CN106034332B - Information processing method and terminal - Google Patents
Information processing method and terminal Download PDFInfo
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- CN106034332B CN106034332B CN201510114677.2A CN201510114677A CN106034332B CN 106034332 B CN106034332 B CN 106034332B CN 201510114677 A CN201510114677 A CN 201510114677A CN 106034332 B CN106034332 B CN 106034332B
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Abstract
The invention discloses a kind of information processing method and terminals, which comprises if mistake occurs in the first D2D communication at the first moment, determines the first downlink transmission number to be retransmitted of terminal and base station communication before first moment;Total process resource of process resource and the terminal has been accounted for based on the first downlink transmission number, determines residue process resource;Determine that the first D2D communicates the second downlink transmission number between communicating with the 2nd D2D at the second moment;Wherein, second moment is later than first moment, and the 2nd D2D communication is the re-transmission communication of the first D2D communication;Based on the second downlink transmission number, the remaining process resource is divided into the first process resource and the second process resource;Wherein, first process resource include for the first D2D communication data storage resource;Second process resource is the retransmission process resource for keeping for the second downlink transmission.
Description
Technical field
The present invention relates to the resource allocation techniques of wireless communication field more particularly to a kind of whole information processing method and ends
End.
Background technique
Usually when carrying out wireless communication, the resource in terminal device for wireless communication is limited, specific as usually
The memory source of general terminal can be used in supporting the operation of 8 or 15 processes.
Wireless communication includes that terminal is carried out wireless communication with base station, further includes the direct communication between multiple terminals.It is described
Direct communication between terminal includes device-to-device (Device-to-Device, D2D) communication.
D2D communication is to allow directly to carry out between terminal by the communication resource of the wireless communication cell where multiplex terminal
The new technique of communication, it can increase bee spectrum efficiency of communication system, reduce terminal transmission power, solve to a certain extent
The problem of wireless communication system frequency spectrum resource scarcity.
However the resource that can be used for being communicated in communication terminal is also limited, if a terminal is both in progress and base
The communication stood, and carrying out D2D communication, may occur that the process resource in terminal for communication process is insufficient to ask at this time
Topic.In the prior art when there is process resource deficiency, directly stop the one or more of multiple communication process, it is clear that this meeting
D2D communication or terminal and the communication value of base station is caused to carry out the problem of energy difference.
Therefore how to realize limited resources reasonable distribution in terminal is communicated to terminal with the communication process of base station or D2D into
Journey is prior art urgent problem to be solved to improve communication quality.
Summary of the invention
In view of this, an embodiment of the present invention is intended to provide a kind of information processing method and terminal, it is existing at least partly to solve
There is the problem in technology because communicating difference caused by terminal internal cause process resource unreasonable distribution.
In order to achieve the above objectives, the technical scheme of the present invention is realized as follows:
First aspect of the embodiment of the present invention provides a kind of information processing method, which comprises
If mistake occurs in the first D2D communication at the first moment, terminal and base station communication before first moment are determined
First downlink transmission number to be retransmitted;
Total process resource of process resource and the terminal has been accounted for based on the first downlink transmission number, has been determined surplus
Remaining process resource;
Determine that the first D2D communicates the second downlink transmission number between communicating with the 2nd D2D at the second moment;
Wherein, second moment is later than first moment, and the 2nd D2D communication is the re-transmission communication of the first D2D communication;
Based on the second downlink transmission number, the remaining process resource is divided into the first process resource and second
Process resource;
Wherein, first process resource include for the first D2D communication data storage resource;Described second into
Cheng Ziyuan is the retransmission process resource for keeping for the second downlink transmission.
Preferably,
The second downlink transmission number is m;
It is described to be based on the second downlink transmission number, by the remaining process resource be divided into the first process resource and
Second process resource, comprising:
1/ (m+1) the remaining process resource is divided into first process resource;
The m/ (m+1) the remaining process resource is divided into second process resource.
Preferably,
It is described to be based on the second downlink transmission number, by the remaining process resource be divided into the first process resource and
Second process resource, comprising:
The QoS requirement and/or data of the first D2D communication and second downlink transmission are obtained respectively
Type;Wherein, different data types has corresponded to different permissible transmission delays;
Based on the QoS requirement and/or data type, distribution coefficient a is determined;
Based on the distribution coefficient a and second down link data, by the remaining process resource be divided into first into
Cheng Ziyuan and the second process resource;
Wherein, a is the natural number not less than 0.
Preferably,
The second downlink transmission number is m;
It is described to be based on the distribution coefficient a and second down link data, the remaining process resource is divided into the
One process resource and the second process resource, comprising:
A/ (m+1) the remaining process resource is divided into first process resource;
The remaining process resource of (m+1-a)/(m+1) by described in is divided into second process resource;
Wherein, the m is 0 or positive integer.
