CN102820958B - Newly-increased backhaul subframe ascending HARQ method and device - Google Patents

Abstract

The invention discloses a kind of newly-increased backhaul subframe ascending HARQ method and device, the above method includes：Determine whether to have used newly-increased backhaul subframe；When having used newly-increased backhaul subframe, for the increasing backhaul subframe, the newly-increased ascending HARQ course independently of the corresponding current ascending HARQ course of current downlink backhaul subframe is set, or, the newly-increased backhaul subframe and current descending backhaul subframe are combined as new descending backhaul subframe collection, new ascending HARQ course is set according to new descending backhaul subframe collection.The technical scheme provided by the present invention, not the problem of not having corresponding ascending HARQ course Adjusted Option when solving in the prior art using newly-increased backhaul subframe, and then reached the effect for improving back haul link flexibility.

Description

Newly-increased backhaul subframe ascending HARQ method and device

Technical field

The present invention relates to the communications field, ascending HARQ during in particular to a kind of newly-increased backhaul subframe (HybridAutomatic Repeat Request, hybrid automatic repeat-request) method and device.

Background technology

RN is introduced in LTE-A (Long Term EvolutionAdvanced, senior long evolving system) system New link is added after (Relay Node, via node), as shown in figure 1, wherein, the link between eNode-B and RN Chain between referred to as backhaul link (back haul link or repeated link), RN and UE (UserEquipment, user equipment) The link that road is referred to as between access link (access link), eNode-B and UE is referred to as directlink (direct transfer link).

When using inband-relay (with interior relaying), i.e., eNode-B to relay links and relay to UE links are transported Make in identical frequency resource.Because inband-relay launching opportunities produce interference (self-interference) to the receiver of oneself, So eNode-B to relay links and relay to UE links are impossible in identical frequency resource simultaneously, unless there are Enough Signal separators and isolation between antennas.It is similar, relay be also impossible to while the data that UE is launched are received again to ENode-B launches.The solution of one possible transmitting-receiving interference problem is so that relay is receiving the number from eNode-B According to when, not to UE carry out transmitting operation, that is to say, that needed after relay to UE links increase " gap ", by configuring MBSFN (Multicast Broadcast Single Frequercy Network, Multicast Broadcast Single Frequency Network) subframe is used for Backhaul subframe so that UE is operated in " gap " time range without any reception/transmitting, and Relay exists Completion is transmitted into the switching of reception in " gap " time range, in OFDM (Orthogonal below after the completion of switching Frequency Division Multiplexing OFDMs) data of the symbol reception from eNode-B.Exist at present Backhaul is used for using MBSFN subframe in LTE (Long Term Evolution, long evolving system) Subframe, its specific mode is：MCE (MBMS Control Entity, multimedia control entity) gives eNode-B first Available MBSFN subframe are configured, eNode-B configures available in these available MBSFN subframe again backhaul subframe。

According to the regulation in current LTE system, as shown in Fig. 2 subframes of 1 10ms radio frames frame by 10 1ms Subframe is constituted, it may include Unicast (unicast) and Multicast Broadcast (multicast and broadcast), wherein in FDD During (Frequency Division Duplex, FDD) mode, #0, #5 subframe are used as transmitting synchronizing signal, and #4, #9 Subframe is used as paging (paging), and in TDD (Time Division Duplex, time division duplex) mode, #0, #5 subframe are used as Launch synchronizing signal, and #1, #6 subframe are used as paging, that is to say, that for FDD { #0, #4, #5, #9 } subframe, TDD { #0, # 1st, #5, #6 } subframe has above-mentioned specific use, so cannot be used for MBSFN subframe distribution, i.e., in 1 radio frames Assignable MBSFN subframe are up to 6 subframe subframe in frame.That is, always having 4 in 1 radio frames Individual subframe cannot be used for backhaul transmission, and backhaul time resource utilizes both insufficient or dumb, it appears that just Seem " timehole (time cavity) ".FDD standards in existing lte-a system, corresponding backhaul subframe distribution is using 8bits's The binary system of bitmap modes, i.e. 8bits corresponds to different backhaul subframes configurations respectively, but 8bits bitmap to DL Subframe index (Down Link subframe index, descending sub frame index) are invalid for { #0, #4, #5, #9 }.1 In individual radio frames in addition to above-mentioned 6 subframes, (i.e. DL subframe index are the corresponding son of #0, #4, #5, #9 to other subframes Frame) if transmission for backhaul, these subframes are referred to as newly-increased backhaul subframe.

