframe n, for dispatching or adjusting special subframe n+k In PUSCH transmission.

In implementation, for TDD uplink-downlink configurations 3, in subframe n=7, k=4 is defined；Or in subframe n=5, it is fixed Adopted k=6；Or in subframe=6, define k=5；Or in subframe n=1, define k=10；Or

Specifically, for TDD uplink-downlink configurations 3, there is following manner：

Mode 1 (without using more frame schedulings)：In subframe n=7, k=4 is defined；Or in subframe n=5, define k= 6；Or in subframe=6, define k=5；Or in subframe n=1, define k=10；

Mode 2 (uses more frame schedulings)：In subframe n=8, for corresponding I_PHICH=1 PHICH or corresponding UpPTS's Down control channel, define k=3 or 13；Or in subframe n=9, for corresponding I_PHICH=1 PHICH or corresponding UpPTS Down control channel, define k=2 or 12；Or in subframe n=0, for corresponding I_PHICH=1 PHICH or correspondingly UpPTS down control channel, define k=11；

Wherein, subframe index be 0 be a kind of definition mode, 5 be a kind of definition mode, 1 be a kind of definition mode, 6 it is a kind of definition mode, 7 be a kind of definition mode, 8 be a kind of definition mode, 9 is a kind of definition mode, can be only in implementation A kind of definition of selection, i.e., only select a kind of above-mentioned k definition, you can realize sent in subframe n down control channel and/or PHICH, for dispatching or adjusting the PUSCH transmission in special subframe n+k.

In implementation, for TDD uplink-downlink configurations 4, in subframe n=4, k=7 is defined；Or in subframe n=5, it is fixed Adopted k=6；Or in subframe=6, define k=5；Or in subframe n=7, define k=4；Or in subframe n=0 In, define k=11；Or in subframe n=1, define k=10；Or

Specifically, for TDD uplink-downlink configurations 4, there is following manner：

Mode 1 (without using more frame schedulings)：In subframe n=4, k=7 is defined；Or in subframe n=5, define k= 6；Or in subframe=6, define k=5；Or in subframe n=7, define k=4；Or in subframe n=0, definition K=11；Or in subframe n=1, define k=10；

Mode 2 (uses more frame schedulings)：In subframe n=8, for corresponding I_PHICH=1 PHICH or corresponding UpPTS's Down control channel, define k=3 or 13；Or in subframe n=9, for corresponding I_PHICH=1 PHICH or corresponding UpPTS Down control channel, define k=2 or 12；

Wherein, subframe index be 0 be a kind of definition mode, 5 be a kind of definition mode, 1 be a kind of definition mode, 6 it is a kind of definition mode, 4 be a kind of definition mode, 7 be a kind of definition mode, 8 be a kind of definition mode, 9 is a kind of definition side Formula, a kind of definition can be only selected in implementation, i.e., only selects a kind of above-mentioned k definition, you can realization sends descending in subframe n Control channel and/or PHICH, for dispatching or adjusting the PUSCH transmission in special subframe n+k.

In implementation, for TDD uplink-downlink configurations 5, in subframe n=3, k=8 is defined；Or in subframe n=4, it is fixed Adopted k=7；Or in subframe n=5, define k=6；Or in subframe=6, define k=5；Or in subframe n=7 In, define k=4；Or in subframe n=0, define k=11；Or in subframe n=1, define k=10；Or in son In frame n=9, k=2 or 12 is defined；Or

Specifically, for TDD uplink-downlink configurations 5, there is following manner：

Mode 1 (without using more frame schedulings)：In subframe n=3, k=8 is defined；Or in subframe n=4, define k= 7；Or in subframe n=5, define k=6；Or in subframe=6, define k=5；Or in subframe n=7, definition K=4；Or in subframe n=0, define k=11；Or in subframe n=1, define k=10；Or in subframe n=9 In, define k=2 or 12；

Mode 2 (uses more frame schedulings)：In subframe n=8, for corresponding I_PHICH=1 PHICH or corresponding UpPTS's Down control channel, define k=3 or 13；

Wherein, subframe index be 0 be a kind of definition mode, 5 be a kind of definition mode, 1 be a kind of definition mode, 6 it is a kind of definition mode, 3 be a kind of definition mode, 4 be a kind of definition mode, 7 be a kind of definition mode, 8 is a kind of definition side Formula, 9 are a kind of definition mode, and a kind of definition can be only selected in implementation, i.e., only selects a kind of above-mentioned k definition, you can are realized Down control channel and/or PHICH are sent in subframe n, for dispatching or adjusting the PUSCH transmission in special subframe n+k.

In implementation, for TDD uplink-downlink configurations 6, in subframe n=0 or 5, PHICH for corresponding special subframe and/or Down control channel, define k=6 or 11；Or in subframe n=1 or 6, PHICH for corresponding special subframe and/or under Row control channel, define k=5 or 10；Or in subframe 9, PHICH and/or descending control for corresponding special subframe believe Road, define k=2 or 7 or 12.

Specifically, for TDD uplink-downlink configurations 6 (can only more frame schedulings, reason is with setting to 0), in subframe n=0 or 5, For corresponding I_PHICH=1 PHICH or corresponding UpPTS down control channel, defines k=6 or 11；Or in subframe n=1 Or in 6, for corresponding I_PHICH=1 PHICH or corresponding UpPTS down control channel, defines k=5 or 10；Or in son In frame 9, for corresponding I_PHICH=1 PHICH or corresponding UpPTS down control channel, defines k=2 or 7 or 12；

Wherein, it 0 and 5 for a kind of definition mode, 1 and 6 for a kind of definition mode, 9 is one that subframe index, which are, Kind of definition mode, 0 and 9 for a kind of definition mode, 5 and 9 be a kind of definition mode for a kind of definition mode, 1 and 9,6 and 9 for a kind of definition mode, a kind of definition can be only selected in implementation, i.e., only selects a kind of above-mentioned k definition, you can realizes and exists Down control channel and/or PHICH are sent in subframe n, for dispatching or adjusting the PUSCH transmission in special subframe n+k.

In implementation, the PHICH of corresponding special subframe can be corresponding I_PHICH=2 PHICH or corresponding I_PHICH=1 PHICH, wherein, I_PHICHFor the parameter for determining PHICH resource.

In implementation, the down control channel of corresponding special subframe can be to pass through the instruction in RNTI or DCI sizes or DCI The down control channel for the corresponding special subframe that domain determines.

