CN108633079A

CN108633079A - A kind of method and apparatus of priority of logical channels processing

Info

Publication number: CN108633079A
Application number: CN201710181246.7A
Authority: CN
Inventors: 陈中明; 黄河
Original assignee: ZTE Corp
Current assignee: ZTE Corp
Priority date: 2017-03-24
Filing date: 2017-03-24
Publication date: 2018-10-09
Also published as: WO2018171414A1

Abstract

An embodiment of the present invention provides a kind of method and apparatus of priority of logical channels processing, are applied in the terminal for supporting at least two set of system parameters, the method includes：The priority or priority orders of each set of system parameters are set；According to the priority or priority orders of each set of system parameters, priority of logical channels processing is carried out successively.

Description

A kind of method and apparatus of priority of logical channels processing

Technical field

The present invention relates to the method and apparatus that wireless communication field more particularly to a kind of priority of logical channels are handled.

Background technology

In order to meet the following higher that can be predicted, faster, newer communication requirement, set about expansion to future The research of the 5G communication technologys；The 5G communication technologys will be in the handling capacity of bigger, more users connection, more low time delay, more highly reliable Property and more low-power consumption (including network side equipment and user terminal) in terms of carry out further technical research；At present, it has been suggested that 5G technical goals, that is, arrive the year two thousand twenty or so, realize that the mobile data flow per 1000 times of region increases, set per each user The handling capacity that 10 to 100 times of standby (User Equipment, UE) increases, and connects the growth of 10 to 100 times of number of devices, low-power The decline of the longer cell life and end-to-end 5 times of delays that 10 times of equipment.

For the angle of application scenarios, the 5G communication technologys will support enhancing to move using a unified Technical Architecture Dynamic broadband (enhanced Mobile broadband, eMBB) business, magnanimity machine type (massive Machine Type Communication, mMTC) business and highly reliable low time delay (Ultra Reliable and Low Latency, URLL) industry Business, requirement of these business to time delay is different；The concept for thus proposing set of system parameters (numerology) is System parameter set refers to the set of parameter used in communication system, may include subcarrier spacing, symbol lengths, cyclic prefix (Cyclic Prefix, CP) length etc.；Illustratively, in long term evolution (Long Term Evolution, LTE)/LTE- In A (LTE-Advanced), subcarrier spacing (subcarrier spacing, SCS) is fixed 15kHz, and is communicated in 5G In technology, SCS, which will be set as 15* (2^n) kHz, wherein n, can take negative；That is SCS can be set as 3.75kHz, 7.5kHz, 15kHz, 30kHz, 60kHz, 120kHz etc., the value of SCS can directly influence symbol time domain length.

After introducing set of system parameters, terminal handles upstream data in the wireless environment for supporting multiple set of system parameters When, the different demands of different business are not adapted to.

Invention content

To solve existing technical problem, the embodiment of the present invention provides a kind of side of priority of logical channels processing Method and device are handled for solving terminal existing in the prior art in the wireless environment for supporting multiple set of system parameters Not the problem of different demands of different business are not adapted to when row data.

In order to achieve the above objectives, the technical solution of the embodiment of the present invention is realized in：

The embodiment of the present invention proposes a kind of method of priority of logical channels processing, it is applied to support at least two systems In the terminal of parameter set of uniting, the method includes：

The priority or priority orders of each set of system parameters are set；

According to the priority or priority orders of each set of system parameters, priority of logical channels processing is carried out successively.

Correspondingly, the embodiment of the present invention also proposed a kind of device of priority of logical channels processing, be applied to support extremely In the terminal of few two systems parameter set, described device includes：Setup module and processing module；Wherein,

Setup module, priority or priority orders for each set of system parameters to be arranged；

Processing module carries out logic channel successively for the priority or priority orders according to each set of system parameters Priority processing.

In a kind of priority of logical channels treating method and apparatus provided in an embodiment of the present invention, each system ginseng is set The priority or priority orders of manifold；According to the priority or priority orders of each set of system parameters, logic is carried out successively Channel priority (Logical Channel prioritization, LCP) processing；Since each set of system parameters can be right A kind of communication service is answered, then the priority or priority orders of set of system parameters can be used for characterizing every a kind of communication service Demand, to, carried out at priority of logical channels successively according to the priority or priority orders of each set of system parameters When reason, when terminal can be made to handle upstream data in the wireless environment for supporting multiple set of system parameters, it can adapt to not of the same trade or business The different demands of business.

Description of the drawings

Fig. 1 is the flow chart of priority of logical channels processing method of the embodiment of the present invention；

Fig. 2 is the value change schematic diagram of the variable Bj of logic channel in LTE system；

Fig. 3-1 is the first schematic diagram that priority of logical channels is handled in second embodiment of the invention；

Fig. 3-2 is the second schematic diagram that priority of logical channels is handled in second embodiment of the invention；

Fig. 3-3 is the third schematic diagram that priority of logical channels is handled in second embodiment of the invention；

Fig. 3-4 is the 4th schematic diagram that priority of logical channels is handled in second embodiment of the invention；

Fig. 3-5 is the 5th schematic diagram that priority of logical channels is handled in second embodiment of the invention；

Fig. 3-6 is the 6th schematic diagram that priority of logical channels is handled in second embodiment of the invention；

Fig. 3-7 is the 7th schematic diagram that priority of logical channels is handled in second embodiment of the invention；

Fig. 3-8 is the 8th schematic diagram that priority of logical channels is handled in second embodiment of the invention；

Fig. 4-1 is the first schematic diagram that priority of logical channels is handled in fourth embodiment of the invention；

Fig. 4-2 is the second schematic diagram that priority of logical channels is handled in fourth embodiment of the invention；

Fig. 4-3 is the third schematic diagram that priority of logical channels is handled in fourth embodiment of the invention；

Fig. 4-4 is the 4th schematic diagram that priority of logical channels is handled in fourth embodiment of the invention；

Fig. 4-5 is the 5th schematic diagram that priority of logical channels is handled in fourth embodiment of the invention；

Fig. 4-6 is the 6th schematic diagram that priority of logical channels is handled in fourth embodiment of the invention；

Fig. 5 is the structural schematic diagram of priority of logical channels processing unit of the embodiment of the present invention；

Fig. 6 is a hardware architecture diagram of terminal provided in an embodiment of the present invention.

Specific implementation mode

The present invention is further described in detail below with reference to the accompanying drawings and embodiments.It should be appreciated that described herein Specific embodiment be only used to explain the present invention, be not intended to limit the present invention.

The embodiment of the invention discloses a kind of priority of logical channels treating method and apparatus, can be applied to support extremely In the terminal of few two systems parameter set, terminal here can be the mobile terminal for having wireless communication function；Terminal and one After a cell establishes connection, at least one Data Radio Bearer can be established, each Data Radio Bearer can map at least one A logic channel (Logical Channel, LC).

Here, the set of system parameters may include following at least one parameter：It is described to be mapped to each of set of system parameters The priority of a logic channel, discontinuous reception (Discontinuous Reception, DRX) configuration information, mixing are automatic Retransmission request (Hybrid Automatic Repeat reQuest, HARQ) configuration information, uplink scheduling request (Scheduling Request, SR) resource etc.；In actual implementation, the parameter configuration of set of system parameters can be acquiescence , can also be network side such as base station by signal deployment to terminal.

In an optional example, terminal is based on one after receiving an ascending resource (UL grant) scheduling Parameter in system parameter set uses the ascending resource received；For example, when some systematic parameter concentration includes DRX configuration informations, Terminal can handle data according to DRX configuration informations after receiving ascending resource scheduling using the ascending resource received.

In another optional example, a Transmission Time Interval (Transmission Time is being received Interval, TTI) or a subframe in receive multiple ascending resource schedulings, and the multiple ascending resource is corresponding different respectively Set of system parameters when, the priority or priority orders of each set of system parameters based on setting use the multiple uplink Resource；For example, terminal receives two ascending resources in a TTI, it is denoted as ascending resource 1 and ascending resource 2 respectively, here, 1 correspondence system parameter set 1 of ascending resource, 2 correspondence system parameter set 2 of ascending resource, the priority of set of system parameters 2, which is higher than, is Parameter set 1 of uniting handles data according to ascending resource 1 later at this point, terminal first can handle data according to ascending resource 2.

Following embodiment is proposed based on terminal set forth above, set of system parameters, logic channel etc..

First embodiment

Fig. 1 shows the flow chart of priority of logical channels processing method of the embodiment of the present invention, as shown in Figure 1, the flow Including：

Step 101：The priority or priority orders of each set of system parameters are set.

Here it is possible to the priority or priority orders of each set of system parameters are pre-set, each set of system parameters Priority orders are used to indicate the priority height between each set of system parameters；Illustratively, each set of system parameters is excellent First grade can indicate that the numerical value of the priority of each set of system parameters is lower with positive integer, illustrate each set of system parameters Priority is higher；Alternatively, the numerical value of the priority of each set of system parameters is lower, illustrate the priority of each set of system parameters It is lower.

