CN104303566B

CN104303566B - A kind of transmission method, system and terminal

Info

Publication number: CN104303566B
Application number: CN201280008704.2A
Authority: CN
Inventors: 曾清海; 陈玉华; 黄曲芳
Original assignee: Huawei Technologies Co Ltd
Current assignee: Huawei Technologies Co Ltd
Priority date: 2012-09-14
Filing date: 2012-09-14
Publication date: 2018-11-20
Anticipated expiration: 2032-09-14
Also published as: CN104303566A; WO2014040268A1

Abstract

The embodiment of the invention discloses a kind of transmission method, system and relevant apparatus, the transmission method includes：Terminal merges the first semi-persistent scheduling resource and the second semi-persistent scheduling resource；Terminal sends internet protocol voice service data packet and high-priority message by the first semi-persistent scheduling resource merged and the second semi-persistent scheduling resource simultaneously；Wherein, the transfer level of the high-priority message is higher than the internet protocol voice service data packet.Using the present invention, internet protocol voice service data packet and high-priority message can be sent simultaneously using additional semi-persistent scheduling resource, not only solve the problem that the segmentation of internet protocol voice service data packet and delay cause internet protocol voice service communication quality not high in the prior art, the problem of when also avoiding dynamic dispatching resource to the increase in demand of Physical Downlink Control Channel capacity, by flexibly configuring and using semi-persistent scheduling resource, it can be improved communication quality, promote the usage experience of user.

Description

A kind of transmission method, system and terminal

Technical field

The present invention relates to field of communication technology more particularly to a kind of transmission methods, system and terminal.

Background technique

Currently, semi-persistent scheduling（Semi-persistent Scheduling, SPS）Resource is mainly used in internet protocol Discuss voice service（Voice over Internet Protocol, VoIP）, it not only saves Physical Downlink Control Channel （Physical Downlink Control Channel, PDCCH）, also add serving cell and support internet protocol voice The number of users of business.

In third generation partner program（3rd Generation Partner Project, 3GPP）Long term evolution （Long Term Evolution, LTE）In version 8 and version 9, terminal uses power headroom reporting (PHR)（Power Headroom Reporting, PHR）The nominal maximum transmission power of the base station report terminal of Xiang Weiqi service and transmission channel is shared in uplink （Uplink Shared Channel, UL-SCH）The difference of upper estimation transmission power.And in version 10, it can also use and expand Exhibition power headroom reporting (PHR) realizes the function, and terminal is to the nominal maximum transmission power of the base station report terminal serviced for it and every The uplink of the serving cell of a state of activation shares the difference that transmission power is estimated on transmission channel.Power headroom reporting (PHR) or expansion Open up power headroom reporting (PHR)（Extended PHR）It supports periodic triggers or is changed based on downlink path loss（Downlink path loss change）Situations such as event triggering, terminal can using base station be its dynamically distribute resource or semi-persistent scheduling resource Send power headroom reporting (PHR) or extended power headroom reporting.

When terminal needs while sending power headroom reporting (PHR)（Or extended power headroom reporting）With internet protocol voice industry When data packet of being engaged in, lack simultaneous transmission power headroom reporting (PHR) in the prior art（Or extended power headroom reporting）With Internet Protocol The mechanism of Voice traffic data packet.

Summary of the invention

The embodiment of the present invention provides a kind of transmission method, system and associated terminal, with solve in the prior art can not be simultaneously The problem of sending extended power headroom reporting and internet protocol voice service data packet.

In a first aspect, the embodiment of the invention provides a kind of transmission methods, including：

Terminal merges the first semi-persistent scheduling resource and the second semi-persistent scheduling resource；And

The terminal is sent because of spy simultaneously by the first semi-persistent scheduling resource merged and the second semi-persistent scheduling resource FidonetFido Voice traffic data packet and high-priority message；

Wherein, the transfer level of the high-priority message is higher than the internet protocol voice service data packet.

In the first possible implementation, the method also includes：

The terminal receives the second semi-persistent scheduling resource allocation information that base station is sent, and calls described second semi-durable Dispatch resource；

Wherein, the second semi-persistent scheduling resource allocation information comprises at least one of the following：

The instruction of second semi-persistent scheduling resource is used to indicate when physical downlink control channel PDCCH activation described the first half Persistently when scheduling resource, the second semi-persistent scheduling resource is saved；

Second semi-persistent scheduling resource object is used to indicate the second semi-persistent scheduling resource and described first semi-durable Scheduling resource sends the high-priority message and the internet protocol voice service data packet after merging；With

Second semi-persistent scheduling resource period is used to indicate the second semi-persistent scheduling resource period and described the first half Persistently scheduling resource period is identical or different.

With reference to first aspect or the first possible implementation of first aspect, in second of possible implementation In, the method also includes：

Internet protocol voice service data packet and the high-priority message described in the terminal multiplexing；

The terminal is sent because of spy simultaneously by the first semi-persistent scheduling resource merged and the second semi-persistent scheduling resource FidonetFido Voice traffic data packet and high-priority message, specifically include：

The terminal sends the multiplexing by the first semi-persistent scheduling resource merged and the second semi-persistent scheduling resource FidonetFido Voice traffic data packet and high-priority message.

With reference to first aspect or the first or second of possible implementation of first aspect, in the third possible reality In existing mode, the method also includes：

When the terminal sends the internet protocol voice service data packet and does not send the high-priority message, The terminal discharges the second semi-persistent scheduling resource；

The terminal sends the internet protocol voice service data packet by the first semi-persistent scheduling resource.

With reference to first aspect or the first or second or the third possible implementation of first aspect, at the 4th kind In possible implementation, the high-priority message is comprised at least one of the following：

Extended power headroom reporting；

Long format Buffer Status Report；

Radio resource control RRC message；

Power headroom reporting (PHR)；

Buffer Status Report.

With reference to first aspect or the first or second of first aspect or the third or the 4th kind of possible implementation, In a fifth possible implementation, the second semi-persistent scheduling resource is shared semi-persistent scheduling resource.

Second aspect, the embodiment of the invention also provides a kind of transmission methods, including：

Base station sends the first semi-persistent scheduling resource allocation information and the second semi-persistent scheduling resource allocation information to terminal, The first semi-persistent scheduling resource allocation information is used to indicate the terminal and supports the first semi-persistent scheduling resource, and described second Semi-persistent scheduling resource allocation information is used to indicate the terminal and supports the second semi-persistent scheduling resource；With

First semi-persistent scheduling resource and/or the second semi-persistent scheduling resource described in the base station activation are used for the end End：

The internet protocol voice service data packet is sent by the first semi-persistent scheduling resource；

The high-priority message is sent by the second semi-persistent scheduling resource；Or

The internet is sent by merging the first semi-persistent scheduling resource and the second semi-persistent scheduling resource Protocol voice service data packet and the high-priority message；

In the first possible implementation, the second semi-persistent scheduling resource allocation information includes following at least one Kind：

Second semi-persistent scheduling resource object is used to indicate the second semi-persistent scheduling resource and sends the high priority Message；With

In conjunction with the possible implementation of the first of second aspect or second aspect, in second of possible implementation In, the high-priority message comprises at least one of the following：

Extended power headroom reporting；

Long format Buffer Status Report；

Radio resource control RRC message；

Power headroom reporting (PHR)；

Buffer Status Report.