Specifically, when the PUSCH transmitted in the subframe n in the presence of scheduling in special subframe the up DCI of use simultaneously The down control channel of form, and scheduling transmitted in generic uplink subframe PUSCH using the descending of up DCI format During control channel, specifically include：

Mode A：Judge it is the scheduling for corresponding to UpPTS or generic uplink subframe by the size of the up DCI format Information；Correspond to the size of the up DCI format of different sizes in corresponding generic uplink subframe of UpPTS up DCI format； For example, a kind of possible implementation is：Terminal for supporting the transmission PUSCH in UpPTS, corresponding UpPTS up DCI Form is the up DCI format newly defined or increases the up DCI that additional bit domain obtains on the basis of existing DCI format Form, the up DCI format of corresponding generic uplink subframe is existing up DCI format, wherein, existing up DCI format can be with For the DCI format 0/4 defined in 3GPP 36.212Rel-13 and former version；Or

Mode B：Judge it is corresponding UpPTS or generic uplink by the specific instructions field in the up DCI format The schedule information of frame；I.e. specific instructions field is expressed as corresponding UpPTS down control channel when being " 1 ", specific instructions field is " 0 " When be expressed as the down control channel of corresponding generic uplink subframe, vice versa；Or indicate that process is compiled by specific instructions field Number, process numbering can be PUSCH in PUSCH and common subframe in UpPTS numbering or individually right jointly PUSCH in UpPTS is numbered, and individually the PUSCH in common subframe is numbered；

For example, a kind of possible implementation is：Terminal for supporting the transmission PUSCH in UpPTS, is reused on existing Filling (padding) bit in row DCI format transmits as above-mentioned specific instructions field at this point for support in UpPTS PUSCH terminal-pair answers UpPTS identical with the up DCI format of generic uplink subframe, in the same size, by parsing therein 1 Or more bit padding bits are as specific instructions field, it is known that on being UpPTS or be common corresponding to the up DCI Row subframe；

Alternatively possible implementation is：The up DCI format A of terminal definitions to supporting the transmission PUSCH in UpPTS, The up DCI format A can increase extra instructions field on the basis of existing up DCI format, such as in DCI format 0/4 On the basis of increase extra instructions field, the instructions field to supporting the terminal for transmitting PUSCH in UpPTS effective, or has been only The up DCI format redefined entirely, support to transmit PUSCH terminal in UpPTS, in UpPTS and generic uplink subframe The PUSCH of middle transmission is scheduled using the up DCI format A, can also further be defined and be supported to transmit in UpPTS PUSCH terminal, its all or part of descending DCI format can carry out padding according to the size of the up DCI format A, It is up so as to ensure or the up DCI format A carries out padding according to the size of its all or part of descending DCI format DCI format A is identical with the size of all or part of descending DCI format, the blind check number entered without increasing terminal-pair DCI；Such as： The terminal for transmitting PUSCH in UpPTS for support defines its up DCI format based on existing DCI format 0, existing It is for dispatching generic uplink that at least additionally 1 bit instructions field of increase, which is used to refer to the DCI format, on the basis of DCI format 0 PUSCH transmission is carried out in frame, or PUSCH transmission is carried out in UpPTS for dispatching, being not excluded for certainly can also be further Increase other instructions field, such as increase HARQ process number instructions field etc., the up DCI format 0 after increase instructions field is as branch The up DCI format 0 corresponding to the terminal that PUSCH is transmitted in UpPTS is held, because former DCI designs ensure the up He of DCI format 0 Descending DCI format 1A size is identical, so as to reduce blind check number, in order to maintain original blind check number, when support is in UpPTS , can be to supporting when the size of up DCI format 0 corresponding to middle transmission PUSCH terminal is less than descending DCI format 1A Under the progress of DCI format 0 padding corresponding to PUSCH terminal is transmitted in UpPTS to ensure that its DCI size is corresponding Row DCI format 1A is identical, when the size for supporting to transmit the descending DCI format 1A corresponding to PUSCH terminal in UpPTS is less than Corresponding to it during up DCI format 0, it can enter to supporting to transmit the DCI format 1A corresponding to PUSCH terminal in UpPTS Row padding is identical to ensure the corresponding up DCI format 0 of its DCI size, wherein, support to transmit in UpPTS Descending DCI format corresponding to PUSCH terminal, such as DCI format 1A, also it is not excluded for using other descending DCI formats certainly Such as DCI1B/1C/1D/2/2A/2B, existing descending DCI format can be directly reused, in order to maintain blind check number, is supported The descending DCI format 3 corresponding to PUSCH terminal is transmitted in UpPTS and 3A, its DCI size pass with above-mentioned support in UpPTS The size of up DCI format 0 and descending DCI format 1A corresponding to defeated PUSCH terminal；

Or mode C：On RNTI judgements are correspondence UpPTS or are common used in the down control channel The schedule information of row subframe；Correspond to the RNTI corresponding to UpPTS down control channel and be different from corresponding generic uplink subframe Down control channel corresponding to RNTI, the RNTI be used for scramble down control channel, for example, a kind of possible implementation For：The terminal for transmitting PUSCH in UpPTS is supported to be used to dispatch the PUSCH that transmits in UpPTS and in generic uplink subframe Up DCI format is identical used in the PUSCH of transmission, can such as reuse existing up DCI format, or newly define up DCI format；Certainly, also it is not excluded for using different DCI formats.

In implementation, the down control channel of corresponding special subframe can also be by 2 ratios in the down control channel The down control channel for the corresponding special subframe that line index UL index instructions field determines on spy.

Specifically, terminal line index (UL index) instructions field on 2 bits in the down control channel, Determine whether the down control channel corresponds to the PUSCH sent in special subframe；As the LSB (Least of the UL index Significant Bit, minimum effective bit) and MSB (Most Significant Bit, highest significant bit) be all set to 0 When, the down control channel corresponds to the PUSCH transmitted in special subframe, when in the LSB or MBS of the UL index At least one when being set to 1, the down control channel corresponds to the PUSCH transmitted in generic uplink subframe.

A kind of implementation is that, for TDD uplink-downlink configurations 0, can use on 2 bits in existing up DCI format Line index (UL index) domain determines that using the down control channel of the up DCI format be in corresponding generic uplink subframe PUSCH in PUSCH also special subframes, when 2 bit UL index are 0, i.e. when LSB and MSB are set to 0, represent under this Row control channel corresponds to the PUSCH transmitted in special subframe；When at least one bit in LSB or MBS is 1, represent The down control channel corresponds to the PUSCH transmitted in generic uplink subframe；That is, in implementing, under corresponding special subframe Row control channel can be the correspondence determined by line index UL index instructions field on 2 bits in the down control channel The down control channel of special subframe.