In LTE system, the transmission between user equipment and base station for data needs to set up HARQ (Hybrid Automatic Repeat Request, hybrid automatic repeat-request) process and fed back accordingly.When base station receives use After the data of family equipment, base station generates downlink feedback information ACK/NACK (Acknowledgement/ according to decoding cases Negative Acknowledgement0, confirmed/non-confirmed number) or (Up Link grant, uplink authorization information), ULgrant mainly includes NDI (New Data Indicator, new data is indicated), MCS (Modulation and Coding Scheme, Modulation and Coding Scheme), the information such as RA (Resource Allocation, resource allocation), it is and above- mentioned information is descending It is sent to user equipment.User equipment is further processed according to the information received, if receiving ACK, or receives NDI =1 or 0 (1,0 implication represented can flexibly be set), then continue to transmit new data, if receiving NACK, or receive NDI =0 or 1, then data will be resend to base station in identical HARQ processes.Specifically, being had in existing lte-a system The corresponding HARQ of 256 combined situations enters number of passes, as shown in table 1, wherein the combination configuration in the 1st row uses the decimal system, For example " 170 " represent 8bits bitmap binary system be " 10101010 ", then it represents that descending sub frame index for " 1 ", " 3 ", Together, corresponding ascending HARQ course number is 3 for " 5 ", " 7 " corresponding subframes combine.After newly-increased backhaul subframe during ascending HARQ Sequence will be changed, it is necessary to re-start setting, and effective solution is not yet proposed at present for this problem.

Table 1

The content of the invention

It is above-mentioned to solve it is a primary object of the present invention to provide a kind of newly-increased backhaul subframe ascending HARQ method and device Problem.

According to an aspect of the invention, there is provided a kind of newly-increased backhaul subframe ascending HARQ method, including：Determine whether Newly-increased backhaul subframe is used；When having used newly-increased backhaul subframe, set and returned independently of current downlink for the increasing backhaul subframe The newly-increased ascending HARQ course of the corresponding current ascending HARQ course of journey subframe, or, by the newly-increased backhaul subframe and currently Descending backhaul subframe is combined as new descending backhaul subframe collection, sets new ascending HARQ to enter according to new descending backhaul subframe collection Journey.

According to another aspect of the present invention there is provided a kind of newly-increased backhaul subframe ascending HARQ device, including：Determine mould Block, is used to determine whether to have used newly-increased backhaul subframe；Setup module is new for this for when having used newly-increased backhaul subframe Increase newly-increased ascending HARQ course of the backhaul subframe setting independently of the corresponding current ascending HARQ course of current downlink backhaul subframe, Or, the newly-increased backhaul subframe and current descending backhaul subframe are combined as new descending backhaul subframe collection, under new Row backhaul subframe collection sets new ascending HARQ course.

By the present invention, using when having used newly-increased backhaul subframe, being that it is set independently of current downlink backhaul subframe Another ascending HARQ course of corresponding ascending HARQ course, or the current ascending HARQ course of modification, consider new Increase backhaul subframe and current descending backhaul subframe, reset the scheme of ascending HARQ course, solve makes in the prior art Not the problem of not having corresponding ascending HARQ course Adjusted Option during with newly-increased backhaul subframe, and then reached the spirit of raising back haul link The effect of activity.