Obviously, according to the priority or priority orders of each set of system parameters, it may be determined that each set of system parameters it Between priority height, for example, terminal support three set of system parameters be denoted as n1, n2 and n3 respectively, in one example, N1, n2 and n3 can be arranged in order according to the sequence of priority from high to low as n2, n3 and n1.

Step 102：According to the priority or priority orders of each set of system parameters, bgical channel priority is carried out successively Grade processing.

As can be seen that the priority of logical channels processing method of first embodiment of the invention, can join according to each system The priority or priority orders of manifold carry out carrying out priority of logical channels processing successively, since each set of system parameters can With corresponding a kind of communication service, then the priority or priority orders of set of system parameters can be used for characterizing every a kind of communication The communication requirement (such as delay requirement) of business, to, according to the priority of each set of system parameters or priority orders into When the processing of row priority of logical channels, terminal can be made to handle upper line number in the wireless environment for supporting multiple set of system parameters According to when, can adapt to the different demands of different business.

Illustratively, in the priority or priority orders according to each set of system parameters, it is excellent that logic channel is carried out successively Before first grade processing, when at least two mapping logical channels are to a set of system parameters, it can also be arranged and be mapped to the system The priority or priority orders of each logic channel of parameter set；That is, if at least two mapping logical channels arrive The priority or priority of each logic channel for being mapped to j-th of set of system parameters can be arranged in j-th of set of system parameters Sequentially, j is greater than or equal to 1.

In one example, two logic channels that will be mapped to j-th of set of system parameters are denoted as A1 and A2 respectively, that The priority of A1 and A2 can be set, alternatively, the priority orders of setting A1 and A2.

Here, according to the similar fashion for the priority or priority orders that each set of system parameters is arranged, it is mapped to correspondence The priority orders of each logic channel of set of system parameters are used to indicate the priority height between each logic channel；Show Example property, the priority of each logic channel can indicate that the numerical value of the priority of each logic channel is got over positive integer It is low, illustrate that the priority of each logic channel is higher；Alternatively, the numerical value of the priority of each logic channel is lower, illustrate each The priority of logic channel is lower.

It should be noted that being mapped to the priority or priority orders of each logic channel of correspondence system parameter set It is mutual indepedent with the priority or priority orders of each set of system parameters.

Correspondingly, according to the priority or priority orders of each set of system parameters, priority of logical channels is carried out successively It handles, may include

When at least two mapping logical channels are to a set of system parameters, according to being mapped to correspondence system parameter set The priority or priority orders of each logic channel carry out the priority of logical channels processing of correspondence system parameter set successively；

When only one mapping logical channels are to a set of system parameters, the logic channel of correspondence system parameter set is carried out Priority processing.

It, can be according to being mapped to jth that is, when at least two mapping logical channels are to j-th of set of system parameters The priority or priority orders of each logic channel of a set of system parameters, processing are mapped to each of jth set of system parameters The upstream data of a logic channel；When only one mapping logical channels are to j-th of set of system parameters, processing is mapped to j-th Upstream data on the logic channel of set of system parameters.

As can be seen that the present invention implement in, can according to the number for the logic channel for being mapped to each set of system parameters, Neatly determine upstream data processing mode；In addition, when at least two mapping logical channels are to a set of system parameters, it can According to the priority or priority orders of each logic channel for being mapped to correspondence system parameter set, to handle upstream data, this Sample, the processing mode of upstream data are consistent with the priority of logic channel, are patrolled being mapped to each of correspondence system parameter set The priority or priority orders for collecting channel are when being determined according to practical business demand, and the processing mode of upstream data can expire Full border business demand.

Illustratively, in the priority or priority orders according to each set of system parameters, it is excellent that logic channel is carried out successively Before first grade processing, the method further includes：

Each logic channel safeguards that a logic channel multiplexing factor, the logic channel multiplexing factor can be denoted as variable Bj；The initial value of variable Bj is 0, and variable Bj is used to indicate to allow on counterlogic channel the data volume of priority processing.Here, Variable Bj set of system parameters corresponding with logic channel is unrelated, for being mapped to the same logic of different set of system parameters Channel, variable Bj are identical.

Example is carried out to variable Bj referring to the token bucket algorithm (Token bucket algorithm) of LTE system Property explanation.

In LTE system, token bucket algorithm is applied to always the processing that terminal carries out upstream data, when implementing, often A logic channel is configured following parameter：Priority (priority), preferential stage speed (Prioritized Bit Rate, PBR) and duration parameter (Bucket Size Duration, BSD), the capacity of token bucket is that PBR is multiplied by BSD, Terminal is that each logic channel safeguards that a logic channel multiplexing factor, that is, variable Bj, variable Bj can change in each TTI；

Fig. 2 shows the value change schematic diagram of the variable Bj of logic channel in LTE system, in Fig. 2, UL grant tables Show uplink scheduling authorization resource, it can be seen that the value of variable Bj can be incremented by PBR*TTI in each TTI；Using token bucket When algorithm carries out data processing, new token can increase, and old token can be consumed because of the data of processing；Using The process of the upstream data processing of token bucket algorithm is properly termed as priority of logical channels process, during LCP, if on After row resource is available, logic channel handles upstream data according to priority orders and token bucket.

Here, LCP processes may include：The first step is more than variable Bj 0 logic channel, according to priority orders Use ascending resource；The value of variable Bj is subtracted correspondence and patrolled by second step for each logic channel for having used ascending resource The data volume of this processed upstream data of volume channel, obtains updated variable Bj, and in Fig. 2, reduced data amount indicates The data volume of this processed upstream data of counterlogic channel；Third walks, if ascending resource also has residue, owns Logic channel uses ascending resource according still further to priority orders；It should be noted that the logic channel of All factors being equal, preference will be give to grade will be by It puts on an equal footing.

In the embodiment of the present invention, PBR and BSD are still configured for each logic channel, and the value of variable Bj is also needle Logic channel is safeguarded, can be incremented by each TTI, incrementss when being incremented by every time are identical, and the value of variable Bj is not More than the capacity of token bucket.

Correspondingly, above-mentioned basis be mapped to each logic channel of correspondence system parameter set priority or priority it is suitable Sequence carries out the priority of logical channels processing of correspondence system parameter set successively, including：

In each logic channel for being mapped to correspondence system parameter set, if the number of logic channels of the variable Bj more than 0 More than 1, the data volume represented by the variable Bj of each logic channel according to variable Bj more than 0, and it is big according to the variable Bj In the priority sequence from high to low of 0 each logic channel, each logics of the variable Bj more than 0 is handled successively and is believed The upstream data in road；

In each logic channel for being mapped to correspondence system parameter set, if the number of logic channels of the variable Bj more than 0 Equal to 1, according to the data volume that variable Bj is indicated, the upstream data of logic channels of the variable Bj more than 0 is handled；

In each logic channel for being mapped to correspondence system parameter set, if the number of logic channels of the variable Bj more than 0 Equal to 0, according to the sequence of the priority for each logic channel for being mapped to correspondence system parameter set from high to low, handle successively It is mapped to the upstream data of each logic channel of correspondence system parameter set.

That is, when handling upstream data using each logic channel for being mapped to correspondence system parameter set, it can be with The number of logic channel according to variable Bj more than 0, realizes the flexible processing of upstream data.

Optionally, described each more than 0 according to variable Bj when the number of logic channels of the variable Bj more than 0 is more than 1 Data volume represented by the variable Bj of a logic channel, and the priority of each logic channel according to the variable Bj more than 0 Sequence from high to low handles the upstream data of each logic channels of the variable Bj more than 0 successively, including：

The sequence of the priority of each logic channel according to variable Bj more than 0 from high to low, by variable Bj more than 0 Each logic channel is denoted as the 1st logic channel to K logic channels successively, and K is more than 1；For example, three of variable Bj more than 0 patrol It collects channel and is denoted as A3, A4 and A5 respectively, three logic channels A3, A4 and A5 can be arranged according to the sequence of priority from high to low It is classified as：A4, A3 and A5, then, logic channel A4 is the 1st logic channel, and logic channel A3 is the 2nd logic channel, logic channel A5 is the 3rd logic channel.

It is 1 to K to enable the value range of k, when handling the upstream data of kth logic channel, if kth logic channel is upper The data volume of row data is less than or equal to the data volume represented by the variable Bj of kth logic channel, processing kth logic channel If the whole of upstream data there are+1 logic channel of kth, handles the upstream data of+1 logic channel of kth later；If kth The data volume of the upstream data of logic channel is more than the data volume represented by the variable Bj of kth logic channel, and kth logic is believed The upstream data in road is divided into priority processing data and remaining data, handles the priority processing data of kth logic channel, is becoming After each logic channels of the amount Bj more than 0 completes a upstream data processing, if kth logic channel also has available remain Remaining resource handles the remaining data of kth logic channel；Wherein, the data volume of the priority processing data of kth logic channel is equal to Data volume represented by the variable Bj of kth logic channel.

For example, for kth logic channel, if the data volume of the upstream data of kth logic channel is C1, kth logic letter Data volume represented by the variable Bj in road is C2, and C1 is more than C2, then the upstream data of kth logic channel is divided into preferential place Data and remaining data are managed, the data volume of priority processing data is C2, and the data volume of remaining data is C1-C2；At this time, it may be necessary to First according to the sequence of the 1st logic channel to K logic channels, a upstream data is handled on each logic channel, wherein The upstream data of kth logic channel is the priority processing data of above-mentioned record, is located in the 1st logic channel to K logic channels After having managed a upstream data, the remaining data of kth logic channel is reprocessed.