The third aspect, the embodiment of the invention also provides a kind of terminals, including：

Merging module, for merging the first semi-persistent scheduling resource and the second semi-persistent scheduling resource；

Sending module, the first semi-persistent scheduling resource and the second semi-persistent scheduling for being merged by the merging module Resource sends internet protocol voice service data packet and high-priority message simultaneously；

In the first possible implementation, the terminal further includes：

Calling module for receiving the second semi-persistent scheduling resource allocation information of base station transmission, and calls described second Semi-persistent scheduling resource；

In conjunction with the possible implementation of the first of the third aspect or the third aspect, in second of possible implementation In, the terminal further includes：

Multiplexing module, for being multiplexed the internet protocol voice service data packet and the high-priority message；

The sending module is specifically used for：

Described in the first semi-persistent scheduling resource merged by the merging module and the second semi-persistent scheduling resource are sent The internet protocol voice service data packet and high-priority message of Multiplexing module multiplexing.

In conjunction with the first or second of possible implementation of the third aspect or the third aspect, in the third possible reality In existing mode, the terminal further includes：

Release module disappears for working as to send the internet protocol voice service data packet and do not send the high priority When breath, the second semi-persistent scheduling resource is discharged；

The sending module is also used to send the internet protocol voice industry by the first semi-persistent scheduling resource Business data packet.

Fourth aspect, the embodiment of the present invention also provide a kind of terminal, including：

Memory and the processor communicated with the memory, wherein it is stored with program code in the memory, Said program code includes computer operation instruction, and the processor executes said program code, is used for：

Merge the first semi-persistent scheduling resource and the second semi-persistent scheduling resource；And

Voice over internet protocol is sent simultaneously by the first semi-persistent scheduling resource of merging and the second semi-persistent scheduling resource Sound business data packet and high-priority message；

In the first possible implementation, the processor executes said program code, is also used to：

The second semi-persistent scheduling resource allocation information that base station is sent is received, and second semi-persistent scheduling is called to provide Source；

In conjunction with the possible implementation of the first of fourth aspect or fourth aspect, in second of possible implementation In, the processor executes said program code, is also used to：

It is multiplexed the internet protocol voice service data packet and the high-priority message；

The processor executes said program code, is specifically used for：

The fidonetFido of the multiplexing is sent by the first semi-persistent scheduling resource and the second semi-persistent scheduling resource of merging Voice traffic data packet and high-priority message.

When sending the internet protocol voice service data packet and not sending the high-priority message, the terminal Discharge the second semi-persistent scheduling resource；

The internet protocol voice service data packet is sent by the first semi-persistent scheduling resource.

5th aspect, the embodiment of the invention also provides a kind of base stations, including：

Sending module, for sending the first semi-persistent scheduling resource allocation information and the second semi-persistent scheduling resource to terminal Configuration information, the first semi-persistent scheduling resource allocation information are used to indicate the terminal and support the first semi-persistent scheduling money Source, the second semi-persistent scheduling resource allocation information are used to indicate the terminal and support the second semi-persistent scheduling resource；

Active module makes described for activating the first semi-persistent scheduling resource and/or the second semi-persistent scheduling resource Terminal：

In conjunction with the first possible implementation of the 5th aspect or the 5th aspect, in second of possible implementation In, the high-priority message comprises at least one of the following：

Extended power headroom reporting；

Long format Buffer Status Report；

Radio resource control RRC message；

Power headroom reporting (PHR)；

Buffer Status Report.

6th aspect, the embodiment of the invention also provides a kind of base stations, including：

The first semi-persistent scheduling resource allocation information and the second semi-persistent scheduling resource allocation information are sent to terminal, it is described First semi-persistent scheduling resource allocation information is used to indicate the terminal and supports the first semi-persistent scheduling resource, and described the second half hold Scheduling resource allocation information is used to indicate the terminal and supports the second semi-persistent scheduling resource long；With

The first semi-persistent scheduling resource and/or the second semi-persistent scheduling resource are activated, the terminal is made：

In conjunction with the first possible implementation of the 6th aspect or the 6th aspect, in second of possible implementation In, the high-priority message comprises at least one of the following：

Extended power headroom reporting；

Long format Buffer Status Report；

Radio resource control RRC message；

Power headroom reporting (PHR)；

Buffer Status Report.

7th aspect, the embodiment of the invention also provides a kind of Transmission systems, including：

Including base station as described above and at least one terminal as described above transmitted with the base station.

Implement the embodiment of the present invention, has the advantages that：

Using the present invention, base station is needing terminal by the way that additional semi-persistent scheduling resource is configured and activated for terminal When sending internet protocol voice service data packet and high-priority message simultaneously, additional semi-persistent scheduling resource can be utilized Internet protocol voice service data packet and high-priority message are sent simultaneously, not only solves Internet Protocol in the prior art The problem that the segmentation of Voice traffic data packet and delay cause internet protocol voice service communication quality not high, also avoids dynamic The problem of when scheduling resource to the increase in demand of Physical Downlink Control Channel capacity, by flexibly configuring and using semi-durable tune Resource is spent, communication quality is can be improved, promotes the usage experience of user.

Detailed description of the invention

In order to more clearly explain the embodiment of the invention or the technical proposal in the existing technology, to embodiment or will show below There is attached drawing needed in technical description to be briefly described, it should be apparent that, the accompanying drawings in the following description is only this Some embodiments of invention for those of ordinary skill in the art without creative efforts, can be with It obtains other drawings based on these drawings.

Fig. 1 is a kind of structural schematic diagram of terminal provided in an embodiment of the present invention；

Fig. 2 is the structural schematic diagram of another terminal provided in an embodiment of the present invention；

Fig. 3 is the structural schematic diagram of another terminal provided in an embodiment of the present invention；

Fig. 4 is a kind of structural schematic diagram of base station provided in an embodiment of the present invention；

Fig. 5 is the structural schematic diagram of another base station provided in an embodiment of the present invention；

Fig. 6 is a kind of structural schematic diagram of Transmission system provided in an embodiment of the present invention；

Fig. 7 is a kind of flow diagram of transmission method provided in an embodiment of the present invention；

Fig. 8 is the flow diagram of another transmission method provided in an embodiment of the present invention；

Fig. 9 is the flow diagram of another transmission method provided in an embodiment of the present invention；

Figure 10 is the flow diagram of another transmission method provided in an embodiment of the present invention；

Figure 11 is the flow diagram of another transmission method provided in an embodiment of the present invention.

