CN109769304A - Method, terminal, electronic equipment and the storage medium that scheduling request is sent - Google Patents
Method, terminal, electronic equipment and the storage medium that scheduling request is sent Download PDFInfo
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Abstract
The embodiment of the present invention provides a kind of method, terminal, electronic equipment and storage medium that scheduling request is sent.If the method includes the upstream datas of a variety of services to trigger scheduling request SR, terminal UE is configured according to the first SR, determines that the 2nd SR is configured, and the first SR configuration is the predetermined SR configuration of UE, and the 2nd SR configuration is the SR configuration that UE sends SR.When the method triggers scheduling request SR by the upstream data of a variety of services, UE obtains the corresponding first SR configuration of every kind of upstream data, and is configured according to the first SR, determines that UE sends the SR configuration of SR, is supplemented agreement.
Description
Technical field
The present embodiments relate to a kind of field of communication technology, method, terminal, electricity that especially a kind of scheduling request is sent
Sub- equipment and storage medium.
Background technique
When data transmission lacks ascending resource, UE (User Equipment, user equipment) is sent to eNodeB (base
Stand) scheduling request (scheduling request, SR) is for requesting ascending resource.
It, the same time, can only be upper because of a kind of service in LTE (Long Term Evolution, long term evolution) system
Row data-triggered SR, to request ascending resource.The public SR of all upstream datas of this kind service configures (SR
Configuration), i.e., arbitrary SR transmission can all cause counter (SR_Counter) to be incremented by UE, first SR of UE
Activation is forbidden timer (SR_ProhibitTimer) by transmission.
In 5G (5rd-Generation, the 5th third-generation mobile communication technology), 3GPP (3rd Generation
Partnership Project, third generation partner program) also referred to as NR (New Radio Access in standard
Technology in 3GPP, wireless access technology), UE can apply a variety of services, for the QoS (Quality for meeting different services
Of Service, service quality) the case where requiring, supporting a variety of SR configure and deposit in NR, i.e., the same time, a variety of services correspondences
Upstream data require request ascending resource, then a variety of upstream datas simultaneously trigger SR, but same time, UE only can be transmitted one
A SR, it is seen that 5G can not continue to use the technology of LTE in the prior art, and there are no relevant regulations for current agreement.
When triggering SR simultaneously for the problem that a variety of upstream datas, how UE sends SR, and there are no corresponding for the prior art
Method solves.
Summary of the invention
In view of the drawbacks of the prior art, the method, terminal, electronics that the embodiment of the present invention provides a kind of scheduling request transmission are set
Standby and storage medium.
On the one hand, the embodiment of the present invention provides a kind of method that scheduling request is sent, which comprises
If the upstream data of a variety of services triggers scheduling request SR, terminal UE obtains corresponding first SR of every kind of upstream data
Configuration;
UE is configured according to the first SR, determines that the 2nd SR is configured, and the 2nd SR configuration is the SR configuration that UE sends SR.
On the other hand, the embodiment of the present invention provides a kind of terminal, and the terminal includes:
Module is obtained, if the upstream data for a variety of services triggers scheduling request SR, it is corresponding to obtain every kind of upstream data
The first SR configuration;
Determining module determines that the 2nd SR is configured, the 2nd SR configuration is that UE is sent for configuring according to the first SR
The SR of SR is configured.
On the other hand, the embodiment of the present invention also provides a kind of electronic equipment, including memory, processor, bus and deposits
The computer program that can be run on a memory and on a processor is stored up, the processor is realized when executing described program with top
The step of method.
On the other hand, the embodiment of the present invention also provides a kind of storage medium, is stored thereon with computer program, described program
The step of method as above is realized when being executed by processor.
As shown from the above technical solution, the embodiment of the present invention provide scheduling request send method, terminal, electronic equipment and
Storage medium, when the method triggers scheduling request SR by the upstream data of a variety of services, UE obtains every kind of upstream data pair
The first SR configuration answered, and configured according to the first SR, it determines that UE sends the SR configuration of SR, agreement is supplemented.
Detailed description of the invention
Fig. 1 is the flow diagram for the method that a kind of scheduling request provided in an embodiment of the present invention is sent;
Fig. 2 is the coding of the instruction information for the method that a kind of scheduling request that further embodiment of this invention provides is sent;
Fig. 3 is the coding of the instruction information for the method that a kind of scheduling request that further embodiment of this invention provides is sent;
Fig. 4 is the coding of the instruction information for the method that a kind of scheduling request that further embodiment of this invention provides is sent;
Fig. 5 is the coding of the instruction information for the method that a kind of scheduling request that further embodiment of this invention provides is sent;
Fig. 6 is a kind of structural schematic diagram for terminal that further embodiment of this invention provides;
Fig. 7 is the structural schematic diagram for a kind of electronic equipment that further embodiment of this invention provides.
Specific embodiment
In order to make the object, technical scheme and advantages of the embodiment of the invention clearer, below in conjunction with the embodiment of the present invention
In attached drawing, technical solution in the embodiment of the present invention is explicitly described, it is clear that described embodiment is the present invention
Embodiment a part of the embodiment, instead of all the embodiments.
Term is explained:
SR is a kind of mode that UE is used for that data are transmitted to base station application ascending resource.SR belongs to the information of physical layer, UE
Send SR this movement do not need resource in itself, can by PUCCH (Physical Uplink Control Channel,
Physical uplink control channel) transmission.
Although sometimes UE has sent SR, base station decodes SR failure.If SR is successfully decoded in base station, it is also possible to not have
Resource allocation gives the SR, that is to say, that after UE has issued SR, base station not necessarily can sometime be allocated resources to next
UE, many times, UE ascending resource in order to obtain is to need repeatedly to send SR.
Forbid timer (sr-ProhibitTimer) for monitoring the SR transmitted in PUCCH, when controlling the triggering of SR
Machine.