It should be noted that in the 1st logic channel to K logic channels, if the uplink of at least two logic channels The data volume of data is more than the variable Bj of counterlogic channel, then can be handled in the 1st logic channel to K logic channels After a complete upstream data, the sequence of the priority of each logic channel of remaining data from high to low is handled as required, Upstream data processing is carried out on corresponding each logic channel.

For example, when K is taken as 5, if the data volume of the upstream data of the 2nd logic channel is more than the change of the 2nd logic channel Bj is measured, and the data volume of the upstream data of the 3rd logic channel is more than the variable Bj of the 3rd logic channel, then in the 1st logic channel After having handled a upstream data to K logic channels, according to the 2nd logic channel and with the priority of the 3rd logic channel from High to Low sequence carries out the processing of remaining data using the 2nd logic channel and with the 3rd logic channel.

Optionally, when logic channels of the variable Bj more than 0 is equal to 1, if the uplink of logic channels of the variable Bj more than 0 The data volume of data is less than or equal to the data volume represented by the variable Bj of counterlogic channel, directly handles variable Bj and is more than 0 Logic channel upstream data；

If the data volume of the upstream data of logic channels of the variable Bj more than 0 is more than the variable Bj institutes of counterlogic channel The data volume of expression, in a kind of optional embodiment, by variable Bj more than 0 logic channel upstream data be divided into it is excellent First handle data and remaining data, the priority processing data of logic channels of the processing variable Bj more than 0, later, if variable Bj There are available surplus resources, the remaining data of logic channels of the processing variable Bj more than 0 more than 0 logic channel；Wherein, The data volume of the priority processing data of logic channels of the variable Bj more than 0 is equal to the variable Bj of logic channels of the variable Bj more than 0 Represented data volume；In an alternative embodiment, it is upper more than 0 logic channel can directly to handle variable Bj The whole of row data.

For example, when logic channels of the variable Bj more than 0 is equal to 1, the logic channel by variable Bj more than 0 is denoted as logic The data volume of the upstream data of logic channel A6 is denoted as C3 by channel A6, represented by the variable Bj that logic channel A6 is arranged Data volume is denoted as C4；If C3 is less than or equal to C4, the upstream data of logic channel A6 obviously can be directly handled；If C3 is more than C4, can handle the priority processing data of logic channel A6, and then the remainder of processing logic channel A6 first According to.

In actual implementation, 0 each logic channel is more than for variable Bj, after upstream data per treatment, update Variable Bj, the data volume that updated variable Bj is indicated are：The data volume that variable Bj before update is indicated subtracts counterlogic letter The difference that the data volume of the upstream data of this processing of road obtains.

For example, a logic channel by variable Bj more than 0 is denoted as logic channel A7, for logic channel A7, before update The data volume that indicates of variable Bj be denoted as C5, the data volume of the upstream data of the current single treatments of logic channel A7 is denoted as C6, that The data volume that updated variable Bj is indicated is C5-C6.

Particularly, the priority or priority orders of each logic channel of correspondence system parameter set are mapped in basis, When carrying out the priority of logical channels processing of correspondence system parameter set successively, patrolled being mapped to each of correspondence system parameter set It is suitable for priority or priority there are when at least two priority or the identical logic channel of priority orders in volume channel The upstream data of the identical each logic channel of sequence handles upstream data using preset fairness policy.

Optionally, the preset fairness policy can be：Random process priority or priority orders are identical each The upstream data of logic channel, alternatively, priority per treatment or the upper line number of the identical each logic channel of priority orders According to a part.

In actual implementation, the corresponding upstream data of each set of system parameters may include being not mapped into correspondence system The upstream data of the logic channel of parameter set, for example, the corresponding upstream data of j-th of set of system parameters includes logic channel A10 Upstream data, but logic channel A10 is not mapped into j-th of set of system parameters, in this regard, the following two kinds mode may be used Carry out data processing：

First way, after the completion of being mapped to the processing of the upstream data of each logic channel of correspondence system parameter set, The upstream data of the logic channel for being not mapped into correspondence system parameter set is handled；That is, will not reflect Being mapped to the logic channel of correspondence system parameter set, the minimum logic channel of grade is handled as priority.

The second way, in the ascending resource for obtaining the counterlogic channel for being mapped to m-th of set of system parameters next time Afterwards, corresponding upstream data is handled.

Here, the ascending resource of each set of system parameters indicates the authorized money that can be used for handling upstream data Source, the embodiment of the present invention are not defined the type of ascending resource.

Second embodiment

In order to more embody the purpose of the present invention, on the basis of first embodiment of the invention, carry out further It illustrates.

In the present embodiment, terminal is established with cell 1 and is connect, three Data Radio Bearer that terminal is established with cell 1 point Not Wei RB3, RB4 and RB5, table 1 shows the parameter configuration of these Data Radio Bearer.

Data Radio Bearer	Corresponding LC	Bj	Bucket size
				RB3	LC1	Bj1	Bucket size 1
RB4	LC2	Bj2	Bucket size 2
				RB5	LC3	Bj3	Bucket size 3

Table 1

In table 1, LC1, LC2 and LC3 indicate that three logic channels, Bj1, Bj2 and Bj3 indicate three not respectively respectively Variable Bj, the Bucket size of same logic channel setting indicate token bucket capacity, Bucket size1, Bucket size2 The corresponding three different token bucket capacities of three logic channels are indicated respectively with Bucket size3, it can be seen that in table 1 Each Data Radio Bearer corresponds to a logic channel.

Terminal supports three set of system parameters, three set of system parameters that terminal is supported to be expressed as N1, N2 and N3, Three set of system parameters that terminal is supported being ranked sequentially as N1, N2 and N3 from high to low according to priority, table 2 is shown often A systematic parameter concentrates the priority set-up mode of LC.

Table 2

The priority orders for being mapped to each logic channel that each systematic parameter is concentrated are shown in table 2, specifically, Be mapped to three logic channels of N1 according to priority being ranked sequentially as LC1, LC2 and LC3 from high to low, be mapped to N2's Three logic channels are mapped to three logics letter of N3 for LC2, LC1 and LC3 according to priority being ranked sequentially from high to low Road being ranked sequentially as LC2, LC1 and LC3 from high to low according to priority；

In addition, in order to indicate the priority height for each logic channel for being mapped to each set of system parameters, can also adopt The mode of the absolute priority of logic channel is set shown in table 3 to replace the side that priority orders are arranged shown in table 2 Formula, for a set of system parameters, if the numerical value of the absolute priority of logic channel is smaller, illustrates the logic in table 3 The priority of channel is higher,

Table 3

The upstream data processing procedure for illustrating second embodiment of the invention below by Fig. 3-1 to Fig. 3-8, Fig. 3-1 to In 3-8, the rectangle frame filled with dot is corresponding with N1, and the rectangle frame filled with oblique line is corresponding with N2, is filled with the rectangle of vertical line Frame is corresponding with N3, and the position (height) where character Bj1, Bj2 and Bj3 indicates current variable Bj1, Bj2 and Bj3 institutes respectively The data volume of expression.

At the T1 moment, the data buffer zone of above three Data Radio Bearer is distinguished as shown in figure 3-1, in Fig. 3-1, Character 1 in rectangle frame indicates the upstream data for being mapped to the LC1 of N1, is denoted as data 1；Character 2-1 expressions in rectangle frame are reflected The priority processing data of the upstream data of the LC2 of N1 are mapped to, data 2-1 is denoted as, the character 2-2 in rectangle circle indicates mapping To the remaining data of the upstream data of the LC2 of N1, it is denoted as data 2-2；Character 3 in rectangle frame indicates the LC3's for being mapped to N1 Upstream data is denoted as data 3；Character 4 in rectangle frame indicates the upstream data for being mapped to the LC2 of N2, is denoted as data 4；Rectangle Character 5 in frame indicates the upstream data for being mapped to the LC3 of N2, is denoted as data 5；The expression of character 6 in rectangle frame is mapped to The upstream data of the LC1 of N2 is denoted as data 6；Character 7 in rectangle frame indicates the upstream data for being mapped to the LC3 of N3, is denoted as Data 7；Character 8 in rectangle frame indicates the upstream data for being mapped to the LC1 of N3, is denoted as data 8；9 table of character in rectangle frame The upstream data for showing the LC2 for being mapped to N3 is denoted as data 9.In Fig. 3-2 to Fig. 3-8, the meaning of the character in rectangle frame with Fig. 3-1 is identical.

In Fig. 3-1, LCG1, LCG2 and LCG3 indicate three different logic channel groups, wherein LC1 and LCG1 respectively Corresponding, LC2 is corresponding with LCG2, and LC3 is corresponding with LCG3, in Fig. 3-2, Fig. 3-3, Fig. 3-5 and Fig. 3-6, LCG1, LCG2 and The meaning of LCG3 is identical as Fig. 3-1.