Preferably,
The method also includes:
The limited buffers rate adaptation operating of the 2nd D2D communication is carried out based on first process resource;
And/or
The limited buffers rate adaptation operating of second downlink transmission is carried out based on upper second process resource.
Second aspect of the embodiment of the present invention provides a kind of terminal, and the terminal includes:
First determination unit, if mistake occurs in the first D2D communication for the first moment, before determining first moment
The first downlink transmission number to be retransmitted of terminal and base station communication;
Second determination unit, for having accounted for process resource and the terminal based on the first downlink transmission number
Total process resource determines residue process resource;
Third determination unit, for determining that the first D2D communicates second between communicating with the 2nd D2D at the second moment
Downlink transmission number;Wherein, second moment is later than first moment, and the 2nd D2D communication is described first
The re-transmission communication of D2D communication;
The remaining process resource is divided into first for being based on the second downlink transmission number by allocation unit
Process resource and the second process resource;
Wherein, first process resource include for the first D2D communication data storage resource;Described second into
Cheng Ziyuan is the retransmission process resource for keeping for the second downlink transmission.
Preferably,
The second downlink transmission number is m;
The allocation unit, for 1/ (m+1) the remaining process resource to be divided into first process resource;And by institute
It states m/ (m+1) the remaining process resource and is divided into second process resource;
Wherein, the m is 0 or positive integer.
Preferably,
The allocation unit, specifically for obtaining the first D2D communication and second downlink transmission respectively
QoS requirement and/or data type;Wherein, different data types has corresponded to different permissible transmission delays;It is based on
The QoS requirement and/or data type determine distribution coefficient a;And it is based on the distribution coefficient a and second downlink
The remaining process resource is divided into the first process resource and the second process resource by link data;
Wherein, a is the natural number not less than 0.
Preferably,
The second downlink transmission number is m;
The allocation unit is specifically used for a/ (m+1) the remaining process resource being divided into first process resource;And
The remaining process resource of (m+1-a)/(m+1) by described in is divided into second process resource.
Preferably,
The terminal further include:
Execution unit, for carrying out the limited buffers rate of the 2nd D2D communication based on first process resource
With operation;And/or the limited buffers rate-matched of second downlink transmission is carried out based on upper second process resource
Operation.
Information processing method and terminal described in the embodiment of the present invention can be according to terminals when finding a D2D communication failure
Interior total process resource and process resource is accounted for, determined remaining process resource, has determined unsuccessfully that the D2D communication is right with it
The the second downlink transmission number between re-transmission communication answered, then remaining process is carried out according to the second downlink transmission number
A part of process resource can be used to store the data of the D2D communication of failure, while be terminal and base by the distribution of resource in this way
A part of process resource of communication reservation between standing, when preventing communication failure between terminal and base station, needs to occupy process
Resource, it is clear that process resource allocation plan in this way has taken into account D2D communication and the communication between terminal and base station well, will not
Because process resource is insufficient or process resource unreasonable distribution leads to the process quilt between the process or terminal and base station of D2D communication
It discards, the problems such as communication quality of formation is poor, to improve the communication capacity of terminal and the user satisfaction of user.
Detailed description of the invention
Fig. 1 is the flow diagram of information processing method described in the embodiment of the present invention;
Fig. 2 is the flow diagram of remaining process resource distribution described in the embodiment of the present invention;
Fig. 3 is one of the structural schematic diagram of terminal described in the embodiment of the present invention;
Fig. 4 is the second structural representation of terminal described in the embodiment of the present invention.
Specific embodiment
Technical solution of the present invention is further described in detail with reference to the accompanying drawings and specific embodiments of the specification.
Embodiment of the method one:
As shown in Figure 1, the present embodiment provides a kind of information processing methods, which comprises
Step S110: if mistake occurs in the first D2D communication at the first moment, terminal and base before first moment are determined
Stand communication the first downlink transmission number to be retransmitted;
Step S120: total process money of process resource and the terminal has been accounted for based on the first downlink transmission number
Source determines residue process resource;
Step S130: determine that the first D2D communicates the second downlink between communicating with the 2nd D2D at the second moment
Transmit number;Wherein, second moment is later than first moment, and the 2nd D2D communication is the first D2D communication
Retransmit communication;
Step S140: being based on the second downlink transmission number, and the remaining process resource is divided into the first process
Resource and the second process resource;
Wherein, first process resource include for the first D2D communication data storage resource;Described second into
Cheng Ziyuan is the retransmission process resource for keeping for the second downlink transmission.
The process resource can be retransmission process resource, and can be described as HARQ process resource.The process resource may include
Memory source in terminal, the memory source may include caching buffer etc..