In specific implementation, when the LSB and MSB of the UL index are set to 0, the down control channel corresponds to The PUSCH transmitted in special subframe, when at least one in the LSB or MBS of the UL index is set to 1, the descending control Channel processed corresponds to the PUSCH transmitted in generic uplink subframe.

Such as according to above-mentioned scheduling time sequence definition, for TDD uplink-downlink configurations 0, use that terminal detects in subframe n In the PUSCH special subframes that the down control channel of up DCI format, adjustment or scheduling are transmitted in special subframe n+k PUSCH transmission, it is assumed that during n=0 or 5, the descending control using up DCI format that k=6, i.e. terminal are detected in subframe 0 Channel, adjustment or the PUSCH that is transmitted in special subframe 6 of scheduling, and according on common shown in the table 4 defined in prior art The scheduling sequential of n+6 defined in the scheduling sequential and prior art of PUSCH in row subframe (as MSB=1, adjust by subframe 0 Spend subframe n+k, as LSB=1, the scheduling subframe n+7 of subframe 0), terminal detected in subframe 0 using up DCI format Down control channel, adjustment or is dispatched in sub-frame of uplink 4 (corresponding n+k and k are 4 scheduling sequential as shown in table 4) and/or up The PUSCH of transmission, i.e., the up DCI format of use that terminal detects in subframe 0 in subframe 7 (corresponding n+7 scheduling sequential) Down control channel, can both be used for adjusting or dispatch the PUSCH that transmits in special subframe 6, again can for adjusting or The PUSCH transmitted in sub-frame of uplink 4 or sub-frame of uplink 7 is dispatched, then terminal detects down control channel in subframe 0, a kind of Implementation, terminal can detect down control channel according to the up DCI format defined in prior art, and descending according to this The facilities in 2 bit UL index domains in control channel judge adjustment corresponding to the down control channel or what is dispatched is special The PUSCH transmitted in the PUSCH or sub-frame of uplink 4 and/or 7 that are transmitted in different subframe 6, specifically, when UL index LSB and When MSB is 0, judge that the down control channel is used to adjusting or dispatching the PUSCH transmitted in special subframe 6, as UL index LSB and MSB in any one be 1, judge that the down control channel is used to adjust or dispatch and transmit in generic uplink subframe PUSCH, specifically, when UL index LSB be 1 when, judge the down control channel be used for adjust or dispatching uplink subframe 7 The PUSCH of middle transmission, when UL index MSB be 1 when, judge the down control channel be used for adjust or dispatching uplink subframe 4 The PUSCH of middle transmission, when UL index LSB and MSB are 1, judge that the down control channel is used to adjust or dispatch The PUSCH transmitted in row subframe 4 and 7；Work as n=5, during k=6, i.e., terminal detects in subframe 5 the up DCI format of use Down control channel, adjustment or scheduling transmitted in (in next radio frames) special subframe 1 PUSCH when, specific mistake Journey is same as above；

In another example according to above-mentioned scheduling time sequence definition, for TDD uplink-downlink configurations 0, what terminal detected in subframe n makes With the down control channel of up DCI format, in the PUSCH special subframes that adjustment or scheduling are transmitted in special subframe n+k PUSCH transmission, it is assumed that during n=1 or 6, the descending control using up DCI format that k=5, i.e. terminal are detected in subframe 1 Channel, adjustment or the PUSCH that is transmitted in special subframe 6 of scheduling, and according on common shown in the table 4 defined in prior art The scheduling sequential of n+6 defined in the scheduling sequential and prior art of PUSCH in row subframe (as MSB=1, adjust by subframe 1 Spend subframe n+k, as LSB=1, the scheduling subframe n+7 of subframe 1), terminal detected in subframe 1 using up DCI format Down control channel, adjustment or is dispatched in sub-frame of uplink 7 (corresponding n+k and k are 6 scheduling sequential as shown in table 4) and/or up The PUSCH of transmission, i.e., the up DCI format of use that terminal detects in subframe 1 in subframe 8 (corresponding n+7 scheduling sequential) Down control channel, can both be used for adjusting or dispatch the PUSCH that transmits in special subframe 6, again can for adjusting or The PUSCH transmitted in sub-frame of uplink 7 or sub-frame of uplink 8 is dispatched, then terminal detects down control channel in subframe 1, a kind of Implementation, terminal can detect down control channel according to the up DCI format defined in prior art, and descending according to this The facilities in 2 bit UL index domains in control channel judge adjustment corresponding to the down control channel or what is dispatched is special The PUSCH transmitted in the PUSCH or sub-frame of uplink 7 and/or 8 that are transmitted in different subframe 6, specifically, when UL index LSB and When MSB is 0, judge that the down control channel is used to adjusting or dispatching the PUSCH transmitted in special subframe 6, as UL index LSB and MSB in any one be 1, judge that the down control channel is used to adjust or dispatch and transmit in generic uplink subframe PUSCH, specifically, when UL index LSB be 1 when, judge the down control channel be used for adjust or dispatching uplink subframe 8 The PUSCH of middle transmission, when UL index MSB be 1 when, judge the down control channel be used for adjust or dispatching uplink subframe 7 The PUSCH of middle transmission, when UL index LSB and MSB are 1, judge that the down control channel is used to adjust or dispatch The PUSCH transmitted in row subframe 7 and 8；Work as n=6, during k=5, i.e., terminal detects in subframe 6 the up DCI format of use Down control channel, adjustment or scheduling transmitted in (in next radio frames) special subframe 1 PUSCH when, specific mistake Journey is same as above.

In implementation, when using more frame schedulings, the definition of above-mentioned k values defines only for special subframe, if in son Exist simultaneously in frame n and be used to adjusting or dispatch the PUSCH that is transmitted in common subframe n+m, the definition of m definition compared with agreement (the scheduling sequential that such as table 4 defines).Specifically, when the PUSCH transmitted in the subframe n in the presence of scheduling in special subframe simultaneously The down control channel and/or PHICH using up DCI format, and the PUSCH that is transmitted in generic uplink subframe of scheduling Using up DCI format down control channel and/or PHICH when, specifically include：

For judge to detect be corresponding UpPTS down control channel and/or PHICH, then according to above-mentioned UpPTS Scheduling sequential determine target PUSCH transmission subframe；If it is judged that what is detected is the descending of corresponding generic uplink subframe Control channel and/or PHICH, then the scheduling mechanism in existing protocol (the scheduling sequential that such as table 4 defines), which determines to dispatch, closes System.