In Fig. 3-1, the current represented data volumes of Bj1 are equal to the data volume of data 1, and the data volume of data 2-2 is equal to The data volume of the data volume that Bj2 is currently indicated, data 3 is less than the data volume that Bj3 is currently indicated.

At the T2 moment, it is corresponding that terminal receives the corresponding ascending resources of N1 in cell 1, the corresponding ascending resources of N2 and N3 Ascending resource, at this time terminal can handle upstream data according to the following steps according to the priority of set of system parameters：

1) highest N1 data of processing priority first are located successively according to the priority sequence from high to low of LC in N1 Reason is mapped to the upstream data on logic channel LC1, LC2 and LC3 of N1, wherein data 1 and data 3 can be complete with single treatment At, and the upstream data for being mapped to the logic channel LC2 of N1 is more than the data volume that Bj2 is currently indicated, therefore data are handled first 2-2；After three logic channels for being mapped to N1 carry out a upstream data processing, the data buffering of Data Radio Bearer The schematic diagram in area is as shown in Fig. 3-2.

Here, it after three logic channels for being mapped to N1 carry out a upstream data processing, needs to Bj1, Bj2 It is updated with the value of Bj3, newer method is made an explanation in the first embodiment of the invention；In Fig. 3-2, Bj1 and The value of Bj2 be 0 (Bj1 and the current represented data volumes of Bj2 be 0), the data of data volume represented by Bj3 less than data 5 Amount；As can be seen that at this point, data 2-2 is handled not yet.

2) logic channel LC2 is used to handle data 2-2, at this point, the schematic diagram of the data buffer zone of Data Radio Bearer is such as Shown in Fig. 3-3.

After using logic channel LC2 by data 2-2 processing, the data volume that can be currently indicated according to Bj3, by data 5 It is divided into two parts, a part is the priority processing data of LC3, and a part is the remaining data of LC3；In Fig. 3-3, rectangle frame Interior character 5-1 indicates the priority processing data of LC3, is denoted as data 5-1, and data volume is the data volume that Bj3 is currently indicated；Square Character 5-2 in shape frame indicates the remaining data of LC3.

Fig. 3-4 shows that, using the sequence of ascending resource processing data on N1, in Fig. 3-4, N1-UL grant indicate N1 The ascending resource of upper use, it can be seen that used on N1 ascending resource processing data sequence for：Data 1, data 2-1, number According to 3, data 2-2.

3) at this point, according to three set of system parameters priority orders, need handle N2 on upstream data；Specifically, Since the corresponding Bj of the LC1 and LC2 data volumes indicated are 0, and the data volume represented by the corresponding Bj of LC3 (i.e. Bj3) is more than 0, it needs first to handle data 5-1, after the completion of data 5-1 is handled, the schematic diagram of the data buffer zone of Data Radio Bearer is as schemed Shown in 3-5.

4) at this point, according to each logic channel for being mapped to N2 priority sequence from high to low, handle data successively 4, data 5-2 and data 6, after processing is completed, the schematic diagram of the data buffer zone of Data Radio Bearer is as seen in figures 3-6.

Fig. 3-7 shows that, using the sequence of ascending resource processing data on N2, in Fig. 3-7, N2-UL grant indicate N2 The ascending resource of upper use, it can be seen that used on N2 ascending resource processing data sequence for：Data 5-1, data 4, number According to 5-2, data 6.

5) finally handle N3 on upstream data, specifically, according to each logic channel in N3 priority from high to low Sequence, handle data 7, data 8 and data 9 successively, after processing is completed, the data buffer zone of Data Radio Bearer is sky.

Fig. 3-8 shows that, using the sequence of ascending resource processing data on N3, in Fig. 3-8, N3-UL grant indicate N3 The ascending resource of upper use, it can be seen that used on N3 ascending resource processing data sequence for：Data 7, data 8 and data 9。

Above-described embodiment, then these equal priorities identical for the priority of multiple LC in same system parameter set LC data fair dealings, for example, the data processing of the identical LC of priority can be carried out according to first embodiment of the invention Journey,

If there are two the LC being mapped in some set of system parameters, it would be not mapped into correspondence system parameter set The data of LC cannot then handle and (be handled after the ascending resource for obtaining the set of system parameters next time can be waited for), or Person be placed on priority it is minimum when handle.

3rd embodiment

In third embodiment of the invention, illustratively illustrate suitable according to the priority or priority of each set of system parameters Sequence carries out several realization methods of priority of logical channels processing successively.

Here it is possible to according to the priority sequence from high to low of each set of system parameters, by each set of system parameters according to Secondary to be denoted as the 1st set of system parameters to m-th set of system parameters, M is more than 1.

Optionally, it is excellent to carry out logic channel successively for the priority or priority orders according to each set of system parameters First grade processing, including：

It is 1 to M to enable the value range of m, has been handled respectively in all logic channels for being mapped to m-th of set of system parameters From upstream data after, in m-th of set of system parameters there is also when remaining ascending resource, if there are the m+1 systematic parameters The data of collection handle additional data using the remaining ascending resource of m-th of set of system parameters, and the additional data includes：It reflects It is mapped to the upstream data of at least one logic channel of the m+1 set of system parameters；

The remaining upstream data of the m+1 set of system parameters is handled using the ascending resource of the m+1 set of system parameters, The remaining upstream data of the m+1 set of system parameters is：It is mapped to each logic of the m+1 set of system parameters The data after additional data are removed in the upstream data of channel.

Further, when at least two mapping logical channels are to m+1 set of system parameters, m+1 are being mapped to In each logic channel of set of system parameters, logically the sequence of the priority of channel from high to low, chooses at least one patrol Volume channel, the total amount of data of the upstream data of selected logic channel are less than or equal to the remaining of m-th set of system parameters The data volume for allowing processing of ascending resource；

The upstream data of selected logic channel is handled using the remaining ascending resource of m-th of set of system parameters.

That is, having handled respective upstream data in all logic channels for being mapped to m-th of set of system parameters Afterwards, if there is also remaining ascending resources for m-th of set of system parameters, the remaining ascending resource can be utilized to handle m Data in+1 set of system parameters, in this way, the utilization ratio of the ascending resource of m-th of set of system parameters can be improved.

After all logic channels for being mapped to i-th of set of system parameters have handled respective upstream data, i-th A set of system parameters is filled out there is also when remaining ascending resource using the remaining ascending resource processing of i-th of set of system parameters (padding) data are filled, the value range of i is 1 to M；In this way, in each set of system parameters there are when remaining ascending resource, The upstream data for not handling other systems parameter set, since each set of system parameters can be carried out according to practical business demand Setting, so, the processing mode of this upstream data can more meet practical business demand, disclosure satisfy that different business not Same demand.

Here, the data volume of padding data is allowed to handle by the remaining ascending resource of i-th of set of system parameters Data volume, the embodiment of the present invention is not defined the generating mode of padding data.

It is more than m-th of system in the total amount of data of the upstream data for each logic channel for being mapped to m-th of set of system parameters Unite parameter set ascending resource permission processing data amount, and when the ascending resource of m-th of set of system parameters is used up, next After the secondary ascending resource for obtaining m-th of set of system parameters, the remaining upstream data of m-th of set of system parameters is handled；Alternatively, There are when the ascending resource of the m+1 set of system parameters, m-th of system is handled using the ascending resource of the m+1 set of system parameters The remaining upstream data of system parameter set；Wherein, the remaining upstream data of m-th of set of system parameters is：M-th of set of system parameters Ascending resource when using up, be mapped to untreated number in the upstream data of each logic channel of m-th of set of system parameters According to the value range of m is 1 to M.

That is, if after the ascending resource use of m-th of set of system parameters, in m-th of set of system parameters In there is also data, in one embodiment, can be carried out in the ascending resource for obtaining m-th set of system parameters next time The processing of the remaining upstream data of a set of system parameters, in this way it can be ensured that the upstream data of each set of system parameters can only be adopted It is handled with correspondence system parameter set；In another embodiment, the uplink of the m+1 set of system parameters can be utilized Resource handles the remaining upstream data of m-th of set of system parameters, in this manner it is ensured that the higher set of system parameters of priority The treatment effeciency of data.

For handling the remaining upstream data of m-th of set of system parameters using the ascending resource of the m+1 set of system parameters Realization method in one embodiment can be in m-th of system of ascending resource processing using the m+1 set of system parameters It unites after the remaining upstream data of parameter set, the m+1 system is mapped to using the ascending resource processing of the m+1 set of system parameters The upstream data of each logic channel of system parameter set；In another embodiment, can join using the m+1 system Before the ascending resource of manifold handles the remaining upstream data of m-th of set of system parameters, using the upper of the m+1 set of system parameters The processing of row resource is mapped to the upstream data of each logic channel of the m+1 set of system parameters.

Fourth embodiment

In order to more embody the purpose of the present invention, on the basis of third embodiment of the invention, carry out further It illustrates.

In the present embodiment, terminal is established with cell 1 and is connect, two Data Radio Bearer that terminal is established with cell 1 point Not Wei RB3 and RB4, table 4 shows the parameter configuration of the two Data Radio Bearer.