The D2D communication may include D2D discovery or D2D service communication.The D2D communication carries out D2D commonly used in discovery
The equipment of communication, the signaling information usually transmitted.The D2D service communication is the D2D communication after having carried out D2D discovery,
Usually transmit is business datum.
It determines in step s 110 and carries out mobile communication between the terminal and base station, the first downlink for needing to retransmit
The data of transmission, so in the step s 120 can be according to occupied by each described first downlink transmission to be retransmitted
Process resource and number, so that it may know the process resource that the process resource in current terminal has been used.It is described to be made
Process resource is above-mentioned to have accounted for process resource.Further according to being capable of providing the total process resource of volume in the terminal, so that it may
Calculate the remaining process resource.
When the first D2D communication mistake, then need to carry out the re-transmission communication of the first D2D communication, the first D2D
The re-transmission communication of communication is the 2nd D2D communication.
The downlink of one or more terminals and base station communication is usually provided in the first D2D communication and the 2nd D2D communication
Link transmission.In order to reserve process resource to the downlink transmission of terminal and base station, step S130 in the present embodiment
In, it will determine that the first D2D communicates the data of the second downlink transmission between communicating with the 2nd D2D.
It, will be according to the second downlink transmission number point when carrying out the distribution of remaining process resource in step S140
Not Wei D2D communication and the communication progress process resource between terminal and base station distribution, in this case can combine
D2D communication and the communication between terminal and base station, when can be avoided process resource deficiency, abandon D2D communication or terminal with
The process communicated between base station causes to communicate the not high problem of success rate.
Embodiment of the method two:
As shown in Figure 1, the present embodiment provides a kind of information processing methods, which comprises
Step S110: if mistake occurs in the first D2D communication at the first moment, terminal and base before first moment are determined
Stand communication the first downlink transmission number to be retransmitted;
Step S120: total process money of process resource and the terminal has been accounted for based on the first downlink transmission number
Source determines residue process resource;
Step S130: determine that the first D2D communicates the second downlink between communicating with the 2nd D2D at the second moment
Transmit number;Wherein, second moment is later than first moment, and the 2nd D2D communication is the first D2D communication
Retransmit communication;
Step S140: being based on the second downlink transmission number, and the remaining process resource is divided into the first process
Resource and the second process resource;
Wherein, first process resource include for the first D2D communication data storage resource;Described second into
Cheng Ziyuan is the retransmission process resource for keeping for the second downlink transmission.
The second downlink transmission number is m;
The step S140 can include:
1/ (m+1) the remaining process resource is divided into first process resource;
The m/ (m+1) the remaining process resource is divided into second process resource;
Wherein, the m is 0 or positive integer.
The present embodiment further defines how the step S140 specifically carries out residue on the basis of a upper embodiment
The distribution of process resource.Due to current first D2D communication mistake, it is logical to need to distribute a part of resource progress the first D2D
The storage of the data of letter, in the present embodiment by 1/ (m+1) of remaining process resource the first process resource the most described.In order to protect
Being normally carried out for the communication between the terminal and base station is demonstrate,proved, will also be communicated and the according to the first D2D in the present embodiment
Second down link data of the downlink transmission between two D2D communication reserves the remaining process resource of m/ (m+1)
Caching for the data between subsequent terminal and base station when communication failure.
Information processing method described in obvious the present embodiment not only has when carrying out the distribution of the remaining process resource
Have and combined D2D communication and the mobile communication between terminal and base station, while also having the advantages that realize easy.
The configuration information of the uplink and downlink communication of table 1 as follows between terminal and base station.
Table 1
D in sub-frame number is corresponded in upper table indicates downlink transmission, and U indicates uplink transmission, and S indicates uplink and downlink
Conversion.Occupied terminal and base station carry out the time slot of uplink communication when usual D2D communicates equal.At this moment under the communication configuration of terminal can enter
Table 2
Assuming that the 3rd subframe in upper table occurs for the first D2D communication, the 2nd D2D communications setting occurs in the 8th son
Frame;Other subframes are used for the communication between terminal and base station as usual.
Assuming that a total of 8 standard process resources of terminal inner, standard process resource described herein includes memory.Each
The corresponding memory of standard process resource can completely be deposited in the case where not carrying out stamp operation to the corresponding data of process
Store up the corresponding data of each process.Stamp is to give up a part of data, specifically how to give up a part of data, can pass through speed
Rate matches to realize.
Below in conjunction with information processing method described in the present embodiment, a specific example is provided.
Terminal is configured according to the frame structure of oneself, after the first D2D communication mistake, is determined and is needed to repeat lower downlink in transmission
The number of link DL.The number of the DL at this time is above-mentioned first down link data.The DL is the contracting of Downlink
It writes, corresponding Chinese is downlink.