It is corresponding with end side, it can include in the PUSCH of base station side transmission method is implemented：

In implementation, the PHICH of the corresponding special subframe is corresponding I_PHICH=2 PHICH or corresponding I_PHICH=1 PHICH, wherein, the I_PHICHFor the parameter for determining PHICH resource.

In implementation, the down control channel of the corresponding special subframe is to pass through the instruction in RNTI or DCI sizes or DCI The down control channel for the corresponding special subframe that domain determines.

Illustrated again with instantiation below.

Embodiment 1：

For TDD uplink-downlink configurations 1, can only define terminal only needs to detect corresponding UpPTS in subframe 0 and subframe 5 The PUSCH of middle transmission down control channel and/or PHICH, generic uplink subframe now is not present in subframe 0 and subframe 5 Schedule information, UpPTS schedule information is only existed, therefore, can be by receiving the son of down control channel and/or PHICH Frame judges corresponding UpPTS or generic uplink subframe schedule information, so as to selecting the definition of corresponding scheduling sequential (i.e. K definition)；Whether the DCI sizes that need not now limit corresponding to UpPTS are consistent with existing up DCI format, can be again Design, can also reuse existing DCI format；

If the down control channel and/or PHICH using up DCI format are detected in subframe 0, according to right The scheduling sequential that UpPTS is defined is operated：According to the down control channel and/or PHICH information, adjust in subframe n+k=6 In UpPTS in PUSCH transmission, i.e., if only receiving PHICH, then if PHICH carrying be NACK, then illustrate previous The PUSCH failures of (such as UpPTS in the subframe 6 in previous radio frames) are, it is necessary to retransmit, terminal in individual previous UpPTS According to the schedule information of the PUSCH in a preceding UpPTS, the PUSCH is retransmitted in the UpPTS in subframe 6；If receive simultaneously Down control channel to PHICH and using up DCI format, then on the basis of the information in down control channel, if should NDI in down control channel is relative to (such as UpPTS in the subframe 6 in previous radio frames) in previous UpPTS NDI corresponding to PUSCH transmission does not overturn and (is worth identical), it is determined that and the PUSCH in previous UpPTS subframes 1 needs to retransmit, New schedule information (PUSCH that the schedule information may indicate that of the terminal in the down control channel received in subframe 0 Frequency domain resource and modulating-coding grade etc. are different from initial transmission), the PUSCH is retransmitted in the UpPTS in subframe 6, such as NDI in the fruit down control channel is relative in previous UpPTS (such as in the subframe 6 in previous radio frames UpPTS NDI upsets (i.e. value different) corresponding to PUSCH transmission), then illustrate the down control channel dispatch one it is new PUSCH initial transmissions, the PUSCH transmission success in previous UpPTS, the new schedule information in user equipment downlink control channel exist A new PUSCH is transmitted in UpPTS in subframe 6；

If detecting the down control channel and/or PHICH using up DCI format in subframe 5, its corresponding scheduling Or transmitted in the UpPTS in subframes 1 of the PUSCH of adjustment in next radio frames, process is same as above；

If detecting the down control channel and/or PHICH using up DCI format in subframe 1 or 6, can sentence Disconnected is corresponding generic uplink subframe, then according to the scheduling sequential of the definition of table 4, it is determined that being that scheduling/adjustment (corresponds in subframe 7 Received in subframe 1) or next radio frames in subframe 2 (corresponding received in subframe 6) in PUSCH transmission；

Embodiment 2：

For TDD uplink-downlink configurations 1, can only define terminal only needs to detect corresponding UpPTS in subframe 1 and subframe 6 The PUSCH of middle transmission down control channel and/or PHICH, now it there is likely to be generic uplink in subframe 1 and subframe 6 The schedule information of frame, the PUSCH schedule information transmitted in multiple subframes therefore, in subframe 1 and subframe 6 be present, for The down control channel using up DCI format transmitted in subframe 1 or 6, can by the DCI sizes of down control channel or Instructions field or used RNTI in DCI judge it is the schedule information for corresponding to UpPTS or generic uplink subframe, for PHICH, I corresponding to PHICH resource can be passed through_PHICHValue is believed to distinguish corresponding UpPTS or generic uplink subframe scheduling Breath；So as to select the definition (i.e. k definition) of corresponding scheduling sequential；

When down control channel and/or PHICH that the up DCI format of use is detected in subframe 1：

If sentenced according to DCI sizes used in the down control channel or the instructions field in DCI or used RNTI Disconnected is corresponding UpPTS, and/or if in I_PHICHPHICH is detected in=1 PHICH resource, so as to judge that the PHICH is corresponding UpPTS, then time sequence definition is dispatched according to UpPTS PUSCH, adjusted according to the down control channel and/or PHICH information detected PUSCH transmission in the whole UpPTS in subframe n+k=6, i.e., if only receiving above-mentioned PHICH, then if PHICH is carried The PUSCH for being NACK, then illustrating in previous UpPTS (such as UpPTS in the subframe 6 in previous radio frames) Failure is, it is necessary to retransmit, and for terminal according to the schedule information of the PUSCH in a preceding UpPTS, retransmitting in the UpPTS in subframe 6 should PUSCH；If above-mentioned PHICH and the down control channel using up DCI format are received simultaneously, with down control channel In information on the basis of, if NDI in the down control channel is relative to (such as previous radio frames in previous UpPTS In subframe 6 in UpPTS) PUSCH transmission corresponding to NDI do not overturn and (be worth identical), it is determined that previous UpPTS PUSCH in frame 1 needs to retransmit, the new schedule information (tune of terminal in the down control channel received in subframe 0 PUSCH transmission frequency domain resource and modulating-coding grade that degree information may indicate that etc. are different from initial transmission), in subframe 6 The PUSCH is retransmitted in UpPTS, if the NDI in the down control channel is relative to (such as previous nothing in previous UpPTS The UpPTS in subframe 6 in line frame) PUSCH transmission corresponding to NDI upsets (i.e. value different), then illustrate the descending control letter A new PUSCH initial transmission is dispatched in road, the PUSCH transmission success in previous UpPTS, in user equipment downlink control channel A new PUSCH is transmitted in UpPTS of the new schedule information in subframe 6；

If sentenced according to DCI sizes used in the down control channel or the instructions field in DCI or used RNTI Disconnected is corresponding generic uplink subframe, and/or if in I_PHICHPHICH is detected in=0 PHICH resource, so as to judge this PHICH is corresponding generic uplink subframe, then the PUSCH scheduling time sequence definitions in generic uplink subframe, i.e. table 4, according to The down control channel and/or PHICH information detected adjusts the PUSCH transmission in the UpPTS in subframe n+k=7, specifically It is similar with said process according to the process that PHICH and/or down control channel are adjusted；

When down control channel and/or PHICH that the up DCI format of use is detected in subframe 6, process are sub as described above Process in frame 1 is similar.