Radio bearer	Corresponding LC	Bj	Bucket size
				RB3	LC1	Bj1	Bucket size 1
RB4	LC2	Bj2	Bucket size 2

Table 4

In table 4, LC1 and LC2 indicates that two different logic channels, Bj1 and Bj2 indicate two differences respectively respectively Variable Bj, the Bucket size of logic channel setting indicate token bucket capacity, Bucket size1 and Bucket size2 The corresponding two different token bucket capacities of two logic channels are indicated respectively, it can be seen that each data are wirelessly held in table 4 It carries and corresponds to a logic channel.

Terminal supports two systems parameter set, the two systems parameter set that terminal is supported to be expressed as N1 and N2, terminal The two systems parameter set of support being ranked sequentially as N1 and N2 from high to low according to priority, table 5 shows each system ginseng The priority set-up mode of LC in manifold.

Show that the priority orders for each logic channel for being mapped to each set of system parameters are specifically reflected in table 5 Be mapped to two logic channels of N1 according to priority being ranked sequentially as LC1 and LC23 from high to low, be mapped to N2 two patrol Volume channel being ranked sequentially as LC2 and LC1 from high to low according to priority.

The upstream data processing procedure for illustrating second embodiment of the invention below by Fig. 4-1 to Fig. 4-6, Fig. 4-1 to In 4-6, the rectangle frame filled with dot is corresponding with N1, and the rectangle frame filled with oblique line is corresponding with N2, character Bj1, Bj2 and Bj3 The position (height) at place indicates the data volume represented by current variable Bj1, Bj2 and Bj3 respectively, in Fig. 4-1 to Fig. 4-6 In, the data volume that Bj2 and Bj3 are indicated is 0.

At the T1 moment, the data buffer zone of above three Data Radio Bearer is respectively as shown in Fig. 4-1, in Fig. 4-1, Character 1 in rectangle frame indicates the upstream data for being mapped to the LC1 of N1, is denoted as data 1；Character 2 in rectangle frame indicates mapping To the upstream data of the LC2 of N1, it is denoted as data 2；Character 3 in rectangle frame indicates the upstream data for being mapped to the LC2 of N2, note For data 3；Character 4 in rectangle frame indicates the upstream data for being mapped to the LC1 of N2, is denoted as data 4.In Fig. 4-2 to Fig. 4-6 In, the meaning of the character in rectangle frame is identical as Fig. 4-1.

In Fig. 3-1, LCG1 and LCG2 indicate two different logic channel groups respectively, and wherein LC1 is corresponding with LCG1, LC2 is corresponding with LCG2.

At the T2 moment, terminal receives the corresponding ascending resources of N1 and the corresponding ascending resources of N2 in cell 1, at this time terminal Upstream data processing can be carried out according to the priority of set of system parameters, upstream data processing is illustrated below by several Several realization methods.

Example 1：First against the N1 of highest priority, upstream data is handled, that is, according to the priority orders of LC in N1, Data 1 and data 2 are handled successively, later, if the ascending resource of N1 can also meet the data of the LC2 of highest priority in N2 Process demand, at this point it is possible to using in N1 ascending resource handle data 3, later, utilize N2 ascending resource handle number According to 4, and remaining ascending resource processing filling (padding) data in N2 can be utilized.Fig. 4-2 shows the present invention the 4th The first processing mode of upstream data in embodiment, in Fig. 4-2, N1-UL grant indicate the ascending resource used on N1, N2-UL grant indicate the ascending resource used on N2.

Example 2：First against the N1 of highest priority, upstream data is handled, that is, according to the preferential of the LC for being mapped to N1 Grade sequence, handles data 1 and data 2 successively, later, can be using in the residue of N1 if there is also remaining ascending resources on N1 Row resource handles padding data；Later, data 3 and data 4 can be handled successively using the ascending resource of N2.Fig. 4-3 shows Second of processing mode of upstream data in fourth embodiment of the invention is gone out, in Fig. 4-3, N1-UL grant indicate to adopt on N1 Ascending resource, N2-UL grant indicate the ascending resource used on N2.

Example 3：First against the N1 of highest priority, upstream data is handled, that is, need according to the LC's for being mapped to N1 Priority orders handle data 1 and data 2, when handling data 2, since the ascending resource of N1 cannot be satisfied data 2 successively Process demand, at this point it is possible to handle the first part of data 2 using the ascending resource of N1, the remainders of data 2 needs It is handled after the ascending resource for obtaining N1 next time；After the first part for handling data 2 using the ascending resource of N1, Data 3 and data 4 can be handled successively using the ascending resource of N2, it, can profit if there is also remaining ascending resources by N2 at this time Padding data are handled with the remaining ascending resource of N2.Fig. 4-4 shows of upstream data in fourth embodiment of the invention Three kinds of processing modes, in Fig. 4-4, N1-UL grant indicate that the ascending resource used on N1, N2-UL grant indicate to adopt on N2 Ascending resource.

Example 4：First against the N1 of highest priority, upstream data is handled, that is, need according to the LC's for being mapped to N1 Priority orders handle data 1 and data 2, when handling data 2, since the ascending resource of N1 cannot be satisfied data 2 successively Process demand, at this point it is possible to handle the first part of data 2 using the ascending resource of N1, the remainders of data 2 can be with Trial is handled using the ascending resource of N2；For example, after the ascending resource of N1 is used up, using N2 ascending resource successively Data 3 and data 4 are handled, it, can be with if N2 is there is also remaining ascending resource at this time after the completion of data 3 and data 4 are handled The remainder for attempting the remaining ascending resource processing data 2 using N2, if the remaining ascending resource of N2 cannot meet number According to the process demand of 2 remainder, the remaining ascending resource of N2 can be divided into two parts and handled, a portion It is handled by the remaining ascending resource of N2, another part is handled after the ascending resource for obtaining N1 next time.Fig. 4-5 shows The 4th kind of processing mode of upstream data in fourth embodiment of the invention is gone out, in Fig. 4-5, N1-UL grant indicate to adopt on N1 Ascending resource, N2-UL grant indicate the ascending resource used on N2.

Example 5：First against the N1 of highest priority, upstream data is handled, that is, need according to the LC's for being mapped to N1 Priority orders handle data 1 and data 2, when handling data 2, since the ascending resource of N1 cannot be satisfied data 2 successively Process demand, at this point it is possible to handle the first part of data 2 using the ascending resource of N1, the remainders of data 2 can be with Trial is handled using the ascending resource of N2；For example, after the ascending resource of N1 is used up, using N2 ascending resource first The remainder of data 2 is handled, and then data 3 and data 4 are handled successively using the remaining ascending resource of N2, in processing number When according to 4, since the remaining ascending resource of N2 cannot be satisfied the process demand of data 4, at this point it is possible to utilize the ascending resource of N2 The first part of data 4 is handled, the remainder of data 4 needs to be handled after the ascending resource for obtaining N2 next time.Figure 4-6 shows the 5th kind of processing mode of upstream data in fourth embodiment of the invention, and in Fig. 4-6, N1-UL grant are indicated The ascending resource used on N1, N2-UL grant indicate the ascending resource used on N2.

5th embodiment

On the basis of the above embodiment of the present invention, fifth embodiment of the invention proposes a kind of priority of logical channels The device of processing, the device are located in the terminal for supporting at least two set of system parameters；

Fig. 5 is the structural schematic diagram of the device of priority of logical channels of embodiment of the present invention processing, as shown in figure 5, the dress Set including：Setup module 501 and processing module 502；Wherein,

Setup module 501, priority or priority orders for each set of system parameters to be arranged；

Processing module 502 carries out logic successively for the priority or priority orders according to each set of system parameters Channel priority processing.

The set of system parameters includes following at least one parameter：It is mapped to each logic letter of correspondence system parameter set Priority, discontinuous reception configuration information, hybrid automatic repeat-request configuration information, the uplink scheduling request resource in road.

Optionally, the processing module 502 is additionally operable to after receiving an ascending resource, is based on a set of system parameters In parameter use the ascending resource that receives.

Optionally, the processing module 502 is additionally operable to receive in a Transmission Time Interval or a subframe multiple Ascending resource, and when the multiple ascending resource corresponds to different set of system parameters respectively, each systematic parameter based on setting The priority or priority orders of collection, use the multiple ascending resource.

Optionally, the setup module 501, be additionally operable to according to each set of system parameters priority or priority it is suitable Sequence, before carrying out priority of logical channels processing successively, when at least two mapping logical channels are to a set of system parameters, if Set the priority or priority orders of each logic channel for being mapped to the set of system parameters；

The processing module 502 is specifically used for when at least two mapping logical channels are to a set of system parameters, root According to the priority or priority orders of each logic channel for being mapped to correspondence system parameter set, correspondence system ginseng is carried out successively The priority of logical channels of manifold is handled；When only one mapping logical channels are to a set of system parameters, correspondence system is carried out The priority of logical channels of parameter set is handled.