Specific embodiment

Following will be combined with the drawings in the embodiments of the present invention, and technical solution in the embodiment of the present invention carries out clear, complete Site preparation description, it is clear that described embodiments are only a part of the embodiments of the present invention, instead of all the embodiments.It is based on Embodiment in the present invention, it is obtained by those of ordinary skill in the art without making creative efforts every other Embodiment shall fall within the protection scope of the present invention.

It referring to Figure 1, is a kind of structural schematic diagram of terminal provided in an embodiment of the present invention, the terminal includes：Merge Module 1 and sending module 2, wherein：

The merging module 1, for merging the first semi-persistent scheduling resource and the second semi-persistent scheduling resource.

The sending module 2, the first semi-persistent scheduling resource for being merged by the merging module 1 and the second half are held Scheduling resource sends internet protocol voice service data packet and high-priority message simultaneously long；

Specifically, the high-priority message refers to that transfer level is higher than the transmitting stage of internet protocol voice service data packet Other some reports, message, message etc..The high-priority message comprises at least one of the following：Extended power headroom reporting；It is long Format Buffer Status Report；Wireless heterogeneous networks（Radio Resource Control, RRC）Message；Power headroom reporting (PHR)； Buffer Status Report.

In embodiments of the present invention, as an example with extended power headroom reporting, illustrate the embodiment of the present invention Technical solution.Certainly, in other embodiments of the invention, high-priority message may be other message or message, herein It does not repeat.

Conventionally, as the transfer level of extended power headroom reporting is higher than internet protocol voice service data Packet is first included extended power headroom reporting when then being sent using semi-persistent scheduling resource, then is multiplexed internet in remaining space A part of protocol voice service data packet causes internet protocol voice service data packet to be segmented and postpone, reduces Yin Te FidonetFido voice traffic quality.And the remainder of internet protocol voice service data packet, need base station to use dynamic In addition scheduling allocates resources to send for user equipment, and dynamic dispatching is needed using Physical Downlink Control Channel, to increase The demand to Physical Downlink Control Channel capacity is added.

Extended power headroom reporting can be to be periodic triggers or by event triggering, end provided in an embodiment of the present invention End is primarily adapted for use in the extended power headroom reportings of periodic triggers, for the extended power headroom reporting triggered by event, because For the sudden and randomness of itself, most time there is still a need for being sent using dynamic dispatching resource in the prior art, but The time that the power headroom reporting (PHR) of periodic triggers is occurred exactly at by the extended power headroom reporting of event triggering is not precluded Point only needs to send an extended power headroom reporting at this time, therefore is not precluded and is sent using merging semi-persistent scheduling resource The case where extended power headroom reporting triggered by event.

When semi-persistent scheduling resource is used for internet protocol voice service, and extended power headroom reporting and semi-durable tune There is coincidence in the period of degree resource, i.e., at certain moment, terminal needs while sending extended power headroom reporting and Internet Protocol Voice traffic data packet, the then Physical Resource Block for utilizing the merging module 1 combined（Physical Resource Block, PRB）It is sent.The combined Physical Resource Block of the merging module 1 includes institute in the first semi-persistent scheduling resource allocation information The Physical Resource Block distributed in the Physical Resource Block of distribution and the second semi-persistent scheduling resource allocation information.The merging module The size of 1 combined transmission block is equal to transport block size indicated by the first semi-persistent scheduling resource allocation information and holds with the second half The sum of transport block size indicated by scheduling resource allocation information long.The combined semi-persistent scheduling resource of the merging module 1 Transmission block can accommodate extended power headroom reporting and internet protocol voice service data packet simultaneously, realize extended power surplus The purpose that report is sent simultaneously with internet protocol voice service data packet.

In embodiments of the present invention, the second semi-persistent scheduling resource include base station be the terminal configure and activate it is shared partly Persistently scheduling resource.It does not need to send extended power headroom reporting and internet protocol voice service data packet simultaneously in the terminal When, that is, terminal is equal in other time at the time of coincidence in addition to extended power headroom reporting with the period of semi-persistent scheduling resource This can be shared semi-persistent scheduling resource according to the instruction in the period or base station that are configured temporarily to discharge, so that this is shared in base station Semi-persistent scheduling resource allocation is used to other terminals in need in its coverage area, is made full use of resource, is avoided in net More unnecessary semi-persistent scheduling resource is reserved in network leads to the waste of radio resource and the reduction of cell throughout.

When the first semi-persistent scheduling resource and the second semi-persistent scheduling resource correspond to different modulation/coding modes, close And module 1 merges the first semi-persistent scheduling resource and is needed at according to certain algorithm when the second semi-persistent scheduling resource Reason, such as according to the lesser modulation of the two and coding strategy（Modulation and Coding Scheme, MCS）Or it is larger Modulation and coding strategy handled or base station be terminal configure different modulation/coding modes combine with merge after Mapping relations between modulation/coding mode.Base station and terminal are according to the same algorithm process multiplex data, to connect Debit can be correctly decoded.

The the first semi-persistent scheduling resource and the second semi-persistent scheduling that sending module 2 is used to merge using merging module 1 provide Source sends extended power headroom reporting and internet protocol voice service data packet, the first semi-persistent scheduling resource and described Second semi-persistent scheduling resource is pre-configured with and is activated by base station.

It by what is be pre-configured with by base station and activated include the first semi-persistent scheduling resource and in the embodiment of the present invention The merging semi-persistent scheduling resource of two semi-persistent scheduling resources makes terminal need while send internet protocol voice service number When according to packet and high-priority message, internet protocol voice service data can be sent simultaneously using semi-persistent scheduling resource is merged Packet and high-priority message not only solve the segmentation of internet protocol voice service data packet and delay in the prior art, Yin Te FidonetFido voice traffic problem of low quality, to Physical Downlink Control Channel capacity when also avoiding dynamic dispatching resource Increase in demand the problem of, by flexibly configuring and use semi-persistent scheduling resource, can be improved communication quality, promote user Usage experience.

Fig. 2 is referred to, for the structural schematic diagram of another terminal provided in an embodiment of the present invention, the terminal includes above-mentioned In terminal：Merging module 1 and sending module 2 further include in the present embodiment：Calling module 3, Multiplexing module 4 and release mould Block 5, wherein：

The calling module 3, for receiving the second semi-persistent scheduling resource allocation information of base station transmission, and described in calling Second semi-persistent scheduling resource.

The Multiplexing module 4, for being multiplexed the internet protocol voice service data packet and the high-priority message.

The sending module 2 is specifically used for：

Described in the first semi-persistent scheduling resource and the second semi-persistent scheduling resource merged by the merging module 1 is sent The internet protocol voice service data packet and high-priority message that Multiplexing module 4 is multiplexed.