It should be noted that for TDD uplink-downlink configurations 0, in subframe 0/1/5/6, it is for judge to detect Corresponding UpPTS down control channel and/or PHICH, then target PUSCH transmission is determined according to UpPTS scheduling sequential Frame；If it is judged that what is detected is the down control channel and/or PHICH of corresponding generic uplink subframe, then need according to existing There is the scheduling mechanism in agreement to determine scheduling relation, such as a high position and low level letter of the UL index in down control channel Breath state is PUSCH transmission in subframe n+k and/or n+7 determine scheduling corresponding to down control channel, according to PHICH Corresponding I_PHICH=0 or 1 determines it is to retransmit PUSCH in subframe n+k and/or n+7 corresponding to PHICH.

Based on same inventive concept, the information carrying means on a kind of PUSCH is additionally provided in the embodiment of the present invention, due to The principle that these devices solve problem is similar to the information transferring method on a kind of PUSCH, therefore the implementation of these devices can be with Referring to the implementation of method, repeat part and repeat no more.

Fig. 3 is the transmitting device structural representation of the PUSCH in terminal, as illustrated, including：

Detection module 301, for detecting down control channel and/or PHICH in subframe n；

Adjusting module 302, for according to the down control channel detected in subframe n using up DCI format and/ Or PHICH, the PUSCH that adjustment or scheduling are transmitted in special subframe n+k, wherein k are pre-defined value.

In implementation, the down control channel of the corresponding special subframe is to pass through 2 bits in the down control channel The down control channel for the corresponding special subframe that upper line index UL index instructions field determines.

In implementation, specifically include：

Fig. 4 is the transmitting device structural representation of the PUSCH on base station, as illustrated, including：

Determining module 401, for determine in subframe n send using up DCI format down control channel and/or PHICH；

Sending module 402, for sending down control channel and/or PHICH using up DCI format in subframe n, PUSCH is transmitted in special subframe n+k for adjustment or dispatch terminal, wherein k is pre-defined value.

In implementation, specifically include：

For convenience of description, each several part of apparatus described above is divided into various modules with function or unit describes respectively. Certainly, each module or the function of unit can be realized in same or multiple softwares or hardware when implementing of the invention.

When implementing technical scheme provided in an embodiment of the present invention, can implement as follows.

Fig. 5 is terminal structure schematic diagram, as illustrated, terminal includes：

Processor 500, for reading the program in memory 520, perform following process：

According to the down control channel and/or PHICH using up DCI format detected in subframe n, adjustment or tune The PUSCH transmitted in special subframe n+k is spent, wherein k is pre-defined value；

Transceiver 510, for sending data under control of the processor 500, perform following process：

Progress data transmit-receive processing is needed according to processor.

In implementation, specifically include：

Wherein, in Figure 5, bus architecture can include the bus and bridge of any number of interconnection, specifically by processor 500 The various circuits for the memory that the one or more processors and memory 520 of representative represent link together.Bus architecture is also Various other circuits of such as ancillary equipment, voltage-stablizer and management circuit or the like can be linked together, these are all It is it is known in the art, therefore, no longer it is described further herein.EBI provides interface.Transceiver 510 can To be multiple element, i.e., including transmitter and receiver, there is provided for the list to be communicated over a transmission medium with various other devices Member.For different user equipmenies, user interface 530, which be can also be, external the interface for needing equipment is inscribed, and connection is set Standby including but not limited to keypad, display, loudspeaker, microphone, control stick etc..

Processor 500 is responsible for bus architecture and common processing, and memory 520 can store processor 500 and hold Used data during row operation.

Fig. 6 is architecture of base station schematic diagram, as illustrated, base station includes：

Processor 600, for reading the program in memory 620, perform following process：

Progress data processing is needed according to transceiver；

Transceiver 610, for sending data under the control of processor 600, perform following process：

The down control channel and/or PHICH using up DCI format are sent in subframe n, for adjusting or dispatching end PUSCH is transmitted at end in special subframe n+k, and wherein k is pre-defined value.

In implementation, specifically include：

Wherein, in figure 6, bus architecture can include the bus and bridge of any number of interconnection, specifically by processor 600 The various circuits for the memory that the one or more processors and memory 620 of representative represent link together.Bus architecture is also Various other circuits of such as ancillary equipment, voltage-stablizer and management circuit or the like can be linked together, these are all It is it is known in the art, therefore, no longer it is described further herein.EBI provides interface.Transceiver 610 can To be multiple element, i.e., including transmitter and transceiver, there is provided for the list to be communicated over a transmission medium with various other devices Member.Processor 600 is responsible for bus architecture and common processing, and memory 620 can store processor 600 and perform operation When used data.

In summary, the technical scheme provided in the embodiment of the present invention gives the PUSCH transmitted in UpPTS scheduling Sequential；So as to ensure that PUSCH is normally being transmitted in UpPTS.

It should be understood by those skilled in the art that, embodiments of the invention can be provided as method, system or computer program Product.Therefore, the present invention can use the reality in terms of complete hardware embodiment, complete software embodiment or combination software and hardware Apply the form of example.Moreover, the present invention can use the computer for wherein including computer usable program code in one or more The shape for the computer program product that usable storage medium is implemented on (including but is not limited to magnetic disk storage and optical memory etc.) Formula.

The present invention is the flow with reference to method according to embodiments of the present invention, equipment (system) and computer program product Figure and/or block diagram describe.It should be understood that can be by every first-class in computer program instructions implementation process figure and/or block diagram Journey and/or the flow in square frame and flow chart and/or block diagram and/or the combination of square frame.These computer programs can be provided The processors of all-purpose computer, special-purpose computer, Embedded Processor or other programmable data processing devices is instructed to produce A raw machine so that produced by the instruction of computer or the computing device of other programmable data processing devices for real The device for the function of being specified in present one flow of flow chart or one square frame of multiple flows and/or block diagram or multiple square frames.

These computer program instructions, which may be alternatively stored in, can guide computer or other programmable data processing devices with spy Determine in the computer-readable memory that mode works so that the instruction being stored in the computer-readable memory, which produces, to be included referring to Make the manufacture of device, the command device realize in one flow of flow chart or multiple flows and/or one square frame of block diagram or The function of being specified in multiple square frames.