Optionally, the processing module 502 is additionally operable to when handling the upstream data of each set of system parameters, each When the corresponding upstream data of set of system parameters includes the upstream data for the logic channel for being not mapped into correspondence system parameter set, After the completion of each logic channel for being mapped to correspondence system parameter set handles upstream data, the correspondence will be not mapped into The upstream data of the logic channel of set of system parameters is handled；

Alternatively, be additionally operable to when handling upstream data using each set of system parameters, it is corresponding in each set of system parameters When upstream data includes the upstream data for the logic channel for being not mapped into correspondence system parameter set, corresponded to obtaining next time After the ascending resource of the set of system parameters of the mapping of logic channel, corresponding upstream data is handled.

Optionally, the processing module 502, from high to low specifically for the priority according to each set of system parameters Sequentially, each set of system parameters is denoted as the 1st set of system parameters to m-th set of system parameters successively, M is more than 1；

The processing module is additionally operable to handle respectively in all logic channels for being mapped to m-th of set of system parameters Upstream data after, in m-th of set of system parameters there is also when remaining ascending resource, if there are the m+1 set of system parameters Data, handle additional data using the remaining ascending resource of m-th set of system parameters, the value range of m is 1 to M, institute Stating additional data includes：It is mapped to the upstream data of at least one logic channel of the m+1 set of system parameters；

The processing module is additionally operable to handle the m+1 system ginseng using the ascending resource of the m+1 set of system parameters The remaining upstream data of the remaining upstream data of manifold, the m+1 set of system parameters is：It is mapped to the m+1 system The data after additional data are removed in the upstream data of each logic channel of system parameter set.

Optionally, the setup module 501, be additionally operable to according to each set of system parameters priority or priority it is suitable Sequence, before carrying out priority of logical channels processing successively, when at least two mapping logical channels are to a set of system parameters, if Set the priority or priority orders of each logic channel for being mapped to correspondence system parameter set；

Correspondingly, the processing module 502 is specifically used for joining to the m+1 system at least two mapping logical channels When manifold, in each logic channel for being mapped to the m+1 set of system parameters, logically the priority of channel from height to Low sequence chooses at least one logic channel, selected by the remaining ascending resource processing using m-th of set of system parameters Logic channel upstream data, wherein the total amount of data of the upstream data of selected logic channel be less than or equal to m The data volume for allowing processing of the remaining ascending resource of a set of system parameters.

The processing module 502 is additionally operable to handle in all logic channels for being mapped to i-th of set of system parameters After respective upstream data, in i-th of set of system parameters there is also when remaining ascending resource, i-th of set of system parameters is utilized Remaining ascending resource processing filling padding data；The value range of i is 1 to M.

The processing module 502 is additionally operable to the upper line number in each logic channel for being mapped to m-th of set of system parameters According to total amount of data be more than m-th of set of system parameters ascending resource permission processing data amount, and m-th of set of system parameters Ascending resource when using up, after the ascending resource for obtaining m-th of set of system parameters next time, handle m-th of set of system parameters Remaining upstream data；Alternatively, when there are the ascending resource of the m+1 set of system parameters, using the m+1 systematic parameter The ascending resource of collection handles the remaining upstream data of m-th of set of system parameters；Wherein, the remaining uplink of m-th of set of system parameters Data are：When the ascending resource of the m set of system parameters is used up, it is mapped to each logic channel of m-th of set of system parameters The value range of untreated data in upstream data, m is 1 to M.

Optionally, the processing module 502 is additionally operable to handle the in the ascending resource using the m+1 set of system parameters After the remaining upstream data of m set of system parameters, m+1 is mapped to using the ascending resource processing of the m+1 set of system parameters The upstream data of each logic channel of a set of system parameters；

Alternatively, in the remaining uplink for handling m-th of set of system parameters using the ascending resource of the m+1 set of system parameters Before data, each logic of the m+1 set of system parameters is mapped to using the ascending resource processing of the m+1 set of system parameters The upstream data of channel.

In practical applications, setup module 501 and processing module 502 can be by the central processing units in terminal At (Central Processing Unit, CPU), microprocessor (Micro Processor Unit, MPU), digital signal Manage device (Digital Signal Processor, DSP) or field programmable gate array (Field Programmable Gate Array, FPGA) etc. realizations.

In addition, each function module in the present embodiment can be integrated in a processing unit, can also be each list Member physically exists alone, can also be during two or more units are integrated in one unit.Above-mentioned integrated unit both can be with It is realized, can also be realized in the form of software function module in the form of hardware.

If the integrated unit realizes that being not intended as independent product is sold in the form of software function module Or in use, can be stored in a computer read/write memory medium, based on this understanding, the technology of the present embodiment Substantially all or part of the part that contributes to existing technology or the technical solution can be with software in other words for scheme The form of product embodies, which is stored in a storage medium, including some instructions use so that One computer equipment (can be personal computer, server or the network equipment etc.) or processor (processor) are held The all or part of step of row the present embodiment the method.And storage medium above-mentioned includes：USB flash disk, read-only is deposited mobile hard disk Reservoir (ROM, Read Only Memory), random access memory (RAM, Random Access Memory), magnetic disc or The various media that can store program code such as person's CD.

Specifically, a kind of corresponding computer program of method of priority of logical channels processing in the present embodiment refers to Order can be stored in CD, hard disk, on the storage mediums such as USB flash disk, when in storage medium with priority of logical channels processing The corresponding computer program instructions of method are read or are performed by an electronic equipment, can execute following steps：

The priority or priority orders of each set of system parameters are set；

Here, the set of system parameters includes following at least one parameter：The each of correspondence system parameter set is mapped to patrol Collect priority, discontinuous reception configuration information, hybrid automatic repeat-request configuration information, the uplink scheduling request resource of channel.

Optionally, it is also stored in storage medium for executing the instruction operated as follows：Receiving an ascending resource Afterwards, the ascending resource received is used based on the parameter that a systematic parameter is concentrated.

Optionally, it is also stored in storage medium for executing the instruction operated as follows：In a Transmission Time Interval or Multiple ascending resources are received in one subframe, and when the multiple ascending resource corresponds to different set of system parameters respectively, be based on The priority or priority orders for each set of system parameters being arranged, use the multiple ascending resource.

Optionally, it is also stored in storage medium for executing the instruction operated as follows：According to each set of system parameters Priority or priority orders, successively carry out priority of logical channels processing before, the method further includes：At least two When mapping logical channels are to a set of system parameters, setting is mapped to the preferential of each logic channel of the set of system parameters Grade or priority orders；

The priority or priority orders according to each set of system parameters carries out at priority of logical channels successively Reason, including：When at least two mapping logical channels are to a set of system parameters, according to being mapped to correspondence system parameter set The priority or priority orders of each logic channel carry out the priority of logical channels processing of correspondence system parameter set successively； When only one mapping logical channels are to a set of system parameters, at the priority of logical channels of progress correspondence system parameter set Reason.

Optionally, it is also stored in storage medium for executing the instruction operated as follows：The method further includes：Locating Include being not mapped into pair in the corresponding upstream data of each set of system parameters when managing the upstream data of each set of system parameters When answering the upstream data of the logic channel of set of system parameters, in each logic channel processing for being mapped to correspondence system parameter set After the completion of upstream data, the upstream data for the logic channel for being not mapped into the correspondence system parameter set is handled；

Alternatively, when handling upstream data using each set of system parameters, in the corresponding upper line number of each set of system parameters According to the logic channel including being not mapped into correspondence system parameter set upstream data when, next time obtain counterlogic letter After the ascending resource of the set of system parameters of the mapping in road, corresponding upstream data is handled.

Optionally, it is also stored in storage medium for executing the instruction operated as follows：It is described according to each systematic parameter The priority or priority orders of collection carry out priority of logical channels processing successively, including：

According to the priority sequence from high to low of each set of system parameters, each set of system parameters is denoted as the 1st successively A set of system parameters is to m-th set of system parameters, and M is more than 1；

Optionally, it is also stored in storage medium for executing the instruction operated as follows：

In the priority or priority orders according to each set of system parameters, priority of logical channels processing is carried out successively Before, the method further includes：When at least two mapping logical channels are to a set of system parameters, setting is mapped to corresponding system The priority or priority orders of each logic channel of system parameter set；

Correspondingly, the remaining ascending resource using m-th of set of system parameters handles additional data, including：Extremely When few two mapping logical channels are to m+1 set of system parameters, in each logic for being mapped to the m+1 set of system parameters In channel, logically the sequence of the priority of channel from high to low, chooses at least one logic channel, selected logic The remaining ascending resource that the total amount of data of the upstream data of channel is less than or equal to the m set of system parameters allows to handle Data volume；

The priority or priority orders according to each set of system parameters carries out at priority of logical channels successively Reason, including：

After all logic channels for being mapped to i-th of set of system parameters have handled respective upstream data, i-th A set of system parameters is filled out there is also when remaining ascending resource using the remaining ascending resource processing of i-th of set of system parameters Fill padding data；The value range of i is 1 to M.

The method further includes：M-th of set of system parameters is being handled using the ascending resource of the m+1 set of system parameters Remaining upstream data after, the m+1 set of system parameters is mapped to using the ascending resource processing of the m+1 set of system parameters Each logic channel upstream data；

Sixth embodiment

Based on the identical technical concept of previous embodiment, referring to Fig. 6, it illustrates one kind provided in an embodiment of the present invention Terminal may include：Communication interface 601, memory 602, data processing equipment 603 and bus 604；Data processing equipment 603 May include processor and the communication device for data to be uploaded to network side, for example, data processing equipment can wrap Include RF front-end circuit, baseband processing unit etc..