The release module 5, for working as the transmission internet protocol voice service data packet and not sending the Gao You When first grade message, the second semi-persistent scheduling resource is discharged；

The sending module 2 is also used to send the internet protocol voice industry by the first semi-persistent scheduling resource Business data packet.

Specifically, the high-priority message refers to that transfer level is higher than the transmitting stage of internet protocol voice service data packet Other some reports, message, message etc..The high-priority message comprises at least one of the following：Extended power headroom reporting；It is long Format Buffer Status Report；Radio resource control information；Power headroom reporting (PHR)；Buffer Status Report.

In some embodiments of the invention, the second semi-persistent scheduling resource that calling module 3 receives base station transmission is matched Confidence breath comprises at least one of the following：

The instruction of second semi-persistent scheduling resource is used to indicate when Physical Downlink Control Channel activates the first semi-durable tune When spending resource, the second semi-persistent scheduling resource is saved；

Internet protocol voice service data packet and extended power headroom reporting are multiplexed by Multiplexing module 4, obtain multiplexing number According to the first semi-persistent scheduling resource merged so as to the sending module 2 by the merging module 1 and the second semi-persistent scheduling Resource sends extended power headroom reporting and internet protocol voice service data packet simultaneously.Multiplexing（multiplexing）Also referred to as It is to form a new data packets after the different data packets that will need to merge add corresponding head information respectively to merge.Head letter Breath includes identification information and/or length information of data packet etc., to identify and distinguish between data packet included in new data packets.

When sending the internet protocol voice service data packet and not sending the high-priority message, the release Module 5 can be according to the finger of the second semi-persistent scheduling resource period or base station in the second semi-persistent scheduling resource allocation information Show and temporarily free up the second semi-persistent scheduling resource, is used so that base station provides it to other terminals in need, it can be abundant Utilization resource, do not make resource vacancy and waste, improve the handling capacity of cell.

Specifically, since the transport block size of the first semi-persistent scheduling resource is large enough to hold internet protocol voice service number According to packet, therefore, when only needing to send internet voice business data packet, sending module 2 directly uses the first semi-persistent scheduling Resource is sent.

Therefore in some feasible embodiments of the invention, base station is additional by configuring and activating for terminal The second semi-persistent scheduling resource, so that terminal is being needed while is being sent internet protocol voice service data packet and high priority disappears When breath, the second semi-persistent scheduling resource can persistently be dispatched resource with the first edition and merged, to send Internet Protocol simultaneously Voice traffic data packet and high-priority message not only solve internet protocol voice service data packet segmentation in the prior art And delay, the not high problem of internet protocol voice service communication quality, to physical down when also avoiding dynamic dispatching resource The problem of increase in demand of control channel capacity, can be improved communication by flexibly configuring and using semi-persistent scheduling resource Quality promotes the usage experience of user.

Fig. 3 is referred to, for the structural schematic diagram of another terminal provided in an embodiment of the present invention, the terminal includes storage Device 01 and the processor 02 communicated with the memory, wherein program code, the journey are stored in the memory 01 Sequence code includes computer operation instruction, and the processor 02 executes said program code, is used for：

The processor 02 executes said program code, is also used to：

The processor 02 executes said program code, is specifically used for：

The processor 02 executes said program code, is also used to：

It can be seen that the processor 02 in terminal provided in an embodiment of the present invention, can use the first semi-persistent scheduling money Source and base station are the second semi-persistent scheduling resource that terminal additionally configures, and realize while sending internet protocol voice service data The function of packet and extended power headroom reporting.

Fig. 4 is referred to, is a kind of structural schematic diagram of base station provided in an embodiment of the present invention, the base station includes：It sends Module 11 and active module 12, wherein：

The sending module 11, for sending the first semi-persistent scheduling resource allocation information and the second semi-durable tune to terminal Resource allocation information is spent, the first semi-persistent scheduling resource allocation information is used to indicate the terminal and supports the first semi-durable tune Resource is spent, the second semi-persistent scheduling resource allocation information is used to indicate the terminal and supports the second semi-persistent scheduling resource.

The active module 12, for activating the first semi-persistent scheduling resource and/or the second semi-persistent scheduling resource, Make the terminal：

The sending module 11 sends the first semi-persistent scheduling resource distribution letter to terminal by radio resource control information It ceases, includes semi-persistent scheduling-cell radio resource temporary identifier in the first semi-persistent scheduling resource allocation information, semi-durable The information such as dispatching cycle, uplink power control parameter are used to indicate the terminal and support the first semi-persistent scheduling resource.Assuming that The semi-persistent scheduling period assignment of first semi-persistent scheduling resource described in the embodiment of the present invention is 20ms（Millisecond, milli Second）.

The sending module 11 sends the second semi-persistent scheduling resource distribution letter to terminal by radio resource control information Breath, the second semi-persistent scheduling resource allocation information comprise at least one of the following：

If the second semi-persistent scheduling resource is shared semi-persistent scheduling resource, the second semi-persistent scheduling resource One of following information is included at least in configuration information：Shared semi-persistent scheduling resource instruction（shared SPS indication）, shared semi-persistent scheduling resource can be distributed when being used to indicate activation semi-persistent scheduling resource；Share semi-durable tune Spend resource object（shared SPS object）, it is used to indicate the purposes of shared semi-persistent scheduling resource, is such as used for extended power Headroom reporting；Shared semi-persistent scheduling resource period（shared SPS interval）, the cycle information can be designated as using Period identical with the first semi-persistent scheduling resource, or instruction use week identical with shared semi-persistent scheduling resource object Phase, or it is independent the period.Such as the period assignment using extended power headroom reporting, be 20ms or 50ms or 100ms or 200ms etc. does not need in addition to reconfigure shared semi-persistent scheduling resource then when the period of extended power headroom reporting is reconfigured Period simplifies configuration process.

Certainly, sending module 11 is not limited to that media access also can be used using radio resource control information （Medium Access Control, MAC）Control member（Control Element, CE）The first semi-persistent scheduling resource is configured to match Confidence breath and the second semi-persistent scheduling resource allocation information.A radio resource control information can be used to end in sending module 11 End while the first semi-persistent scheduling resource allocation information of transmission and the second semi-persistent scheduling resource allocation information, also can be used two Radio resource control information is respectively configured.And radio resource control information can be established for wireless heterogeneous networks connection（RRC Connection Setup）Message or radio resource control connection reestablishment are vertical（RRC Connection Reestablishment） Message or wireless resource control connection reconfiguration（RRC Connection Reconfiguration）Message.

The sending module 12 is specifically used for sending the first semi-persistent scheduling resource and described second to the terminal The active information of semi-persistent scheduling resource, to activate the first semi-persistent scheduling resource and/or the second semi-persistent scheduling resource.

In a kind of possible implementation of the embodiment of the present invention, active module 12 is controlled especially by physical down to be believed Road sends the active information of the first semi-persistent scheduling resource and the second semi-persistent scheduling resource respectively；Or

The first semi-persistent scheduling resource and the second semi-persistent scheduling are sent respectively by the Physical Downlink Control Channel of enhancing The active information of resource；Or

It is semi-durable by the Physical Downlink Control Channel while the first semi-persistent scheduling resource of transmission of the enhancing and second Dispatch the active information of resource.