When sr-ProhibitTimer is currently running, SR cannot be sent, once sr-ProhibitTimer is overtime,
UE just needs to retransmit SR, until reaching maximum number of times of transmission (dsr-TransMax).
Wherein, the value of sr-ProhibitTimer is configured according to embodiments of the present invention.For example, value range is
0~7, unit is the SR period, and being worth indicates not configuring the timer for 0, if value is 5, then it represents that after UE sends SR, if waited
5 SR periods still do not receive the resource authorization of DCI, then SR will be sent again to base station.That is, only etc.
Sr-ProhibitTimer time-out could continue to send SR, the load that has been greatly reduced in this way on PUCCH.
Maximum number of times of transmission (dsr-TransMax) indicates the number that SR can at most be sent.
The value of dsr-TransMax is configured according to embodiments of the present invention, for example, value n1, n2, n3 can be distinguished,
N4 ... ..., n4 indicate that SR can at most be sent 4 times, and maximum value can get n64.
Counter (SR_COUNTER)
Since being used to record currently then being necessarily required to a variable it is understood that there is the concept of maximum times
This variable is denoted as SR_COUNTER by the number of transmissions of SR.
If a SR is triggered, SR_COUNTER can be set as 0 by UE, until SR retransmits to maximum times.
SR configures (SR configuration)
There are two parameters: SR_ProhibitTimer and drs_TransMax for SR configuration tool.3GPP standard provide in NR,
Each SR configuration includes different SR_ProhibitTimer and drs_TransMax.
Identical as LTE, any SR transmission of UE can all cause SR_Counter value to be incremented by.Triggering SR need to meet following two simultaneously
A condition: SR_ProhibitTimer is not run;SR_Counter < drs-TransMax.
Fig. 1 shows the flow diagram for the method that a kind of scheduling request provided in an embodiment of the present invention is sent.
As shown in Figure 1, method provided in an embodiment of the present invention specifically includes the following steps:
If the upstream data of step 11, a variety of services triggers scheduling request SR, it is corresponding that terminal UE obtains every kind of upstream data
The first SR configuration.
Optionally, UE applies a variety of services under 5G situation, for example, the service of application is divided into following three kinds: enhancing
Mobile bandwidth (Enhance Mobile Broad band, eMBB), super reliable and low latency service (Ultra-reliable
And low latency communications, URLLC) and large machines communication (massive machine type of
communication,mMTC)。
Optionally, when a variety of services while when wanting the transmission demand of upstream data, SR will be triggered simultaneously, line number on each
It is configured according to corresponding first SR.
Optionally, the value of the value and SR-ProhibitTimer of the first SR configuration including drs-TransMax.
Step 12, UE are configured according to the first SR, determine that the 2nd SR is configured, and the 2nd SR configuration is that UE sends SR
SR configuration.
Optionally, the 2nd SR is configured to the UE SR configuration determining according to the first SR configuration, and UE uses institute
It states the 2nd SR configuration and sends SR, for requesting ascending resource for a variety of upstream datas.
How upstream data triggering the scheduling request SR, UE that the agreement of the prior art is not directed to a variety of services send SR progress
Regulation, the blank for the agreement that the method that scheduling request provided in this embodiment is sent makes up, so that UE is in face of the upper of a variety of services
When the case where row data-triggered scheduling request SR, the 2nd SR configuration is sent, ascending resource can be requested for a variety of upstream datas.
The method that scheduling request provided in this embodiment is sent triggers scheduling request SR by the upstream data of a variety of services
When, UE obtains the corresponding first SR configuration of every kind of upstream data, and is configured according to the first SR, determines that the SR of UE transmission SR matches
It sets, agreement is supplemented.
On the basis of the above embodiments, further embodiment of this invention provide scheduling request send method, determine described in
There are many modes of 2nd SR configuration, and the present embodiment is illustrated by taking one way in which as an example.
The step of UE is configured according to the first SR, determines the 2nd SR configuration specifically:
UE configures corresponding service type according to the first SR, determines that the 2nd SR is configured.
Optionally, when a kind of service has upstream data to send, by transmission trigger request to UE, for UE triggering SR, touching
Hair request includes that the upstream data of this kind service is configured with corresponding SR.
Optionally, the corresponding SR configuration of the upstream data of every kind of service is closely related with the service type of the service.
For example, URLLC service request transmission speed is fast, low latency, then the SR-ProhibitTimer of SR configuration
It is worth small, i.e., latent period is short.And mMTC service is of less demanding to time delay, then pays the utmost attention to the high URLLC of the delay requirement of URLLC
Corresponding first SR configuration is serviced, the URLLC is serviced into corresponding first SR configuration as the 2nd SR and is configured
Other steps of the present embodiment are similar to previous embodiment step, and this embodiment is not repeated.
The present embodiment provides the method that scheduling request is sent, UE configures corresponding service type according to the first SR, really
Fixed 2nd SR configuration can targetedly select the SR configuration for sending SR.
On the basis of the above embodiments, further embodiment of this invention provides the method that scheduling request is sent, the UE root
It is configured according to the first SR, there are many modes for determining the 2nd SR configuration, and the present embodiment is illustrated by taking one way in which as an example.
Every one first SR configuration has the value and maximum number of times of transmission drs- for forbidding timer SR-ProhibitTimer
The value of TransMax;
The step of UE is configured according to the first SR, determines the 2nd SR configuration specifically:
The value of each SR-ProhibitTimer is ranked up from small to large, obtains First ray, by each drs-
The value of TransMax is ranked up from big to small, obtains the second sequence;
The value that the First ray comes n-th of SR-ProhibitTimer is obtained, second sequence is obtained and comes
The value of n-th of drs-TransMax;
The value for the SR-ProhibitTimer that will acquire and the value of the drs-TransMax, match as the 2nd SR
It sets;
Wherein, n is positive integer, and the value range of n is [1, N], and N is the number of the first SR configuration.