The bus 604 is for connecting the communication interface 601, the data processing equipment 603 and the memory Being in communication with each other between 602 and these devices；

The communication interface 601, for carrying out data transmission with ext nal network element；

The memory 602, for storing instruction and data；

The data processing equipment 603 executes described instruction and is used for：The priority or preferential of each set of system parameters is set Grade sequence；According to the priority or priority orders of each set of system parameters, priority of logical channels processing is carried out successively.

In practical applications, above-mentioned memory 602 can be volatile memory (volatile memory), such as with Machine accesses memory (RAM, Random-Access Memory)；Or nonvolatile memory (non-volatile Memory), such as read-only memory (ROM, Read-Only Memory), flash memory (flash memory), hard disk (HDD, Hard Disk Drive) or solid state disk (SSD, Solid-State Drive)；Or the memory of mentioned kind Combination, and to the first data processing equipment 603 provide instruction and data.

Processor in above-mentioned data processing equipment 603 can be application-specific IC (ASIC, Application Specific Integrated Circuit), DSP, digital signal processing device (DSPD, Digital Signal Processing Device), programmable logic device (PLD, Programmable Logic Device), FPGA, CPU, control At least one of device processed, microcontroller, microprocessor.It is to be appreciated that for different equipment, for realizing above-mentioned The electronic device of one processor function can also be other, and the embodiment of the present invention is not especially limited.

Illustratively, the set of system parameters includes following at least one parameter：It is mapped to each of correspondence system parameter set The priority of a logic channel, discontinuous configuration information, hybrid automatic repeat-request configuration information, the uplink scheduling request of connecing provide Source.

Illustratively, the data processing equipment 603, specifically can be also used for：

After receiving an ascending resource, the ascending resource received is used based on the parameter that a systematic parameter is concentrated.

Multiple ascending resources, and the multiple ascending resource point are received in a Transmission Time Interval or a subframe When not corresponding to different set of system parameters, the priority or priority orders of each set of system parameters based on setting use institute State multiple ascending resources.

In the priority or priority orders according to each set of system parameters, priority of logical channels processing is carried out successively Before, when at least two mapping logical channels are to a set of system parameters, setting is mapped to each of the set of system parameters and patrols Collect the priority or priority orders of channel；

When at least two mapping logical channels are to a set of system parameters, according to being mapped to correspondence system parameter set The priority or priority orders of each logic channel carry out the priority of logical channels processing of correspondence system parameter set successively； When only one mapping logical channels are to a set of system parameters, at the priority of logical channels of progress correspondence system parameter set Reason.

When handling the upstream data of each set of system parameters, include in the corresponding upstream data of each set of system parameters When being not mapped into the upstream data of the logic channel of correspondence system parameter set, it is being mapped to each of correspondence system parameter set After the completion of logic channel handles upstream data, the upper line number of the logic channel of the correspondence system parameter set will be not mapped into According to being handled；

After all logic channels for being mapped to m-th of set of system parameters have handled respective upstream data, in m If a set of system parameters, there are the data of the m+1 set of system parameters, utilizes m-th of system there is also when remaining ascending resource The remaining ascending resource of system parameter set handles additional data, and the value range of m is 1 to M, and the additional data includes：Mapping To the upstream data of at least one logic channel of the m+1 set of system parameters；

In the priority or priority orders according to each set of system parameters, priority of logical channels processing is carried out successively Before, when at least two mapping logical channels are to a set of system parameters, setting is mapped to each of correspondence system parameter set and patrols Collect the priority or priority orders of channel；

Correspondingly, the processing module is specifically used at least two mapping logical channels to the m+1 systematic parameter When collection, in each logic channel for being mapped to the m+1 set of system parameters, logically the priority of channel is from high to low Sequence, choose at least one logic channel, handled using the remaining ascending resource of m-th set of system parameters selected The upstream data of logic channel, wherein the total amount of data of the upstream data of selected logic channel is less than or equal to m-th The data volume for allowing processing of the remaining ascending resource of set of system parameters.

Illustratively, the data processing equipment 603, specifically can be used for：

After all logic channels for being mapped to i-th of set of system parameters have handled respective upstream data, i-th A set of system parameters is filled out there is also when remaining ascending resource using the remaining ascending resource processing of i-th of set of system parameters Fill padding data；The value range of i is 1 to M

In the remaining upstream data for handling m-th of set of system parameters using the ascending resource of the m+1 set of system parameters Afterwards, each logic channel of the m+1 set of system parameters is mapped to using the ascending resource processing of the m+1 set of system parameters Upstream data；

It should be understood by those skilled in the art that, the embodiment of the present invention can be provided as method, system or computer journey Sequence product.Therefore, hardware embodiment, software implementation or embodiment combining software and hardware aspects can be used in the present invention Form.It is deposited moreover, the present invention can be used to can be used in the computer that one or more wherein includes computer usable program code The form for the computer program product implemented on storage media (including but not limited to magnetic disk storage and optical memory etc.).

The present invention be with reference to according to the method for the embodiment of the present invention, the flow of equipment (system) and computer program product Figure and/or block diagram describe.It should be understood that can be realized by computer program instructions each in flowchart and/or the block diagram The combination of flow and/or box in flow and/or box and flowchart and/or the block diagram.These computers can be provided Processor of the program instruction to all-purpose computer, special purpose computer, Embedded Processor or other programmable data processing devices To generate a machine so that the instruction executed by computer or the processor of other programmable data processing devices generates For realizing the function of being specified in one flow of flow chart or multiple flows and/or one box of block diagram or multiple boxes Device.

These computer program instructions, which may also be stored in, can guide computer or other programmable data processing devices with spy Determine in the computer-readable memory that mode works so that instruction stored in the computer readable memory, which generates, includes The manufacture of command device, the command device are realized in one flow of flow chart or multiple flows and/or one box of block diagram Or the function of being specified in multiple boxes.

These computer program instructions also can be loaded onto a computer or other programmable data processing device so that Series of operation steps are executed on computer or other programmable devices to generate computer implemented processing, to calculate The instruction executed on machine or other programmable devices is provided for realizing in one flow of flow chart or multiple flows and/or side The step of function of being specified in one box of block diagram or multiple boxes.

The foregoing is only a preferred embodiment of the present invention, is not intended to limit the scope of the present invention.

Claims

1. a kind of method of priority of logical channels processing, which is characterized in that be applied to support at least two set of system parameters In terminal, the method includes：

The priority or priority orders of each set of system parameters are set；

2. according to the method described in claim 1, it is characterized in that, the set of system parameters includes following at least one parameter： The priority of each logic channel of correspondence system parameter set, discontinuous reception configuration information, mixed automatic retransfer is mapped to ask Ask configuration information, uplink scheduling request resource.

3. method according to claim 1 or 2, which is characterized in that the method further includes：Receiving an ascending resource After scheduling, the ascending resource received is used based on the parameter that a systematic parameter is concentrated.

4. method according to claim 1 or 2, which is characterized in that the method further includes：In a Transmission Time Interval Or multiple ascending resource schedulings are received in a subframe, and the multiple ascending resource corresponds to different set of system parameters respectively When, the priority or priority orders of each set of system parameters based on setting use the multiple ascending resource.

5. according to the method described in claim 1, it is characterized in that, in the priority or priority according to each set of system parameters Sequentially, before carrying out priority of logical channels processing successively, the method further includes：

When at least two mapping logical channels are to a set of system parameters, setting is mapped to each of the set of system parameters and patrols Collect the priority or priority orders of channel；

The priority or priority orders according to each set of system parameters carries out priority of logical channels processing, packet successively It includes：

When at least two mapping logical channels are to a set of system parameters, patrolled according to each of correspondence system parameter set is mapped to The priority or priority orders of channel are collected, carries out the priority of logical channels processing of correspondence system parameter set successively；

When only one mapping logical channels are to a set of system parameters, the priority of logical channels of correspondence system parameter set is carried out Processing.

6. according to the method described in claim 5, it is characterized in that,

The method further includes：When handling the upstream data of each set of system parameters, on each set of system parameters is corresponding When row data include the upstream data for the logic channel for being not mapped into correspondence system parameter set, it is being mapped to correspondence system parameter After the completion of each logic channel processing upstream data of collection, the logic channel of the correspondence system parameter set will be not mapped into Upstream data is handled；

Alternatively, when handling upstream data using each set of system parameters, in the corresponding upstream data packet of each set of system parameters When including the upstream data for the logic channel for being not mapped into correspondence system parameter set, reflecting for counterlogic channel is being obtained next time After the ascending resource for the set of system parameters penetrated, corresponding upstream data is handled.

