CN101567749B

CN101567749B - Method and device for downlink data transmission

Info

Publication number: CN101567749B
Application number: CN 200810104392
Authority: CN
Inventors: 索士强; 喻晓冬; 肖国军; 丁昱
Original assignee: China Academy of Telecommunications Technology CATT
Current assignee: China Academy of Telecommunications Technology CATT; Datang Mobile Communications Equipment Co Ltd
Priority date: 2008-04-22
Filing date: 2008-04-22
Publication date: 2013-04-03
Anticipated expiration: 2028-04-22
Also published as: CN101567749A; WO2009129742A1

Abstract

The invention discloses a method for downlink data transmission, comprising the steps: a terminal reports a terminal level supported by itself and an extended memory instruction used for expressing the terminal memory size to a base station; the base station obtains the maximum progresses N supported by downlink according to the scale of the uplink and the downlink; and the base station carries out memory allocation preprocessing according to the terminal level, the extended memory instruction and the supported maximum progresses N and performs the downlink transmission. The invention also discloses a user terminal and the base station. The invention has the advantages that the base station can pointedly adopt memory allocation method to allocate the memory of user equipment (UE), thereby avoiding the condition that effective speed matching approaches or exceeds 1 and further enhancing the reliability of the system transmission.

Description

A kind of downlink data transmission method and device

Technical field

The present invention relates to mobile communication technology, particularly downlink data transmission method and the device in a kind of mobile communication.

Background technology

In mixing automatic repeat request (HARQ) mechanism of Long Term Evolution (LTE) system, the base station is when being handed down to user terminal (UE) with arbitrary HARQ process data, the base station issues process data several times, issue the part in this process data at every turn, UE is after receiving for the first time a part of process data that the base station issues, to receiving decoding data, if successfully decoded, then to base station feedback ACK information, the base station no longer issues other data of this process; If decode unsuccessfully, the result that then will decode stores, and to the base station feedback nack message, continue to issue to UE the next part process data of this process behind the base station reception nack message, decoding after UE merges decoded result last time of preserving after receiving the next part process data, and according to whether successfully decoded is processed according to aforementioned manner, and so forth, until successfully decoded or receive all data of this process.

In above-mentioned LTE system, the base station uses the rate-matched rate algorithms of female code code check 1/3 that the information data of HARQ process is carried out rate-matched, that is to say, information data for the N bit, after carrying out rate-matched, the data transmission block that forms is the 3N bit, and when decoding unsuccessfully, the data volume that need to store is the 3N bit namely.As seen, under 1/3 rate-matched speed, the memory size that the UE end arranges is relatively large.

For this problem, the FDD system proposes to have used limited buffer rate-matched (LBRM, limited buffer rate matching) algorithm, be that information data is carried out after 1/3 rate-matched, again information data and checking data are punched, so that remaining information data and checking data total length are in the past half, the effective speed rate matched that obtains is 2/3, and the right systematic function of effective speed rate matched coding of employing 2/3 also can ensure.

Wherein the principle of punching is the final position of the data block that information data and checking data form after the prerequisite rate-matched.For example, Fig. 1 is global buffer rate-matched schematic diagram, wherein, dash area represents information data, white portion represents to carry out the checking data that adds after 1/3 rate-matched, RV0 among the figure represents for the first time initial point position of the transmission of data, the initial point position when RV1 represents to receive the defeated process data of second pass behind the nack message ....The LBRM algorithm punching schematic diagram of Fig. 2 for carrying out based on Fig. 1 wherein, with the back part data punching deletion of checking data, when transmitting, namely no longer transmits this part data, and the RV0 among the figure etc. are identical with implication among Fig. 1.Here need to prove that the punching of carrying out among Fig. 2 is not to carry out according to 2/3 rate-matched speed, and be the schematic diagram of a punching.

Utilizing the LBRM algorithm to after the process data punching, the effective speed rate matched is 2/3, thereby so that the storage data volume of each HARQ process in UE of decode unsuccessfully afterwards just dwindled half.For 8 processes of FDD system, the total memory size of UE also can reduce half when design, greatly saved cost.

In the LTE system, the UE Terminal Design is supported the double mode of TDD and FDD.When the UE Terminal Design, tdd mode uses the identical internal memory of size to store the data of a plurality of processes with fdd mode at present.When system moved, if tdd mode is supported identical peak rate transmission with fdd mode, the data block size of each process transmission should be identical so.But, because under the tdd mode, the process number that different uplink and downlink timeslot ratio is corresponding different, under some uplink and downlink timeslot ratio, its process number is higher than 8 (for example 9,10,12 and 15), therefore, if make tdd mode and fdd mode support identical peak rate transmission, according to the LTE terminal of fdd mode design, then can't support to be higher than under the tdd mode situation of 8 processes.