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 structural representation of current lte-a system；

Fig. 2 is frame structure schematic diagram specified in LTE system；

Fig. 3 is the flow chart of newly-increased backhaul subframe ascending HARQ method according to embodiments of the present invention；

Fig. 4 is to keep fixed relation to illustrate between up backhaul subframe and descending backhaul subframe according to present example Figure；

Fig. 5 is the schematic diagram indicated according to the up backhaul subframe of present example by descending backhaul subframe；

Fig. 6 is that the ULHARQ for being configured to " 00000111 " according to the present combination of present example maps schematic diagram；

Fig. 7 is to be configured to " 00000111 " newly-increased backhaul subframe independence ULHARQ according to the present combination of present example to reflect Penetrate schematic diagram；

Fig. 8 is to be configured to " 00000111 " according to the present combination of present example and increase backhaul subframe newly to unify ULHARQ and reflect Penetrate schematic diagram；

Fig. 9 is that the ULHARQ for being configured to " 00111111 " according to the present combination of present example maps schematic diagram；

Figure 10 is to be configured to " 00111111 " according to the present combination of present example to increase backhaul subframe independence UL HARQ newly Map schematic diagram；

Figure 11 is to be configured to " 00111111 " newly-increased backhaul subframe according to the present combination of present example to unify UL HARQ Map schematic diagram；

Figure 12 is the structural representation of newly-increased backhaul subframe ascending HARQ device according to embodiments of the present invention；

Figure 13 is the structural representation of newly-increased backhaul subframe ascending HARQ device according to the preferred embodiment of the invention.

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.

Fig. 3 is the flow chart of newly-increased backhaul subframe ascending HARQ method according to embodiments of the present invention.As shown in figure 3, root Include according to the newly-increased backhaul subframe ascending HARQ method of the embodiment of the present invention：

Step S302, it is determined whether used newly-increased backhaul subframe；

Step S304, when having used newly-increased backhaul subframe, sets for the newly-increased backhaul subframe and is returned independently of current downlink The newly-increased ascending HARQ course of the corresponding current ascending HARQ course of journey subframe, or, by the newly-increased backhaul subframe and currently Descending backhaul subframe is combined as new descending backhaul subframe collection, sets new ascending HARQ to enter according to new descending backhaul subframe collection Journey.

After newly-increased backhaul subframe has been used, ascending HARQ sequential will necessarily change, and now need adjustment again Ascending HARQ course.Feasible method has two kinds, and a kind of is not change current ascending HARQ course, exclusively for newly-increased backhaul Frame sets a new HARQ process independent and current ascending HARQ course, is independent of each other between two processes；It is another to be The current ascending HARQ course of modification, the current descending backhaul subframe of newly-increased backhaul subframe is combined, and forms one newly Descending backhaul subframe collection, according to this new descending backhaul subframe collection, re-establish ascending HARQ course.Two methods, all The ascending HARQ timing variations that newly-increased backhaul subframe is brought can effectively be tackled.

Preferably, in step S304, newly-increased ascending HARQ course or new ascending HARQ course is set further to wrap Include following processing：

(1) set each descending backhaul subframe concentrated with newly-increased backhaul subframe or new descending backhaul subframe corresponding up Backhaul subframe；

(2) determine that HARQ's always enters number of passes.

An ascending HARQ course is set there are two main steps to need completion, one is for each descending backhaul subframe point With corresponding up backhaul subframe, the up backhaul subframe of distribution is the direct basis for setting ascending HARQ, and one is to determine HARQ It is how many actually always to enter number of passes.

Preferably, set corresponding with each descending backhaul subframe that newly-increased backhaul subframe or new descending backhaul subframe are concentrated Up backhaul subframe can include one below：

(1) the up backhaul subframe after each descending backhaul subframe scheduled time is set to and the descending backhaul subframe Corresponding up backhaul subframe；

(2) the corresponding up backhaul subframe of the descending backhaul subframe is determined according to the instruction of each descending backhaul subframe.