These computer program instructions can be also loaded into computer or other programmable data processing devices so that counted Series of operation steps is performed on calculation machine or other programmable devices to produce computer implemented processing, so as in computer or The instruction performed on other programmable devices is provided for realizing in one flow of flow chart or multiple flows and/or block diagram one The step of function of being specified in individual square frame or multiple square frames.

Obviously, those skilled in the art can carry out the essence of various changes and modification without departing from the present invention to the present invention God and scope.So, if these modifications and variations of the present invention belong to the scope of the claims in the present invention and its equivalent technologies Within, then the present invention is also intended to comprising including these changes and modification.

Claims

A kind of 1. Physical Uplink Shared Channel PUSCH transmission method, it is characterised in that including：

Terminal is according to the down control channel and/or thing that instruction DCI format is controlled using upstream and downstream detected in subframe n HARQ instruction channel PHICH are managed, the PUSCH that adjustment or scheduling are transmitted in special subframe n+k, wherein k are pre-defined value.
2. the method as described in claim 1, it is characterised in that

For TDD uplink-downlink configuration 0, in subframe n=0 or 5, PHICH for corresponding special subframe and/or under Row control channel, k=6 or 11 is defined, or, in subframe n=1 or 6, PHICH for corresponding special subframe and/or descending Control channel, define k=5 or 10.
3. method as claimed in claim 2, it is characterised in that the down control channel of the corresponding special subframe is passes through State the descending control letter of the corresponding special subframe that line index UL index instructions field determines on 2 bits in down control channel Road.
4. method as claimed in claim 3, it is characterised in that specifically include：

When the minimum effective bit LSB and highest significant bit MSB of the UL index are set to 0, the descending control letter Road corresponds to the PUSCH that is transmitted in special subframe, when at least one in the LSB or MBS of the UL index is set to 1, The down control channel corresponds to the PUSCH transmitted in generic uplink subframe.
5. the method as described in claim 1, it is characterised in that

For TDD uplink-downlink configurations 1, in subframe n=0 or 5, k=6 or 11 is defined；Or

For TDD uplink-downlink configurations 1, in subframe n=4 or 9, PHICH and/or descending control for corresponding special subframe believe Road, define k=2 or 7 or 12；Or in subframe n=1 or 6, PHICH and/or descending control for corresponding special subframe Channel, define k=5 or 10.
6. the method as described in claim 1, it is characterised in that

For TDD uplink-downlink configurations 2, in subframe n=4 or 9, k=2 or 7 or 12 is defined；Or in subframe n=0 or 5, Define k=6 or 11；Or in subframe n=1 or 6, define k=5 or 10；Or

For TDD uplink-downlink configurations 2, in subframe n=3 or 8, PHICH and/or descending control for corresponding special subframe believe Road, define k=3 or 8 or 13.
7. the method as described in claim 1, it is characterised in that

For TDD uplink-downlink configurations 3, in subframe n=7, k=4 is defined；Or in subframe n=5, define k=6；Or In subframe=6, k=5 is defined；Or in subframe n=1, define k=10；Or

For TDD uplink-downlink configurations 3, in subframe n=8, for the PHICH and/or down control channel of corresponding special subframe, Define k=3 or 13；Or in subframe n=9, for the PHICH and/or down control channel of corresponding special subframe, define k =2 or 12；Or in subframe n=0, for the PHICH and/or down control channel of corresponding special subframe, define k=11.
8. the method as described in claim 1, it is characterised in that

For TDD uplink-downlink configurations 4, in subframe n=4, k=7 is defined；Or in subframe n=5, define k=6；Or In subframe=6, k=5 is defined；Or in subframe n=7, define k=4；Or in subframe n=0, define k=11； Or in subframe n=1, define k=10；Or

For TDD uplink-downlink configurations 4, in subframe n=8, for the PHICH and/or down control channel of corresponding special subframe, Define k=3 or 13；Or in subframe n=9, for the PHICH and/or down control channel of corresponding special subframe, define k =2 or 12.
9. the method as described in claim 1, it is characterised in that

For TDD uplink-downlink configurations 5, in subframe n=3, k=8 is defined；Or in subframe n=4, define k=7；Or In subframe n=5, k=6 is defined；Or in subframe=6, define k=5；Or in subframe n=7, define k=4；Or Person, in subframe n=0, define k=11；Or in subframe n=1, define k=10；Or in subframe n=9, define k =2 or 12；Or

For TDD uplink-downlink configurations 5, in subframe n=8, for the PHICH and/or down control channel of corresponding special subframe, Define k=3 or 13.
10. the method as described in claim 1, it is characterised in that

For TDD uplink-downlink configurations 6, in subframe n=0 or 5, PHICH and/or descending control for corresponding special subframe believe Road, define k=6 or 11；Or in subframe n=1 or 6, PHICH and/or descending control for corresponding special subframe believe Road, define k=5 or 10；Or in subframe 9, for the PHICH and/or down control channel of corresponding special subframe, define k =2 or 7 or 12.
11. the method as any one of claim 2 to 10, it is characterised in that the PHICH of the corresponding special subframe is Corresponding I_PHICH=2 PHICH or corresponding I_PHICH=1 PHICH, wherein, the I_PHICHFor the ginseng for determining PHICH resource Number.
12. the method as any one of claim 2 to 10, it is characterised in that the descending control of the corresponding special subframe Channel processed is the corresponding special subframe determined by the instructions field in Radio Network Temporary Identifier RNTI or DCI size or DCI Down control channel.
A kind of 13. PUSCH transmission method, it is characterised in that including：

Base station sends the down control channel and/or PHICH using up DCI format in subframe n, for adjusting or dispatching end PUSCH is transmitted at end in special subframe n+k, and wherein k is pre-defined value.
14. method as claimed in claim 13, it is characterised in that

For TDD uplink-downlink configurations 0, in subframe n=0 or 5, PHICH and/or descending control for corresponding special subframe believe Road, k=6 or 11 is defined, or, in subframe n=1 or 6, PHICH and/or descending control for corresponding special subframe believe Road, define k=5 or 10.
15. method as claimed in claim 14, it is characterised in that the down control channel of the corresponding special subframe is to pass through The descending control letter for the corresponding special subframe that line index UL index instructions field determines on 2 bits in the down control channel Road.
16. method as claimed in claim 15, it is characterised in that specifically include：

When the LSB and MSB of the UL index are set to 0, the down control channel corresponds to be transmitted in special subframe PUSCH, when at least one in the LSB or MBS of the UL index is set to 1, the down control channel corresponds to The PUSCH transmitted in generic uplink subframe.
17. method as claimed in claim 13, it is characterised in that