Optionally, every one first SR configuration all has the value of the value and drs-TransMax of SR-ProhibitTimer,
UE is directed to the value of n SR-ProhibitTimer and the value of n drs-TransMax, and each value is reconfigured, is obtained
2nd SR configuration.
Optionally, the value that the First ray comes the 1st SR-ProhibitTimer is obtained, second sequence is obtained
Column come the value of the 1st drs-TransMax.
When n is 1, indicate to use the smallest SR-ProhibitTimer and maximum drs-TransMax, i.e., it is most short
Latent period and most numbers of repetition.
For example, for service be the URLLC more demanding to time delay when, the 1st sr-ProhibitTimer's
Value be the 1, the 1st drs-TransMax value be 64, expression sr-ProhibitTimer start when, at interval of one SR weeks
Phase, the i.e. repeatable number for sending SR, and repeating transmission SR was 64 times, and thus base station can obtain SR faster, and distribute for UE
Ascending resource.
Optionally, the value that the First ray comes the SR-ProhibitTimer of n-th is obtained, second sequence is obtained
Column come the value of the drs-TransMax of n-th.
For service be the mMTC not high to time delay when, take n be N when, indicate use maximum SR-
ProhibitTimer and the smallest drs-TransMax, i.e., longest latent period and least number of repetition, it is possible to understand that
, reduce the number that UE sends SR, thus greatly reduce the load on PUCCH.
Other steps of the present embodiment are similar to previous embodiment step, and this embodiment is not repeated.
The present embodiment provides the methods that scheduling request is sent, by by the value of each SR-ProhibitTimer and each drs-
The value of TransMax is ranked up, and is likely to be obtained new SR configuration, thus for the demand of service, flexible choice corresponding second
SR configuration.
On the basis of the above embodiments, further embodiment of this invention provides the method that scheduling request is sent, the method
Include:
The UE is configured according to the first SR, and there are many modes for determining the 2nd SR configuration, and the present embodiment is with one of which side
It is illustrated for formula.
Optionally, the value of each SR-ProhibitTimer is averaging, obtains the mean value of SR-ProhibitTimer, it will be each
The value of drs-TransMax is averaging, and obtains the mean value of drs-TransMax;
By the mean value of the mean value of the SR-ProhibitTimer and the drs-TransMax, configured as the 2nd SR.
Optionally, UE triggers scheduling request SR in face of the upstream data of a variety of services, and the characteristic of each service is different, to upper
The requirement of row resource is different, is difficult the demand of each service of complete fulfillment, therefore UE is configured in face of the SR of a variety of upstream datas, can
The mode of selection compromise obtains the mean value of various SR configurations, so as to obtain one using the numerical characteristics of all SR configuration
More comprehensively, the 2nd SR configuration of relative equilibrium.
Other steps of the present embodiment are similar to previous embodiment step, and this embodiment is not repeated.
The present embodiment provides the methods that scheduling request is sent, and obtain the mean value of a variety of SR configurations, utilize all SR configuration
Numerical characteristics, easy obtains the 2nd SR configuration.
On the basis of the above embodiments, further embodiment of this invention provides the method that scheduling request is sent, the method
Further include:
The corresponding first SR configuration of every kind of upstream data is sent to base station by uplink logic channel;
Receive base station return instruction information, it is described instruction information include the 2nd SR configuration control parameter, described second
SR configuration is the SR configuration that UE sends SR, and the 2nd SR configuration is that base station is configured according to the first SR and uplink logic is believed
What the condition in road determined;
According to the control parameter, the 2nd SR configuration is determined.
Optionally, terminal determines that the first SR with postponing, does not determine the 2nd SR configuration voluntarily, but determines second by base station
SR configuration.
Optionally, base station is configured according to the first SR and the condition of uplink logic channel determines that the 2nd SR is configured.
Optionally, after base station determines the 2nd SR configuration, there are many modes of instruction terminal, and the present embodiment is with wherein one
It is illustrated for kind mode.
Optionally, the instruction information includes the number of the 2nd SR configuration, and the number is in advance by SR-
The value of ProhibitTimer and the value of drs-TransMax are combined, and combine the number being correspondingly arranged for each;
According to the number, the corresponding 2nd SR configuration of the number is determined.
Optionally, the value of the value of SR-ProhibitTimer and drs-TransMax is combined in advance, and is each
The number that kind combination is correspondingly arranged.
Optionally, one of the instruction information is encoded to the control parameter.The corresponding SR configuration of coding
Number.
Fig. 2 is the coding of the instruction information for the method that a kind of scheduling request that further embodiment of this invention provides is sent.
Fig. 3 is the coding of the instruction information for the method that a kind of scheduling request that further embodiment of this invention provides is sent.
As shown in Figures 2 and 3, corresponding different the first SR configuration of each coding.
For there are 8 SR configurations in NR, only need three bits that can indicate, as shown in Fig. 2, 000 corresponding SR
config1;As shown in figure 3,010 corresponding SR config2;011 corresponding SR config3 is waited and so on.
Alternatively it is also possible to indicate the coding of the first SR configuration using the form of bitmap file (Bitmap).
Optionally, UE holds consultation with transmitting terminal in advance, determines the corresponding combination of each number, after receiving number, i.e.,
The value that can determine the corresponding SR-ProhibitTimer of the combination, configures as the first SR, while being determined that the 2nd SR is configured.
Other steps of the present embodiment are similar to previous embodiment step, and this embodiment is not repeated.
The present embodiment provides the methods that scheduling request is sent, by sending the number of the first SR configuration so that UE can be obtained directly
It is configured to the 2nd SR, simplified UE determines the process of the 2nd SR configuration.