Distributing corresponding up backhaul subframe for each descending backhaul subframe mainly has two methods, and one kind is at up time Fixed relationship is set between journey subframe and the descending backhaul subframe, i.e., directly will be upper after the descending backhaul subframe scheduled time Row backhaul subframe is set to the up backhaul subframe with the descending backhaul subframe；It is a kind of, it is the finger according to descending backhaul subframe Show, flexibly determine the corresponding up backhaul subframe of the descending backhaul subframe.

Preferably, the above-mentioned scheduled time can include：4ms.

By the above-mentioned scheduled time be set to 4ms can compatible old LTE versions, in LTE FDD systems sub-frame of uplink and The interval of descending sub frame is exactly 4ms, and this data for being primarily due to descending sub frame in 4ms time ranges can be for transmission to reception End, and receiving terminal can also complete decoding process, carry out up hair at intervals of 4ms sub-frame of uplink position in correspondence afterwards Penetrate.

Preferably, determine that the HARQ number of passes that always enters may further include：The HARQ number of passes that always enters is equal to what is included in 8ms The maximum of up backhaul subframe quantity.

The maximum of up backhaul subframe is exactly that HARQ always enters number of passes in the range of any 8ms in up sequential.

Preferably, above-mentioned newly-increased ascending HARQ course is only mapped in newly-increased up backhaul subframe.

In order to ensure the independence of newly-increased ascending HARQ course, newly-increased ascending HARQ course is preferably only mapped in newly-increased upper In row backhaul subframe.

Preferably, the process number of above-mentioned newly-increased ascending HARQ course can be with the process number of above-mentioned current ascending HARQ course On the basis of be incremented by.

It is determined that newly-increased ascending HARQ course process number when, preferably current ascending HARQ course process number basis On will proceed numbering, to prevent numbering chaotic.

Above preferred embodiment is described in detail with reference to example and Fig. 4 to Figure 11.

In following examples：

DL subframe number=10*SFN+DL subframe index

UL subframe number=10*SFN+UL subframe index

Wherein, SFN represents System Frame Number System Frame Number；

DL subframe index represent the index for 10 subframe that 1 frame includes, in the range of (#0, # 1、#2、#3、#4、#5、#6、#7、#8、#9)；

UL subframe index represent the index for 10 subframe that 1 frame includes, in the range of (#0, # 1、#2、#3、#4、#5、#6、#7、#8、#9)。

Example one：

As shown in figure 4, fixed relation is kept between up backhaul subframe and descending backhaul subframe, when descending subframe index Number for #4 and #9 subframe as descending backhaul subframe when, acquiescence ground downlink backhaul subframe add corresponding sub-frame of uplink rope after 4ms Draw good number #8 and #3 subframe as up backhaul subframe.

Example two：

As shown in Figure 5, up backhaul subframe is indicated by descending backhaul subframe, and example is #4 and #9 when descending subframe index number Subframe as descending backhaul subframe when, up backhaul subframe can be indicated by descending backhaul subframe #4, indicated Row subframe index number is used as up backhaul subframe for #8 subframe.

Example three：

As shown in fig. 6, present combination is configured to " 00000111 ", understood to be currently configured 3 UL HARQ of correspondence according to table 1 Process (ascending HARQ course)；If as shown in fig. 7, serial number (#9, #19, #29, # of the descending backhaul subframe now increased newly 39......), then there is the serial number (#3, #13, #23, #33......) of up backhaul subframe according to example one.

Ascending HARQ course is used combines corresponding ascending HARQ course independently of the descending backhaul subframe being currently configured, Fig. 6 middle twills represent newly-increased backhaul subframe, and ULHARQ process#3 (representing the 4th process) are only mapped in newly-increased up In backhaul subframe, and total UL HARQ process numbers than originally add 1.