Include check field and resource allocation information in activate message, includes that Physical Resource Block distributes in resource allocation information Information, modulation/coding mode information and transport block size（TB size）Information.

As a kind of possible implementation, Physical Resource Block distribution information instruction the distributed to terminal in base station use when Frequency domain resource information, one of resource block occupy 0.5ms in the time domain, and the range of 180kHz is occupied on frequency domain；

Modulation/coding mode information instruction terminal is semi-durable using the first semi-persistent scheduling resource and/or second Scheduling resource sends the modulation or coding mode used when data.First semi-persistent scheduling resource and the second semi-persistent scheduling resource Identical modulation/coding mode is generally corresponded to, different modulation/coding modes can also be corresponded to, if corresponding different modulation/volume When code mode, need to pay attention in resource merging process to correspond to, specifically, merging module 1 merges the first semi-persistent scheduling resource It is handled with needs when the second semi-persistent scheduling resource according to certain algorithm, such as according to the lesser modulation of the two and coding Tactful perhaps biggish modulation is handled with coding strategy or base station is that terminal configures different modulation/coding mode groups Close with merge after modulation/coding mode between mapping relations.Base station and terminal are multiple according to the same algorithm process With data, so that recipient can be correctly decoded.

Transport block size information indicates what the first semi-persistent scheduling resource and/or the second semi-persistent scheduling resource possessed The space size of transmission block.The transport block size of general first semi-persistent scheduling resource and semi-persistent scheduling resource in the prior art Transport block size it is identical, the size of the transmission block of the second semi-persistent scheduling resource is identical as the size of extended power headroom reporting Or it is smaller, so that internet protocol voice service data packet and expansion can be accommodated simultaneously after merging with the first semi-persistent scheduling resource Semi-persistent scheduling resource is opened up, is achieved the object of the present invention.

Specifically, to refer mainly to semi-persistent scheduling-cell radio resource in physical down control message interim for check field Mark（Semi-persistent scheduling cell-radio network temporary identification, SPS C-RNTI）, cyclic redundancy information（Cyclic Redundancy Check, CRC）Bit and Downlink Control Information （Downlink Control Information, DCI）In be particularly configured to the field or bit of check information.Terminal according to Whether the active information that the judgement of above-mentioned check field receives is legal, and when active information is legal, saves described the first half and holds Scheduling resource and/or the second semi-persistent scheduling resource long complete the first semi-persistent scheduling resource and/or the second semi-durable tune Spend the resource active of resource.

So that the terminal：

The internet is sent by merging the first semi-persistent scheduling resource and the second semi-persistent scheduling resource Protocol voice service data packet and the high-priority message.

Specifically, terminal is according to the period of the first semi-persistent scheduling resource and the second semi-persistent scheduling resource and configuration in object Manage DSCH Downlink Shared Channel（Physical downlink shared channel, PDSCH）Receive downlink data and/or in physics Uplink Shared Channel（Physical uplink shared channel, PUSCH）Upstream data is sent, network side is not needed and sets It is standby to carry out dynamic resource allocation as base station retransmits physical down control message at the time of each semi-persistent scheduling period.

Therefore in some feasible embodiments of the invention, base station is additional by configuring and activating for terminal The second semi-persistent scheduling resource, so that terminal is being needed while is being sent internet protocol voice service data packet and high priority disappears When breath, internet is sent simultaneously after capable of merging using the second additional semi-persistent scheduling resource with the first semi-persistent scheduling resource Protocol voice service data packet and high-priority message not only solve internet protocol voice service data packet in the prior art Segmentation and delay, the not high problem of internet protocol voice service communication quality, to physics when also avoiding dynamic dispatching resource The problem of increase in demand of down control channel capacity, can be improved by flexibly configuring and using semi-persistent scheduling resource Communication quality promotes the usage experience of user.

Fig. 5 is referred to, for the structural schematic diagram of another base station provided in an embodiment of the present invention, the base station includes storage Device 21 and the processor 22 communicated with the memory, wherein program code, the journey are stored in the memory 21 Sequence code includes computer operation instruction, and the processor 22 executes said program code, is used for：

The second semi-persistent scheduling resource allocation information comprises at least one of the following：

The high-priority message comprises at least one of the following：

Extended power headroom reporting；

Long format Buffer Status Report；

Radio resource control information；

Power headroom reporting (PHR)；

Buffer Status Report.

Therefore, the processor in base station provided in an embodiment of the present invention can be implemented as terminal and configure and activate the first half to hold Scheduling resource and/or the second semi-persistent scheduling resource long, to solve while send internet protocol voice service data packet and expansion The problem of opening up power headroom reporting (PHR).

Fig. 6 is referred to, is a kind of structural schematic diagram of Transmission system provided in an embodiment of the present invention, the system comprises bases It stands 31 and at least one terminal 32 for being transmitted with the base station.

Wherein, the base station 31 is to include such as Fig. 4 of the present invention or base station shown in fig. 5, the terminal 32 be include as Invention figure 1, Fig. 2 or terminal shown in Fig. 3.

Specifically, the base station 31 is that the terminal 32 configures and activate the first semi-persistent scheduling resource and/or the second half Persistently scheduling resource, so that the terminal 32 sends the internet protocol voice industry by the first semi-persistent scheduling resource Business data packet；

Fig. 7 is referred to, is a kind of flow diagram of transmission method provided in an embodiment of the present invention.The method includes：

S101, terminal merge the first semi-persistent scheduling resource and the second semi-persistent scheduling resource.

S102, the terminal are sent simultaneously by the first semi-persistent scheduling resource merged and the second semi-persistent scheduling resource Internet protocol voice service data packet and high-priority message.

Specifically, the transfer level of the high-priority message is higher than the internet protocol voice service data packet.Institute It states high-priority message and refers to that transfer level is higher than some reports of the transfer level of internet protocol voice service data packet, disappears Breath, message etc..The high-priority message comprises at least one of the following：Extended power headroom reporting；Long format buffer state Report；Radio resource control information；Power headroom reporting (PHR)；Buffer Status Report.

When semi-persistent scheduling resource is used for internet protocol voice service, and extended power headroom reporting and semi-durable tune There is coincidence in the period of degree resource, i.e., at certain moment, terminal needs while sending extended power headroom reporting and Internet Protocol Voice traffic data packet is then sent using combined Physical Resource Block.The Physical Resource Block that terminal merges includes the first half It is distributed in the Physical Resource Block and the second semi-persistent scheduling resource allocation information persistently distributed in scheduling resource allocation information Physical Resource Block.The size for the transmission block that terminal merges is equal to transmission indicated by the first semi-persistent scheduling resource allocation information The sum of transport block size indicated by block size and the second semi-persistent scheduling resource allocation information.Therefore, what terminal merged partly holds The transmission block of scheduling resource can accommodate extended power headroom reporting and internet protocol voice service data packet simultaneously long, and realizing will The purpose that extended power headroom reporting and internet protocol voice service data packet are sent simultaneously.