On the basis of the above embodiments, further embodiment of this invention provides the method that scheduling request is sent,
There are many modes for according to the control parameter, determining the 2nd SR configuration, and the present embodiment is with wherein
It is illustrated for a kind of mode.
Optionally, the instruction information includes the value of SR-ProhibitTimer and the value of drs-TransMax;
It is described according to the control parameter, the step of determining the 2nd SR configuration specifically:
By the value of the value of the SR-ProhibitTimer and drs-TransMax, configured as the 2nd SR.
Fig. 4 is the coding of the instruction information for the method that a kind of scheduling request that further embodiment of this invention provides is sent.
Fig. 5 is the coding of the instruction information for the method that a kind of scheduling request that further embodiment of this invention provides is sent.
As shown in figure 4, each coding respectively corresponds different SR-ProhibitTimer and drs-TransMax citing
For having 8 SR-ProhibitTimer and 8 drs-TransMax in NR, due to 3 bit of arbitrary continuation
It can indicate 8 SR-ProhibitTimer or drs-TransMax, therefore only need 6 bits that can respectively indicate SR-
ProhibitTimer and drs-TransMax.
Alternatively it is also possible to indicate respectively SR-ProhibitTimer and drs-TransMax using the form of bit map.
Other steps of the present embodiment are similar to previous embodiment step, and this embodiment is not repeated.
The present embodiment provides the methods that scheduling request is sent, by the value and drs- that send SR-ProhibitTimer
The value of TransMax makes UE that can directly obtain the 2nd SR configuration, and simplified UE determines the process of the 2nd SR configuration.
On the basis of the above embodiments, further embodiment of this invention provides the method that scheduling request is sent,
There are many modes for according to the control parameter, determining the first SR configuration, and the present embodiment is with wherein
It is illustrated for a kind of mode.
The instruction information includes the value of SR-ProhibitTimer;
It is described according to the control parameter, the step of determining the 2nd SR configuration specifically:
According to the value of the SR-ProhibitTimer, the value pair of the pre-stored SR-ProhibitTimer is searched
The value of the drs-TransMax answered;
By the value of the value of the drs-TransMax and SR-ProhibitTimer, configured as the 2nd SR.
That is, the corresponding drs-TransMax of value of the pre-stored SR-ProhibitTimer of UE
Value, under the premise of transmitting terminal indicates a SR-ProhibitTimer value, its corresponding SR is may be selected in UE
The drs-TransMax value of configuration.
Correspondingly, the instruction information includes the value of drs-TransMax;
It is described according to the control parameter, the step of determining the 2nd SR configuration specifically:
According to the value of the drs-TransMax, the value for searching the pre-stored drs-TransMax is corresponding described
The value of SR-ProhibitTimer;
By the value of the value of the drs-TransMax and SR-ProhibitTimer, configured as the 2nd SR.
Other steps of the present embodiment are similar to previous embodiment step, and this embodiment is not repeated.
The present embodiment provides the methods that scheduling request is sent, by the value or drs- that send SR-ProhibitTimer
The value of TransMax, so that UE searches to obtain corresponding value, simplified UE determines the process of the 2nd SR configuration.
In order to more fully understand technology contents of the invention, on the basis of the above embodiments, the present embodiment is described in detail
The method that scheduling request is sent is provided.
The present embodiment provides the methods that scheduling request is sent to introduce following three kinds of SR_ProhibitTimer and drs-
The selection scheme of TransMax:
SR_ProhibitTimer the and drs-TransMax value used is indicated in the 3 gpp standards.
MAC CE indicates SR_ProhibitTimer the and drs-TransMax value used.
RRC signaling indicates SR_ProhibitTimer the and drs-TransMax value used.
Five more specific schemes are given below.
Scheme one: as a kind of only upstream data triggering SR, its corresponding SRconfiguration is used;SR
There is a configuration as default configuration in configuration, when the upstream data for not configuring dedicated SR parameter triggers SR,
Use this default configuration;When a variety of upstream datas trigger SR simultaneously, the SR- that regulation uses in the 3 gpp standards is needed
The value of ProhibitTimer and drs-TransMax:
Use the shortest SR-ProhibitTimer and drs-TransMax of maximum value.
Use the longest SR-ProhibitTimer and drs-TransMax of minimum value.
The value of the SR-ProhibitTimer and drs-TransMax that use are determined by mathematical operation.
Scheme two:
As shown in Figures 2 and 3, corresponding different the first SR configuration of each coding.
Base station sends SR configuration by MAC CE and indicates the SR-ProhibitTimer and drs- that use
TransMax。
That is the corresponding SR configuration of a coding in MAC CE.
For there are 8 SR configurations in NR, only need three bits that can indicate, as shown in Fig. 2, 000 corresponding SR
config1;As shown in figure 3,010 corresponding SR config2;011 corresponding SR config3 is waited and so on.
Here the form instruction SR configuration of bit map also can be used.
As shown in Figure 4 and Figure 5, each coding respectively corresponds different SR-ProhibitTimer and drs-TransMax.
Scheme three:
MAC CE indicates the SR-ProhibitTimer and drs-TransMax used.That is the coding in MAC CE is right respectively
Answer SR-ProhibitTimer and drs-TransMax.
For having 8 SR-ProhibitTimer and 8 drs-TransMax in NR, due to 3 bit of arbitrary continuation
It can indicate 8 SR-ProhibitTimer or drs-TransMax, therefore only need 6 bits that can respectively indicate SR-
ProhibitTimer and drs-TransMax.
Here SR-ProhibitTimer and drs-TransMax can be indicated respectively with the form of bit map.