Example four：

As shown in fig. 6, present combination is configured to " 00000111 ", understood to be currently configured 3 UL HARQ of correspondence according to table 1 Corresponding descending backhaul subframe serial number (#6, #7, #13, #21, #22, #23, #31......) in process, present combination； If as shown in figure 8, the descending backhaul subframe serial number (#9, #19, #29, #39......) now increased newly, the unification after combination Descending backhaul subframe combination (collection) in subframe serial number (#6, #7, #9, #13, #19, #21, #22, #23, #29, #31, # 39......), then subframe serial number (#3, #10, #11, #13, #17, # in up backhaul subframe combination are had according to example one 23、#25、#26、#27、#33、#35......)。

Ascending HARQ course is to combine the ascending HARQ reset according to the descending backhaul subframe of the unification after combination to enter Journey, have modified the corresponding ascending HARQ course of the combination being currently configured, and its middle twill represents newly-increased backhaul subframe, ULHARQ Process#3 (representing the 4th process) re-starts ascending HARQ course mapping in unified up backhaul subframe combination.

Example five：

As shown in figure 9, present combination is configured to " 00111111 ", understood to be currently configured 6 UL HARQ of correspondence according to table 1 process；As shown in Figure 10, if serial number (#4, #5, #10, #19, #24, #25, # of the descending backhaul subframe now increased newly 30th, #39......), then there are serial number (#3, #8, #9, #14, #23, #28, #29, # of up backhaul subframe according to example one 34......)。

Ascending HARQ course is used combines corresponding ascending HARQ course independently of the descending backhaul subframe being currently configured, Its middle twill represents newly-increased backhaul subframe, and ULHARQ process#6, #7, #8 (expression the 7th, 8,9 processes) are only mapped in In newly-increased up backhaul subframe, and total ULHARQ process numbers than originally add 3.

Example six：

As shown in figure 9, present combination is configured to " 00111111 ", understood to be currently configured 6 UL HARQ of correspondence according to table 1 Corresponding descending backhaul subframe serial number (#2, #3, #6, #7, #11, #12, #13, #18, #21, # in process, present combination 22、#23、#26、#27、#28、#31、#36、#37、#38......)；As shown in figure 11, if the descending backhaul subframe now increased newly Serial number (#4, #5, #10, #19, #24, #25, #30, #39......), the then descending backhaul subframe combination of the unification after combining Interior subframe serial number (#2, #3, #4, #5, #6, #7, #10, #11, #12, #13, #18, #19, #21, #22, #23, #24, # 25th, #26, #27, #28, #30, #31, #36, #37, #38, #39......), then there is up backhaul subframe to combine according to example one Interior subframe serial number (#6, #7, #8, #9, #10, #11, #14, #15, #16, #17, #22, #23, #25, #26, #27, #28, # 29、#30、#31、#32、#34、#35、#40、#41、#42、#43......)。

Ascending HARQ is that the ascending HARQ course reset is combined according to the descending backhaul subframe of the unification after combination, is repaiied The corresponding ascending HARQ course of the combination being currently configured is changed, its middle twill represents newly-increased backhaul subframe, UL HARQ Process#6, #7 (expression the 7th, 8 processes) re-start ascending HARQ course in unified up backhaul subframe combination and reflected Penetrate.

Figure 12 is the structural representation of newly-increased backhaul subframe ascending HARQ device according to embodiments of the present invention.Such as Figure 12 institutes Show, newly-increased backhaul subframe ascending HARQ device according to embodiments of the present invention includes：

Determining module 122, is used to determine whether to have used newly-increased backhaul subframe；

Setup module 124, is connected to determining module 122, for when having used newly-increased backhaul subframe, for the newly-increased backhaul Subframe sets the newly-increased ascending HARQ course independently of the corresponding current ascending HARQ course of current downlink backhaul subframe, or, The newly-increased backhaul subframe and current descending backhaul subframe are combined as new descending backhaul subframe collection, according to new descending backhaul Subframe collection sets new ascending HARQ course.