In the face of this situation, if compress the shared internal memory of each process by more punching, when tdd mode uses LBRM compression algorithm information data and checking data so, corresponding effective speed rate matched correspondence 9,10,12 and 15 processes are respectively 3/4,5/6, and 1 and 5/4, wherein, rear three kinds of rate values obviously approach or greater than ' 1 ', will cause the degradation of system reliability, can't satisfy the systematic function requirement.

Summary of the invention

In view of this, the invention provides a kind of downlink data transmission method and corresponding base station and user terminal, can improve the reliability of transfer of data under the tdd mode.

For achieving the above object, the present invention adopts following technical scheme:

A kind of downlink data transmission method comprises:

The terminal grade of self supporting that the base station receiving terminal reports and the exented memory indication that is used for expression terminal memory size;

The base station obtains the descending maximum process of supporting according to the up-downgoing ratio and counts N;

N is counted according to the indication of described terminal grade, described exented memory and the maximum process supported in the base station, carries out the Memory Allocation pre-operation, and carries out downlink transfer.

Preferably, the exented memory that described base station receiving terminal reports is designated as: described terminal utilizes 1 bit information to carry out described reporting, two states of described 1 bit information, and representative is not supported exented memory and is supported exented memory respectively.

Preferably, the described represented memory size of exented memory of not supporting is the base memory size of systemic presupposition;

The represented memory size of described support exented memory is with corresponding greater than a process number in four descending process numbers of N0, and described N0 is process number corresponding to described base memory size.

Preferably, the exented memory that described base station receiving terminal reports is designated as: described terminal utilizes 2 bit informations to carry out described reporting, the one of four states of described 2 bit informations, exented memory is not supported in representative respectively, support exented memory size A, support exented memory size B, support exented memory size C.

Described support exented memory size A, support exented memory size B and support the represented memory size of exented memory size C respectively with greater than three in four descending process numbers of N0 corresponding, described N0 is process number corresponding to described base memory size.

Preferably, the exented memory that described base station receiving terminal reports is designated as: described terminal utilizes 3 bit informations to carry out described reporting, five states of described 3 bit informations, exented memory is not supported in representative respectively, support exented memory size A, support exented memory size B, support exented memory size C, support exented memory size D.

Described support exented memory A, support exented memory B and support the represented memory size of exented memory C corresponding one by one with four descending process numbers greater than N0 respectively that described N0 is the process number of described base memory size correspondence.

Preferably, the method further comprises:

In advance the base memory size be multiply by arbitrary exented memory and indicate corresponding process number again divided by N0, result of calculation is indicated represented memory size as described arbitrary exented memory.

Preferably, N is counted according to the indication of the described terminal grade of terminal feedback, described exented memory and the maximum process supported in described base station, carries out the Memory Allocation pre-operation, and carries out downlink transfer and comprise:

Corresponding memory size is indicated according to the corresponding memory size of terminal grade and exented memory in the base station, and the maximum process that computing terminal is supported is counted M;

The base station judges exented memory indicates corresponding memory size whether to satisfy the requirement that maximum process is counted M, if carry out Memory Allocation pre-operation 1 and corresponding downlink transfer; Otherwise, carry out Memory Allocation pre-operation 2 and corresponding downlink transfer.

Preferably, the method further comprises: terminal is carried out the actual memory batch operation according to the Memory Allocation pre-operation of base station, and carries out the processing operation of data.

Preferably, described base station carries out Memory Allocation pre-operation 1 and corresponding downlink transfer is: carry out internal memory among the five equilibrium UE according to N or M, and carry out corresponding downlink transfer according to the internal memory after distributing.

Preferably, describedly carry out Memory Allocation pre-operation 2 and corresponding downlink transfer is in base station side: minute internal memories such as N are counted in the base station according to process, reduce modulation coding mode and carry out downlink transfer;

Perhaps, minute internal memories such as N are counted in the base station according to process, increase the effective speed rate matched of LBRM in effective range, and the length that reduces each transmission information is carried out downlink transfer.

Preferably, Memory Allocation pre-operation 2 is carried out for reaching corresponding downlink transfer in described base station: minute internal memories such as M are counted in the base station according to process, count scheduling and the transmission that N carries out downlink data according to process;

Described terminal is carried out the actual memory batch operation according to the Memory Allocation pre-operation of base station, and the processing operation of carrying out data comprises: terminal is counted minute internal memories such as M according to process, count process data outside the M and error of transmission for exceeding described process, directly abandon, and to the base station feedback nack message.

Preferably, described base station carries out Memory Allocation pre-operation 2 and corresponding downlink transfer is: minute internal memories such as N are counted in the base station according to process, and carry out corresponding downlink transfer according to the internal memory after distributing;

Described terminal is carried out the actual memory batch operation according to the Memory Allocation pre-operation of base station, and the line correlation data storage of going forward side by side operation comprises: terminal is counted minute internal memories such as N according to process, carry out part for the data that exceed memory size to abandon; Arbitrary process is when repeatedly data retransmission merges, to newly to all data and the data of storage carry out part and merge.