For TDD uplink-downlink configurations 1, in subframe n=0 or 5, k=6 or 11 is defined；Or

For TDD uplink-downlink configurations 1, in subframe n=4 or 9, PHICH and/or descending control for corresponding special subframe believe Road, define k=2 or 7 or 12；Or in subframe n=1 or 6, PHICH and/or descending control for corresponding special subframe Channel, define k=5 or 10.
18. method as claimed in claim 13, it is characterised in that

For TDD uplink-downlink configurations 2, in subframe n=4 or 9, k=2 or 7 or 12 is defined；Or in subframe n=0 or 5, Define k=6 or 11；Or in subframe n=1 or 6, define k=5 or 10；Or

For TDD uplink-downlink configurations 2, in subframe n=3 or 8, PHICH and/or descending control for corresponding special subframe believe Road, define k=3 or 8 or 13.
19. method as claimed in claim 13, it is characterised in that

For TDD uplink-downlink configurations 3, in subframe n=7, k=4 is defined；Or in subframe n=5, define k=6；Or In subframe=6, k=5 is defined；Or in subframe n=1, define k=10；Or

For TDD uplink-downlink configurations 3, in subframe n=8, for the PHICH and/or down control channel of corresponding special subframe, Define k=3 or 13；Or in subframe n=9, for the PHICH and/or down control channel of corresponding special subframe, define k =2 or 12；Or in subframe n=0, for the PHICH and/or down control channel of corresponding special subframe, define k=11.
20. method as claimed in claim 13, it is characterised in that

For TDD uplink-downlink configurations 4, in subframe n=4, k=7 is defined；Or in subframe n=5, define k=6；Or In subframe=6, k=5 is defined；Or in subframe n=7, define k=4；Or in subframe n=0, define k=11； Or in subframe n=1, define k=10；Or

For TDD uplink-downlink configurations 4, in subframe n=8, for the PHICH and/or down control channel of corresponding special subframe, Define k=3 or 13；Or in subframe n=9, for the PHICH and/or down control channel of corresponding special subframe, define k =2 or 12.
21. method as claimed in claim 13, it is characterised in that

For TDD uplink-downlink configurations 5, in subframe n=3, k=8 is defined；Or in subframe n=4, define k=7；Or In subframe n=5, k=6 is defined；Or in subframe=6, define k=5；Or in subframe n=7, define k=4；Or Person, in subframe n=0, define k=11；Or in subframe n=1, define k=10；Or in subframe n=9, define k =2 or 12；Or

For TDD uplink-downlink configurations 5, in subframe n=8, for the PHICH and/or down control channel of corresponding special subframe, Define k=3 or 13.
22. method as claimed in claim 13, it is characterised in that

For TDD uplink-downlink configurations 6, in subframe n=0 or 5, PHICH and/or descending control for corresponding special subframe believe Road, define k=6 or 11；Or in subframe n=1 or 6, PHICH and/or descending control for corresponding special subframe believe Road, define k=5 or 10；Or in subframe 9, for the PHICH and/or down control channel of corresponding special subframe, define k =2 or 7 or 12.
23. the method as any one of claim 14 to 22, it is characterised in that the PHICH of the corresponding special subframe For corresponding I_PHICH=2 PHICH or corresponding I_PHICH=1 PHICH, wherein, the I_PHICHFor for determining PHICH resource Parameter.
24. the method as any one of claim 14 to 22, it is characterised in that the descending control of the corresponding special subframe Channel processed is the down control channel of the corresponding special subframe determined by the instructions field in RNTI or DCI sizes or DCI.
A kind of 25. PUSCH transmitting device, it is characterised in that including：

Detection module, for detecting down control channel and/or PHICH in subframe n；

Adjusting module, for according to detected in subframe n using up DCI format down control channel and/or The PUSCH that PHICH, adjustment or scheduling are transmitted in special subframe n+k, wherein k are pre-defined value.
26. device as claimed in claim 25, it is characterised in that

For TDD uplink-downlink configurations 0, in subframe n=0 or 5, PHICH and/or descending control for corresponding special subframe believe Road, k=6 or 11 is defined, or, in subframe n=1 or 6, PHICH and/or descending control for corresponding special subframe believe Road, define k=5 or 10.
27. device as claimed in claim 26, it is characterised in that the down control channel of the corresponding special subframe is to pass through The descending control letter for the corresponding special subframe that line index UL index instructions field determines on 2 bits in the down control channel Road.
28. device as claimed in claim 27, it is characterised in that specifically include：

When the LSB and MSB of the UL index are set to 0, the down control channel corresponds to be transmitted in special subframe PUSCH, when at least one in the LSB or MBS of the UL index is set to 1, the down control channel corresponds to The PUSCH transmitted in generic uplink subframe.
29. device as claimed in claim 25, it is characterised in that

For TDD uplink-downlink configurations 1, in subframe n=0 or 5, k=6 or 11 is defined；Or

For TDD uplink-downlink configurations 1, in subframe n=4 or 9, PHICH and/or descending control for corresponding special subframe believe Road, define k=2 or 7 or 12；Or in subframe n=1 or 6, PHICH and/or descending control for corresponding special subframe Channel, define k=5 or 10.
30. device as claimed in claim 25, it is characterised in that

For TDD uplink-downlink configurations 2, in subframe n=4 or 9, k=2 or 7 or 12 is defined；Or in subframe n=0 or 5, Define k=6 or 11；Or in subframe n=1 or 6, define k=5 or 10；Or

For TDD uplink-downlink configurations 2, in subframe n=3 or 8, PHICH and/or descending control for corresponding special subframe believe Road, define k=3 or 8 or 13.
31. device as claimed in claim 25, it is characterised in that

For TDD uplink-downlink configurations 3, in subframe n=7, k=4 is defined；Or in subframe n=5, define k=6；Or In subframe=6, k=5 is defined；Or in subframe n=1, define k=10；Or

For TDD uplink-downlink configurations 3, in subframe n=8, for the PHICH and/or down control channel of corresponding special subframe, Define k=3 or 13；Or in subframe n=9, for the PHICH and/or down control channel of corresponding special subframe, define k =2 or 12；Or in subframe n=0, for the PHICH and/or down control channel of corresponding special subframe, define k=11.
32. device as claimed in claim 25, it is characterised in that

For TDD uplink-downlink configurations 4, in subframe n=4, k=7 is defined；Or in subframe n=5, define k=6；Or In subframe=6, k=5 is defined；Or in subframe n=7, define k=4；Or in subframe n=0, define k=11； Or in subframe n=1, define k=10；Or