If the data of the DL are X, by calculating it is found that having accounted for buffer size/8 × X of memory at this time;It is remaining
Buffer size is buffer size/8 × (8-X).Herein, total memory that the buffer size is indicated.
Process distribution is carried out to buffer size/8 × (8-X), as an illustrative example two the first D2D communications and the 2nd D2D
Downlink transmission is Y between communication, then carries out Y+1 equal part to free memory.The Y is equal to 2 according to table 2, then will remain
Remaining buffer size/8 × (8-X) carries out 3 equal parts.
So either D2D communication or the communication between terminal and base station have all been assigned to a part of process resource,
When carrying out follow-up data storage, through-rate matches the behaviour such as (rate-matched may include limited buffers rate-matched LBRM)
Make, it is real now less than the storage for carrying out communication process under the process resource of standard process resource.
Even if obviously in this way, the process resource in the terminal is insufficient, and also there is mistake in the communication of subsequent terminal and base station
Accidentally, the process of there will not be is discarded, and the obviously downlink transmission process to be retransmitted before carrying out the first D2D communication
The size of occupied process resource is equal to a standard process resource, therefore these processes do not carry out stamp.
Embodiment of the method three:
As shown in Figure 1, the present embodiment provides a kind of information processing methods, which comprises
Step S110: if mistake occurs in the first D2D communication at the first moment, terminal and base before first moment are determined
Stand communication the first downlink transmission number to be retransmitted;
Step S120: total process money of process resource and the terminal has been accounted for based on the first downlink transmission number
Source determines residue process resource;
Step S130: determine that the first D2D communicates the second downlink between communicating with the 2nd D2D at the second moment
Transmit number;Wherein, second moment is later than first moment, and the 2nd D2D communication is the first D2D communication
Retransmit communication;
Step S140: being based on the second downlink transmission number, and the remaining process resource is divided into the first process
Resource and the second process resource;
Wherein, first process resource include for the first D2D communication data storage resource;Described second into
Cheng Ziyuan is the retransmission process resource for keeping for the second downlink transmission.
In embodiment of the method two when carrying out remaining process resource distribution, D2D communication and base station and terminal are not distinguished
Mobile communication carries out the scoring of remaining process resource based on process number Y+1.
As shown in Fig. 2, the step S130 in the present embodiment can include:
Step S131: the QoS requirement of the first D2D communication and second downlink transmission is obtained respectively
And/or data type;Wherein, different data types has corresponded to different permissible transmission delays;
Step S132: it is based on the QoS requirement and/or data type, determines distribution coefficient a;
Step S133: being based on the distribution coefficient a and second down link data, by the remaining process resource point
For the first process resource and the second process resource.
QoS requirement can be indicated by messaging parameter QoS.The data type, it may include voice communication short disappears
Message communication etc..
A usual communication is more important or time delay requirement is smaller, then corresponding QoS requirement is also higher.Specifically such as,
Usual voice communication is higher than the QoS requirement of short message communication, in order to guarantee that the high communication of QoS requirement can be high
The completion of quality introduces distribution coefficient in the present embodiment, and remaining process resource will be finally carried out according to the distribution information
Distribution, it is clear that in this way terminal be capable of intelligence according to D2D communication or the importance of the second downlink transmission, it is specific to determine
Distribute to the process resource number of each communication process;Guarantee that the preferential communication for realizing that QoS requirement is high can be smooth with table
It completes;Improve the intelligence of terminal.
Embodiment of the method four:
As shown in Figure 1, the present embodiment provides a kind of information processing methods, which comprises
Step S110: if mistake occurs in the first D2D communication at the first moment, terminal and base before first moment are determined
Stand communication the first downlink transmission number to be retransmitted;
Step S120: total process money of process resource and the terminal has been accounted for based on the first downlink transmission number
Source determines residue process resource;
Step S130: determine that the first D2D communicates the second downlink between communicating with the 2nd D2D at the second moment
Transmit number;Wherein, second moment is later than first moment, and the 2nd D2D communication is the first D2D communication
Retransmit communication;
Step S140: being based on the second downlink transmission number, and the remaining process resource is divided into the first process
Resource and the second process resource;
Wherein, first process resource include for the first D2D communication data storage resource;Described second into
Cheng Ziyuan is the retransmission process resource for keeping for the second downlink transmission.
In embodiment of the method two when carrying out remaining process resource distribution, D2D communication and base station and terminal are not distinguished
Mobile communication carries out the scoring of remaining process resource based on process number Y+1.
As shown in Fig. 2, the step S130 in the present embodiment can include:
Step S131: the QoS requirement of the first D2D communication and second downlink transmission is obtained respectively
And/or data type;Wherein, different data types has corresponded to different permissible transmission delays;
Step S132: it is based on the QoS requirement and/or data type, determines distribution coefficient a;
Step S133: being based on the distribution coefficient a and second down link data, by the remaining process resource point
For the first process resource and the second process resource.