Preferably, described base station carries out Memory Allocation pre-operation 2 and corresponding downlink transfer is: base station configurating downlink number of processes, and according to minute internal memory such as this process number, and number of processes informed to terminal, and carry out corresponding downlink transfer according to the internal memory after distributing;

Described terminal is carried out the actual memory batch operation according to the Memory Allocation pre-operation of base station, the line correlation data storage of going forward side by side is operating as: terminal receives the number of processes that the base station issues, carry out the actual memory batch operation according to this number of processes, and carry out the processing operation of data.

A kind of user terminal comprises: terminal grade reports the unit, and the exented memory indication reports unit, Memory Allocation and processing unit;

Described terminal grade reports the unit, is used for the terminal grade of self is reported the base station;

Described exented memory indication reports the unit, is used for representing that the exented memory indication information of self EMS memory size reports the base station;

Described Memory Allocation and processing unit, the memory allocate way that is used for issuing according to the base station is each course allocation internal memory and processes receive data.

A kind of base station comprises: the terminal grade receiving element, and exented memory indication receiving element, maximum process are counted determining unit, internal memory preassignment unit and data dispatch transmission unit,

Described terminal grade receiving element is used for the terminal grade that receiving terminal reports, and sends to described internal memory preassignment and data dispatch transmission unit;

Described exented memory indication receiving element is used for the exented memory indication information that receiving terminal reports, and sends to described internal memory preassignment and data dispatch transmission unit;

Described maximum process is counted determining unit, is used for definite corresponding maximum process of current ascending-descending subframes ratio and counts N;

N is counted for the maximum process of indicating according to the described terminal grade of terminal feedback, described exented memory and support in described internal memory preassignment unit, carries out the Memory Allocation pre-operation;

Described data dispatch transmission unit is used for carrying out data dispatch and transmission according to the memory size of each process of determining.

By the technical scheme of the invention described above as seen, among the present invention, the terminal grade of self supporting that base station reception UE reports and the exented memory indication that is used for the terminal memory size, concrete Memory Allocation pre-operation and data dispatch transmission are carried out according to this terminal memory size in the base station.Like this, the terminal memory size has multiple, and report the terminal memory size of self supporting by UE, it is internal memory among the course allocation UE that the base station can be taked memory allocate way targetedly, thereby avoid the effective speed rate matched to approach or surpass 1 situation, and then improve the reliability of system transmissions.

Description of drawings

Fig. 1 is global buffer rate-matched schematic diagram.

The LBRM algorithm punching schematic diagram of Fig. 2 for carrying out based on Fig. 1.

Fig. 3 is the method overview flow chart of downlink data transmission provided by the invention.

Fig. 4 is the overall construction drawing of UE provided by the invention.

Fig. 5 is the overall construction drawing of base station provided by the invention.

Fig. 6 is the method particular flow sheet of downlink data transmission in the embodiment of the invention.

Embodiment

For making purpose of the present invention, technological means and advantage clearer, below in conjunction with accompanying drawing the present invention is described in further detail.

At present, according to transmission block size and effective speed rate matched, standard definition the UE terminal buffers device when supporting N0 process big or small, specific descriptions are such as following table 1.Wherein the UE type represents the terminal grade that UE supports, for different terminal grades, N0 base memory corresponding to process varies in size.

The down physical layer parameter value of table 1UE type

The UE type	Maximum transport block size (bit)	The effective speed rate matched	Base memory size (bit)
				Class1	[10040]	1/3	[242,880]
Type 2	[50000]	1/3	[1,206,624]
				Type 3	[100000]	2/3	[1,206,624]
Type 4	[150112]	2/3	[1,811,232]
				Type 5	[300064]	2/3	[3,620,256]

Basic thought of the present invention is: the optional multiple terminal memory size of UE is set, and UE reports the terminal memory size of self supporting to the base station, and concrete Memory Allocation and data dispatch transmission means are determined according to the information that receives in the base station.

Fig. 3 is the overview flow chart of HARQ process data transmission method provided by the invention.As shown in Figure 3, this flow process comprises:

Step 301 sets in advance the optional memory size of UE, for UE determines in the described memory size any one.

In this step, the multiple terminal memory size is set, comprises maximum base memory size and the maximum exented memory size of supporting greater than N0 process of supporting N0 process.Wherein, the base memory size is namely as shown in table 1; The exented memory size is the optional memory size of terminal that the present invention increases newly, by the buffer size of terminal extension, thereby can support situation greater than N0 process.Concrete exented memory size can also have multiple choices, supports respectively different process numbers.As required, can be total memory size corresponding to UE with the exented memory size definition, also it can be defined as the memory size that increases on the base memory basis.

By above-mentioned setting, when carrying out the LTE Terminal Design, can select UE is designed to support any one memory size that namely the buffer with UE is defined as any one memory size.

When carrying out downlink data transmission under the step 302, tdd mode, UE reports the terminal grade of self supporting and represents exented memory indication from the self EMS memory size to the base station.

According to the represented memory size of predefined exented memory indication, the memory size of this UE is reported the base station, specifically can be by the mode informing base station of high-level signaling.