When the first semi-persistent scheduling resource and the second semi-persistent scheduling resource correspond to different modulation/coding modes, eventually End merges the first semi-persistent scheduling resource and needs to be handled according to certain algorithm when the second semi-persistent scheduling resource, such as According to the lesser modulation of the two and coding strategy, perhaps biggish modulate is handled or base station is matched for terminal with coding strategy Set different modulation/coding modes combine with merge after modulation/coding mode between mapping relations.Base station and terminal are pressed According to the same algorithm process multiplex data, so that recipient can be correctly decoded.

When terminal needs to base station while sending extended power headroom reporting and internet protocol voice service data packet, Extended power headroom reporting and internet are sent using the first semi-persistent scheduling resource of merging and the second semi-persistent scheduling resource Protocol voice service data packet, the first semi-persistent scheduling resource and the second semi-persistent scheduling resource are matched in advance by base station It sets and activates.

Fig. 8 is referred to, for the flow diagram of another transmission method provided in an embodiment of the present invention.The method packet It includes：

S201, the terminal receive the first semi-persistent scheduling resource and the second semi-persistent scheduling resource distribution that base station is sent Information.

S202, the terminal merge the first semi-persistent scheduling resource and the second semi-persistent scheduling resource.

S203, internet protocol voice service data packet and the high-priority message described in terminal multiplexing.

S204, the terminal pass through described in the first semi-persistent scheduling resource merged and the transmission of the second semi-persistent scheduling resource The fidonetFido Voice traffic data packet and high-priority message of multiplexing.

S205 disappears when the terminal sends the internet protocol voice service data packet and do not send the high priority When breath, the terminal discharges the second semi-persistent scheduling resource.

S206, the terminal send the internet protocol voice service data by the first semi-persistent scheduling resource Packet.

In some embodiments of the invention, terminal receives the second semi-persistent scheduling resource allocation information of base station transmission It comprises at least one of the following：

When needing while sending extended power headroom reporting and internet protocol voice service data packet, terminal will be because of spy FidonetFido Voice traffic data packet and the multiplexing of extended power headroom reporting, obtain multiplex data, so as to can in subsequent transmission process With by merge the first semi-persistent scheduling resource and the second semi-persistent scheduling resource simultaneously send extended power headroom reporting and Internet protocol voice service data packet.Multiplexing also referred to as merges, and is that the different data packets that will need to merge add phase respectively A new data packets are formed after the head information answered.Head information includes identification information and/or length information of data packet etc., to know Included data packet not and in differentiation new data packets.

When sending the internet protocol voice service data packet and not sending the high-priority message, terminal can root It is temporarily released according to the instruction of the second semi-persistent scheduling resource period or base station in the second semi-persistent scheduling resource allocation information The second semi-persistent scheduling resource is put, is used so that base station provides it to other terminals in need, can adequately utilize money Source does not make resource vacancy and wastes, improves the handling capacity of cell.

At this point, since the transport block size of the first semi-persistent scheduling resource is large enough to hold internet protocol voice service data Packet, therefore, when only needing to send internet voice business data packet, terminal directly uses the first semi-persistent scheduling resource to carry out It sends.

It is of course also possible to first carry out S202 and S203, S201 is carried out afterwards, has no effect on the realization effect of the embodiment of the present invention Fruit.

Fig. 9 is referred to, for the flow diagram of another transmission method provided in an embodiment of the present invention, the method packet It includes：

S301, base station send the first semi-persistent scheduling resource allocation information and the second semi-persistent scheduling resource distribution to terminal Information.

S302, the first semi-persistent scheduling resource and/or the second semi-persistent scheduling resource described in the base station activation.

Specifically, the first semi-persistent scheduling resource allocation information, which is used to indicate the terminal, supports the first semi-durable tune Resource is spent, the second semi-persistent scheduling resource allocation information is used to indicate the terminal and supports the second semi-persistent scheduling resource. First semi-persistent scheduling resource and/or the second semi-persistent scheduling resource described in the base station activation are used for the terminal：

The base station sends the first semi-persistent scheduling resource allocation information to terminal by radio resource control information, described It include semi-persistent scheduling-cell radio resource temporary identifier, semi-persistent scheduling week in first semi-persistent scheduling resource allocation information The information such as phase, uplink power control parameter are used to indicate the terminal and support the first semi-persistent scheduling resource.Assuming that in the present invention The semi-persistent scheduling period assignment of first semi-persistent scheduling resource described in embodiment is 20ms.

The base station sends the second semi-persistent scheduling resource allocation information to terminal by radio resource control information, described Second semi-persistent scheduling resource allocation information comprises at least one of the following：

If the second semi-persistent scheduling resource is shared semi-persistent scheduling resource, the second semi-persistent scheduling resource One of following information is included at least in configuration information：Shared semi-persistent scheduling resource instruction, it is semi-durable to be used to indicate activation Shared semi-persistent scheduling resource can be distributed when dispatching resource；Shared semi-persistent scheduling resource object, be used to indicate share it is semi-durable The purposes of resource is dispatched, extended power headroom reporting is such as used for；Shared semi-persistent scheduling resource period, the cycle information can refer to It is shown to employ period identical with the first semi-persistent scheduling resource, or instruction use and shared semi-persistent scheduling resource object phase The same period, or it is independent the period.Such as the period assignment using extended power headroom reporting, be 20ms or 50ms or 100ms or 200ms etc. is not needed in addition to reconfigure and is shared semi-durable tune then when the period of extended power headroom reporting is reconfigured The period of resource is spent, configuration process is simplified.

Certainly, base station is not limited to that the configuration of media access control member also can be used using radio resource control information First semi-persistent scheduling resource allocation information and the second semi-persistent scheduling resource allocation information.A wireless money can be used in base station Source control message sends the first semi-persistent scheduling resource allocation information and the second semi-persistent scheduling resource distribution letter to terminal simultaneously Breath, also can be used two radio resource control informations and is respectively configured.And radio resource control information can be radio resource control Message is established in system connection or radio resource control connection reestablishment founds message or wireless resource control connection reconfiguration message.

Base station sends swashing for the first semi-persistent scheduling resource and the second semi-persistent scheduling resource to the terminal Information living, to activate the first semi-persistent scheduling resource and/or the second semi-persistent scheduling resource.

In a kind of possible implementation of the embodiment of the present invention, base station is distinguished especially by Physical Downlink Control Channel Send the active information of the first semi-persistent scheduling resource and the second semi-persistent scheduling resource；Or

Include check field and resource allocation information in activate message, includes that Physical Resource Block distributes in resource allocation information Information, modulation/coding mode information and transport block size information.