Said apparatus, can be after newly-increased backhaul subframe have been used, adjustment ascending HARQ course again, so as to effectively should To increasing the ascending HARQ timing variations that backhaul subframe is brought newly.The mode of adjustment has two kinds, and a kind of is not change current up HARQ processes, set a new HARQ process independent and current ascending HARQ course, two exclusively for newly-increased backhaul subframe It is independent of each other between process；Another is the current ascending HARQ course of modification, by the current descending backhaul of newly-increased backhaul subframe Subframes combine together, forms a new descending backhaul subframe collection, according to this new descending backhaul subframe collection, re-establishes Ascending HARQ course.

Preferably, as shown in figure 13, setup module 124 may further include：

Up setting unit 1242, for each descending backhaul for setting newly-increased backhaul subframe or new backhaul subframe to concentrate The corresponding up backhaul subframe of frame；

Total determining unit 1244, is connected to up setting unit 1242, for determining that HARQ's always enters number of passes.

An ascending HARQ course is set there are two main steps to need completion, one is for each descending backhaul subframe point With corresponding up backhaul subframe, completed by up setting unit 1242, the up backhaul subframe of distribution is to set ascending HARQ Direct basis, one to be to determine that HARQ always enters number of passes be how many actually, is completed by total determining unit 1244.

Preferably, up setting unit 1242 may further include：

Subelement is fixedly installed, for the up backhaul subframe after each descending backhaul subframe scheduled time to be set to Up backhaul subframe corresponding with the descending backhaul subframe；

Determination subelement is indicated, for determining that the descending backhaul subframe is corresponding according to the instruction of each descending backhaul subframe Row backhaul subframe.

Above-mentioned two subelement corresponds to two kinds of main methods that up backhaul subframe is distributed for descending backhaul subframe, a kind of It is to set fixed relationship between up backhaul subframe and the descending backhaul subframe, i.e., will directly makes a reservation for positioned at descending backhaul subframe Up backhaul subframe after time is set to the up backhaul subframe with the descending backhaul subframe；It is a kind of then be according to descending backhaul The instruction of subframe, flexibly determines the corresponding up backhaul subframe of the descending backhaul subframe.

Preferably, the above-mentioned scheduled time can include：4ms.

By the above-mentioned scheduled time be set to 4ms can compatible old LTE versions, in LTE FDD systems sub-frame of uplink and The interval of descending sub frame is exactly 4ms, and this data for being primarily due to descending sub frame in 4ms time ranges can be for transmission to reception End, and receiving terminal can also complete decoding process, carry out up hair at intervals of 4ms sub-frame of uplink position in correspondence afterwards Penetrate.

Preferably, total determining unit 1244, for the maximum of the up backhaul subframe quantity included in 8ms to be determined Always enter number of passes for HARQ.

The maximum of up backhaul subframe is exactly that HARQ always enters number of passes in the range of any 8ms in up sequential.

Preferably, up determining unit 1242, can be also used for newly-increased ascending HARQ course being only mapped in newly-increased upper In row backhaul subframe.

In order to ensure the independence of newly-increased ascending HARQ course, up determining unit 1242 preferably enters newly-increased ascending HARQ Journey is only mapped in newly-increased up backhaul subframe.

Preferably, up determining unit 1242, can be also used on the basis of the process number of current ascending HARQ course, Pass through the incremental process number for determining newly-increased ascending HARQ course.

In order to prevent numbering chaotic, up determining unit 1242 is when it is determined that increase the process number of ascending HARQ course newly, most Fortunately numbering will be proceeded on the basis of the process number of current ascending HARQ course.

As can be seen from the above description, the technical scheme that the present invention is provided can be perfectly suitable for base station in After node link, back haul link flexibility is improved, backwards compatibility (compatible LTE system) has both been ensure that, has also solved newly-increased During repeated link subframe the problem of ascending HARQ sequential.