Step 303, the base station receives and determines the terminal memory size that UE supports, determines the corresponding maximum process number of current ascending-descending subframes ratio.

The base station is determined the terminal memory size that UE supports on the one hand, on the other hand according to the maximum process number of current ascending-descending subframes ratio-dependent.

Step 304, N is counted according to the indication of terminal grade, exented memory and the maximum process supported in the base station, carries out the Memory Allocation pre-operation, and carries out downlink transfer.

So far, the method flow of transmitting HARQ process data of the present invention finishes.

Fig. 4 and Fig. 5 are respectively the overall construction drawing of UE provided by the invention and base station, and this UE and base station can be used for implementing above-mentioned HARQ process data transmission method.

As shown in Figure 4, this UE comprises: the terminal grade receiving element, the exented memory indication reports unit, Memory Allocation and processing unit.Wherein, terminal grade reports the unit, is used for the terminal grade of self is reported the base station; The exented memory indication reports the unit, and the terminal memory size that is used for self supporting reports the base station; Memory Allocation and processing unit, the memory allocate way that is used for issuing according to the base station is the course allocation internal memory and processes receive data.

As shown in Figure 5, this base station comprises: the terminal grade receiving element, exented memory indication receiving element, maximum process are counted determining unit, internal memory preassignment unit and data dispatch transmission unit.Wherein, described terminal grade receiving element is used for the terminal grade that receiving terminal reports, and sends to described internal memory preassignment and data dispatch transmission unit.Exented memory indication receiving element is used for the exented memory indication information that receiving terminal reports, and sends to described internal memory preassignment and data dispatch transmission unit.Maximum process is counted determining unit, is used for determining the corresponding maximum process number of current ascending-descending subframes ratio.N is counted for the maximum process of indicating according to the described terminal grade of terminal feedback, described exented memory and support in internal memory preassignment unit, carries out the Memory Allocation pre-operation.The data dispatch transmission unit is used for carrying out data dispatch and transmission according to the memory size of each process of determining.

Above-mentioned being overview of the present invention below is elaborated to the specific embodiment of the present invention by reference Fig. 6.

Step 601 is calculated UE terminal memory size according to the LBRM algorithm, and the terminal type of memory is set, for UE determines in the described memory size any one.

The exented memory indication of expression multiple terminal memory size is set, process number corresponding to various exented memory indication among the present invention.Wherein, the corresponding exented memory indication of existing base memory size is set to not support exented memory, and its corresponding process number is N0; And introduce correspondence greater than the exented memory indication of other different process numbers of N0 process.Specifically the process number greater than the N0 process can be 9,10,12 or 15, and namely the corresponding at present process number of tdd mode certainly, also can select other greater than the process number of N0.

In this step, need to calculate for the process number greater than N0 the represented memory size of various exented memory indications, specifically can calculate according to the LBRM algorithm, wherein maximum transport block size keeps identical with shown in the table 1, so that under TDD mould and the fdd mode, system can reach identical peak-peak speed; The effective speed rate matched is 2/3, when guaranteeing that namely internal memory suitably reduces, destroys certain data and does not affect systematic function.

Concrete, in greater than the process number of N0, select four kinds of process numbers among the present invention, the memory size that these four kinds of process numbers are corresponding is as the exented memory indication represented memory size corresponding with this process number, and the account form of the memory size that specifically this process number is corresponding is: the base memory size multiply by corresponding process number again divided by N0.With N0=8, newly-increased support is example greater than 9,10,12 and 15 processes of 8 processes, the all possible exented memory indication corresponding greater than the process number of N0 comprises: corresponding process number is 9 exented memory size a, the represented memory size of this exented memory size a is that the base memory size multiply by 9/8; Corresponding process number is 10 exented memory size b, and the represented memory size of this exented memory indication is that the base memory size multiply by 5/4; Corresponding process number is 12 exented memory size c, and the represented memory size of this exented memory indication is that the base memory size multiply by 4/3; Corresponding process number is 15 exented memory size d, and the represented memory size of this exented memory indication is that the base memory size multiply by 15/8.Concrete exented memory indication parameter is shown in table 2 and table 3.Wherein, the representative of the exented memory of table 2 size is the difference of actual memory size and base memory size; What the exented memory size of table 3 represented is the actual memory size.

The down physical layer parameter value of table 2UE type

The down physical layer parameter value of table 3UE type

Above-mentioned is the parameter setting that might be set to four kinds of exented memory sizes of exented memory indication.In fact, when carrying out the invention process, except the exented memory indication of expression base memory size, other exented memory indications not necessarily comprise all above-mentioned four kinds, and only set as required wherein one or more, then follow-up UE and base station only can operate for the exented memory indication that arranges.

When under tdd mode, carrying out transfer of data, carry out following operation:

Step 602, UE reports the base station with the terminal grade of self supporting and the exented memory indication that is used for expression self EMS memory size.