Modulation/coding mode information instruction terminal is semi-durable using the first semi-persistent scheduling resource and/or second Scheduling resource sends the modulation or coding mode used when data.First semi-persistent scheduling resource and the second semi-persistent scheduling resource Identical modulation/coding mode is generally corresponded to, different modulation/coding modes can also be corresponded to, if corresponding different modulation/volume When code mode, need to pay attention in resource merging process to correspond to, specifically, terminal merges the first semi-persistent scheduling resource and second When semi-persistent scheduling resource need handled according to certain algorithm, such as according to the two it is lesser modulation with coding strategy or The biggish modulation of person is handled with coding strategy or base station configures different modulation/coding modes for terminal and combines and close The mapping relations between modulation/coding mode after and.Base station and terminal according to the same algorithm process multiplex data, So that recipient can be correctly decoded.

Specifically, to refer mainly to semi-persistent scheduling-cell radio resource in physical down control message interim for check field The field or bit of check information are particularly configured in mark, cyclic redundancy information bit and Downlink Control Information.Terminal root It is whether legal according to the active information that receives of above-mentioned check field judgement, and when active information is legal, save described the first half Persistently scheduling resource and/or the second semi-persistent scheduling resource completes the first semi-persistent scheduling resource and/or second semi-durable Dispatch the resource active of resource.

Referring to Figure 10, for the flow diagram of another transmission method provided in an embodiment of the present invention.The method packet It includes：

S401, when needing while sending internet protocol voice service data packet and high-priority message, according to base station Instruction, by the priority modification of the internet protocol voice service data packet be it is preferential higher than the high-priority message Grade.

Specifically, high-priority message includes that extended power headroom reporting or other priority are higher than internet protocol voice The message or message of business data packet.It should be noted that terminal provided in an embodiment of the present invention is suitable for extended power surplus The extended power headroom reporting of report and event triggering does not hereinafter have specified otherwise such as, and extended power headroom reporting refers both to The extended power headroom reporting of extended power headroom reporting and event triggering, repeats no more.Assuming that in embodiments of the present invention, it is high Priority message is extended power headroom reporting.

Under normal circumstances, the priority of internet protocol voice service data packet is preferential lower than extended power headroom reporting Grade, therefore when needing while sending the two, priority processing extended power headroom reporting.And in embodiments of the present invention, when need When sending internet protocol voice service data packet and extended power headroom reporting simultaneously, terminal can first pass through in advance according to base station The instruction that radio resource control information is sent, the interim priority for modifying extended power headroom reporting are lower than internet protocol voice The priority of business data packet, in order to priority processing internet protocol voice service data packet, so that internet protocol voice Business is unobstructed uninterrupted；And in other cases, the priority of extended power headroom reporting is defaulted as being higher than voice over internet protocol The priority of sound business data packet.

S402 sends the internet protocol voice service data packet and the high priority using semi-persistent scheduling resource Message.

Specifically, S402 includes：

Step 1：The Internet Protocol is preferentially placed in the semi-persistent scheduling resource for being pre-configured with and being activated by base station Voice traffic data packet, and in the surplus resources of the semi-persistent scheduling resource place high-priority message a part.

Terminal preferentially places the voice over internet protocol in the semi-persistent scheduling resource for being pre-configured with and being activated by base station Sound business data packet, and in the surplus resources of the semi-persistent scheduling resource place high-priority message a part, excellent Resource is made full use of under the premise of first placing internet protocol voice service data packet.

Step 2：The ascending resource dynamically distributed is waited to send the remaining content of the high-priority message, or

Buffer Status Report of the triggering comprising transmission resource needed for the high-priority message, or the request base station Distribute the scheduling request of resource；

Step 3：Send the internet protocol voice service data packet and the high-priority message.

Therefore in some feasible embodiments of the invention, base station is by notifying terminal temporarily to modify because of spy The priority of fidonetFido Voice traffic data packet preferentially sends internet protocol voice service data packet, is needing terminal together When send internet protocol voice service data packet and when high-priority message, can be same using existing semi-persistent scheduling resource When send internet protocol voice service data packet and high-priority message, not only solve voice over internet protocol in the prior art The segmentation of sound business data packet and delay, the not high problem of internet protocol voice service communication quality also avoid dynamic dispatching The problem of when resource to the increase in demand of Physical Downlink Control Channel capacity, by flexibly configuring and being provided using semi-persistent scheduling Source can be improved communication quality, promote the usage experience of user.

Referring to Figure 11, for the flow diagram of another transmission method provided in an embodiment of the present invention.The method packet It includes：

S501, when terminal needs while when sending internet protocol voice service data packet and high-priority message, by Base station is pre-configured with and preferentially places the high-priority message of short format in the semi-persistent scheduling resource that activates.

When terminal needs while sending internet protocol voice service data packet and high-priority message, although terminal is pressed It is being pre-configured with by base station and is being activated according to the priority of extension semi-persistent scheduling resource and internet protocol voice service data packet Semi-persistent scheduling resource in both be sequentially placed, but the extension semi-persistent scheduling resource of short format is only preferentially placed, so that half Persistently the remaining space of scheduling resource can accommodate complete internet protocol voice service data packet, so as to not influence Both sent simultaneously under the premise of the fluency of voice service.

S501 includes following methods：

The extended power of main serving cell in the extended power headroom reporting is preferentially placed in semi-persistent scheduling resource Headroom reporting, or

More than the extended power for preferentially placing terminal described in the extended power headroom reporting in semi-persistent scheduling resource Amount report.

S502 places the internet protocol voice service data in the surplus resources of the semi-persistent scheduling resource Packet.

S503 sends the high-priority message of the internet protocol voice service data packet and the short format.

Therefore in some feasible embodiments of the invention, terminal is preferential by the height for only placing short format Grade message, enables the remaining space of semi-persistent scheduling resource to accommodate complete internet protocol voice service data packet, from And internet can be sent using existing semi-persistent scheduling resource priority under the premise of not influencing the fluency of voice service Protocol voice service data packet not only solves the segmentation of internet protocol voice service data packet and delay in the prior art, because Special fidonetFido voice traffic problem of low quality also avoids holding Physical Downlink Control Channel when dynamic dispatching resource The problem of increase in demand of amount, can be improved communication quality, is promoted and used by flexibly configuring and using semi-persistent scheduling resource The usage experience at family.

Those of ordinary skill in the art will appreciate that realizing all or part of the process in above-described embodiment method, being can be with Relevant hardware is instructed to complete by computer program, the program can be stored in a computer-readable storage medium In, the program is when being executed, it may include such as the process of the embodiment of above-mentioned each method.Wherein, the storage medium can be magnetic Dish, CD, read-only memory（Read-Only Memory, ROM）Or random access memory（Random Access Memory, RAM）Deng.