7. according to the method described in claim 1, it is characterized in that, the priority or preferential according to each set of system parameters Grade sequence carries out priority of logical channels processing successively, including：

According to the priority sequence from high to low of each set of system parameters, each set of system parameters is denoted as the 1st successively is Parameter set unite to m-th set of system parameters, M is more than 1；

It is 1 to M to enable the value range of m, has been handled on respective in all logic channels for being mapped to m-th of set of system parameters After row data, in m-th of set of system parameters there is also when remaining ascending resource, if there are the numbers of the m+1 set of system parameters According to using the remaining ascending resource processing additional data of m-th of set of system parameters, the additional data includes：It is mapped to m The upstream data of at least one logic channel of+1 set of system parameters；

Handle the remaining upstream data of the m+1 set of system parameters using the ascending resource of the m+1 set of system parameters, described the The remaining upstream data of m+1 set of system parameters is：It is mapped to the upper of each logic channel of the m+1 set of system parameters The data after additional data are removed in row data.

8. the method according to the description of claim 7 is characterized in that in priority or priority according to each set of system parameters Sequentially, before carrying out priority of logical channels processing successively, the method further includes：In at least two mapping logical channels to one When set of system parameters, setting is mapped to the priority or priority orders of each logic channel of correspondence system parameter set；

Correspondingly, the remaining ascending resource using m-th of set of system parameters handles additional data, including：At least two When a mapping logical channels are to m+1 set of system parameters, in each logic channel for being mapped to the m+1 set of system parameters In, logically the sequence of the priority of channel from high to low, chooses at least one logic channel, selected logic channel The total amount of data of upstream data is less than or equal to the data for allowing processing of the remaining ascending resource of m-th of set of system parameters Amount；

9. according to the method described in claim 1, it is characterized in that, the priority or preferential according to each set of system parameters Grade sequence carries out priority of logical channels processing successively, including：

After all logic channels for being mapped to i-th of set of system parameters have handled respective upstream data, in i-th of system Parameter set handles filling there is also when remaining ascending resource using the remaining ascending resource of i-th of set of system parameters Padding data；The value range of i is 1 to M.

10. according to the method described in claim 1, it is characterized in that, the priority or excellent according to each set of system parameters First grade sequence, carries out priority of logical channels processing successively, including：

It is more than m-th of system in the total amount of data of the upstream data for each logic channel for being mapped to m-th of set of system parameters to join The permission processing data amount of the ascending resource of manifold, and when the ascending resource of m-th of set of system parameters is used up, obtained next time After the ascending resource of m-th of set of system parameters, the remaining upstream data of m-th of set of system parameters is handled；Alternatively, there are m+ When the ascending resource of 1 set of system parameters, m-th of set of system parameters is handled using the ascending resource of the m+1 set of system parameters Remaining upstream data；Wherein, the remaining upstream data of m-th of set of system parameters is：The ascending resource of m-th of set of system parameters When using up, it is mapped to untreated data in the upstream data of each logic channel of m-th of set of system parameters, the value model of m Enclose is 1 to M.

11. according to the method described in claim 10, it is characterized in that, the method further includes：Join using the m+1 system After the ascending resource of manifold handles the remaining upstream data of m-th of set of system parameters, using the uplink of the m+1 set of system parameters Resource processing is mapped to the upstream data of each logic channel of the m+1 set of system parameters；

Alternatively, in the remaining upstream data for handling m-th of set of system parameters using the ascending resource of the m+1 set of system parameters Before, each logic channel of the m+1 set of system parameters is mapped to using the ascending resource processing of the m+1 set of system parameters Upstream data.

12. a kind of device of priority of logical channels processing, which is characterized in that be applied to support at least two set of system parameters In terminal, described device includes：Setup module and processing module；Wherein,

Processing module carries out bgical channel priority successively for the priority or priority orders according to each set of system parameters Grade processing.

13. device according to claim 12, which is characterized in that the set of system parameters includes following at least one ginseng Number：It is mapped to the priority of each logic channel of correspondence system parameter set, discontinuous reception configuration information, mixed automatic retransfer Ask configuration information, uplink scheduling request resource.

14. device according to claim 12 or 13, which is characterized in that the processing module is additionally operable to receiving one After ascending resource scheduling, the ascending resource received is used based on the parameter that a systematic parameter is concentrated.

15. device according to claim 12 or 13, which is characterized in that the processing module is additionally operable to transmit at one Multiple ascending resource schedulings are received in time interval or a subframe, and the multiple ascending resource corresponds to different systems respectively When parameter set, the priority or priority orders of each set of system parameters based on setting use the multiple ascending resource.

16. device according to claim 12, which is characterized in that the setup module is additionally operable to according to each system The priority or priority orders of parameter set are reflected before carrying out priority of logical channels processing successively at least two logic channels When being mapped to a set of system parameters, priority or the priority that each logic channel for being mapped to the set of system parameters is arranged are suitable Sequence；

The processing module is specifically used for when at least two mapping logical channels are to a set of system parameters, according to being mapped to The priority or priority orders of each logic channel of correspondence system parameter set carry out the logic of correspondence system parameter set successively Channel priority processing；When only one mapping logical channels are to a set of system parameters, patrolling for correspondence system parameter set is carried out Collect channel priority processing.

17. device according to claim 16, which is characterized in that the processing module is additionally operable to handling each system Include being not mapped into correspondence system parameter set in the corresponding upstream data of each set of system parameters when the upstream data of parameter set Logic channel upstream data when, be mapped to correspondence system parameter set each logic channel processing upstream data complete Afterwards, the upstream data for the logic channel for being not mapped into the correspondence system parameter set is handled；

Alternatively, being additionally operable to when handling upstream data using each set of system parameters, in the corresponding uplink of each set of system parameters When data include the upstream data for the logic channel for being not mapped into correspondence system parameter set, counterlogic letter is being obtained next time After the ascending resource of the set of system parameters of the mapping in road, corresponding upstream data is handled.

18. device according to claim 12, which is characterized in that the processing module is specifically used for according to each system Each set of system parameters is denoted as the 1st set of system parameters to m-th system by the sequence of the priority of parameter set from high to low successively System parameter set, M are more than 1；

The processing module is additionally operable to handle on respective in all logic channels for being mapped to m-th of set of system parameters After row data, in m-th of set of system parameters there is also when remaining ascending resource, if there are the numbers of the m+1 set of system parameters According to using the remaining ascending resource processing additional data of m-th of set of system parameters, the value range of m is 1 to M, described additional Data include：It is mapped to the upstream data of at least one logic channel of the m+1 set of system parameters；

The processing module is additionally operable to use ascending resource the m+1 set of system parameters of processing of the m+1 set of system parameters The remaining upstream data of remaining upstream data, the m+1 set of system parameters is：It is mapped to the m+1 systematic parameter The data after additional data are removed in the upstream data of each logic channel of collection.

19. device according to claim 18, which is characterized in that the setup module is additionally operable to according to each system The priority or priority orders of parameter set are reflected before carrying out priority of logical channels processing successively at least two logic channels When being mapped to a set of system parameters, priority or the priority that each logic channel for being mapped to correspondence system parameter set is arranged are suitable Sequence；

Correspondingly, the processing module is specifically used for when at least two mapping logical channels are to m+1 set of system parameters, In each logic channel for being mapped to the m+1 set of system parameters, the logically sequence of the priority of channel from high to low, At least one logic channel is chosen, selected logic channel is handled using the remaining ascending resource of m-th of set of system parameters Upstream data, wherein the total amount of data of the upstream data of selected logic channel be less than or equal to m-th of set of system parameters Remaining ascending resource allow processing data volume.

20. device according to claim 12, which is characterized in that the processing module is specifically used for according to each system Each set of system parameters is denoted as the 1st set of system parameters to m-th system by the sequence of the priority of parameter set from high to low successively System parameter set, M are more than 1；

The processing module is additionally operable to handle on respective in all logic channels for being mapped to i-th of set of system parameters After row data, in i-th of set of system parameters there is also when remaining ascending resource, the remaining of i-th set of system parameters is utilized Ascending resource processing filling padding data；The value range of i is 1 to M.

21. device according to claim 12, which is characterized in that the processing module is specifically used for according to each system Each set of system parameters is denoted as the 1st set of system parameters to m-th system by the sequence of the priority of parameter set from high to low successively System parameter set, M are more than 1；

The processing module is additionally operable to the sum in the upstream data for each logic channel for being mapped to m-th of set of system parameters Permission processing data amount according to amount more than the ascending resource of m-th of set of system parameters, and the ascending resource of m-th of set of system parameters When using up, after the ascending resource for obtaining m-th of set of system parameters next time, the remaining uplink of m-th of set of system parameters is handled Data；Alternatively, when there are the ascending resource of the m+1 set of system parameters, using the ascending resource of the m+1 set of system parameters Handle the remaining upstream data of m-th of set of system parameters；Wherein, the remaining upstream data of m-th of set of system parameters is：M-th When the ascending resource of set of system parameters is used up, it is mapped in the upstream data of each logic channel of m-th of set of system parameters not The value range of the data of processing, m is 1 to M.

22. device according to claim 21, which is characterized in that the processing module is additionally operable to using the m+1 system Unite parameter set ascending resource handle the remaining upstream data of m-th of set of system parameters after, using the m+1 set of system parameters Ascending resource processing is mapped to the upstream data of each logic channel of the m+1 set of system parameters；