The second downlink transmission number is m;
The step S133 can include:
A/ (m+1) the remaining process resource is divided into first process resource;
The remaining process resource of (m+1-a)/(m+1) by described in is divided into second process resource.
Wherein, a is the natural number not less than 0.
The present embodiment on the basis of a upper embodiment, further clarified how to be carried out based on the distribution coefficient it is described
The distribution of first process resource and the second process resource, it is clear that can not only combine D2D communication and base station and terminal it
Between mobile communication, additionally it is possible to ensure that the relatively high communication of QoS requirement can obtain more process resources, to reach
To its corresponding QoS requirement, to guarantee going on smoothly for communication;And have the advantages that realize simultaneously simple and efficient.
Embodiment of the method five:
As shown in Figure 1, the present embodiment provides a kind of information processing methods, which comprises
Step S110: if mistake occurs in the first D2D communication at the first moment, terminal and base before first moment are determined
Stand communication the first downlink transmission number to be retransmitted;
Step S120: total process money of process resource and the terminal has been accounted for based on the first downlink transmission number
Source determines residue process resource;
Step S130: determine that the first D2D communicates the second downlink between communicating with the 2nd D2D at the second moment
Transmit number;Wherein, second moment is later than first moment, and the 2nd D2D communication is the first D2D communication
Retransmit communication;
Step S140: being based on the second downlink transmission number, and the remaining process resource is divided into the first process
Resource and the second process resource;
Wherein, first process resource include for the first D2D communication data storage resource;Described second into
Cheng Ziyuan is the retransmission process resource for keeping for the second downlink transmission.
The method also includes: the limited buffers rate of the 2nd D2D communication is carried out based on first process resource
Matching operation;And/or the limited buffers rate of second downlink transmission is carried out based on upper second process resource
With operation.
Due to distributing to the process resource of each communication process in step S140 likely to be less than the standard process
Communication, then when carrying out data storage possibly also with the upper process resource, it may be necessary to carry out stamp processing, specifically how realize
Stamp will be realized in the present embodiment by limited buffers rate-matched.
Specifically such as, if the data of the first D2D of full storage communication need the memory source of 1024M, but described first into
Cheng Ziyuan only includes the memory source of 512M, then passes through the limited buffers rate-matched (Limited Buffer Rate at this time
Match, LBRM) operation, the 1024M data are passed through to the processing of limited buffers rate-matched, are not losing information as far as possible
In the case where amount, it is stored as 512M data.
In short, information processing method described in the present embodiment be terminal D 2D communicate and the mobile communication between base station all
It is assigned with HARQ process resource, in this way in subsequent communicated, is operated, be can be realized using limited buffers rate-matched etc.
Complete communication process in process resource less than standard HARQ process resource, this makes it possible to avoid because process resource not enough or into
Process caused by journey resource allocation is unreasonable abandons, and the problem of lead to the process being dropped corresponding communication disruption, to mention
Communication quality and users' satisfaction degree are risen;And method described in the present embodiment can either be adapted in TDD terminal, also can
Suitable for FDD terminal.
Apparatus embodiments one:
As shown in figure 3, the present embodiment provides a kind of terminal, the terminal includes:
First determination unit 110 determines first moment if mistake occurs in the first D2D communication for the first moment
The first downlink transmission number to be retransmitted of terminal and base station communication in the past;
Second determination unit 120, for having accounted for process resource and the end based on the first downlink transmission number
Total process resource at end determines residue process resource;
Third determination unit 130, communicate for determining the first D2D communication with the 2nd D2D at the second moment between
Second downlink transmission number;Wherein, second moment is later than first moment, and the 2nd D2D communication is described
The re-transmission communication of first D2D communication;
The remaining process resource is divided into for being based on the second downlink transmission number by allocation unit 140
One process resource and the second process resource;
Wherein, first process resource include for the first D2D communication data storage resource;Described second into
Cheng Ziyuan is the retransmission process resource for keeping for the second downlink transmission.
The specific knot of first determination unit 110, the second determination unit 120, third determination unit 130 and allocation unit 140
Structure may include processor;The processor can for application processor AP, central processor CPU, digital signal processor DSP, can
Programmed array PLC or Micro-processor MCV etc. have the electronic device of the information processing function.The processor can by execute can
Code is executed to realize above-mentioned function.
Between first determination unit 110, the second determination unit 120, third determination unit 130 and allocation unit 140
Any two can integrate corresponding to same processor or respectively correspond different processors.
The process resource can be HARQ process resource, and it includes memory source that the HARQ, which carries out resource, therefore the terminal
It further include memory source.