The mode that reports for terminal grade can adopt existing mode to realize, just repeats no more here.

For reporting of exented memory indication, consider different reporting information expenses, the present invention provides 3 kinds of information reporting schemes, is respectively to utilize 1 bit information to report, utilize 2 bit informations to report and utilize 3 bit informations to report.

When adopting the information reporting exented memory indication of different length, the memory size that arranges in step 601 of its correspondence is not identical yet.

Below specifically introduce three kinds and report mode:

(1) utilize 1 bit information to report

When adopting 1 bit information to report the exented memory indication, two kinds of exented memory indications that two kinds of optional memory sizes are set in the step 601 and represent these two kinds of memory sizes.These two kinds of exented memory indications are respectively not to be supported exented memory and supports exented memory, wherein, do not support that the represented memory size of exented memory size is the base memory size, support exented memory correspondingly as required to count Nx greater than any process of N0, and calculate represented memory size according to this process number.

At the system initial stage, namely can determine the optional memory size of two kinds of UE, UE reports exented memory when indication, utilizes two kinds of values of 1 bit information to represent respectively and does not support exented memory and support exented memory.For example, the system initial stage, determine the UE for arbitrary type, can not support exented memory, perhaps support exented memory, the base station determines according to the value of exented memory indication whether UE supports exented memory after receiving the exented memory indication that UE reports.

The value of concrete 1 bit expanded internal memory indication is distributed: report 1bit information ' 1 ', expression UE does not support exented memory, and the memory size of its expression is the base memory size; Otherwise, reporting 1bit information ' 0 ', expression UE supports exented memory, the memory size of its expression is for supporting the memory size of Nx process.

In the FDD system, use the signaling indication dedicated pilot signal (DRS) of 1bit, and this 1bit does not use in the TDD system, therefore can design UE utilizes this 1bit resource as the memory information reporting base station, thereby the control signal of system do not increased extra expense, the high-level signaling of 1 bit can certainly additionally be set as memory information.

Originally report in the mode, the little or not impact on the signaling consumption impact, but alternative terminal type of memory is less.

(2) utilize 2 bit informations to report

When adopting 2 bit informations to report the exented memory indication, four kinds of exented memory indications that four kinds of optional memory sizes of UE are set in the step 601 and represent these four kinds of memory sizes.These four kinds of exented memory indications are respectively: do not support exented memory, support exented memory size A, support exented memory size B, support exented memory size C.Wherein, do not support that the represented memory size of exented memory is the base memory size, corresponding process is counted N0; Support exented memory size A, support exented memory size B and support that the represented memory size of exented memory size C is corresponding to three kinds of N1, N2, N3 in four kinds of process numbers of N0 respectively.

With identical in aforementioned (one), at the system initial stage, namely can determine four kinds of optional memory sizes of UE, UE reports exented memory when indication, utilizes four kinds of values of 2 bit informations to represent respectively and does not support exented memory, supports exented memory size A, supports exented memory size B and support exented memory size C.

Still with N0=8, be respectively 9,10,12 and 15 greater than four kinds of process numbers of N0 and be example, four kinds of exented memory indications can be as shown in table 4 with the corresponding relation of four kinds of values of 2 bit informations.

The terminal type of memory scheme that table 42 bit memory information corresponding UE are supported

Table 4 shows the set-up mode of A, B, three kinds of different exented memory indications of C, wherein, selected three process numbers greater than N0 are different, therefore, for above-mentioned three kinds of selections, support exented memory size A, support exented memory size B, support that the process number of the actual correspondence of exented memory size C institute is not identical yet.In addition, originally report in the mode, can utilize the high-level signaling of setting up to carry the exented memory indication and report the base station.Report mode than the first, signaling consumption increases, but the memory size that UE can select to support has increased.

(3) utilize 3 bit informations to report

When adopting 3 bit informations to report the exented memory indication, four kinds of exented memory indications that five kinds of optional memory sizes of UE are set in the step 601 and represent these four kinds of memory sizes.These five kinds of exented memory indications are respectively: do not support exented memory, support exented memory size A, support exented memory size B, support exented memory size C, support exented memory size D.Wherein, do not support that the represented memory size of exented memory is the base memory size, corresponding process is counted N0; Support exented memory size A, support exented memory size B, support exented memory size C and support the represented memory size of exented memory size D respectively with to count N1, N2, N3, N4 greater than four kinds of processes of N0 corresponding one by one.