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 (14)

1. a kind of newly-increased backhaul subframe uplink hybrid automatic repeat request HARQ methods, it is characterised in that including：

Determine whether to have used newly-increased backhaul subframe；

It is that the newly-increased backhaul subframe sets corresponding independently of current downlink backhaul subframe when having used newly-increased backhaul subframe The newly-increased ascending HARQ course of current ascending HARQ course, or, by the newly-increased backhaul subframe and current descending backhaul Frame is combined as new descending backhaul subframe collection, and new ascending HARQ course is set according to the new descending backhaul subframe collection.

2. according to the method described in claim 1, it is characterised in that set the newly-increased ascending HARQ course or described new upper Row HARQ processes include：

Set on corresponding with each descending backhaul subframe that the newly-increased backhaul subframe or the new descending backhaul subframe are concentrated Row backhaul subframe；

Determine that HARQ's always enters number of passes.

3. method according to claim 2, it is characterised in that set and the newly-increased backhaul subframe or newly descending The corresponding up backhaul subframe of each descending backhaul subframe that backhaul subframe is concentrated includes one below：

Up backhaul subframe after each descending backhaul subframe scheduled time is set to corresponding with the descending backhaul subframe Up backhaul subframe；

The corresponding up backhaul subframe of the descending backhaul subframe is determined according to the instruction of each descending backhaul subframe.

4. method according to claim 3, it is characterised in that the scheduled time includes：4ms.

5. method according to claim 2, it is characterised in that determining the HARQ number of passes that always enters includes：

HARQ's always enters maximum of the number of passes equal to the up backhaul subframe quantity included in 8ms.

6. method according to claim 2, it is characterised in that the newly-increased ascending HARQ course is only mapped in newly-increased upper In row backhaul subframe.

7. method according to claim 6, it is characterised in that the process number of the newly-increased ascending HARQ course is worked as described It is incremented by the basis of the process number of preceding ascending HARQ course.

8. a kind of newly-increased backhaul subframe uplink hybrid automatic repeat request HARQ devices, it is characterised in that including：

Determining module, is used to determine whether to have used newly-increased backhaul subframe；

Setup module, for when having used newly-increased backhaul subframe, being that the newly-increased backhaul subframe is set independently of current downlink The newly-increased ascending HARQ course of the corresponding current ascending HARQ course of backhaul subframe, or, by the newly-increased backhaul subframe and work as Preceding descending backhaul subframe is combined as new descending backhaul subframe collection, and newly upper is set according to the new descending backhaul subframe collection Row HARQ processes.

9. device according to claim 8, it is characterised in that the setup module includes：

Up setting unit, for each descending backhaul for setting the newly-increased backhaul subframe or the new backhaul subframe to concentrate The corresponding up backhaul subframe of frame；

Total determining unit, for determining that HARQ's always enters number of passes.

10. device according to claim 9, it is characterised in that the up setting unit includes at least one of：

Subelement is fixedly installed, for the up backhaul subframe after each descending backhaul subframe scheduled time to be set to being somebody's turn to do The corresponding up backhaul subframe of descending backhaul subframe；

Determination subelement is indicated, for determining that the descending backhaul subframe is corresponding up time according to the instruction of each descending backhaul subframe Journey subframe.

11. device according to claim 10, it is characterised in that the scheduled time includes：4ms.

12. device according to claim 9, it is characterised in that the total determining unit, for will be included in 8ms What the maximum of up backhaul subframe quantity was defined as HARQ always enters number of passes.

13. device according to claim 9, it is characterised in that the up setting unit, is additionally operable on described increase newly Row HARQ processes are only mapped in newly-increased up backhaul subframe.

14. device according to claim 13, it is characterised in that the up setting unit, is additionally operable to described current On the basis of the process number of ascending HARQ course, pass through the incremental process number for determining the newly-increased ascending HARQ course.