Scheme four: RRC signaling indicates the SR-ProhibitTimer and drs- of its application by SR configuration
TransMax。
Scheme five: base station directly indicates the value and drs- of the SR-ProhibitTimer of its application by RRC signaling
The value of TransMax.It here can also be in the value premise for the value or drs-TransMax for indicating a SR-ProhibitTimer
Under, automatically select the value of the drs-TransMax or SR-ProhibitTimer of the value of its corresponding SR configuration.
The scene for supporting a variety of upstream datas to coexist in NR.When a variety of upstream datas trigger SR simultaneously, which selection applies
The corresponding SR_ProhibitTimer and drs-TransMax of kind SR.
The present embodiment provides the methods that scheduling request is sent, compared in MAC CE or the scheme of RRC signaling instruction, 3GPP
In standard the scheme of the SR-ProhibitTimer and drs-TransMax value of given application it is more flexible, operability it is stronger and
It is non-delay.
Fig. 6 shows a kind of structural schematic diagram of terminal of further embodiment of this invention offer.
Referring to Fig. 6, on the basis of the above embodiments, terminal provided in this embodiment, the terminal includes obtaining module
41 and determining module 42, in which:
If the upstream data for obtaining module 41 for a variety of services triggers scheduling request SR, it is corresponding to obtain every kind of upstream data
The first SR configuration;Determining module 42 is used to be configured according to the first SR, determines that the 2nd SR is configured, and the 2nd SR configuration is
UE sends the SR configuration of SR.Optionally, when a variety of services while when wanting the transmission demand of upstream data, SR will be triggered simultaneously, often
A kind of upstream data is configured with corresponding SR.
Optionally, when a variety of services while when wanting the transmission demand of upstream data, SR will be triggered simultaneously, line number on each
It is configured according to corresponding first SR.
Optionally, the value of the value and SR-ProhibitTimer of the first SR configuration including drs-TransMax.
Optionally, the 2nd SR is configured to the UE SR configuration determining according to the first SR configuration, and UE uses institute
It states the 2nd SR configuration and sends SR, for requesting ascending resource for a variety of upstream datas.
How upstream data triggering the scheduling request SR, UE that the agreement of the prior art is not directed to a variety of services send SR progress
Regulation, the blank for the agreement that the method that scheduling request provided in this embodiment is sent makes up, so that UE is in face of the upper of a variety of services
When the case where row data-triggered scheduling request SR, the 2nd SR configuration is sent, ascending resource can be requested for a variety of upstream datas.
Terminal provided in this embodiment, can be used for executing the method for above method embodiment, this implementation repeats no more.
Terminal provided in this embodiment when triggering scheduling request SR by the upstream data of a variety of services, obtains module and obtains
The corresponding first SR configuration of every kind of upstream data is taken, determining module is configured according to the first SR, determines that the SR of UE transmission SR matches
It sets, agreement is supplemented.
Fig. 7 shows the structural schematic diagram of a kind of electronic equipment of further embodiment of this invention offer.
Refering to Fig. 7, electronic equipment provided in an embodiment of the present invention, the electronic equipment include memory (memory) 51,
Processor (processor) 52, bus 53 and it is stored in the computer program that can be run on memory 51 and on a processor.
Wherein, the memory 51, processor 52 complete mutual communication by the bus 53.
The processor 52 is used to call the program instruction in the memory 51, realizes when executing described program as schemed
1 method.
In another embodiment, following method is realized when the processor executes described program:
The step of UE is configured according to the first SR, determines the 2nd SR configuration specifically:
UE configures corresponding service type according to the first SR, determines that the 2nd SR is configured.
In another embodiment, following method is realized when the processor executes described program:
Every one first SR configuration has the value and maximum number of times of transmission drs- for forbidding timer SR-ProhibitTimer
The value of TransMax;
The step of UE is configured according to the first SR, determines the 2nd SR configuration specifically:
The value of each SR-ProhibitTimer is ranked up from small to large, obtains First ray, by each drs-
The value of TransMax is ranked up from big to small, obtains the second sequence;
The value that the First ray comes n-th of SR-ProhibitTimer is obtained, second sequence is obtained and comes
The value of n-th of drs-TransMax;
The value for the SR-ProhibitTimer that will acquire and the value of the drs-TransMax, match as the 2nd SR
It sets;
Wherein, n is positive integer, and the value range of n is [1, N], and N is the number of the first SR configuration.
In another embodiment, following method is realized when the processor executes described program:
The value that the First ray comes n-th of SR-ProhibitTimer is obtained, second sequence is obtained and comes
The step of value of n-th of drs-TransMax specifically:
The value that the First ray comes the 1st SR-ProhibitTimer is obtained, second sequence is obtained and comes
The value of 1st drs-TransMax.
In another embodiment, following method is realized when the processor executes described program:
The value that the First ray comes n-th of SR-ProhibitTimer is obtained, second sequence is obtained and comes
The step of value of n-th of drs-TransMax specifically:
The value that the First ray comes the SR-ProhibitTimer of n-th is obtained, second sequence is obtained and comes
The value of the drs-TransMax of n-th.
In another embodiment, following method is realized when the processor executes described program:
Every one first SR configuration has the value and maximum number of times of transmission drs- for forbidding timer SR-ProhibitTimer
The value of TransMax;
The step of UE is configured according to the first SR, determines the 2nd SR configuration specifically:
The value of each SR-ProhibitTimer is averaging, the mean value of SR-ProhibitTimer is obtained, by each drs-
The value of TransMax is averaging, and obtains the mean value of drs-TransMax;
By the mean value of the mean value of the SR-ProhibitTimer and the drs-TransMax, configured as the 2nd SR.
In another embodiment, following method is realized when the processor executes described program:
The method also includes:
The corresponding first SR configuration of every kind of upstream data is sent to base station by uplink logic channel;
Receive base station return instruction information, it is described instruction information include the 2nd SR configuration control parameter, described second
SR configuration is the SR configuration that UE sends SR, and the 2nd SR configuration is that base station is configured according to the first SR and uplink logic is believed
What the condition in road determined;
According to the control parameter, the 2nd SR configuration is determined.