Still with N0=8, be respectively 9,10,12 and 15 greater than four kinds of process numbers of N0 and be example, when the corresponding relation of five kinds of values that five kinds of exented memory indications and 3 bit informations are set, can followingly arrange: when reporting the exented memory indication, first bit information in the 3 bit memory informations represents whether UE terminal internal memory supports the required memory size of all time slot ratio transmission of base station, and can namely expression support 15 processes.When first bit represented not support that all time slot ratios of base station transmit required memory size, rear 2 bit informations represented not support the exented memory indication of the exented memory indication of exented memory, corresponding 9 processes, corresponding 10 processes or the exented memory indication of 12 processes of correspondence.For example, if support the required memory size of all time slot ratio transmission of base station, first bit reports 1bit information ' 1 ', and all 3bits information can be expressed as ' 100 '; Otherwise if do not support, first bit reports 1bit information ' 0 '; When first bit information is ' 0 ', 2 bit informations ' 01 ' after utilizing, ' 10 ', exented memory is indicated or do not supported to the exented memory indication of 12 processes of ' 11 ' and ' 00 ' respectively expression correspondence, the exented memory indication of corresponding 10 processes, the exented memory of corresponding 9 processes, and the value of concrete 3bits memory information can be such as table 5 with the corresponding of exented memory indication.

The corresponding implication of table 53 bit memory informations

Memory information	The expression implication
		100	The UE internal memory is supported the required memory size of base station time slot proportional arrangement
001	The UE internal memory is not supported the memory size that the base station time slot proportional arrangement is required, the exented memory indication of corresponding 12 processes
		010	The UE internal memory is not supported the memory size that the base station time slot proportional arrangement is required, the exented memory indication of corresponding 10 processes
011	The UE internal memory is not supported the memory size that the base station time slot proportional arrangement is required, the exented memory indication of corresponding 9 processes

000	The UE internal memory is not supported the memory size that the base station time slot proportional arrangement is required, does not support exented memory

Originally report in the mode, can utilize the high-level signaling of setting up to carry memory information and report the base station.Report mode than front two kinds, signaling consumption is maximum, but the memory size that UE can select is maximum.

Step 603, base station receive and determine the exented memory indication of UE, and determine the corresponding maximum process number of current uplink and downlink timeslot ratio.

In this step, the exented memory indication of making an appointment according to UE and base station reports mode, and the memory information that UE reports is resolved in the base station, and the memory size supported of definite UE.Concrete definite mode is corresponding with the mode of reporting terminal type of memory in the step 602, just repeats no more here.

Further, the base station is according to uplink and downlink timeslot ratio, and the maximum process that obtains current downlink transfer support is counted N.

Concrete uplink and downlink timeslot ratio is identical with existing regulation with the relation of process number, and is specifically as shown in table 6.

The corresponding relation of table 6 uplink and downlink timeslot ratio and maximum process number

Step 604, base station judge that the exented memory of UE indicates whether to satisfy the requirement of described maximum process number, if, execution in step 605, otherwise execution in step 606.

As previously mentioned, the corresponding different process numbers of supporting of different terminal memory sizes, therefore indicate corresponding memory size according to the corresponding memory size of terminal grade and exented memory, the maximum process of can computing terminal supporting is counted M, also i.e. process number corresponding to this exented memory indication.If the corresponding process of the memory size of UE is counted M more than or equal to described maximum process number, then determine to satisfy the requirement of maximum process number, otherwise, determine not satisfy the requirement of maximum process number.

Step 605 is carried out predefined Memory Allocation pre-operation 1, and carries out corresponding data dispatch and transmission, and execution in step 607 again.

For simplicity, here the operation of UE in the base station operation of this step and the corresponding step 607 is introduced in the lump.Wherein, suppose predefined Memory Allocation pre-operation 1 can for: carry out internal memory among the five equilibrium UE according to N, then carry out data dispatch and transmission, UE carries out according to minute internal memories such as N accordingly also that data are processed and storage; Perhaps, predefined Memory Allocation pre-operation 1 also can for: carry out internal memory among the five equilibrium UE according to M, then carry out data dispatch and transmission, UE carries out according to minute internal memories such as M accordingly also that data are processed and storage.

Step 606 is carried out predefined Memory Allocation pre-operation 2 and is carried out corresponding data dispatch and transmission; Execution in step 607 again.

For simplicity, here the operation of UE in the base station operation of this step and the corresponding step 607 is introduced in the lump, concrete predefined mode can be considered following several scheme:

A, the internal memory of dynamic assignment each process in base station in UE, the process number that namely can support according to UE terminal internal memory, unequal each proceeding internal memory size of distributing is carried out data dispatch and transmission according to the dynamic assignment result; Concrete, can be according to the difference of COS, for the internal memory that the course allocation of different COS does not wait, for example, be that speech data distributes less internal memory, be the larger internal memory of video data distribution.UE carries out Memory Allocation according to the Dram method of salary distribution that the base station issues, and carry out data receiver and processing according to Memory Allocation, perhaps in time empty the in-process data message of transmission success, for example, after certain process data transmission success, empty the shared internal memory of this process, distribute to other process.

The transmision peak speed of b, restricted part or whole processes, base station are counted minute internal memories such as N according to process, reduce modulation coding mode, carry out data dispatch and transmission; For example, with the transmision peak rate limit at a default Near Threshold, not with high modulation coded system transmission, like this can the shared memory size of each process of corresponding reduction, thereby make the more process number of limited memory source support.Minute internal memory such as the process number that UE issues according to the base station, and carry out corresponding data receiver and processing.