Terminal described in the present embodiment can have the communication terminal of communication function for mobile phone or tablet computer etc., being capable of above-mentioned side
Method embodiment, which provides, realizes hardware, equally has the advantages that good communication quality.The communication terminal can be whole for TDD terminal or FDD
End.
It is worth noting that the D2D communication, process resource and the first downlink transmission number and the second downlink chain
The associated description of road transmission data may refer to embodiment of the method, just not be repeated herein.
Apparatus embodiments two:
As shown in figure 3, the present embodiment provides a kind of terminal, the terminal includes:
First determination unit 110 determines first moment if mistake occurs in the first D2D communication for the first moment
The first downlink transmission number to be retransmitted of terminal and base station communication in the past;
Second determination unit 120, for having accounted for process resource and the end based on the first downlink transmission number
Total process resource at end determines residue process resource;
Third determination unit 130, communicate for determining the first D2D communication with the 2nd D2D at the second moment between
Second downlink transmission number;Wherein, second moment is later than first moment, and the 2nd D2D communication is described
The re-transmission communication of first D2D communication;
The remaining process resource is divided into for being based on the second downlink transmission number by allocation unit 140
One process resource and the second process resource;
Wherein, first process resource include for the first D2D communication data storage resource;Described second into
Cheng Ziyuan is the retransmission process resource for keeping for the second downlink transmission.
The second downlink transmission number is m;
The allocation unit 140, for 1/ (m+1) the remaining process resource to be divided into first process resource;And
The m/ (m+1) the remaining process resource is divided into second process resource.
As soon as the specific structure of the allocation unit may refer to apparatus embodiments, it is not repeated herein.It is worth noting
, the present embodiment further defines the allocation unit 140 and provides to first process on the basis of a upper embodiment
The distribution in source and second process resource.
Terminal described in the present embodiment is further limiting in the structure of the terminal of above equipment embodiment, together
Sample has the advantages that communication efficiency is good, and the allocation unit for distributing process resource has realization when carrying out process resource distribution
Easy advantage.
Apparatus embodiments three:
As shown in figure 3, the present embodiment provides a kind of terminal, the terminal includes:
First determination unit 110 determines first moment if mistake occurs in the first D2D communication for the first moment
The first downlink transmission number to be retransmitted of terminal and base station communication in the past;
Second determination unit 120, for having accounted for process resource and the end based on the first downlink transmission number
Total process resource at end determines residue process resource;
Third determination unit 130, communicate for determining the first D2D communication with the 2nd D2D at the second moment between
Second downlink transmission number;Wherein, second moment is later than first moment, and the 2nd D2D communication is described
The re-transmission communication of first D2D communication;
The remaining process resource is divided into for being based on the second downlink transmission number by allocation unit 140
One process resource and the second process resource;
Wherein, first process resource include for the first D2D communication data storage resource;Described second into
Cheng Ziyuan is the retransmission process resource for keeping for the second downlink transmission.
The allocation unit 140, specifically for obtaining the first D2D communication and second downlink transmission respectively
QoS requirement and/or data type;Wherein, different data types has corresponded to different permissible transmission delays;Base
In the QoS requirement and/or data type, distribution coefficient a is determined;And based under the distribution coefficient a and described second
The remaining process resource is divided into the first process resource and the second process resource by uplink data.
The structure of allocation unit 140 described in the present embodiment can be found in apparatus embodiments one, distribution described in the present embodiment
Unit 140 is distributing first process resource and when second process resource, it will with reference to the thorough heart of the 2nd D2D pain and the
The quality requirement and/or data type of two downlink transmissions can be achieved with the communication process high to QoS requirement in this way
Preferential distribution process resource, can not only guarantee not abandon communication process in this way, moreover it is possible to guarantee that communication quality is wanted to greatest extent
It asks high communication process that can reach QoS requirement as far as possible, improves the communication performance of terminal again.
Apparatus embodiments four:
As shown in figure 3, the present embodiment provides a kind of terminal, the terminal includes:
First determination unit 110 determines first moment if mistake occurs in the first D2D communication for the first moment
The first downlink transmission number to be retransmitted of terminal and base station communication in the past;
Second determination unit 120, for having accounted for process resource and the end based on the first downlink transmission number
Total process resource at end determines residue process resource;
Third determination unit 130, communicate for determining the first D2D communication with the 2nd D2D at the second moment between
Second downlink transmission number;Wherein, second moment is later than first moment, and the 2nd D2D communication is described
The re-transmission communication of first D2D communication;
The remaining process resource is divided into for being based on the second downlink transmission number by allocation unit 140
One process resource and the second process resource;
Wherein, first process resource include for the first D2D communication data storage resource;Described second into
Cheng Ziyuan is the retransmission process resource for keeping for the second downlink transmission.