In another embodiment, following method is realized when the processor executes described program: the instruction information
Number including the 2nd SR configuration, the number be in advance by the value of SR-ProhibitTimer and the value of drs-TransMax into
Row combination, and correspondingly according to the control parameter, determine that the 2nd SR matches for the number that each combination is correspondingly arranged
The step of setting, specifically:
According to the number, the corresponding 2nd SR configuration of the number is determined.
In another embodiment, following method is realized when the processor executes described program: the instruction information
The value of value and drs-TransMax including SR-ProhibitTimer correspondingly according to the control parameter, determines described
The step of two SR are configured, specifically:
By the value of the value of the SR-ProhibitTimer and drs-TransMax, configured as the 2nd SR.
In another embodiment, following method is realized when the processor executes described program: the instruction information
Value including SR-ProhibitTimer correspondingly according to the control parameter, determines the step of the 2nd SR is configured, tool
Body are as follows:
According to the value of the SR-ProhibitTimer, the value pair of the pre-stored SR-ProhibitTimer is searched
The value of the drs-TransMax answered, by the value of the value of the drs-TransMax and SR-ProhibitTimer, as
Two SR configuration.
In another embodiment, following method is realized when the processor executes described program: the instruction information
Value including drs-TransMax correspondingly according to the control parameter, determines the step of the 2nd SR is configured, specifically:
According to the value of the drs-TransMax, the value for searching the pre-stored drs-TransMax is corresponding described
The value of SR-ProhibitTimer, by the value of the value of the drs-TransMax and SR-ProhibitTimer, as the 2nd SR
Configuration.
Electronic equipment provided in this embodiment can be used for executing the corresponding program of method of above method embodiment, this reality
It applies and repeats no more.
Electronic equipment provided in this embodiment, when triggering scheduling request SR by the upstream data of a variety of services, UE is obtained
The corresponding first SR configuration of every kind of upstream data, and configured according to the first SR, determine that UE sends the SR configuration of SR, to agreement
It is supplemented.
A kind of storage medium that further embodiment of this invention provides is stored with computer program on the storage medium, institute
It states and realizes when program is executed by processor such as the step of Fig. 1.
In another embodiment, following method is realized when described program is executed by processor:
The step of UE is configured according to the first SR, determines the 2nd SR configuration specifically:
UE configures corresponding service type according to the first SR, determines that the 2nd SR is configured.
In another embodiment, realize following method when the processor executes described program: every one first SR matches
It sets to have and forbids the value of timer SR-ProhibitTimer and the value of maximum number of times of transmission drs-TransMax;
The step of UE is configured according to the first SR, determines the 2nd SR configuration specifically:
The value of each SR-ProhibitTimer is ranked up from small to large, obtains First ray, by each drs-
The value of TransMax is ranked up from big to small, obtains the second sequence;
The value that the First ray comes n-th of SR-ProhibitTimer is obtained, second sequence is obtained and comes
The value of n-th of drs-TransMax;
The value for the SR-ProhibitTimer that will acquire and the value of the drs-TransMax, match as the 2nd SR
It sets;
Wherein, n is positive integer, and the value range of n is [1, N], and N is the number of the first SR configuration.
In another embodiment, following method is realized when the processor executes described program: obtaining described first
Sequence comes the value of n-th of SR-ProhibitTimer, and acquisition second sequence comes n-th of drs-TransMax's
The step of value specifically:
The value that the First ray comes the 1st SR-ProhibitTimer is obtained, second sequence is obtained and comes
The value of 1st drs-TransMax.
In another embodiment, following method is realized when the processor executes described program: obtaining described first
Sequence comes the value of n-th of SR-ProhibitTimer, and acquisition second sequence comes n-th of drs-TransMax's
The step of value specifically:
The value that the First ray comes the SR-ProhibitTimer of n-th is obtained, second sequence is obtained and comes
The value of the drs-TransMax of n-th.
In another embodiment, realize following method when the processor executes described program: every one first SR matches
It sets to have and forbids the value of timer SR-ProhibitTimer and the value of maximum number of times of transmission drs-TransMax;
The step of UE is configured according to the first SR, determines the 2nd SR configuration specifically:
The value of each SR-ProhibitTimer is averaging, the mean value of SR-ProhibitTimer is obtained, by each drs-
The value of TransMax is averaging, and obtains the mean value of drs-TransMax;
By the mean value of the mean value of the SR-ProhibitTimer and the drs-TransMax, configured as the 2nd SR.
In another embodiment, realize following method when the processor executes described program: the method is also wrapped
It includes:
The corresponding first SR configuration of every kind of upstream data is sent to base station by uplink logic channel;
Receive base station return instruction information, it is described instruction information include the 2nd SR configuration control parameter, described second
SR configuration is the SR configuration that UE sends SR, and the 2nd SR configuration is that base station is configured according to the first SR and uplink logic is believed
What the condition in road determined;
According to the control parameter, the 2nd SR configuration is determined.
In another embodiment, following method is realized when the processor executes described program: the instruction information
Number including the 2nd SR configuration, the number be in advance by the value of SR-ProhibitTimer and the value of drs-TransMax into
Row combination, and correspondingly according to the control parameter, determine that the 2nd SR matches for the number that each combination is correspondingly arranged
The step of setting, specifically:
According to the number, the corresponding 2nd SR configuration of the number is determined.
In another embodiment, following method is realized when the processor executes described program: the instruction information
The value of value and drs-TransMax including SR-ProhibitTimer correspondingly according to the control parameter, determines described
The step of two SR are configured, specifically:
By the value of the value of the SR-ProhibitTimer and drs-TransMax, configured as the 2nd SR.