For TDD uplink-downlink configurations 4, in subframe n=8, for the PHICH and/or down control channel of corresponding special subframe, Define k=3 or 13；Or in subframe n=9, for the PHICH and/or down control channel of corresponding special subframe, define k =2 or 12.
33. device as claimed in claim 25, it is characterised in that

For TDD uplink-downlink configurations 5, in subframe n=3, k=8 is defined；Or in subframe n=4, define k=7；Or In subframe n=5, k=6 is defined；Or in subframe=6, define k=5；Or in subframe n=7, define k=4；Or Person, in subframe n=0, define k=11；Or in subframe n=1, define k=10；Or in subframe n=9, define k =2 or 12；Or

For TDD uplink-downlink configurations 5, in subframe n=8, for the PHICH and/or down control channel of corresponding special subframe, Define k=3 or 13.
34. device as claimed in claim 25, it is characterised in that

For TDD uplink-downlink configurations 6, in subframe n=0 or 5, PHICH and/or descending control for corresponding special subframe believe Road, define k=6 or 11；Or in subframe n=1 or 6, PHICH and/or descending control for corresponding special subframe believe Road, define k=5 or 10；Or in subframe 9, for the PHICH and/or down control channel of corresponding special subframe, define k =2 or 7 or 12.
35. the device as any one of claim 26 to 34, it is characterised in that the PHICH of the corresponding special subframe For corresponding I_PHICH=2 PHICH or corresponding I_PHICH=1 PHICH, wherein, the I_PHICHFor for determining PHICH resource Parameter.
36. the device as any one of claim 26 to 34, it is characterised in that the descending control of the corresponding special subframe Channel processed is the down control channel of the corresponding special subframe determined by the instructions field in RNTI or DCI sizes or DCI.
A kind of 37. PUSCH transmitting device, it is characterised in that including：

Determining module, for determining to send the down control channel and/or PHICH using up DCI format in subframe n；

Sending module, for sending down control channel and/or PHICH using up DCI format in subframe n, with adjustment Or dispatch terminal transmits PUSCH in special subframe n+k, wherein k is pre-defined value.
38. device as claimed in claim 37, it is characterised in that

For TDD uplink-downlink configurations 0, in subframe n=0 or 5, PHICH and/or descending control for corresponding special subframe believe Road, k=6 or 11 is defined, or, in subframe n=1 or 6, PHICH and/or descending control for corresponding special subframe believe Road, define k=5 or 10.
39. device as claimed in claim 38, it is characterised in that the down control channel of the corresponding special subframe is to pass through The descending control letter for the corresponding special subframe that line index UL index instructions field determines on 2 bits in the down control channel Road.
40. device as claimed in claim 39, it is characterised in that specifically include：

When the LSB and MSB of the UL index are set to 0, the down control channel corresponds to be transmitted in special subframe PUSCH, when at least one in the LSB or MBS of the UL index is set to 1, the down control channel corresponds to The PUSCH transmitted in generic uplink subframe.
41. device as claimed in claim 37, it is characterised in that

For TDD uplink-downlink configurations 1, in subframe n=0 or 5, k=6 or 11 is defined；Or

For TDD uplink-downlink configurations 1, in subframe n=4 or 9, PHICH and/or descending control for corresponding special subframe believe Road, define k=2 or 7 or 12；Or in subframe n=1 or 6, PHICH and/or descending control for corresponding special subframe Channel, define k=5 or 10.
42. device as claimed in claim 37, it is characterised in that

For TDD uplink-downlink configurations 2, in subframe n=4 or 9, k=2 or 7 or 12 is defined；Or in subframe n=0 or 5, Define k=6 or 11；Or in subframe n=1 or 6, define k=5 or 10；Or

For TDD uplink-downlink configurations 2, in subframe n=3 or 8, PHICH and/or descending control for corresponding special subframe believe Road, define k=3 or 8 or 13.
43. device as claimed in claim 37, it is characterised in that

For TDD uplink-downlink configurations 3, in subframe n=7, k=4 is defined；Or in subframe n=5, define k=6；Or In subframe=6, k=5 is defined；Or in subframe n=1, define k=10；Or

For TDD uplink-downlink configurations 3, in subframe n=8, for the PHICH and/or down control channel of corresponding special subframe, Define k=3 or 13；Or in subframe n=9, for the PHICH and/or down control channel of corresponding special subframe, define k =2 or 12；Or in subframe n=0, for the PHICH and/or down control channel of corresponding special subframe, define k=11.
44. device as claimed in claim 37, it is characterised in that

For TDD uplink-downlink configurations 4, in subframe n=4, k=7 is defined；Or in subframe n=5, define k=6；Or In subframe=6, k=5 is defined；Or in subframe n=7, define k=4；Or in subframe n=0, define k=11； Or in subframe n=1, define k=10；Or

For TDD uplink-downlink configurations 4, in subframe n=8, for the PHICH and/or down control channel of corresponding special subframe, Define k=3 or 13；Or in subframe n=9, for the PHICH and/or down control channel of corresponding special subframe, define k =2 or 12.
45. device as claimed in claim 37, it is characterised in that

For TDD uplink-downlink configurations 5, in subframe n=3, k=8 is defined；Or in subframe n=4, define k=7；Or In subframe n=5, k=6 is defined；Or in subframe=6, define k=5；Or in subframe n=7, define k=4；Or Person, in subframe n=0, define k=11；Or in subframe n=1, define k=10；Or in subframe n=9, define k =2 or 12；Or

For TDD uplink-downlink configurations 5, in subframe n=8, for the PHICH and/or down control channel of corresponding special subframe, Define k=3 or 13.
46. device as claimed in claim 37, it is characterised in that

For TDD uplink-downlink configurations 6, in subframe n=0 or 5, PHICH and/or descending control for corresponding special subframe believe Road, define k=6 or 11；Or in subframe n=1 or 6, PHICH and/or descending control for corresponding special subframe believe Road, define k=5 or 10；Or in subframe 9, for the PHICH and/or down control channel of corresponding special subframe, define k =2 or 7 or 12.
47. the device as any one of claim 38 to 46, it is characterised in that the PHICH of the corresponding special subframe For corresponding I_PHICH=2 PHICH or corresponding I_PHICH=1 PHICH, wherein, the I_PHICHFor for determining PHICH resource Parameter.
48. the device as any one of claim 38 to 46, it is characterised in that the descending control of the corresponding special subframe Channel processed is the down control channel of the corresponding special subframe determined by the instructions field in RNTI or DCI sizes or DCI.