The above disclosure is only the preferred embodiments of the present invention, cannot limit the right model of the present invention with this certainly It encloses, therefore equivalent changes made in accordance with the claims of the present invention, is still within the scope of the present invention.

Claims

1. a kind of transmission method, which is characterized in that including：

When the first semi-persistent scheduling resource and the second semi-persistent scheduling resource period are overlapped, it is semi-durable that terminal merges described first Dispatch resource and the second semi-persistent scheduling resource；And

The terminal multiplexing internet protocol voice service data packet and high-priority message；

The terminal sends the multiplexing by the first semi-persistent scheduling resource merged and the second semi-persistent scheduling resource simultaneously The internet protocol voice service data packet and the high-priority message；

Wherein, the transfer level of the high-priority message is higher than the internet protocol voice service data packet；

The high-priority message comprises at least one of the following：Extended power headroom reporting；Long format Buffer Status Report；Nothing Line Resource Control Message；Power headroom reporting (PHR)；Buffer Status Report.

2. the method as described in claim 1, which is characterized in that further include：

The terminal receives the second semi-persistent scheduling resource allocation information that base station is sent, and calls second semi-persistent scheduling Resource；

The instruction of second semi-persistent scheduling resource is used to indicate when physical downlink control channel PDCCH activation described first is semi-durable When dispatching resource, the second semi-persistent scheduling resource is saved；

Second semi-persistent scheduling resource object is used to indicate the second semi-persistent scheduling resource and first semi-persistent scheduling Resource sends the high-priority message and the internet protocol voice service data packet after merging；With

Second semi-persistent scheduling resource period is used to indicate the second semi-persistent scheduling resource period and described first semi-durable It is identical or different to dispatch resource period.

3. such as the described in any item methods of claim 1 to 2, which is characterized in that further include：

It is described when the terminal sends the internet protocol voice service data packet and do not send the high-priority message Terminal discharges the second semi-persistent scheduling resource；

4. method as claimed in claim 3, it is characterised in that：

The second semi-persistent scheduling resource is shared semi-persistent scheduling resource.

5. a kind of transmission method, which is characterized in that including：

Base station sends the first semi-persistent scheduling resource allocation information and the second semi-persistent scheduling resource allocation information to terminal, described First semi-persistent scheduling resource allocation information is used to indicate the terminal and supports the first semi-persistent scheduling resource, and described the second half hold Scheduling resource allocation information is used to indicate the terminal and supports the second semi-persistent scheduling resource long；With

First semi-persistent scheduling resource and/or the second semi-persistent scheduling resource described in the base station activation are used for the terminal：

It is semi-durable by merging described first when the first semi-persistent scheduling resource and the second semi-persistent scheduling resource period are overlapped It dispatches resource and the second semi-persistent scheduling resource sends the internet protocol voice service data packet and high priority of multiplexing Message；

6. method as claimed in claim 5, it is characterised in that：

Second semi-persistent scheduling resource object is used to indicate the second semi-persistent scheduling resource transmission high priority and disappears Breath；With

7. a kind of terminal, which is characterized in that including：

Merging module, for when the first semi-persistent scheduling resource and the second semi-persistent scheduling resource period are overlapped, terminal to merge The first semi-persistent scheduling resource and the second semi-persistent scheduling resource；

Multiplexing module, for being multiplexed internet protocol voice service data packet and high-priority message；

Sending module, for described in the first semi-persistent scheduling resource and the transmission simultaneously of the second semi-persistent scheduling resource by merging The internet protocol voice service data packet of multiplexing and the high-priority message；

8. terminal as claimed in claim 7, which is characterized in that further include：

Calling module for receiving the second semi-persistent scheduling resource allocation information of base station transmission, and calls described the second half to hold Scheduling resource long；

9. such as the described in any item terminals of claim 7 to 8, which is characterized in that further include：

Release module, for working as the transmission internet protocol voice service data packet and not sending the high-priority message When, discharge the second semi-persistent scheduling resource；

The sending module is also used to send the internet protocol voice service number by the first semi-persistent scheduling resource According to packet.

10. a kind of terminal, which is characterized in that including memory and the processor communicated with the memory, wherein described Program code is stored in memory, said program code includes computer operation instruction, and the processor executes described program Code is used for：

When the first semi-persistent scheduling resource and the second semi-persistent scheduling resource period are overlapped, merge first semi-persistent scheduling Resource and the second semi-persistent scheduling resource；And

It is multiplexed internet protocol voice service data packet and high-priority message；

Pass through the first semi-persistent scheduling resource of merging and the second semi-persistent scheduling resource send simultaneously the multiplexing it is described because Special fidonetFido Voice traffic data packet and the high-priority message；

11. terminal as claimed in claim 10, which is characterized in that the processor executes said program code, is also used to：

The second semi-persistent scheduling resource allocation information that base station is sent is received, and calls the second semi-persistent scheduling resource；

12. such as the described in any item terminals of claim 10 to 11, which is characterized in that the processor executes described program generation Code, is also used to：

When sending the internet protocol voice service data packet and not sending the high-priority message, the terminal release The second semi-persistent scheduling resource；

13. a kind of base station, which is characterized in that including：

Sending module, for sending the first semi-persistent scheduling resource allocation information and the second semi-persistent scheduling resource distribution to terminal Information, the first semi-persistent scheduling resource allocation information are used to indicate the terminal and support the first semi-persistent scheduling resource, institute It states the second semi-persistent scheduling resource allocation information and is used to indicate the second semi-persistent scheduling resource of the terminal support；

Active module makes the end for activating the first semi-persistent scheduling resource and/or the second semi-persistent scheduling resource End：

14. base station as claimed in claim 13, which is characterized in that the second semi-persistent scheduling resource allocation information include with Lower at least one：

15. a kind of base station, which is characterized in that including memory and the processor communicated with the memory, wherein described Program code is stored in memory, said program code includes computer operation instruction, and the processor executes described program Code is used for：

The first semi-persistent scheduling resource allocation information and the second semi-persistent scheduling resource allocation information are sent to terminal, described first Semi-persistent scheduling resource allocation information is used to indicate the terminal and supports the first semi-persistent scheduling resource, the second semi-durable tune Degree resource allocation information is used to indicate the terminal and supports the second semi-persistent scheduling resource；With

16. base station as claimed in claim 15, which is characterized in that the second semi-persistent scheduling resource allocation information include with Lower at least one：

The instruction of second semi-persistent scheduling resource is used to indicate when physical downlink control channel PDCCH activation described first is semi-durable When dispatching resource, the second semi-persistent scheduling resource allocation is saved；

Second semi-persistent scheduling resource object is used to indicate the second semi-persistent scheduling resource allocation and sends the high priority Message；With

17. a kind of Transmission system, which is characterized in that including base station and at least one terminal transmitted with the base station, institute Stating terminal includes such as described in any item terminals of claim 7 to 12, and the base station includes such as any one of claim 13 to 16 The base station.