C, count N etc. minute internal memory according to process, in effective LBRM rate-matched speed range, improve LBRM rate-matched speed, carry out data dispatch and transmission; For example, in the scope of LBRM rate-matched speed≤3/4, improve LBRM rate-matched speed as far as possible, namely the data block of each process transmission is destroyed more bit, to reduce the size of data of each process, make to have enough spaces in the UE terminal and can store the more data message of multi-process number.The process numbers that UE issues according to the base station etc. divide internal memory, and decode according to the LBRM rate-matched speed that the base station issues.

D, according to the internal memory among M etc. minute UE, and count N according to maximum process and carry out data dispatch and transmission; Minute internal memory such as the process number that UE issues according to the base station for exceeding process data outside the described process number that issues and error of transmission, is directly abandoned, and to the base station feedback nack message; For example, it is 8 that process corresponding to terminal type of memory that UE supports counted M, be 10 and count N according to the maximum process that uplink and downlink timeslot ratio is determined, then the base station is according to the internal memory among minute UE such as 8 processes, and dispatch according to maximum process several 10, in UE, for rear 2 processes outside surpassing 8, if decode unsuccessfully, then directly abandon the data of this process and feed back nack message.Under this kind mode, can be good at guaranteeing the reliability requirement of transfer of data for a front M process, but may cause data transmission performance poor for a rear N-M process.

E, base station count the internal memory among minute UE such as N according to maximum process, UE directly abandons for the data that exceed memory size according to the memory size storage data of each process, when repeatedly data retransmission merges with arbitrary process, carries out part according to memory size and merges.For example, it is 9 that process corresponding to terminal type of memory that UE supports counted M, be 10 and count N according to the maximum process that uplink and downlink timeslot ratio is determined, then internal memory is divided according to several 10 grades of maximum process in the base station, and dispatch and transfer of data according to maximum process several 10, terminal is stored according to the memory size of each process, abandons in each process back part data, carries out part according to memory size and merge when the merging of data retransmission repeatedly.This kind mode is compared with mode d, and the data transmission credibility of all N process is average.

F, base station, base station configurating downlink number of processes, according to minute internal memories such as this process numbers, number of processes is informed to terminal, and carry out data dispatch and transmission according to the descending number of processes of this configuration, minute internal memory such as the process number that UE issues according to the base station, and carry out data reception and processing.

Step 607, terminal is carried out the actual memory batch operation according to default Memory Allocation pre-operation, and carries out the storage operation of data.

Concrete reception and processing mode all to introduce, just repeat no more in

abovementioned steps

605 and 606 here.

So far, method flow of the present invention finishes.Above-mentioned concrete method flow can be implemented in Fig. 4 and user terminal shown in Figure 5 and base station.

Use the present invention, the terminal memory size of plurality of optional is provided for UE and base station, the terminal memory size that UE uses information bit indication UE seldom to support, the memory size that UE supports is determined in the exented memory indication that the base station can in time report according to UE, change corresponding UE Memory Distribution Map and transmission means, thereby avoid the effective speed rate matched to approach or surpass 1 situation, and then improve the reliability of system transmissions.

Being preferred embodiment of the present invention only below, is not for limiting protection scope of the present invention.Within the spirit and principles in the present invention all, any modification of doing, be equal to replacement, improvement etc., all should be included within protection scope of the present invention.

Claims

1. downlink data transmission method is characterized in that the method comprises:

Corresponding memory size is indicated according to the corresponding base memory size of terminal grade and exented memory in the base station, and the maximum process that computing terminal is supported is counted M;

The base station judges exented memory indicates corresponding memory size whether to satisfy the requirement that maximum process is counted N, if carry out internal memory among the five equilibrium UE according to N or M, and carry out corresponding downlink transfer according to the internal memory after distributing;

Otherwise minute internal memories such as N are counted in the base station according to process, reduce modulation coding mode and carry out downlink transfer; Perhaps, minute internal memories such as N are counted in the base station according to process, increase the effective speed rate matched of limited buffer rate-matched LBRM in effective range, and the length that reduces each transmission information is carried out downlink transfer.

2. method according to claim 1, it is characterized in that, the exented memory that described base station receiving terminal reports is designated as: described terminal utilizes 1 bit information to carry out described reporting, two states of described 1 bit information, and representative is not supported exented memory and is supported exented memory respectively.

3. method according to claim 2 is characterized in that, the described represented memory size of exented memory of not supporting is the base memory size of systemic presupposition;

4. method according to claim 1, it is characterized in that, the exented memory that described base station receiving terminal reports is designated as: described terminal utilizes 2 bit informations to carry out described reporting, the one of four states of described 2 bit informations, exented memory is not supported in representative respectively, support exented memory size A, support exented memory size B, support exented memory size C.