The allocation unit 140, specifically for obtaining the first D2D communication and second downlink transmission respectively
QoS requirement and/or data type;Wherein, different data types has corresponded to different permissible transmission delays;Base
In the QoS requirement and/or data type, distribution coefficient a is determined;And based under the distribution coefficient a and described second
The remaining process resource is divided into the first process resource and the second process resource by uplink data.
The second downlink transmission number is m;
The allocation unit 140 is specifically used for a/ (m+1) the remaining process resource being divided into the first process money
Source;And the remaining process resource of (m+1-a)/(m+1) by described in is divided into second process resource.
The specific structure of allocation unit 140 described in the present embodiment may include calculator or go out to handle with computing function
The structures such as device.
On the basis of the terminal described in a upper apparatus embodiments of terminal described in the present embodiment, further define described
The structure of allocation unit 140, in a word using the distribution of the first process resource and the second process resource described in the present embodiment, not only
D2D communication and these two types of communication process with the mobile communication of base station can be combined, while also ensuring that communication quality is wanted
It asks higher communication process to obtain more process resource, to reach QoS requirement, improves the communicativeness of terminal again
Can, and improve the intelligence of terminal and the user satisfaction of user again simultaneously.
Apparatus embodiments five:
As shown in figure 3, the present embodiment provides a kind of terminal, the terminal includes:
First determination unit 110 determines first moment if mistake occurs in the first D2D communication for the first moment
The first downlink transmission number to be retransmitted of terminal and base station communication in the past;
Second determination unit 120, for having accounted for process resource and the end based on the first downlink transmission number
Total process resource at end determines residue process resource;
Third determination unit 130, communicate for determining the first D2D communication with the 2nd D2D at the second moment between
Second downlink transmission number;Wherein, second moment is later than first moment, and the 2nd D2D communication is described
The re-transmission communication of first D2D communication;
The remaining process resource is divided into for being based on the second downlink transmission number by allocation unit 140
One process resource and the second process resource;
Wherein, first process resource include for the first D2D communication data storage resource;Described second into
Cheng Ziyuan is the retransmission process resource for keeping for the second downlink transmission.
As shown in figure 4, the terminal further includes;
Execution unit 150, for carrying out the limited buffers rate of the 2nd D2D communication based on first process resource
Matching operation;And/or the limited buffers rate of second downlink transmission is carried out based on upper second process resource
With operation.
The specific structure of execution unit described in the present embodiment can also correspond to above-mentioned various types of processors.
Terminal described in the present embodiment also introduces execution unit in the terminal-based that above equipment embodiment provides,
The limited buffers rate adaptation operating is executed by the execution unit, can be realized in the process for being less than standard process resource
Corresponding communication process is completed in resource, so as to be avoided in communication process caused by communication process is dropped to greatest extent
Disconnected phenomenon.
In several embodiments provided herein, it should be understood that disclosed device and method can pass through it
Its mode is realized.Apparatus embodiments described above are merely indicative, for example, the division of the unit, only
A kind of logical function partition, there may be another division manner in actual implementation, such as: multiple units or components can combine, or
It is desirably integrated into another system, or some features can be ignored or not executed.In addition, shown or discussed each composition portion
Mutual coupling or direct-coupling or communication connection is divided to can be through some interfaces, the INDIRECT COUPLING of equipment or unit
Or communication connection, it can be electrical, mechanical or other forms.
Above-mentioned unit as illustrated by the separation member, which can be or may not be, to be physically separated, aobvious as unit
The component shown can be or may not be physical unit, it can and it is in one place, it may be distributed over multiple network lists
In member;Some or all of units can be selected to achieve the purpose of the solution of this embodiment according to the actual needs.
In addition, each functional unit in various embodiments of the present invention can be fully integrated into a processing module, it can also
To be each unit individually as a unit, can also be integrated in one unit with two or more units;It is above-mentioned
Integrated unit both can take the form of hardware realization, can also realize in the form of hardware adds SFU software functional unit.
Those of ordinary skill in the art will appreciate that: realize that all or part of the steps of above method embodiment can pass through
The relevant hardware of program instruction is completed, and program above-mentioned can be stored in a computer readable storage medium, the program
When being executed, step including the steps of the foregoing method embodiments is executed;And storage medium above-mentioned include: movable storage device, it is read-only
Memory (ROM, Read-Only Memory), random access memory (RAM, Random Access Memory), magnetic disk or
The various media that can store program code such as person's CD.
The above description is merely a specific embodiment, but scope of protection of the present invention is not limited thereto, any
Those familiar with the art in the technical scope disclosed by the present invention, can easily think of the change or the replacement, and should all contain
Lid is within protection scope of the present invention.Therefore, protection scope of the present invention should be based on the protection scope of the described claims.
Claims (10)
1. a kind of information processing method, which comprises
If there is mistake in the first D2D communication at the first moment, determine terminal and base station communication before first moment to weight
The the first downlink transmission number passed;
Accounted for total process resource of process resource and the terminal based on the first downlink transmission number, determine it is remaining into
Cheng Ziyuan;
Determine that the first D2D communicates the second downlink transmission number between communicating with the 2nd D2D at the second moment;Its
In, second moment is later than first moment, and the 2nd D2D communication is the re-transmission communication of the first D2D communication;
Based on the second downlink transmission number, the remaining process resource is divided into the first process resource and the second process
Resource;
Wherein, first process resource include for the first D2D communication data storage resource;The second process money
Source is the retransmission process resource for keeping for the second downlink transmission.
2. the method according to claim 1, wherein
The second downlink transmission number is m;
It is described to be based on the second downlink transmission number, the remaining process resource is divided into the first process resource and second
Process resource, comprising:
1/ (m+1) the remaining process resource is divided into first process resource;
M/ (m+1) the remaining process resource is divided into second process resource.
3. the method according to claim 1, wherein
It is described to be based on the second downlink transmission number, the remaining process resource is divided into the first process resource and second
Process resource, comprising:
The QoS requirement and/or data type of the first D2D communication and second downlink transmission are obtained respectively;
Wherein, different data types has corresponded to different permissible transmission delays;
Based on the QoS requirement and/or data type, distribution coefficient a is determined;
Based on the distribution coefficient a and second down link data, the remaining process resource is divided into the first process money
Source and the second process resource;
Wherein, a is the natural number not less than 0.
4. according to the method described in claim 3, it is characterized in that,
The second downlink transmission number is m;
It is described to be based on the distribution coefficient a and second down link data, by the remaining process resource be divided into first into
Cheng Ziyuan and the second process resource, comprising:
A/ (m+1) the remaining process resource is divided into first process resource;
(m+1-a)/(m+1) the remaining process resource is divided into second process resource;
Wherein, the m is 0 or positive integer.
5. the method according to claim 1, wherein
The method also includes:
The limited buffers rate adaptation operating of the 2nd D2D communication is carried out based on first process resource;
And/or
The limited buffers rate adaptation operating of second downlink transmission is carried out based on upper second process resource.
6. a kind of terminal, the terminal include:
First determination unit determines terminal before first moment if mistake occurs in the first D2D communication for the first moment
With the first downlink transmission number to be retransmitted of base station communication;
Second determination unit, for based on the first downlink transmission number accounted for process resource and the terminal always into
Cheng Ziyuan determines residue process resource;
Third determination unit, for determining that the first D2D communicates the second downlink between communicating with the 2nd D2D at the second moment
Link transmission number;Wherein, second moment is later than first moment, and the 2nd D2D communication is the first D2D logical
The re-transmission of letter communicates;
The remaining process resource is divided into the first process for being based on the second downlink transmission number by allocation unit
Resource and the second process resource;
Wherein, first process resource include for the first D2D communication data storage resource;The second process money
Source is the retransmission process resource for keeping for the second downlink transmission.
7. terminal according to claim 6, which is characterized in that
The second downlink transmission number is m;
The allocation unit, for 1/ (m+1) the remaining process resource to be divided into first process resource;And by m/ (m+
1) the remaining process resource is divided into second process resource;
Wherein, the m is 0 or positive integer.
8. terminal according to claim 6, which is characterized in that
The allocation unit, specifically for obtaining the first D2D communication and the communication of second downlink transmission respectively
Quality requirement and/or data type;Wherein, different data types has corresponded to different permissible transmission delays;Based on described
QoS requirement and/or data type determine distribution coefficient a;And it is based on the distribution coefficient a and second downlink
The remaining process resource is divided into the first process resource and the second process resource by data;
Wherein, a is the natural number not less than 0.
9. terminal according to claim 8, which is characterized in that
The second downlink transmission number is m;
The allocation unit is specifically used for a/ (m+1) the remaining process resource being divided into first process resource;And by (m
+ 1-a)/(m+1) described remaining process resource is divided into second process resource.
10. terminal according to claim 6, which is characterized in that
The terminal further include:
Execution unit, for carrying out the limited buffers rate-matched behaviour of the 2nd D2D communication based on first process resource
Make;And/or the limited buffers rate adaptation operating of second downlink transmission is carried out based on upper second process resource.
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CN103368713A (en) * | 2012-03-26 | 2013-10-23 | 中兴通讯股份有限公司 | Device-to-device communication method and device |
EP2741562A1 (en) * | 2012-12-06 | 2014-06-11 | Alcatel Lucent | Apparatuses, methods, and computer programs for a network node and a mobile transceiver |
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US9185697B2 (en) * | 2012-12-27 | 2015-11-10 | Google Technology Holdings LLC | Method and apparatus for device-to-device communication |
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