In another embodiment, following method is realized when the processor executes described program: the instruction information
Value including SR-ProhibitTimer correspondingly according to the control parameter, determines the step of the 2nd SR is configured, tool
Body are as follows:
According to the value of the SR-ProhibitTimer, the value pair of the pre-stored SR-ProhibitTimer is searched
The value of the drs-TransMax answered, by the value of the value of the drs-TransMax and SR-ProhibitTimer, as
Two SR configuration.
In another embodiment, following method is realized when the processor executes described program: the instruction information
Value including drs-TransMax correspondingly according to the control parameter, determines the step of the 2nd SR is configured, specifically:
According to the value of the drs-TransMax, the value for searching the pre-stored drs-TransMax is corresponding described
The value of SR-ProhibitTimer, by the value of the value of the drs-TransMax and SR-ProhibitTimer, as the 2nd SR
Configuration.
Storage medium provided in this embodiment realizes the side of above method embodiment when described program is executed by processor
Method, this implementation repeat no more.
Storage medium provided in this embodiment, when triggering scheduling request SR by the upstream data of a variety of services, UE is obtained
The corresponding first SR configuration of every kind of upstream data, and configured according to the first SR, determine that UE sends the SR configuration of SR, to agreement
It is supplemented.
Further embodiment of this invention discloses a kind of computer program product, and the computer program product is non-including being stored in
Computer program in transitory computer readable storage medium, the computer program include program instruction, when described program refers to
When order is computer-executed, computer is able to carry out method provided by above-mentioned each method embodiment, for example,
If the upstream data of a variety of services triggers scheduling request SR, terminal UE obtains corresponding first SR of every kind of upstream data
Configuration;
UE is configured according to the first SR, determines that the 2nd SR is configured, and the 2nd SR configuration is the SR configuration that UE sends SR.
It will be appreciated by those of skill in the art that although some embodiments described herein include other embodiments is wrapped
Certain features for including rather than other feature, but the combination of the feature of different embodiments mean in the scope of the present invention it
It is interior and form different embodiments.
It will be understood by those skilled in the art that each step in embodiment can be implemented in hardware, or at one or
The software module run on the multiple processors of person is realized, or is implemented in a combination thereof.Those skilled in the art should manage
Solution, can be used in practice microprocessor or digital signal processor (DSP) to realize according to an embodiment of the present invention one
The some or all functions of a little or whole components.The present invention is also implemented as executing method as described herein
Some or all equipment or terminal program (for example, computer program and computer program product).
Although the embodiments of the invention are described in conjunction with the attached drawings, but those skilled in the art can not depart from this hair
Various modifications and variations are made in the case where bright spirit and scope, such modifications and variations are each fallen within by appended claims
Within limited range.
Claims (14)
1. a kind of method that scheduling request is sent, which is characterized in that the described method includes:
If the upstream data of a variety of services triggers scheduling request SR, terminal UE obtains corresponding first SR of every kind of upstream data and matches
It sets;
UE is configured according to the first SR, determines that the 2nd SR is configured, and the 2nd SR configuration is the SR configuration that UE sends SR.
2. according to the method described in claim 1, determining that the 2nd SR is configured it is characterized by: the UE is configured according to the first SR
The step of specifically:
UE configures corresponding service type according to the first SR, determines that the 2nd SR is configured.
3. according to the method described in claim 1, it is characterized by: every one first SR configuration, which has, forbids timer SR-
The value of ProhibitTimer and the value of maximum number of times of transmission drs-TransMax;
The step of UE is configured according to the first SR, determines the 2nd SR configuration specifically:
The value of each SR-ProhibitTimer is ranked up from small to large, obtains First ray, by each drs-TransMax's
Value is ranked up from big to small, obtains the second sequence;
The value that the First ray comes n-th of SR-ProhibitTimer is obtained, second sequence is obtained and comes n-th
Drs-TransMax value;
The value for the SR-ProhibitTimer that will acquire and the value of the drs-TransMax are configured as the 2nd SR;
Wherein, n is positive integer, and the value range of n is [1, N], and N is the number of the first SR configuration.
4. according to the method described in claim 3, it is characterized by: obtaining the SR- that the First ray comes n-th
The step of value of ProhibitTimer, the value for the drs-TransMax that acquisition second sequence comes n-th specifically:
The value that the First ray comes the 1st SR-ProhibitTimer is obtained, second sequence is obtained and comes the 1st
Drs-TransMax value.
5. according to the method described in claim 3, it is characterized by: obtaining the SR- that the First ray comes n-th
The step of value of ProhibitTimer, the value for the drs-TransMax that acquisition second sequence comes n-th specifically:
The value that the First ray comes the SR-ProhibitTimer of n-th is obtained, second sequence is obtained and comes m-th
Drs-TransMax value, the value range of M is [1, N].
6. according to the method described in claim 1, it is characterized by: every one first SR configuration, which has, forbids timer SR-
The value of ProhibitTimer and the value of maximum number of times of transmission drs-TransMax;
The step of UE is configured according to the first SR, determines the 2nd SR configuration specifically:
The value of each SR-ProhibitTimer is averaging, the mean value of SR-ProhibitTimer is obtained, by each drs-
The value of TransMax is averaging, and obtains the mean value of drs-TransMax;
By the mean value of the mean value of the SR-ProhibitTimer and the drs-TransMax, configured as the 2nd SR.
7. according to the method described in claim 1, it is characterized by: the method also includes:
The corresponding first SR configuration of every kind of upstream data is sent to base station by uplink logic channel;
The instruction information that base station returns is received, the instruction information includes the control parameter of the 2nd SR configuration, and the 2nd SR matches
Setting is SR configuration that UE sends SR, and the 2nd SR configuration is that base station configures and uplink logic channel according to the first SR
What condition determined;
According to the control parameter, the 2nd SR configuration is determined.
8. according to the method described in claim 7, it is characterized by: the instruction information includes the number of the 2nd SR configuration, institute
State number be the value of the value of SR-ProhibitTimer and drs-TransMax is combined in advance, and for each combination pair
The number that should be arranged correspondingly according to the control parameter, determines the step of the 2nd SR is configured, specifically:
According to the number, the corresponding 2nd SR configuration of the number is determined.
9. according to the method described in claim 7, it is characterized by: the instruction information includes the value of SR-ProhibitTimer
Correspondingly according to the control parameter, the step of the 2nd SR is configured is determined with the value of drs-TransMax, specifically:
By the value of the value of the SR-ProhibitTimer and drs-TransMax, configured as the 2nd SR.
10. according to the method described in claim 7, it is characterized by: the instruction information includes SR-ProhibitTimer's
Value correspondingly according to the control parameter, determines the step of the 2nd SR is configured, specifically:
According to the value of the SR-ProhibitTimer, the value for searching the pre-stored SR-ProhibitTimer is corresponding
The value of the drs-TransMax, by the value of the value of the drs-TransMax and SR-ProhibitTimer, as the 2nd SR
Configuration.
11. according to the method described in claim 7, it is characterized by: the instruction information includes the value of drs-TransMax, phase
Ying Di determines the step of the 2nd SR is configured according to the control parameter, specifically:
According to the value of the drs-TransMax, the corresponding SR- of value of the pre-stored drs-TransMax is searched
The value of ProhibitTimer matches the value of the value of the drs-TransMax and SR-ProhibitTimer as the 2nd SR
It sets.
12. a kind of terminal, which is characterized in that the terminal includes:
Module is obtained, if the upstream data for a variety of services triggers scheduling request SR, obtains every kind of upstream data corresponding the
One SR configuration;
Determining module determines that the 2nd SR is configured, the 2nd SR configuration is that UE sends SR for configuring according to the first SR
SR configuration.
13. a kind of electronic equipment, which is characterized in that on a memory and can be including memory, processor, bus and storage
The computer program run on processor, which is characterized in that the processor realizes such as claim 1- when executing described program
The step of 11 any one.
14. a kind of storage medium, is stored thereon with computer program, it is characterised in that: real when described program is executed by processor
Now such as the step of claim 1-11 any one.
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Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN112040511A (en) * | 2019-06-03 | 2020-12-04 | 华为技术有限公司 | Communication method, communication device and system |
CN113747562A (en) * | 2021-08-30 | 2021-12-03 | 上海擎昆信息科技有限公司 | SR prohibit timer duration setting method, system, intelligent device and storage medium |
CN115623603B (en) * | 2020-11-26 | 2024-02-23 | 紫光展锐(重庆)科技有限公司 | Data transmission method and system, terminal and storage medium |
Citations (5)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN103548405A (en) * | 2012-03-16 | 2014-01-29 | 华为技术有限公司 | Method, device, and system for scheduling-request resource allocation |
CN104170491A (en) * | 2012-03-19 | 2014-11-26 | 阿尔卡特朗讯 | Method and apparatus for configuring a plurality of scheduling request triggers |
CN104170493A (en) * | 2012-03-23 | 2014-11-26 | 联发科技股份有限公司 | Methods and apparatus of allocating scheduling request resources in mobile communication networks |
CN104285487A (en) * | 2013-05-10 | 2015-01-14 | 华为技术有限公司 | Scheduling method, user equipment, and base station |
CN107006020A (en) * | 2015-05-15 | 2017-08-01 | 华为技术有限公司 | A kind of transmission method of terminal, base station, and dispatch request |
-
2017
- 2017-11-09 CN CN201711098384.5A patent/CN109769304A/en not_active Withdrawn
Patent Citations (5)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN103548405A (en) * | 2012-03-16 | 2014-01-29 | 华为技术有限公司 | Method, device, and system for scheduling-request resource allocation |
CN104170491A (en) * | 2012-03-19 | 2014-11-26 | 阿尔卡特朗讯 | Method and apparatus for configuring a plurality of scheduling request triggers |
CN104170493A (en) * | 2012-03-23 | 2014-11-26 | 联发科技股份有限公司 | Methods and apparatus of allocating scheduling request resources in mobile communication networks |
CN104285487A (en) * | 2013-05-10 | 2015-01-14 | 华为技术有限公司 | Scheduling method, user equipment, and base station |
CN107006020A (en) * | 2015-05-15 | 2017-08-01 | 华为技术有限公司 | A kind of transmission method of terminal, base station, and dispatch request |
Non-Patent Citations (2)
Title |
---|
INTEL CORPORATION: "R1-1710567 "SR configuration and UL data scheduling"", 《3GPP TSG_RAN\WG1_RL1》 * |
NOKIA等: "R1-1710992 "Discussion on multiple SR configuration"", 《3GPP TSG_RAN\WG1_RL1》 * |
Cited By (5)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN112040511A (en) * | 2019-06-03 | 2020-12-04 | 华为技术有限公司 | Communication method, communication device and system |
CN112040511B (en) * | 2019-06-03 | 2022-11-22 | 华为技术有限公司 | Communication method, communication device and system |
CN115623603B (en) * | 2020-11-26 | 2024-02-23 | 紫光展锐(重庆)科技有限公司 | Data transmission method and system, terminal and storage medium |
CN113747562A (en) * | 2021-08-30 | 2021-12-03 | 上海擎昆信息科技有限公司 | SR prohibit timer duration setting method, system, intelligent device and storage medium |
CN113747562B (en) * | 2021-08-30 | 2024-03-19 | 上海擎昆信息科技有限公司 | SR prohibit timer duration setting method, system, intelligent device and storage medium |
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