5. the method shown in according to claim 4 is characterized in that, the described represented memory size of exented memory of not supporting is the base memory size of systemic presupposition;

6. method according to claim 1 is characterized in that,

The exented memory that described base station receiving terminal reports is designated as: described terminal utilizes 3 bit informations to carry out described reporting, five states of described 3 bit informations, exented memory is not supported in representative respectively, support exented memory size A, support exented memory size B, support exented memory size C, support exented memory size D.

7. method according to claim 6 is characterized in that, the described represented memory size of exented memory of not supporting is the base memory size of systemic presupposition;

Described support exented memory A, support exented memory B, support exented memory C and support the represented memory size of exented memory D corresponding one by one with four kinds of descending process numbers greater than N0 respectively that described N0 is the process number of described base memory size correspondence.

8. according to claim 3,5 or 7 described methods, it is characterized in that the method further comprises:

9. downlink data transmission method is characterized in that the method comprises:

Otherwise minute internal memories such as M are counted in the base station according to process, count scheduling and the transmission that N carries out downlink data according to process; Terminal is counted minute internal memories such as M according to process, count process data outside the M and error of transmission for exceeding described process, directly abandon, and to the base station feedback nack message.

10. method according to claim 9, it is characterized in that, the exented memory that described base station receiving terminal reports is designated as: described terminal utilizes 1 bit information to carry out described reporting, two states of described 1 bit information, and representative is not supported exented memory and is supported exented memory respectively.

11. method according to claim 10 is characterized in that, the described represented memory size of exented memory of not supporting is the base memory size of systemic presupposition;

12. method according to claim 9, it is characterized in that, the exented memory that described base station receiving terminal reports is designated as: described terminal utilizes 2 bit informations to carry out described reporting, the one of four states of described 2 bit informations, exented memory is not supported in representative respectively, support exented memory size A, support exented memory size B, support exented memory size C.

13. the method according to claim 12 is characterized in that, the described represented memory size of exented memory of not supporting is the base memory size of systemic presupposition;

14. method according to claim 9 is characterized in that,

15. method according to claim 14 is characterized in that, the described represented memory size of exented memory of not supporting is the base memory size of systemic presupposition;

16. according to claim 11,13 or 15 described methods, it is characterized in that the method further comprises:

17. a downlink data transmission method is characterized in that the method comprises:

Otherwise minute internal memories such as N are counted in the base station according to process, and carry out corresponding downlink transfer according to the internal memory after distributing; Terminal is counted minute internal memories such as N according to process, carry out part for the data that exceed memory size to abandon; Arbitrary process is when repeatedly data retransmission merges, to newly to all data and the data of storage carry out part and merge.

18. method according to claim 17, it is characterized in that, the exented memory that described base station receiving terminal reports is designated as: described terminal utilizes 1 bit information to carry out described reporting, two states of described 1 bit information, and representative is not supported exented memory and is supported exented memory respectively.

19. method according to claim 18 is characterized in that, the described represented memory size of exented memory of not supporting is the base memory size of systemic presupposition;

20. method according to claim 17, it is characterized in that, the exented memory that described base station receiving terminal reports is designated as: described terminal utilizes 2 bit informations to carry out described reporting, the one of four states of described 2 bit informations, exented memory is not supported in representative respectively, support exented memory size A, support exented memory size B, support exented memory size C.

21. the method according to claim 20 is characterized in that, the described represented memory size of exented memory of not supporting is the base memory size of systemic presupposition;

22. method according to claim 17 is characterized in that,

23. method according to claim 22 is characterized in that, the described represented memory size of exented memory of not supporting is the base memory size of systemic presupposition;

24. according to claim 19,21 or 23 described methods, it is characterized in that the method further comprises:

25. a downlink data transmission method is characterized in that the method comprises:

Otherwise base station configurating downlink number of processes according to minute internal memory such as this process number, and is informed number of processes to terminal, and is carried out corresponding downlink transfer according to the internal memory after distributing; Terminal receives the number of processes that the base station issues, minute internal memories such as process number that issue according to the base station, and carry out the processing operation of data.

26. method according to claim 25, it is characterized in that, the exented memory that described base station receiving terminal reports is designated as: described terminal utilizes 1 bit information to carry out described reporting, two states of described 1 bit information, and representative is not supported exented memory and is supported exented memory respectively.

27. method according to claim 26 is characterized in that, the described represented memory size of exented memory of not supporting is the base memory size of systemic presupposition;

28. method according to claim 25, it is characterized in that, the exented memory that described base station receiving terminal reports is designated as: described terminal utilizes 2 bit informations to carry out described reporting, the one of four states of described 2 bit informations, exented memory is not supported in representative respectively, support exented memory size A, support exented memory size B, support exented memory size C.

29. the method according to claim 27 is characterized in that, the described represented memory size of exented memory of not supporting is the base memory size of systemic presupposition;

30. method according to claim 25 is characterized in that,

31. method according to claim 30 is characterized in that, the described represented memory size of exented memory of not supporting is the base memory size of systemic presupposition;

32. according to claim 27,29 or 31 described methods, it is characterized in that the method further comprises: