CN110475284A - A kind of method and apparatus carrying out resource allocation - Google Patents
A kind of method and apparatus carrying out resource allocation Download PDFInfo
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- CN110475284A CN110475284A CN201810438523.2A CN201810438523A CN110475284A CN 110475284 A CN110475284 A CN 110475284A CN 201810438523 A CN201810438523 A CN 201810438523A CN 110475284 A CN110475284 A CN 110475284A
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- logic channel
- mdbv
- flow
- resource allocation
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04W—WIRELESS COMMUNICATION NETWORKS
- H04W28/00—Network traffic management; Network resource management
- H04W28/02—Traffic management, e.g. flow control or congestion control
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04W—WIRELESS COMMUNICATION NETWORKS
- H04W28/00—Network traffic management; Network resource management
- H04W28/02—Traffic management, e.g. flow control or congestion control
- H04W28/0252—Traffic management, e.g. flow control or congestion control per individual bearer or channel
- H04W28/0263—Traffic management, e.g. flow control or congestion control per individual bearer or channel involving mapping traffic to individual bearers or channels, e.g. traffic flow template [TFT]
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04W—WIRELESS COMMUNICATION NETWORKS
- H04W72/00—Local resource management
- H04W72/04—Wireless resource allocation
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04W—WIRELESS COMMUNICATION NETWORKS
- H04W72/00—Local resource management
- H04W72/50—Allocation or scheduling criteria for wireless resources
- H04W72/52—Allocation or scheduling criteria for wireless resources based on load
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04W—WIRELESS COMMUNICATION NETWORKS
- H04W72/00—Local resource management
- H04W72/50—Allocation or scheduling criteria for wireless resources
- H04W72/53—Allocation or scheduling criteria for wireless resources based on regulatory allocation policies
Abstract
The invention discloses a kind of method and apparatus for carrying out resource allocation, to solve the problems, such as the resource allocation methods based on the transmission of MDBV data in 5G system in the prior art still without specific solution.In embodiments of the present invention, terminal and network side equipment determine the corresponding MDBV of object and the token bucket for MDBV control first, and can be that object carries out resource allocation according to determining MDBV and the token bucket for MDBV control.Due to being allocated according to the resource that the token bucket for MDBV control transmits data in the embodiment of the present invention, it ensure that the data volume that each QoS Flow is sent is limited no more than MDBV, to avoid when system loading is heavier, delay sensitive business seizes the resource of other business.
Description
Technical field
The present invention relates to wireless communication technology field, in particular to a kind of method and apparatus for carrying out resource allocation.
Background technique
For 5G NR (New Radio, newly eat dishes without rice or wine) system, core net can be the QoS of each Flow (stream) configuration
(Quality of Service, quality of service) Profile (attribute).RAN (Radio Access Network accesses net) base
QoS management is carried out in the QoS Profile that core net is each Flow configuration.A parameter in QoS profile is 5QI
(5G QoS Identifier, the 5th Generation Mobile Communication System quality of service mark).MDBV(Maximum Data Burst
Volume, maximum data burst capacity) it is the parameter that 5QI includes.And 5G NR system mainly supports three classes business: first
Kind is eMBB (enhanced Mobile Broadband, enhanced broadband connections) business, and second is mMTC (massive
Machine Type Communications, a large amount of machine type communications) business, the third is URLLC (Ultra-
Reliable and Low Latency Communications, highly reliable low time delay communication) business.
Wherein, URLLC business is relatively high to delay requirement, therefore also commonly referred to as delay sensitive GBR traffic.For this kind of
Business generally can include MDBV parameter in 5QI when core net defines QoS profile based on Flow, wherein MDBV indicates PDB
5G accesses net and needs to handle the maximum amount of data of a Flow in time range, and 5QI can be standardized, be also possible to
Nonstandardized technique.
But in the prior art for 5G system, how to carry out not having still based on the resource allocation methods that MDBV data are transmitted
There is specific solution.
Summary of the invention
The present invention provides a kind of method and apparatus for carrying out resource allocation, is based in 5G system in the prior art to solve
MDBV data transmission resource allocation methods still without specific solution the problem of.
In a first aspect, terminal determines the corresponding MDBV of logic channel and the token bucket for MDBV control;Basis later
The determining MDBV and the token bucket for MDBV control are that the logic channel carries out resource allocation.
In embodiments of the present invention, terminal determines the corresponding MDBV of logic channel and the token for MDBV control first
Then bucket is that logic channel carries out resource allocation according to determining MDBV and the token bucket for MDBV control.Due to the present invention
It is to be allocated according to the resource that the token bucket for MDBV control transmits data in embodiment, ensure that each QoS Flow
The data volume of transmission is limited no more than MDBV, to avoid when system loading is heavier, delay sensitive business seizes other business
Resource.
In some specific implementations, after the completion of the terminal determines that logic channel is established, determine that logic channel is corresponding
MDBV and the token bucket controlled for MDBV;And/or the terminal receive network side equipment transmission need based on MDBV into
After the notice of row resource allocation, the corresponding MDBV of logic channel and the token bucket for MDBV control are determined.
Wherein, in some specific implementations, in MAC, (Medium Access Control, media connect the terminal
Entering control) layer according to the mapping relations of Flow and logic channel determines the corresponding MDBV of logic channel.
In some specific implementations, if Flow and logic channel are mapped using 1:1, the terminal is corresponding by Flow
MDBV is as the corresponding MDBV of the logic channel;Or
If Flow and logic channel are mapped using M:1, the terminal, will according to the mapping relations of Flow and logic channel
The sum of corresponding MDBV of Flow of the logic channel is enough mapped to as the corresponding MDBV of the logic channel;Or
If Flow and logic channel are mapped using M:1, the terminal will be according to Flow and mapping logical channels relationship, will be real
Border is mapped to the sum of corresponding MDBV of Flow of the logic channel as the corresponding MDBV of the logic channel;Wherein, the M
For positive integer.
In embodiments of the present invention, since terminal is to determine the corresponding MDBV of logic channel according to different situations, in this way
The reasonable words that ensure that resource allocation when resource allocation avoid the resource that delay sensitive business seizes other business.
In some specific implementations, before terminal determines the corresponding MDBV of object by MAC layer, the terminal needs
MAC layer Flow and logic channel are notified by SDAP or RRC (Radio Resource Control, wireless heterogeneous networks) layer
Mapping relations;Or
The terminal notifies the mapping relations and QFI of MAC layer Flow and logic channel corresponding by SDAP or rrc layer
MDBV;Or
The terminal notifies the mapping relations and QFI of MAC layer Flow and logic channel corresponding by SDAP or rrc layer
MDBV;Or
The terminal notifies MAC layer to be actually mapped to the Flow of logic channel by SDAP layers;Or
The terminal notifies MAC layer to be actually mapped to the corresponding MDBV of Flow and QFI of logic channel by SDAP layers;Or
The terminal it is standby by the SDAP layers of corresponding MDBV of notice MAC layer logic channel after, object is determined by MAC layer
Corresponding MDBV.
In embodiments of the present invention, since terminal is the corresponding MDBV of logic channel determined in MAC layer, but MAC layer
It is not aware that corresponding mapping relations, therefore introduces the mode of a variety of notice MAC layers, it is more diversified, and guarantee eventually
End can determine the corresponding MDBV of logic channel in MAC layer.
In embodiments of the present invention, since terminal is the corresponding MDBV of logic channel determined in MAC layer, but MAC layer
The mode for being not aware that corresponding mapping relations, therefore introducing a variety of notice MAC layers guarantees that terminal can be patrolled in MAC layer determination
Collect the corresponding MDBV of channel.
In some specific implementations, the size of the token bucket for MDBV control is that logic channel is corresponding
MDBV.The terminal determine logic channel for MDBV control token bucket in the period (N-PDB, N] in actually made
The number M of token, using the size of token bucket and the difference of M as the available order in the corresponding token bucket of the logic channel
Board number;Wherein, N is scheduling instance, and PDB is the corresponding Packet Delay budget of the logic channel.
In some specific implementations, the terminal determines the corresponding PDB of logic channel in the following manner:
All Flow for being determined to be mapped to the logic channel according to logic channel and Flow mapping relations are corresponding
The 5QI or corresponding 5QI of all Flow for being actually mapped to the logic channel;It is determined according to the corresponding 5QI of the Flow maximum
PDB as the corresponding PDB of the logic channel.
In embodiments of the present invention, due to being used for according to the token bucket size for MDBV control with determining logic channel
In the token bucket of MDBV control the period (N-PDB, N] in the number of token that has actually used determine that logic channel is corresponding
Token bucket in available tokens number, and according in the determining corresponding token bucket of logic channel available tokens number carry out
Resource allocation has fully ensured that the data volume that each QoS Flow is sent is limited no more than MDBV, to avoid in system loading
When heavier, delay sensitive business seizes the resource of other business.
In some specific implementations, when being allocated resource, for the logic channel for thering is MDBV to require:
Step 1: the terminal is to having available PBR token and have the logic channels of data transfer demands logically channel is excellent
First grade descending order is ranked up, and is then successively based on PBR to each logic channel and is carried out first round resource allocation, updates simultaneously
Token number in the corresponding PBR token bucket of each logic channel, while to the logic channel for thering is MDBV to require, it completes to be based on PBR
Resource allocation after, need to update the available tokens number in the corresponding MDBV token bucket of the logic channel;
Step 2: the terminal determining there are also after surplus resources, to all logic channels for having data transfer demands according to
Priority of logical channels descending order carries out the second wheel resource allocation:
For the logic channel for having MDBV to require, the logic channel described in the second wheel resource allocation process, which allows to distribute, to be provided
The data in source measure the available tokens number that the logic channel is used in the token bucket of MDBV control and the logic channel is worked as
Smaller value in the data volume of preceding resource to be allocated carries out resource allocation to the logic channel;If the logic for currently needing to distribute
Channel is the logic channel that no MDBV is required, then the terminal is according to the data volume of the current resource to be allocated of the logic channel
Resource allocation is carried out to the logic channel.
Step 3: if the terminal determines that there are also surplus resources, by excellent to all logic channels for having data transfer demands
First grade descending order carries out resource allocation to remaining data to be transmitted, to be transmitted until resource exhaustion or all logic channels
Data are all assigned with resource.
And when being allocated resource, for the logic channel of no MDBV requirement:
Step 1: the terminal is to having available PBR token and have the logic channels of data transfer demands logically channel is excellent
First grade descending order is ranked up, and is then successively based on PBR to each logic channel and is carried out first round resource allocation, updates simultaneously
Token number in the corresponding PBR token bucket of each logic channel, while to the logic channel for thering is MDBV to require, it completes to be based on PBR
Resource allocation after, need to update the logic channel for MDBV control available tokens number;
Step 2: the terminal determining there are also after surplus resources, to all logic channels for having data transfer demands according to
Priority of logical channels descending order carries out the second wheel resource allocation:
For the logic channel for having MDBV to require, the logic channel described in the second wheel resource allocation process, which allows to distribute, to be provided
The data in source measure the available tokens number that the logic channel is used in the token bucket of MDBV control and the logic channel is worked as
Smaller value in the data volume of preceding resource to be allocated carries out resource allocation to the logic channel;If the logic for currently needing to distribute
Channel is no MDBV requirement, and includes the logic channel of GBR (Guarantee Bit Rate guarantees bit rate) business,
Then the terminal carries out resource allocation to the logic channel;
Step 3: if the terminal determines that, there are also surplus resources, the terminal has data transfer demands to patrol by all
It collects channel priority descending order and resource allocation is carried out to remaining data to be transmitted, until resource exhaustion or all logic channels
Data to be transmitted be all assigned with resource.
Wherein, the number for the token being able to use in the corresponding token bucket for MDBV control of the logic channel
It is real in the corresponding MDBV of the logic channel token bucket for MDBV control corresponding with the logic channel
The difference of the number for the token that border uses.
Wherein, the terminal determine logic channel for MDBV control token bucket in the period (N-PDB, N] in
The number M of token through actually using, using the size of token bucket and the difference of M as in the corresponding token bucket of the object can
The logic channel for having MDBV to require is controlled for MDBV with reaching after completing based on the resource allocation of PBR with token number
Token bucket in the purpose that is updated of available tokens number.
In embodiments of the present invention, and when being allocated resource, for the logic channel required for no MDBV
Resource allocation is carried out in different ways with the logic channel for having MDBV to require, and is further ensured that each QoS Flow was sent
Data volume is limited no more than MDBV, to avoid when system loading is heavier, delay sensitive business seizes the resource of other business.
Second aspect, the embodiment of the present invention provide a kind of method for carrying out resource allocation, this method comprises:
Network side equipment determines the corresponding MDBV of resource allocation object and the token bucket for MDBV control;Then the net
Network side apparatus is that the resource allocation object is provided according to the determining MDBV and the token bucket for MDBV control
Source distribution;Wherein, if carrying out ascending resource distribution, the resource allocation object is logic channel group;If carrying out downlink resource
Distribution, then the resource allocation object is logic channel.
The above method, network side equipment determine the corresponding MDBV of resource allocation object and the token bucket for MDBV control,
It then is that resource allocation object carries out resource allocation according to determining MDBV and the token bucket for MDBV control.Due to the present invention
It is to be allocated according to the resource that the token bucket for MDBV control transmits data in embodiment, ensure that each QoS Flow
The data volume of transmission is limited no more than MDBV, to avoid when system loading is heavier, delay sensitive business seizes other business
Resource.
In some specific implementations, after the completion of the network side equipment determines that logic channel is established, resource allocation is determined
The corresponding MDBV of object and the token bucket controlled for MDBV;And/or it is determined according to system loading and needs to be provided based on MDBV
After the distribution of source, the corresponding MDBV of resource allocation object and the token bucket for MDBV control are determined.
Wherein, if carry out ascending resource distribution, the network side equipment according to system loading determine need based on MDBV into
After row resource allocation, notice terminal needs to carry out resource allocation based on MDBV.
In embodiments of the present invention, since network side equipment is to determine that logic channel is corresponding according to different situations
MDBV ensure that the reasonable words of resource allocation when resource allocation in this way, avoids delay sensitive business and seizes other industry
The resource of business.
In some specific implementations, if carrying out downlink resource distribution, the network side equipment is believed according to Flow and logic
The mapping relations in road determine the corresponding MDBV of logic channel;Or
If carrying out ascending resource distribution, the network side equipment determines logic according to the mapping relations of Flow and logic channel
The corresponding MDBV of channel, and the sum of the corresponding MDBV of logic channel in same logic channel group is corresponded to as logic channel group
MDBV;Or
If carrying out ascending resource distribution, the sum of corresponding MDBV of the logic channel that the network side equipment reports terminal makees
For the corresponding MDBV of logic channel group;Or
If carrying out ascending resource distribution, the network side equipment receives the corresponding MDBV of logic channel group that terminal reports.
In some specific implementations, if Flow and logic channel are mapped using 1:1, the network side equipment is by Flow pairs
The MDBV answered is as the corresponding MDBV of the logic channel;Or
If Flow and logic channel are mapped using M:1, the network side equipment is closed according to the mapping of Flow and logic channel
System will be mapped to the sum of corresponding MDBV of Flow of the logic channel as the corresponding MDBV of the logic channel;Or
If Flow and logic channel are mapped using M:1, the network side equipment will be closed according to Flow and mapping logical channels
System, by the sum of corresponding MDBV of Flow for being actually mapped to the logic channel as the corresponding MDBV of the logic channel;Its
In, the M is positive integer.
In some specific implementations, network side equipment by MAC layer determine the corresponding MDBV of resource allocation object it
Before, the network side equipment needs to notify by SDAP or RRC (Radio ResourceControl, wireless heterogeneous networks) layer
The mapping relations of MAC layer Flow and logic channel;Or
The network side equipment notifies the mapping relations and QFI of MAC layer Flow and logic channel by SDAP or rrc layer
Corresponding MDBV;Or
The network side equipment notifies the mapping relations and QFI of MAC layer Flow and logic channel by SDAP or rrc layer
Corresponding MDBV;Or
The network side equipment notifies MAC layer to be actually mapped to the Flow of logic channel by SDAP layers;Or
The Flow and QFI that the network side equipment notifies MAC layer to be actually mapped to logic channel by SDAP layers are corresponding
MDBV;Or
The network side equipment it is standby by the SDAP layers of corresponding MDBV of notice MAC layer logic channel after, it is true by MAC layer
Determine the corresponding MDBV of resource allocation object.
In some specific implementations, when due to carrying out uplink assignment resource, MAC layer is not know logic channel and logic
The mapping relations of channel group, therefore rrc layer also needs to notify the mapping relations of MAC layer logic channel and logic channel group, in this way
Network side equipment just can determine the corresponding MDBV of logic channel group in MAC layer.
In some specific implementations, if the resource allocation object is logic channel group, the network side equipment is logical
Cross the mapping relations of rrc layer notice the MAC layer logic channel and logic channel group.
In embodiments of the present invention, since network side equipment is the corresponding MDBV of logic channel determined in MAC layer, still
MAC layer is not aware that corresponding mapping relations, therefore the modes for introducing a variety of notice MAC layers guarantee that network side equipment can be
MAC layer determines the corresponding MDBV of logic channel.
In some specific implementations, the size of the token bucket for MDBV control is that logic channel is corresponding
MDBV.The network side equipment determine logic channel for MDBV control token bucket in the period (N-PDB, N] in
The number M of the token of actual use, using the size of token bucket and the difference of M as in the corresponding token bucket of the logic channel
Available tokens number;Wherein, N is scheduling instance, and PDB is the corresponding Packet Delay budget of the logic channel.
In some specific implementations, the network side equipment determines the corresponding PDB of logic channel in the following manner:
All Flow for being determined to be mapped to the logic channel according to logic channel and Flow mapping relations are corresponding
The 5QI or corresponding 5QI of all Flow for being actually mapped to the logic channel;It is determined according to the corresponding 5QI of the Flow maximum
PDB as the corresponding PDB of the logic channel.
In embodiments of the present invention, due to being used according to the token bucket size for MDBV control with determining resource allocation object
In in the token bucket of MDBV control the period (N-PDB, N] in the number of token that has actually used determine resource allocation pair
As the available tokens number in corresponding token bucket, and according to the available order in the determining corresponding token bucket of resource allocation object
Board number carries out resource allocation, has fully ensured that the data volume that each QoS Flow is sent is limited no more than MDBV, to avoid
When system loading is heavier, delay sensitive business seizes the resource of other business.
In some specific implementations, if carrying out downlink resource distribution, the network side equipment is by the logic channel pair
The difference of the number of the token actually used in the MDBV and the token bucket for MDBV control answered is as the logic
Channel can distribute the data volume of resource;Later according to the available tokens number in the corresponding token bucket of the logic channel MDBV
It is that the logic channel carries out resource allocation with the minimum value of the practical data to be transmitted amount of current logic channel between the two.
In some specific implementations, if carrying out ascending resource distribution, the network side equipment is by the logic channel group
The token actually used in the corresponding MDBV token bucket for MDBV control corresponding with the logic channel group
Number difference as the available tokens number in the corresponding token bucket of the logic channel group;Believed later according to the logic
Available tokens number and current logic channel in the corresponding token bucket of road group actually resource to be allocated data volume between the two
Minimum value be the logic channel group carry out resource allocation.
The third aspect, the embodiment of the present invention provide a kind of terminal for carrying out resource allocation, which includes: processor, deposits
Reservoir and transceiver;
Wherein, the processor, for reading the program in memory and execution:
Determine the corresponding MDBV of logic channel and the token bucket for MDBV control;According to the determining MDBV and described
Token bucket for MDBV control is that the logic channel carries out resource allocation.
Fourth aspect, the embodiment of the present invention provide a kind of network side equipment for carrying out resource allocation, the network side equipment packet
It includes: processor, memory and transceiver;
Wherein, the processor, for reading the program in memory and execution:
Determine the corresponding MDBV of resource allocation object and the token bucket for MDBV control;According to the determining MDBV and
The token bucket for MDBV control is that the resource allocation object carries out resource allocation;Wherein, if carrying out ascending resource point
Match, then the resource allocation object is logic channel group;If carrying out downlink resource distribution, the resource allocation object is logic
Channel.
5th aspect, the embodiment of the present invention provide a kind of terminal for carrying out resource allocation, which includes:
First determining module, the token bucket for determining the corresponding MDBV of logic channel and for MDBV control;
First distribution module, for being described patrol according to the determining MDBV and the token bucket for MDBV control
It collects channel and carries out resource allocation.
6th aspect, the embodiment of the present invention provide a kind of network side equipment for carrying out resource allocation, the network side equipment packet
It includes:
Second determining module, the token bucket for determining the corresponding MDBV of resource allocation object and for MDBV control;
Second distribution module, for being the money according to the determining MDBV and the token bucket for MDBV control
Source distribution object carries out resource allocation;
Wherein, if carrying out ascending resource distribution, the resource allocation object is logic channel group;If carrying out downlink resource
Distribution, then the resource allocation object is logic channel.
In addition, second aspect technical effect brought by any implementation into the 6th aspect can be found in first party
Technical effect brought by implementation in face, details are not described herein again.
Detailed description of the invention
To describe the technical solutions in the embodiments of the present invention more clearly, make required in being described below to embodiment
Attached drawing is briefly introduced, it should be apparent that, drawings in the following description are only some embodiments of the invention, for this
For the those of ordinary skill in field, without any creative labor, it can also be obtained according to these attached drawings
His attached drawing.
Fig. 1 is a kind of system schematic for carrying out resource allocation of the embodiment of the present invention;
Fig. 2 is the complete method flow chart that downlink resource of the embodiment of the present invention carries out resource allocation;
Fig. 3 is the complete method flow chart that ascending resource of the embodiment of the present invention carries out resource allocation terminal side;
Fig. 4 is the complete method flow chart that ascending resource of the embodiment of the present invention carries out resource allocation network equipment side;
Fig. 5 is a kind of terminal structure schematic diagram for carrying out resource allocation of the embodiment of the present invention;
Fig. 6 is a kind of network side equipment structural schematic diagram for carrying out resource allocation of the embodiment of the present invention;
Fig. 7 is the terminal structure schematic diagram that another kind of the embodiment of the present invention carries out resource allocation;
Fig. 8 is the network side equipment structural schematic diagram that another kind of the embodiment of the present invention carries out resource allocation;
Fig. 9 is a kind of method flow diagram for carrying out resource allocation of the embodiment of the present invention;
Figure 10 is the method flow diagram that another kind of the embodiment of the present invention carries out resource allocation.
Specific embodiment
The embodiment of the present invention is applied in 5G NR system in the application scenarios of MDBV data transmission, for 5G NR system,
Core net can be the QoS Profile of each Flow configuration.RAN is based on the QoS Profile that core net is that each Flow is configured
Carry out QoS management.A parameter in QoS profile is 5QI, and MDBV is the parameter that 5QI includes.Of the invention real
It applies in example, terminal determines the corresponding MDBV of object and the token bucket for MDBV control first, and can be according to determining MDBV
It is that object carries out resource allocation with the token bucket controlled for MDBV.Due to being controlled according to for MDBV in the embodiment of the present invention
Token bucket resource that data are transmitted be allocated, ensure that the data volume that each QoS Flow is sent is no more than MDBV limit
System, to avoid when system loading is heavier, delay sensitive business seizes the resource of other business.
To make the objectives, technical solutions, and advantages of the present invention clearer, below in conjunction with attached drawing to the present invention make into
It is described in detail to one step, it is clear that the described embodiments are only some of the embodiments of the present invention, rather than whole implementation
Example.Based on the embodiments of the present invention, obtained by those of ordinary skill in the art without making creative efforts
All other embodiment, shall fall within the protection scope of the present invention.
As shown in Figure 1, the embodiment of the present invention provides a kind of system for carrying out resource allocation, which includes: 100 He of terminal
Network side equipment 101.
Terminal 100 is mainly used for determining the corresponding MDBV of logic channel and the token bucket for MDBV control;According to determination
The MDBV and it is described for MDBV control token bucket be the logic channel carry out resource allocation.
Network side equipment 101 is mainly used for determining the corresponding MDBV of resource allocation object and the token for MDBV control
Bucket;It is that the resource allocation object carries out resource point according to the determining MDBV and the token bucket for MDBV control
Match;Wherein, if carrying out ascending resource distribution, the resource allocation object is logic channel group;If carrying out downlink resource distribution,
Then the resource allocation object is logic channel.
In embodiments of the present invention, terminal and network side equipment determine the corresponding MDBV of object first and control for MDBV
Token bucket, and can the token bucket according to determining MDBV and for MDBV control be that object carries out resource allocation.Due to this
It is to be allocated according to the resource that the token bucket for MDBV control transmits data in inventive embodiments, ensure that each QoS
The data volume that Flow is sent is limited no more than MDBV, to avoid when system loading is heavier, delay sensitive business seizes other
The resource of business.
It is described in detail more than below, for downlink resource to the system for carrying out resource allocation.
Mode one carries out resource allocation to downlink resource
When carrying out resource allocation to downlink resource, network side equipment is determining logic channel foundation completion and/or network
Side apparatus is determined according to system loading to be needed based on after MDBV progress resource allocation, and network side equipment determines that logic channel is corresponding
MDBV and for MDBV control token bucket.
Wherein, network side equipment is when MAC layer determines the corresponding MDBV of logic channel, due to Flow and logic channel
Mapping relations can there is a situation where several different, therefore the corresponding MDBV of logic channel that network side equipment determines also can be different,
It is illustrated below for different situations:
The first situation: if Flow and logic channel are mapped using 1:1, network side equipment can be corresponding by Flow at this time
MDBV is as the corresponding MDBV of logic channel;
For example, the 1:1 ratio mapping that Flow and logic channel use, only 1 logic channel can only map 1 at this time
Flow, the MDBV of this Flow is then used as the corresponding MDBV of logic channel at this time.
Second situation: if Flow and logic channel are mapped using M:1 ratio, network side equipment will be according to Flow and logic
The mapping relations of channel obtain being mapped to the corresponding MDBV of the sum of corresponding MDBV of Flow of logic channel conduct logic channel,
In, M is positive integer.
For example, Flow and logic channel are mapped using the ratio of 6:1,6 Flow are had at this time and are mapped to the same logic
The corresponding MDBV of 6 Flow is then added by channel, network side equipment, by the sum of MDBV as the corresponding MDBV of logic channel.
The third situation: if Flow and logic channel are mapped using M:1 ratio, network side equipment by Flow and is patrolled at this time
It collects and is actually mapped to the corresponding MDBV of the sum of corresponding MDBV of Flow of logic channel conduct logic channel in channel mapping relations,
Wherein, M is positive integer.
For example, Flow and logic channel are mapped using the ratio of 6:1, M should be had at this time according to actual mapping ruler
A Flow is mapped to the same logic channel, but actually only has 3 Flow to be mapped to the same logic channel, at this time network side
The corresponding MDBV of 3 Flow is then added by equipment, by the sum of MDBV as the corresponding MDBV of logic channel.
Since network side equipment is to determine the corresponding MDBV of logic channel in MAC layer root, but MAC layer is not aware that Flow
MDBV corresponding with the mapping relations of logic channel and logic channel, it is therefore desirable to which prior notice MAC layer, network side equipment is
The corresponding MDBV of logic channel can be determined in MAC layer, MAC layer can be specifically notified by the way of following.
(1), network side equipment notifies MAC layer Flow and mapping logical channels relationship by SDAP or rrc layer;
Network side equipment notifies that Flow is indicated when MAC layer Flow and mapping logical channels relationship with QFI, and MAC layer is according to certainly
The corresponding relationship of QFI and the 5QI mark of body storage, and the corresponding relationship of 5QI and MDBV determine the corresponding MDBV of each Flow.
Finally, the corresponding MDBV of the Flow that will be mapped to logic channel is added, the corresponding MDBV of logic channel is obtained.
(2), network side equipment by SDAP or rrc layer notify MAC layer Flow and logic channel mapping relations and QFI pairs
The MDBV answered.
After the corresponding MDBV of mapping relations and QFI of Flow known to MAC layer and logic channel, network side equipment according to
It is mapped to the Flow of logic channel known to the mapping relations of Flow and logic channel, is found further according to the corresponding MDBV of QFI each
The corresponding MDBV of Flow, the corresponding MDBV of Flow that finally will be mapped to logic channel are added, and it is corresponding to obtain logic channel
MDBV。
(3), the network side equipment notifies the corresponding MDBV of MAC layer logic channel by SDAP or rrc layer.
In this case, network side equipment can directly determine out logic channel according to SDAP or rrc layer notice and correspond to
MDBV.
(4), the network side equipment notifies MAC layer to be actually mapped to the Flow of logic channel by SDAP layers.
Network side equipment notifies MAC layer to be actually mapped to the Flow of the logic channel by SDAP, and Flow is indicated with QFI,
The corresponding relationship that MAC layer is identified according to the QFI and 5QI itself stored, and the corresponding relationship of 5QI and MDBV determine each Flow
Corresponding MDBV.Finally, the corresponding MDBV of the Flow that will be mapped to logic channel is added, the corresponding MDBV of logic channel is obtained.
(5), the network side equipment by SDAP layers notify MAC layers be actually mapped to logic channel Flow and QFI pairs
The MDBV answered.
After being actually mapped to the corresponding MDBV of Flow and QFI of logic channel known to MAC layer, network side equipment according to
The corresponding MDBV of QFI finds the corresponding MDBV of Flow that each border is mapped to logic channel, will finally be actually mapped to logic letter
The corresponding MDBV of the Flow in road is added, and obtains the corresponding MDBV of logic channel.
(6), the network side equipment passes through the SDAP layers of corresponding MDBV of notice MAC layer logic channel.
Network side equipment can directly determine out the corresponding MDBV of logic channel according to SDAP layers of notice.
What needs to be explained here is that: can be using one of aforesaid way mode when notifying MAC layer, it can also be simultaneously
Use various ways.
Correspondingly, when network side equipment determines that network side equipment believes logic by after the corresponding MDBV of logic channel
Size of the corresponding MDBV in road as logic channel for the token bucket of MDBV control, and determine that logic channel is controlled for MDBV
In the token bucket of system the period (N-PDB, N] in the number M of token that has actually used, wherein when N here is scheduling
It carves, PDB is the corresponding Packet Delay budget of the logic channel.Then using the difference of MDBV and M as current time N can
With token number.
In specific implement, a kind of optional embodiment is: network side equipment by the corresponding MDBV of logic channel with
The difference of the number for the token that current logic channel has actually used in the token bucket for MDBV control is as logic channel
For the available tokens number in the token bucket of MDBV control.
Correspondingly, after obtaining the available tokens number in the token bucket as logic channel for MDBV control, net
Network side apparatus is further according to the logic channel for the available tokens number and current logic channel in the token bucket of MDBV control
The minimum value of the data volume of practical resource to be allocated between the two is that the logic channel carries out resource allocation.
Wherein, PDB method of determination is as follows:
Terminal determines that all Flow of all logic channels that can be mapped are corresponding according to the mapping relations of logic channel
5QI is actually mapped to state the corresponding 5QI of all Flow of logic channel;Finally determined most from the corresponding 5QI of the Flow
Big PDB is as the corresponding PDB of logic channel.
For example, network side equipment is determined to be mapped to logic channel group first or is actually mapped to logic channel group
Logic channel is logic channel 1,2,3,4, and network side equipment determines that the corresponding Flow of logic channel 1,2,3,4 is corresponding later
5QI, then standardization 5QI table from the corresponding 5QI of Flow determined according to 3GPP determine that maximum PDB is patrolled described in being used as
Collect the corresponding PDB of channel group.
When network side equipment determines the corresponding MDBV of logic channel and after for the token bucket of MDBV control, then basis
Determining MDBV and the token bucket for MDBV control are that logic channel carries out resource allocation.
For example, if logic channel is less than what logic channel needed for the available tokens number in the token bucket of MDBV control
Data volume, then network side equipment is preferably the data distribution resource for meeting the corresponding MDBV of logic channel and requiring, if there is also surplus
Remaining resource, the data volume that network side equipment can distribute resource further according to logic channel are that be unsatisfactory for logic channel group corresponding
The data that MDBV is required distribute resource.
As shown in Fig. 2, the embodiment of the present invention provides the complete method flow chart for carrying out resource allocation to downlink resource.
Step 200, network side equipment determine that logic channel is established completion and/or network side equipment and determined according to system loading
It needs to carry out resource allocation based on MDBV;
Step 201, network side equipment are that the corresponding MDBV of logic channel is determined by MAC layer;
Step 202, network side equipment determine logic channel for MDBV control token bucket in the period (N-PDB, N]
The number M of the token inside actually used;
Step 203, network side equipment by the corresponding MDBV of logic channel and are used in MDBV control token bucket in the period
(N-PDB, N] in the token bucket that is controlled as logic channel for MDBV of the difference of the number M of token that has actually used
Available tokens number;
Step 204, network side equipment according to logic channel for MDBV control token bucket in available tokens number and
The data volume minimum value between the two of the practical resource to be allocated of current logic channel is logical channel assignment resource.
Mode two carries out resource allocation to ascending resource
When carrying out resource allocation to ascending resource, network side equipment needs to distribute ascending resource for different terminals, works as net
Network side apparatus is determined that logic channel is established completion and/or network side equipment and determined according to system loading and needs to be provided based on MDBV
After the distribution of source, the corresponding MDBV of logic channel group and the token bucket for MDBV control are determined.
Wherein, network side equipment can determine the corresponding MDBV of logic channel group using following centralized system:
1, network side equipment determines the corresponding MDBV of logic channel according to the mapping relations of Flow and logic channel, and will be same
The sum of corresponding MDBV of logic channel in one logic channel group is as the corresponding MDBV of logic channel group.
It is corresponded to for example, network side equipment defines logic channel 1,2,3 according to the mapping relations of Flow and logic channel
MDBV, and logic channel 1,2 is in same logic channel group 1, and network side equipment is corresponding by logic channel 1,2 at this time
The sum of MDBV is used as the corresponding MDBV of the logic channel group 1.
But since the mapping relations of Flow and logic channel can there is a situation where several different, network side equipment is true
The corresponding MDBV of fixed logic channel also can be different, are illustrated below for different situations:
The first situation: if Flow and logic channel are mapped using 1:1 ratio, network side equipment can be corresponding by Flow at this time
MDBV as the corresponding MDBV of logic channel;
For example, the 1:1 ratio mapping that Flow and logic channel use, only 1 logic channel can only map 1 at this time
Flow, the MDBV of this Flow is then used as the corresponding MDBV of logic channel at this time.
Second situation: if Flow and logic channel are mapped using M:1 ratio, network side equipment is believed according to Flow and logic
It is corresponding as the logic channel will to be mapped to the sum of corresponding MDBV of Flow of logic channel for the mapping relations in road
MDBV;Wherein, M is positive integer.
For example, Flow and logic channel are mapped using the ratio of 6:1,6 Flow are had at this time and are mapped to the same logic
The corresponding MDBV of 6 Flow is then added by channel, network side equipment, by the sum of MDBV as the corresponding MDBV of logic channel.
The third situation: if Flow and logic channel are mapped using M:1 ratio, network side equipment will be according to Flow at this time
With mapping logical channels relationship, the sum of corresponding MDBV of Flow for being actually mapped to the logic channel is believed as the logic
The corresponding MDBV in road.Wherein, M is positive integer.
For example, Flow and logic channel are mapped using the ratio of 6:1,6 should be had at this time according to actual mapping ruler
A Flow is mapped to the same logic channel, but actually only has 3 Flow to be mapped to the same logic channel, at this time network side
The corresponding MDBV of 3 Flow is then added by equipment, by the sum of MDBV as the corresponding MDBV of logic channel.
2, network side equipment receives the sum of the corresponding MDBV of logic channel that terminal reports, and the logic channel reported is corresponding
The sum of MDBV as the corresponding MDBV of logic channel group.
For example, network side equipment can the sum of the corresponding MDBV of logic channel 1,2,3 that reports of receiving end, logic channel 1,2,
3 in the same logic channel group 1, and network side equipment is by the sum of the corresponding MDBV of logic channel 1,2,3 reported conduct at this time
The corresponding MDBV of logic channel group 1.
3, network side equipment receives the corresponding MDBV of logic channel group that terminal reports, the logic channel group that will be reported later
The corresponding MDBV of logic channel group is used as on corresponding MDBV.
For example, terminal can report to the sum of the corresponding MDBV of logic channel 1,2,3 in same logic channel group 1
Network side equipment, network side equipment will report and believe in the sum of corresponding MDBV of same logic channel group 1 as logic at this time
The corresponding MDBV of road group 1.
Since network side equipment is to determine the corresponding MDBV of logic channel group in MAC layer, MAC layer is not aware that Flow and patrols
Collect the mapping relations and the corresponding MDBV of logic channel of channel, it is therefore desirable to prior notice MAC layer.
Further, since MAC layer is not know that the mapping of logic channel and logic channel group is closed when carrying out uplink assignment resource
System, therefore rrc layer also needs to notify the mapping relations of MAC layer logic channel and logic channel group, such network side equipment just may be used
To determine the corresponding MDBV of logic channel group in MAC layer, MAC layer can be specifically notified by the way of following.
(1), network side equipment notifies MAC layer Flow and mapping logical channels relationship by SDAP or rrc layer;
Network side equipment notifies that Flow is indicated when MAC layer Flow and mapping logical channels relationship with QFI, and MAC layer is according to certainly
The corresponding relationship of QFI and the 5QI mark of body storage, and the corresponding relationship of 5QI and MDBV determine the corresponding MDBV of each Flow.
Finally, the corresponding MDBV of the Flow that will be mapped to logic channel is added, the corresponding MDBV of logic channel is obtained.
Then MAC layer determines further according to the mapping relations of logic channel and logic channel group and is mapped to the logic channel group
MDBV as logic channel group of the sum of the MDBV of all logic channels.
(2), network side equipment notifies the mapping relations and QFI of MAC layer Flow and logic channel by SDAP or rrc layer
Corresponding MDBV.
After the corresponding MDBV of mapping relations and QFI of Flow known to MAC layer and logic channel, network side equipment according to
It is mapped to the Flow of logic channel known to the mapping relations of Flow and logic channel, is found further according to the corresponding MDBV of QFI each
The corresponding MDBV of Flow, the corresponding MDBV of Flow that finally will be mapped to logic channel are added, and it is corresponding to obtain logic channel
MDBV。
Then MAC layer determines further according to the mapping relations of logic channel and logic channel group and is mapped to the logic channel group
MDBV as logic channel group of the sum of the MDBV of all logic channels.
(3), the network side equipment notifies the corresponding MDBV of MAC layer logic channel by SDAP or rrc layer.
In this case, network side equipment can directly determine out logic channel according to SDAP or rrc layer notice and correspond to
MDBV.
Then MAC layer determines further according to the mapping relations of logic channel and logic channel group and is mapped to the logic channel group
MDBV as logic channel group of the sum of the MDBV of all logic channels.
(4), the network side equipment notifies MAC layer to be actually mapped to the Flow of logic channel by SDAP layers.
Interactive information is needed between terminal SDAP and network side SDAP, network measurement equipment is allowed to know terminal side equipment network side
Equipment is actually mapped to the Flow information of the logic channel by SDAP layers.
Then network side SDAP notifies MAC layer to be actually mapped to the Flow of the logic channel, and Flow is indicated with QFI, MAC layer
Determine that each Flow is corresponding according to the corresponding relationship of the corresponding relationship of QFI and the 5QI mark of itself storage, and 5QI and MDBV
MDBV.Finally, the corresponding MDBV of the Flow that will be mapped to logic channel is added, the corresponding MDBV of logic channel is obtained.
(5), the network side equipment by SDAP layers notify MAC layers be actually mapped to logic channel Flow and QFI pairs
The MDBV answered.
Interactive information is needed between terminal SDAP and network side SDAP, network measurement equipment is allowed to know terminal side equipment network side
Equipment is actually mapped to the Flow information of the logic channel by SDAP layers.
Then network side SDAP notice MAC layer is actually mapped to the Flow of the logic channel, practical known to MAC layer
After being mapped to the corresponding MDBV of Flow and QFI of logic channel, network side equipment finds each border according to the corresponding MDBV of QFI and reflects
It is mapped to the corresponding MDBV of Flow of logic channel, finally the corresponding MDBV of the Flow for being actually mapped to logic channel is added, is obtained
To the corresponding MDBV of logic channel.
(6), the network side equipment passes through the SDAP layers of corresponding MDBV of notice MAC layer logic channel.
Interactive information is needed between terminal SDAP and network side SDAP, network measurement equipment is allowed to know terminal side equipment network side
Equipment is actually mapped to the Flow information of the logic channel by SDAP layers.
Then the network side SDAP layers of mapping relations according to practical Flow and logic channel determine that logic channel is corresponding
MDBV, MAC layer can directly determine out the corresponding MDBV of logic channel according to SDAP layers of notice.
What needs to be explained here is that: notify the mode of MAC layer to can be used alone one such mode above, it can also be with
Various ways are used simultaneously.
Correspondingly, after network side equipment determines MDBV that logic channel group is corresponding, network side equipment is by MDBV
Size as logic channel group for the token bucket of MDBV control, and determine the token bucket for MDBV control in the period
(N-PDB, N] in the number M of token that has actually used, wherein N is scheduling instance, and PDB is that the logic channel is corresponding
Packet Delay budget.The difference of MDBV and M, that is, current time N is used for the practical token that can be used of token bucket of MDBV control
Number.
PDB method of determination is as follows:
Terminal is determined according to the mapping relations of Flow and logic channel all can be mapped to all of logic channel group
The corresponding 5QI of the Flow or all Flow corresponding 5QI for being actually mapped to the logic channel group, it is finally corresponding according to Flow
5QI determines maximum PDB as the corresponding PDB of logic channel group.
For example, network side equipment is determined to be mapped to logic channel group first or is actually mapped to logic channel group
Logic channel is logic channel 1,2,3,4, and network side equipment determines that the corresponding Flow of logic channel 1,2,3,4 is corresponding later
5QI, then determine maximum PDB as the corresponding PDB of the logic channel group from the corresponding 5QI of Flow determined.
When network side equipment determines the corresponding MDBV of logic channel group and after for the token bucket of MDBV control, then root
It is that logic channel group carries out resource allocation according to determining MDBV and the token bucket for MDBV control.
In specific implement, a kind of optional embodiment is: network side equipment is by the corresponding MDBV of logic channel group
And the difference of the number of the token actually used in the token bucket controlled for MDBV is as the corresponding token of logic channel group
The number of available tokens in bucket.
For example, the corresponding MDBV of logic channel group is 200 bits, actually used in the token bucket for MDBV control
Token number be 100 bits, the two is made the difference into 100-100=100 at this time, then by difference (100 bit) logic channel
Available tokens number of the group in MDBV control token bucket is 100 bits.
After obtaining the available tokens number in the token bucket as logic channel group for MDBV control, if logic is believed
The available tokens number of road group is less than the practical data to be transmitted amount of logic channel group, then network side equipment is preferably to meet logic letter
The data that group corresponding MDBV in road is required distribute resource, if network side equipment is further according to logic channel group there is also surplus resources
Data distribution resource that is practical to be transmitted but being unsatisfactory for the corresponding MDBV requirement of logic channel group.
Correspondingly, after network side equipment is the resource of different terminals distribution, by the resource notification of distribution to terminal, eventually
The resource that end needs to distribute based on network side carries out resource allocation to logic channel, therefore when terminal determines that logic channel has been established
At and/or receive network side equipment transmission need based on MDBV carry out resource allocation notice after, terminal determination is used for
The token bucket and the corresponding MDBV of logic channel of MDBV control.
Wherein, terminal is when MAC layer determines the corresponding MDBV of logic channel, due to the mapping relations of Flow and logic channel
Can there is a situation where several different, therefore the corresponding MDBV of logic channel that terminal determines also can be different, below for different
Situation is illustrated:
The first situation: if Flow and logic channel are mapped using 1:1 ratio, terminal can be by the corresponding MDBV of Flow at this time
As the corresponding MDBV of logic channel;
For example, Flow and logic channel are mapped using the ratio of 1:1, terminal can be believed the MDBV of Flow as logic at this time
The corresponding MDBV in road.
Second situation: if Flow and logic channel are mapped using M:1 ratio, terminal is reflected according to Flow and logic channel
Relationship is penetrated, the sum of corresponding MDBV of Flow of logic channel will be mapped to as the corresponding MDBV of the logic channel;Its
In, M is positive integer.
For example, Flow and logic channel are mapped using the ratio of 6:1,6 Flow are had at this time and are mapped to the same logic
The corresponding MDBV of 6 Flow is then added by channel, terminal, by the sum of MDBV as the corresponding MDBV of logic channel.
The third situation: if Flow and logic channel are mapped using M:1 ratio, terminal is according to Flow and logic channel at this time
Mapping relations, the sum of corresponding MDBV of Flow for being actually mapped to the logic channel is corresponding as the logic channel
MDBV, wherein M is positive integer.
For example, Flow and logic channel are mapped using the ratio of 6:1,6 should be had at this time according to actual mapping ruler
A Flow is mapped to the same logic channel, but actually only has 3 Flow to be mapped to the same logic channel, at this time in then
The corresponding MDBV of 3 Flow is added, by the sum of MDBV as the corresponding MDBV of logic channel.
Since terminal is to determine the corresponding MDBV of logic channel in MAC layer, but MAC layer is not aware that logic channel is corresponding
MDBV and Flow and logic channel mapping relations, it is therefore desirable to introduce interlayer interaction mechanism notice MAC layer patrol, terminal
The corresponding MDBV of logic channel can be determined in MAC layer, MAC layer can be specifically notified by the way of following.
(1), terminal notifies media access control MAC by business datum adaptation layer SDAP or radio resource control RRC layer
The mapping relations of layer Flow and logic channel.
Terminal SDAP or RRC notify that Flow is indicated when MAC layer Flow and mapping logical channels relationship with QFI, MAC layer root
Determine that each Flow is corresponding according to the corresponding relationship of QFI and the 5QI mark of itself storage, and the corresponding relationship of 5QI and MDBV
MDBV.Finally, the corresponding MDBV of the Flow that will be mapped to logic channel is added, the corresponding MDBV of logic channel is obtained.
(2), terminal notifies the mapping relations and QFI of MAC layer Flow and logic channel corresponding by SDAP or rrc layer
MDBV。
After the corresponding MDBV of mapping relations and QFI of Flow known to MAC layer and logic channel, terminal is according to Flow and patrols
The Flow of logic channel is mapped to known to the mapping relations for collecting channel, it is corresponding to find each Flow further according to the corresponding MDBV of QFI
MDBV, the corresponding MDBV of Flow that finally will be mapped to logic channel is added, and obtains the corresponding MDBV of logic channel.
(3), terminal notifies the corresponding MDBV of MAC layer logic channel by SDAP or rrc layer.
MAC directly can be obtained by the corresponding MDBV of logic channel according to the notice.The MDBV is that can be mapped to this to patrol
Collect the sum of the corresponding MDBV of Flow of channel.
(4), terminal notifies MAC layer to be actually mapped to the Flow of logic channel by SDAP layers.
It is corresponding according to QFI after being actually mapped to the corresponding MDBV of Flow and QFI of logic channel known to MAC layer
MDBV finds the corresponding MDBV of Flow that each border is mapped to logic channel, will finally be actually mapped to Flow pairs of logic channel
The MDBV answered is added, and obtains the corresponding MDBV of logic channel.
(5), the Flow and QFI that the terminal notifies MAC layer to be actually mapped to logic channel by SDAP layers are corresponding
MDBV。
It is corresponding according to QFI after being actually mapped to the corresponding MDBV of Flow and QFI of logic channel known to MAC layer
MDBV finds the corresponding MDBV of Flow that each border is mapped to logic channel, will finally be actually mapped to Flow pairs of logic channel
The MDBV answered is added, and obtains the corresponding MDBV of logic channel.
(6), terminal is standby passes through the SDAP layers of corresponding MDBV of notice MAC layer logic channel.
MAC layer directly can be obtained by the corresponding MDBV of logic channel according to the notice.The MDBV is to be actually mapped to this
The sum of corresponding MDBV of the Flow of logic channel.
What needs to be explained here is that: the mode of both above notice MAC layer can be used alone one such mode,
Two ways can be used simultaneously.
Correspondingly, when terminal determines that terminal is corresponding by logic channel group by after the corresponding MDBV of logic channel
MDBV as logic channel group for MDBV control token bucket size, and determine for MDBV control token bucket when
Between section (N-PDB, N] in the number of token that has actually used, wherein N is scheduling instance, and PDB is logic channel correspondence
Packet Delay budget.Then using the difference of MDBV and M as the available tokens number of current time N.
When terminal determines the corresponding MDBV of logic channel group and after for the token bucket of MDBV control, terminal is according to true
Fixed MDBV and the token bucket for MDBV control are that logic channel group carries out resource allocation, a kind of optional embodiment are as follows:
Step 1: terminal is first to having available PBR token and have the logic channels of data transfer demands logically channel is excellent
First grade descending order is ranked up, and then terminal is successively based on PBR to each logic channel and carries out first round resource allocation, simultaneously
Token number in the corresponding PBR token bucket of each logic channel is updated, and the logic channel for having MDBV to require is completed based on PBR
Resource allocation after, update the available tokens number in the corresponding MDBV token bucket of logic channel.
Wherein, here the available tokens number in the corresponding token bucket of logic channel is that MDBV and current time are corresponding
The difference of the number for the token that the logic channel has actually used in token bucket;
For example, the corresponding MDBV of logic channel is 200 bits, actually used in the token bucket for MDBV control
The number of token is 100 bits, and the two is made the difference 200-100=100 at this time, then can in the corresponding token bucket of logic channel group
The number of the token used is 100 bits.
Step 2: after terminal, which determines, the remaining resource that can be distributed, to all logic channels for having data transfer demands
Logically channel priority descending order carries out the second wheel resource allocation, specifically:
For the logic channel for having MDBV to require, logic channel allows to distribute resource in the second wheel resource allocation process
Data measure the token number being able to use in token bucket of the logic channel for MDBV control and logic channel is currently to be allocated
Smaller value in the data volume of resource carries out resource allocation to the logic channel;
If currently needing the logic channel distributed is the logic channel that no MDBV is required, terminal is worked as according to logic channel
The data volume of preceding resource to be allocated carries out resource allocation to the logic channel.
For example, terminal determines the logic channel for having MDBV to require, and at this time in the corresponding current token bucket of logic channel
Available tokens number be 40 bits, the data volume for the resource that can be distributed in the current token bucket of logic channel is 60 bits,
Terminal takes smaller value between the two (40 bit) to carry out resource allocation to logic channel at this time.
If the logic channel that terminal currently needs to distribute is the logic channel that no MDBV is required, there are two kinds of sides for terminal
Formula distributes resource.
A kind of mode are as follows: terminal carries out resource point to logic channel according to the data volume of the current resource to be allocated of logic channel
Match:
For example, logic channel currently resource to be allocated data volume be 600 bits, terminal is just according to this 600 bit at this time
Carry out resource allocation.
Another way are as follows: if the logic channel that preceding needs distribute is no MDBV requirement, and include the logic of GBR traffic
Channel, then terminal according to logic channel currently resource to be allocated data volume to logic channel carry out resource allocation.
For example, logic channel currently resource to be allocated data volume be 600 bits, and currently need to distribute logic letter
Road is the logic channel comprising GBR traffic, and terminal just only carries out resource allocation to logic channel according to this 600 bit at this time.
Step 3: after the wheel distribution of carry out second, if the terminal determine that there are also surplus resources, having data biography by all
The priority of logical channels descending order of defeated demand carries out resource allocation to remaining data to be transmitted, until resource exhaustion or institute
There is the data to be transmitted of logic channel to be all assigned with resource.
After being assigned, terminal determines whether that there are also surplus resources, if there are also remaining resources, then according to surplus
The sequence of remaining resource logically channel priority is to each logic channel into resource allocation.
Wherein, PDB method of determination is as follows:
Terminal is determined to all Flow pairs that are mapped to logic channel group according to the mapping relations of Flow and logic channel
The 5QI that the answers or corresponding 5QI of all Flow for being actually mapped to the logic channel group, it is finally true according to the corresponding 5QI of Flow
Fixed maximum PDB is as the corresponding PDB of logic channel group.
For example, the logic channel that network side equipment is determined to the logic channel of mapping first or actually maps is logic
Channel 1,2,3,4, field determines logic channel 1, the corresponding 5QI of 2,3,4 corresponding Flow later, then from the Flow determined
Corresponding 5QI determines maximum PDB as the corresponding PDB of the logic channel.
As shown in figure 3, the embodiment of the present invention provides the complete method process for carrying out resource allocation terminal side to ascending resource
Figure.
Step 300, terminal it needs to be determined that logic channel establish complete and/or receive network side equipment transmission need base
The notice of resource allocation is carried out in MDBV;
Step 301, terminal determine the corresponding MDBV of logic channel by MAC layer;
Step 302, terminal network side apparatus determine that token bucket of the logic channel for MDBV control is interior in period (N-
PDB, N] in the number of token that has actually used;
Step 303, terminal are to having available PBR token and have the logic channels of data transfer demands logically channel prior
Grade descending order is ranked up;
Step 304, terminal are successively based on PBR to each logic channel and carry out first round resource allocation, while updating each
Token number in the corresponding PBR token bucket of logic channel group, and it is corresponding for MDBV control to update each logic channel group
Available tokens number in token bucket;
After step 305, terminal complete the resource allocation based on PBR to the logic channel for having MDBV to require, more new logic letter
Road is for the available tokens number in the token bucket of MDBV control;
Step 306, terminal determine after having the remaining resource that can be distributed, and whether judge the logic channel for currently needing to distribute
With the logic channel that MDBV is required, if executing step 307;It is no to then follow the steps 308;
Step 307, terminal take logic channel for the available tokens number and logic channel in the token bucket of MDBV control
Smaller value in the data volume of current resource to be allocated carries out resource allocation to the logic channel;
Step 308, terminal according to logic channel currently resource to be allocated data volume to the logic channel carry out resource
The logic channel that distribution or preceding needs distribute is no MDBV requirement, and includes the logic channel of GBR traffic, is believed according to logic
Road currently resource to be allocated data volume to logic channel carry out resource allocation;
Step 309, terminal are determined there are also surplus resources, are dropped by all priority of logical channels for having data transfer demands
Sequence sequence carries out resource allocation to remaining data to be transmitted.
As shown in figure 4, the embodiment of the present invention provides the complete method for carrying out resource allocation network side apparatus to ascending resource
Flow chart.
Step 400, network side equipment determine that logic channel is established completion and/or network side equipment and determined according to system loading
It needs to carry out resource allocation based on MDBV, and notifies terminal is determined according to system loading to need to carry out resource allocation based on MDBV;
Step 401, network side equipment determine the corresponding MDBV of logic channel group by MAC layer;
Step 402, network side equipment determine logic channel for MDBV control token bucket in the period (N-PDB, N]
The number of the token inside actually used;
Step 403, network side equipment by the corresponding MDBV of logic channel group and are used in MDBV control token bucket in the time
Section (N-PDB, N] in the token bucket that is controlled as logic channel group for MDBV of the difference of the number M of token that has actually used
In available tokens number;
Step 404, network side equipment are preferably the data distribution resource for meeting the corresponding MDBV of logic channel group and requiring;
Step 405, there are surplus resources for network side equipment judgement, if executing step 406, otherwise ending resource is distributed;
Step 406, network side equipment are actually to be transmitted further according to logic channel group corresponding but be unsatisfactory for logic channel group
MDBV require data distribute resource;
Step 407, the distribution of network side equipment ending resource.
As shown in figure 5, the embodiment of the present invention provides a kind of terminal for carrying out resource allocation, which includes: processor
500, memory 501 and transceiver 502;
Wherein, the processor 500, for reading program and execution in memory 501:
Determine the corresponding MDBV of logic channel and the token bucket for MDBV control;According to the determining MDBV and institute
Stating for the token bucket of MDBV control is that the logic channel carries out resource allocation.
Optionally, the processor 500 is also used to:
Before determining the corresponding MDBV of logic channel and the token bucket controlled for MDBV, determine that logic channel is established
It completes;And/or receive the notice for needing to carry out resource allocation based on MDBV of network side equipment transmission.
Optionally, the processor 500 is specifically used for:
The corresponding MDBV of logic channel is determined according to the mapping relations of Flow and logic channel.
Optionally, the processor is specifically used for:
If Flow and logic channel are mapped using 1:1, and the corresponding MDBV of Flow is corresponding as the logic channel
MDBV;Or
If Flow and logic channel are mapped using M:1, according to the mapping relations of Flow and logic channel, will be mapped to
The sum of corresponding MDBV of the Flow of the logic channel is as the corresponding MDBV of the logic channel;Or
If Flow and logic channel are mapped using M:1, will will be actually mapped to according to Flow and mapping logical channels relationship
The sum of corresponding MDBV of the Flow of the logic channel is as the corresponding MDBV of the logic channel;Wherein, the M is positive whole
Number.
Optionally, the processor 500 is specifically used for:
The corresponding MDBV of logic channel is determined in MAC layer.
Optionally, the processor 500 is also used to:
Before determining the corresponding MDBV of logic channel by MAC layer, by SDAP or rrc layer notify MAC layer Flow and
The mapping relations of logic channel;Or
The corresponding MDBV of mapping relations and QFI of MAC layer Flow and logic channel are notified by SDAP or rrc layer;Or
The corresponding MDBV of MAC layer logic channel is notified by SDAP or rrc layer;Or
MAC layer is notified to be actually mapped to the Flow of logic channel by SDAP layers;Or
MAC layer is notified to be actually mapped to the corresponding MDBV of Flow and QFI of logic channel by SDAP layers;Or
Pass through the SDAP layers of corresponding MDBV of notice MAC layer logic channel.
Optionally, the size of the token bucket for MDBV control is the corresponding MDBV of logic channel.
Optionally, the processor 500 is also used to:
First determine logic channel for MDBV control token bucket in the period (N-PDB, N] in actually used
Token number M, using the size of token bucket and the difference of M as the available tokens in the corresponding token bucket of the logic channel
Number, wherein N is scheduling instance, and PDB is the corresponding Packet Delay budget of the logic channel.
Optionally, the processor is specifically used for: the corresponding PDB of logic channel is determined in the following manner:
All Flow for being determined to be mapped to the logic channel according to the mapping relations of Flow and logic channel are corresponding
5QI or be actually mapped to the corresponding 5QI of all Flow of the logic channel;It is determined most according to the corresponding 5QI of the Flow
Big PDB is as the corresponding PDB of the logic channel.
Optionally, the processor 500 is specifically used for:
Step 1: the terminal is to having available PBR token and have the logic channels of data transfer demands logically channel is excellent
First grade descending order is ranked up, and is then successively based on PBR to each logic channel and is carried out first round resource allocation, updates simultaneously
Token number in the corresponding PBR token bucket of each logic channel, while to the logic channel for thering is MDBV to require, it completes to be based on PBR
Resource allocation after, need to update the logic channel for MDBV control token bucket in available tokens number;
Step 2: the terminal determining there are also after surplus resources, to all logic channels for having data transfer demands according to
Priority of logical channels descending order carries out the second wheel resource allocation:
For the logic channel for having MDBV to require, the logic channel described in the second wheel resource allocation process, which allows to distribute, to be provided
The data in source measure the available tokens number that the logic channel is used in the token bucket of MDBV control and the logic channel is worked as
Smaller value in preceding data volume to be transmitted carries out resource allocation to the logic channel;If the logic channel for currently needing to distribute
It is the logic channel that no MDBV is required, then the terminal according to the logic channel, currently patrol described by data volume to be transmitted
It collects channel and carries out resource allocation.
Optionally, the processor 500 is also used to:
To all logic channels for having data transfer demands logically channel priority descending order carry out second wheel
After resource allocation, if the terminal determines that there are also surplus resources, by excellent to all logic channels for having data transfer demands
First grade descending order carries out resource allocation to remaining data to be transmitted, to be transmitted until resource exhaustion or all logic channels
Data are all assigned with resource.
Optionally, the processor 500 is also used to:
Step 1: the terminal is to having available PBR token and have the logic channels of data transfer demands logically channel is excellent
First grade descending order is ranked up, and is then successively based on PBR to each logic channel and is carried out first round resource allocation, updates simultaneously
Token number in the corresponding PBR token bucket of each logic channel, while to the logic channel for thering is MDBV to require, it completes to be based on PBR
Resource allocation after, need to update the logic channel for MDBV control available tokens number;
Step 2: the terminal determining there are also after surplus resources, to all logic channels for having data transfer demands according to
Priority of logical channels descending order carries out the second wheel resource allocation:
For the logic channel for having MDBV to require, the logic channel described in the second wheel resource allocation process, which allows to distribute, to be provided
The data in source measure the available tokens number that the logic channel is used in the token bucket of MDBV control and the logic channel is worked as
Smaller value in the data volume of preceding resource to be allocated carries out resource allocation to the logic channel;If the logic for currently needing to distribute
Channel is no MDBV requirement, and includes the logic channel of GBR traffic, then the terminal carries out resource point to the logic channel
Match;
Optionally, the processor 500 is also used to:
To all logic channels for having data transfer demands logically channel priority descending order carry out second wheel
After resource allocation, if the terminal determines that there are also surplus resources, by excellent to all logic channels for having data transfer demands
First grade descending order carries out resource allocation to remaining data to be transmitted, to be transmitted until resource exhaustion or all logic channels
Data are all assigned with resource.
Optionally, for the token being able to use in the corresponding token bucket for MDBV control of the logic channel
Number is to be used in the token bucket of MDBV control described in the corresponding MDBV of the logic channel is corresponding with the logic channel
The difference of the number of the token of actual use.
Optionally, the processor 500 is specifically used for:
Determine logic channel in the token bucket of MDBV control the period (N-PDB, N] in the order that has actually used
The number M of board, using the size of token bucket and the difference of M as the available tokens number in the corresponding token bucket of the object;
Wherein, N is scheduling instance, and PDB is the corresponding Packet Delay budget of the logic channel.
Processor 500, which is responsible for management bus architecture and common processing, memory 501, can store processor 500 and is holding
Used data when row operation.Transceiver 502 for sending and receiving data under control of the processor 500.
Bus architecture may include the bus and bridge of any number of interconnection, specifically represented by processor 500 one or
The various circuits for the memory that multiple processors and memory 501 represent link together.Bus architecture can also will be such as outer
Various other circuits of peripheral equipment, voltage-stablizer and management circuit or the like link together, these are all that this field institute is public
Know, therefore, it will not be further described herein.Bus interface provides interface.Processor 500 is responsible for the total coil holder of management
Structure and common processing, memory 501 can store the used data when executing operation of processor 500.
The process that the embodiment of the present invention discloses, can be applied in processor 500, or realized by processor 500.In reality
During now, each step of signal processing flow can pass through the integrated logic circuit or software of the hardware in processor 500
The instruction of form is completed.Processor 500 can be general processor, digital signal processor, specific integrated circuit, scene can compile
Journey gate array or other programmable logic device, discrete gate or transistor logic, discrete hardware components, may be implemented
Or disclosed each method, step and logic diagram in the execution embodiment of the present invention.General processor can be microprocessor
Or any conventional processor etc..The step of method in conjunction with disclosed in the embodiment of the present invention, can be embodied directly at hardware
Reason device executes completion, or in processor hardware and software module combine and execute completion.Software module can be located at random
Memory, flash memory, read-only memory, the abilities such as programmable read only memory or electrically erasable programmable memory, register
In the storage medium of domain maturation.The storage medium is located at memory 51, and processor 500 reads the information in memory 501, in conjunction with
Its hardware completes the step of signal processing flow.
As shown in fig. 6, the embodiment of the present invention provides a kind of network side equipment for carrying out resource allocation, the network side equipment packet
It includes: processor 600, memory 601 and transceiver 602;
Wherein, the processor 600, for reading program and execution in memory 601:
Determine the corresponding MDBV of resource allocation object and the token bucket for MDBV control;According to the determining MDBV and
The token bucket for MDBV control is that the resource allocation object carries out resource allocation;Wherein, if carrying out ascending resource point
Match, then the resource allocation object is logic channel group;If carrying out downlink resource distribution, the resource allocation object is logic
Channel.
Optionally, the processor 600 is also used to:
Before determining the corresponding MDBV of resource allocation object and the token bucket controlled for MDBV, determine that logic channel is built
It is vertical to complete;And/or it is determined according to system loading and needs to carry out resource allocation based on MDBV.
Optionally, the processor 600 is also used to:
If carrying out ascending resource distribution, determined according to system loading after needing to carry out resource allocation based on MDBV, notice
Terminal needs to carry out resource allocation based on MDBV.
Optionally, the processor 600 is specifically used for:
If carrying out downlink resource distribution, determine that logic channel is corresponding according to the mapping relations of Flow and logic channel
MDBV;Or
If carrying out ascending resource distribution, determine that logic channel is corresponding according to the mapping relations of Flow and logic channel
MDBV, and it regard the sum of the corresponding MDBV of logic channel in same logic channel group as the corresponding MDBV of logic channel group;Or
If carrying out ascending resource distribution, the sum of corresponding MDBV of the logic channel that terminal is reported is used as logic channel group pair
The MDBV answered;Or
If carrying out ascending resource distribution, the corresponding MDBV of logic channel group that terminal reports is received.
Optionally, the processor 600 is specifically used for:
If Flow and logic channel are mapped using 1:1, and the corresponding MDBV of Flow is corresponding as the logic channel
MDBV;Or
If Flow and logic channel are mapped using M:1, according to the mapping relations of Flow and logic channel, will be mapped to
The sum of corresponding MDBV of the Flow of the logic channel is as the corresponding MDBV of the logic channel;Or
If Flow and logic channel are mapped using M:1, will will be actually mapped to according to Flow and mapping logical channels relationship
The sum of corresponding MDBV of the Flow of the logic channel is as the corresponding MDBV of the logic channel;Wherein, the M is positive whole
Number.
Optionally, the processor 600 is specifically used for:
The corresponding MDBV of resource allocation object is determined in MAC layer.
Optionally, the processor 600 is also used to:
Before MAC layer determines the corresponding MDBV of resource allocation object, by SDAP or rrc layer notify MAC layer Flow and
The mapping relations of logic channel;Or
The corresponding MDBV of mapping relations and QFI of MAC layer Flow and logic channel are notified by SDAP or rrc layer;Or
The corresponding MDBV of MAC layer logic channel is notified by SDAP or rrc layer;Or
MAC layer is notified to be actually mapped to the Flow of logic channel by SDAP layers;Or
MAC layer is notified to be actually mapped to the corresponding MDBV of Flow and QFI of logic channel by SDAP layers;Or
Pass through the SDAP layers of corresponding MDBV of notice MAC layer logic channel.
Optionally, the processor 600 is also used to:
If the resource allocation object is logic channel group, MAC layer logic channel and logic are notified by the rrc layer
The mapping relations of channel group.
Optionally, the processor 600 is also used to:
Size and period if carrying out downlink resource distribution, according to logic channel for the token bucket of MDBV control
(N-PDB, N] in the token bucket that has used of the logic channel number M of token determine the corresponding order of the logic channel
Available tokens number in board bucket;Or
Size and period if carrying out ascending resource distribution, according to logic channel group for the token bucket of MDBV control
(N-PDB, N] in the token bucket that has used of the logic channel group number M of token determine that the logic channel group is corresponding
Token bucket in available tokens number;Wherein N is scheduling instance, and PDB is that the corresponding Packet Delay of the logic channel is pre-
It calculates.
Optionally, the processor 600 is specifically used for: the corresponding PDB of logic channel group is determined in the following manner:
All Flow for being determined to be mapped to the logic channel according to Flow and mapping logical channels relationship are corresponding
The 5QI or corresponding 5QI of all Flow for being actually mapped to the logic channel;It is determined according to the corresponding 5QI of the Flow maximum
PDB as the corresponding PDB of the logic channel.
Optionally, the processor 600 is specifically used for:
If carrying out downlink resource distribution, by the corresponding MDBV of the logic channel and the token bucket for being used for MDBV control
In the difference of the number of token that has actually used the data volume of resource can be distributed as the logic channel;It is patrolled according to described
Channel is collected for both the number of available tokens in the token bucket of MDBV control and the practical data to be transmitted amount of current logic channel
Between minimum value be the logic channel carry out resource allocation.
Optionally, the processor 600 is specifically used for:
If ascending resource distribution is carried out, by the corresponding MDBV of logic channel group institute corresponding with the logic channel group
The difference for stating the number of the token actually used in the token bucket for MDBV control is corresponding as the logic channel group
Token bucket in available tokens number;According to the number of available tokens in the corresponding token bucket of the logic channel group and currently
The minimum value of the practical data to be transmitted amount of logic channel group between the two is that the logic channel group carries out resource allocation.
Processor 600, which is responsible for management bus architecture and common processing, memory 601, can store processor 600 and is holding
Used data when row operation.Transceiver 602 is for sending and receiving data under the control of processor 600.
Bus architecture may include the bus and bridge of any number of interconnection, specifically represented by processor 600 one or
The various circuits for the memory that multiple processors and memory 601 represent link together.Bus architecture can also will be such as outer
Various other circuits of peripheral equipment, voltage-stablizer and management circuit or the like link together, these are all that this field institute is public
Know, therefore, it will not be further described herein.Bus interface provides interface.Processor 600 is responsible for the total coil holder of management
Structure and common processing, memory 601 can store the used data when executing operation of processor 600.
The process that the embodiment of the present invention discloses, can be applied in processor 600, or realized by processor 600.In reality
During now, each step of signal processing flow can pass through the integrated logic circuit or software of the hardware in processor 600
The instruction of form is completed.Processor 600 can be general processor, digital signal processor, specific integrated circuit, scene can compile
Journey gate array or other programmable logic device, discrete gate or transistor logic, discrete hardware components, may be implemented
Or disclosed each method, step and logic diagram in the execution embodiment of the present invention.General processor can be microprocessor
Or any conventional processor etc..The step of method in conjunction with disclosed in the embodiment of the present invention, can be embodied directly at hardware
Reason device executes completion, or in processor hardware and software module combine and execute completion.Software module can be located at random
Memory, flash memory, read-only memory, the abilities such as programmable read only memory or electrically erasable programmable memory, register
In the storage medium of domain maturation.The storage medium is located at memory 601, and processor 600 reads the information in memory 601, knot
Close the step of its hardware completes signal processing flow.
As shown in fig. 7, the embodiment of the present invention provides a kind of terminal for carrying out resource allocation, which includes:
First determining module 700, the token bucket for determining the corresponding MDBV of logic channel and for MDBV control;
First distribution module 701, for being institute according to the determining MDBV and the token bucket for MDBV control
It states logic channel and carries out resource allocation.
Optionally, first determining module 700 is also used to:
Before determining the corresponding MDBV of logic channel and the token bucket controlled for MDBV, determine that logic channel is established
It completes;And/or receive the notice for needing to carry out resource allocation based on MDBV of network side equipment transmission.
Optionally, first determining module 700 is also used to:
The corresponding MDBV of logic channel is determined according to the mapping relations of Flow and logic channel.
Optionally, first determining module 700 is specifically used for:
If Flow and logic channel are mapped using 1:1, and the corresponding MDBV of Flow is corresponding as the logic channel
MDBV;Or
If Flow and logic channel are mapped using M:1, according to the mapping relations of Flow and logic channel, will be mapped to
The sum of corresponding MDBV of the Flow of the logic channel is as the corresponding MDBV of the logic channel;Or
If Flow and logic channel are mapped using M:1, will will be actually mapped to according to Flow and mapping logical channels relationship
The sum of corresponding MDBV of the Flow of the logic channel is as the corresponding MDBV of the logic channel;Wherein, the M is positive whole
Number.
Optionally, first determining module 700 is specifically used for:
The corresponding MDBV of logic channel is determined in MAC layer.
Optionally, first determining module 700 is also used to:
Before determining the corresponding MDBV of logic channel by MAC layer, by SDAP or rrc layer notify MAC layer Flow and
The mapping relations of logic channel;Or
The corresponding MDBV of mapping relations and QFI of MAC layer Flow and logic channel are notified by SDAP or rrc layer;Or
The corresponding MDBV of MAC layer logic channel is notified by SDAP or rrc layer;Or
MAC layer is notified to be actually mapped to the Flow of logic channel by SDAP layers;Or
MAC layer is notified to be actually mapped to the corresponding MDBV of Flow and QFI of logic channel by SDAP layers;Or
Pass through the SDAP layers of corresponding MDBV of notice MAC layer logic channel.
Optionally, the size of the token bucket for MDBV control is the corresponding MDBV of logic channel.
Optionally, first determining module 700 is specifically used for:
Determine logic channel in the token bucket of MDBV control the period (N-PDB, N] in the order that has actually used
The number M of board, using the size of token bucket and the difference of M as the available tokens in the corresponding token bucket of the logic channel
Number;Wherein, N is scheduling instance, and PDB is the corresponding Packet Delay budget of the logic channel.
Optionally, first determining module 700 is specifically used for: the corresponding PDB of logic channel is determined in the following manner:
All Flow for being determined to be mapped to the logic channel according to the mapping relations of Flow and logic channel are corresponding
5QI or be actually mapped to the corresponding 5QI of all Flow of the logic channel;It is determined most according to the corresponding 5QI of the Flow
Big PDB is as the corresponding PDB of the logic channel.
Optionally, first distribution module 701 is specifically used for:
Step 1: the terminal is to having available PBR token and have the logic channels of data transfer demands logically channel is excellent
First grade descending order is ranked up, and is then successively based on PBR to each logic channel and is carried out first round resource allocation, updates simultaneously
Token number in the corresponding PBR token bucket of each logic channel, while to the logic channel for thering is MDBV to require, it completes to be based on PBR
Resource allocation after, need to update the logic channel for MDBV control token bucket in available tokens number;
Step 2: the terminal determining there are also after surplus resources, to all logic channels for having data transfer demands according to
Priority of logical channels descending order carries out the second wheel resource allocation:
For the logic channel for having MDBV to require, the logic channel described in the second wheel resource allocation process, which allows to distribute, to be provided
The data in source measure the available tokens number that the logic channel is used in the token bucket of MDBV control and the logic channel is worked as
Smaller value in preceding data volume to be transmitted carries out resource allocation to the logic channel;If the logic channel for currently needing to distribute
It is the logic channel that no MDBV is required, then the terminal according to the logic channel, currently patrol described by data volume to be transmitted
It collects channel and carries out resource allocation.
Optionally, first distribution module 701 is also used to:
To all logic channels for having data transfer demands logically channel priority descending order carry out second wheel
After resource allocation, if the terminal determines that there are also surplus resources, by excellent to all logic channels for having data transfer demands
First grade descending order carries out resource allocation to remaining data to be transmitted, to be transmitted until resource exhaustion or all logic channels
Data are all assigned with resource.
Optionally, first distribution module 701 is also used to:
Step 1: the terminal is to having available PBR token and have the logic channels of data transfer demands logically channel is excellent
First grade descending order is ranked up, and is then successively based on PBR to each logic channel and is carried out first round resource allocation, updates simultaneously
Token number in the corresponding PBR token bucket of each logic channel, while to the logic channel for thering is MDBV to require, it completes to be based on PBR
Resource allocation after, need to update the logic channel for MDBV control token bucket in available tokens number;
Step 2: the terminal determining there are also after surplus resources, to all logic channels for having data transfer demands according to
Priority of logical channels descending order carries out the second wheel resource allocation:
For the logic channel for having MDBV to require, the logic channel described in the second wheel resource allocation process, which allows to distribute, to be provided
The data in source measure the available tokens number that the logic channel is used in the token bucket of MDBV control and the logic channel is worked as
Smaller value in the data volume of preceding resource to be allocated carries out resource allocation to the logic channel;If the logic for currently needing to distribute
Channel is no MDBV requirement, and includes the logic channel of GBR traffic, then the terminal carries out resource point to the logic channel
Match;
Optionally, first distribution module 701 is also used to:
To all logic channels for having data transfer demands, logically channel priority descending order carries out the second wheel money
After the distribution of source, if the terminal determines that there are also surplus resources, by all bgical channel priorities for having data transfer demands
Grade descending order carries out resource allocation to remaining data to be transmitted, until resource exhaustion or the number to be transmitted of all logic channels
According to being all assigned with resource.
Optionally, for the token being able to use in the corresponding token bucket for MDBV control of the logic channel
Number is to be used in the token bucket of MDBV control described in the corresponding MDBV of the logic channel is corresponding with the logic channel
The difference of the number of the token of actual use.
Optionally, first determining module 700 is also used to:
Determine logic channel in the token bucket of MDBV control the period (N-PDB, N] in the order that has actually used
The number M of board, using the size of token bucket and the difference of M as the available tokens number in the corresponding token bucket of the object;Its
In, N is scheduling instance, and PDB is the corresponding Packet Delay budget of the logic channel.
As shown in figure 8, the embodiment of the present invention provides a kind of network side equipment for carrying out resource allocation, the network side equipment packet
It includes:
Second determining module 800, the token bucket for determining the corresponding MDBV of resource allocation object and for MDBV control;
Second distribution module 801, for being institute according to the determining MDBV and the token bucket for MDBV control
It states resource allocation object and carries out resource allocation;
Wherein, if carrying out ascending resource distribution, the resource allocation object is logic channel group;If carrying out downlink resource
Distribution, then the resource allocation object is logic channel.
Optionally, second determining module 800 is also used to:
Before determining the corresponding MDBV of resource allocation object and the token bucket controlled for MDBV, determine that logic channel is built
It is vertical to complete;And/or it is determined according to system loading and needs to carry out resource allocation based on MDBV.
Optionally, second determining module 800 is also used to:
If carrying out ascending resource distribution, determined according to system loading after needing to carry out resource allocation based on MDBV, notice
Terminal needs to carry out resource allocation based on MDBV.
Optionally, second determining module 800 is specifically used for:
If carrying out downlink resource distribution, determine that logic channel is corresponding according to the mapping relations of Flow and logic channel
MDBV;Or
If carrying out ascending resource distribution, determine that logic channel is corresponding according to the mapping relations of Flow and logic channel
MDBV, and it regard the sum of the corresponding MDBV of logic channel in same logic channel group as the corresponding MDBV of logic channel group;Or
If carrying out ascending resource distribution, the sum of corresponding MDBV of the logic channel that terminal is reported is used as logic channel group pair
The MDBV answered;Or
If carrying out ascending resource distribution, the corresponding MDBV of logic channel group that terminal reports is received.
Optionally, second determining module 800 is also used to:
If Flow and logic channel are mapped using 1:1, and the corresponding MDBV of Flow is corresponding as the logic channel
MDBV;Or
If Flow and logic channel are mapped using M:1, according to the mapping relations of Flow and logic channel, will be mapped to
The sum of corresponding MDBV of the Flow of the logic channel is as the corresponding MDBV of the logic channel;Or
If Flow and logic channel are mapped using M:1, will will be actually mapped to according to Flow and mapping logical channels relationship
The sum of corresponding MDBV of the Flow of the logic channel is as the corresponding MDBV of the logic channel;Wherein, the M is positive whole
Number.
Optionally, second determining module 800 is specifically used for:
The corresponding MDBV of resource allocation object is determined in MAC layer.
Optionally, second determining module 800 is also used to:
Before MAC layer determines the corresponding MDBV of resource allocation object, by SDAP or rrc layer notify MAC layer Flow and
The mapping relations of logic channel;Or
The corresponding MDBV of mapping relations and QFI of MAC layer Flow and logic channel are notified by SDAP or rrc layer;Or
The corresponding MDBV of MAC layer logic channel is notified by SDAP or rrc layer;Or
MAC layer is notified to be actually mapped to the Flow of logic channel by SDAP layers;Or
MAC layer is notified to be actually mapped to the corresponding MDBV of Flow and QFI of logic channel by SDAP layers;Or
Pass through the SDAP layers of corresponding MDBV of notice MAC layer logic channel.
Optionally, second determining module 800 is also used to:
If the resource allocation object is logic channel group, MAC layer logic channel and logic are notified by the rrc layer
The mapping relations of channel group.
Optionally, second determining module 800 is also used to:
Size and period if carrying out downlink resource distribution, according to logic channel for the token bucket of MDBV control
(N-PDB, N] in the token bucket that has used of the logic channel number M of token determine the corresponding order of the logic channel
Available tokens number in board bucket;Or
Size and period if carrying out ascending resource distribution, according to logic channel group for the token bucket of MDBV control
(N-PDB, N] in the token bucket that has used of the logic channel group number M of token determine that the logic channel group is corresponding
Token bucket in available tokens number;Wherein N is scheduling instance, and PDB is that the corresponding Packet Delay of the logic channel is pre-
It calculates.
Optionally, second determining module 800 is specifically used for:
The corresponding PDB of logic channel is determined in the following manner:
All Flow for being determined to be mapped to the logic channel according to the mapping relations of Flow and logic channel are corresponding
5QI or be actually mapped to the corresponding 5QI of all Flow of the logic channel;It is determined most according to the corresponding 5QI of the Flow
Big PDB is as the corresponding PDB of the logic channel.
Optionally, second determining module 800 is specifically used for:
If carrying out downlink resource distribution, by the corresponding MDBV of the logic channel and the token bucket for being used for MDBV control
In the difference of the number of token that has actually used the data volume of resource can be distributed as the logic channel;It is patrolled according to described
The data of volume channel for the practical resource to be allocated of number and current logic channel of available tokens in the token bucket of MDBV control
The minimum value of amount between the two is that the logic channel carries out resource allocation.
Optionally, second determining module 800 is specifically used for:
If ascending resource distribution is carried out, by the corresponding MDBV of logic channel group institute corresponding with the logic channel group
The difference for stating the number of the token actually used in the token bucket for MDBV control is corresponding as the logic channel group
Token bucket in available tokens number;According to the number of available tokens in the corresponding token bucket of the logic channel group and currently
The data volume minimum value between the two of the practical resource to be allocated of logic channel is that the logic channel group carries out resource allocation.
Shown in Fig. 9, the embodiment of the present invention provides a kind of method for carrying out resource allocation, this method comprises:
Step 900, terminal determine the corresponding MDBV of logic channel and the token bucket for MDBV control;
Step 901, the terminal are described patrol according to the determining MDBV and the token bucket for MDBV control
It collects channel and carries out resource allocation.
Optionally, before the terminal determines the corresponding MDBV of logic channel and the token bucket controlled for MDBV, really
Determine logic channel and establishes completion;And/or receive the notice for needing to carry out resource allocation based on MDBV of network side equipment transmission.
Optionally, the terminal determines the corresponding MDBV of logic channel according to the mapping relations of Flow and logic channel.
Optionally, if Flow and logic channel are mapped using 1:1, the terminal patrols the corresponding MDBV of Flow as described in
Collect the corresponding MDBV of channel;Or
If Flow and logic channel are mapped using M:1, the terminal, will according to the mapping relations of Flow and logic channel
The sum of corresponding MDBV of Flow of the logic channel is enough mapped to as the corresponding MDBV of the logic channel;Or
If Flow and logic channel are mapped using M:1, the terminal will be according to Flow and mapping logical channels relationship, will be real
Border is mapped to the sum of corresponding MDBV of Flow of the logic channel as the corresponding MDBV of the logic channel;Wherein, the M
For positive integer.
Optionally, the terminal determines the corresponding MDBV of logic channel in MAC layer.
Optionally, the terminal notifies the mapping relations of MAC layer Flow and logic channel by SDAP or rrc layer;Or
The terminal notifies the mapping relations and QFI of MAC layer Flow and logic channel corresponding by SDAP or rrc layer
MDBV;Or
The terminal notifies the corresponding MDBV of MAC layer logic channel by SDAP or rrc layer;Or
The terminal notifies MAC layer to be actually mapped to the Flow of logic channel by SDAP layers;Or
The terminal notifies MAC layer to be actually mapped to the corresponding MDBV of Flow and QFI of logic channel by SDAP layers;Or
The terminal it is standby by the SDAP layers of corresponding MDBV of notice MAC layer logic channel after, object pair is determined by MAC layer
The MDBV answered.
Optionally, the size of the token bucket for MDBV control is the corresponding MDBV of logic channel.
Optionally, the terminal determine logic channel for MDBV control token bucket in the period (N-PDB, N] in
The number M of the token actually used, using the size of token bucket and the difference of M as the corresponding token bucket of the logic channel
In available tokens number;
Wherein, N is scheduling instance, and PDB is the corresponding Packet Delay budget of the logic channel.
Optionally, the terminal determines the corresponding PDB of logic channel in the following manner:
According to the mapping relations of logic channel be determined to be mapped to the corresponding 5QI of all Flow of the logic channel or
It is actually mapped to the corresponding 5QI of all Flow of the logic channel;
Determine maximum PDB as the corresponding PDB of the logic channel according to the corresponding 5QI of the Flow.
Optionally, the terminal is the logic according to the determining MDBV and the token bucket for MDBV control
Channel carries out resource allocation:
Step 1: the terminal is to having available PBR token and have the logic channels of data transfer demands logically channel is excellent
First grade descending order is ranked up, and is then successively based on PBR to each logic channel and is carried out first round resource allocation, updates simultaneously
Token number in the corresponding PBR token bucket of each logic channel, while to the logic channel for thering is MDBV to require, it completes to be based on PBR
Resource allocation after, need to update the available tokens number in the corresponding MDBV token bucket of the logic channel;
Step 2: the terminal determining there are also after surplus resources, to all logic channels for having data transfer demands according to
Priority of logical channels descending order carries out the second wheel resource allocation:
For the logic channel for having MDBV to require, the logic channel described in the second wheel resource allocation process, which allows to distribute, to be provided
The data in source measure the available tokens number that the logic channel is used in the token bucket of MDBV control and the logic channel is worked as
Smaller value in the data volume of preceding resource to be allocated carries out resource allocation to the logic channel;If the logic for currently needing to distribute
Channel is the logic channel that no MDBV is required, then the terminal is according to the data volume of the current resource to be allocated of the logic channel
Resource allocation is carried out to the logic channel.
Optionally, the terminal is to all logic channels for having data transfer demands logically channel priority descending
Sequence carries out after the second wheel resource allocation, further includes:
If the terminal is determined there are also surplus resources, dropped by all priority of logical channels for there are data transfer demands
Sequence sequence to remaining data to be transmitted carry out resource allocation, until the data to be transmitted of resource exhaustion or all logic channels all
It is assigned with resource.
Optionally, the terminal is the logic according to the determining MDBV and the token bucket for MDBV control
Channel carries out resource allocation:
Step 1: the terminal is to having available PBR token and have the logic channels of data transfer demands logically channel is excellent
First grade descending order is ranked up, and is then successively based on PBR to each logic channel and is carried out first round resource allocation, updates simultaneously
Token number in the corresponding PBR token bucket of each logic channel, while to the logic channel for thering is MDBV to require, it completes to be based on PBR
Resource allocation after, need to update the available tokens number in the corresponding MDBV token bucket of the logic channel;
Step 2: the terminal determining there are also after surplus resources, to all logic channels for having data transfer demands according to
Priority of logical channels descending order carries out the second wheel resource allocation:
For the logic channel for having MDBV to require, the logic channel described in the second wheel resource allocation process, which allows to distribute, to be provided
The data in source measure the available tokens number that the logic channel is used in the token bucket of MDBV control and the logic channel is worked as
Smaller value in the data volume of preceding resource to be allocated carries out resource allocation to the logic channel;If the logic for currently needing to distribute
Channel is no MDBV requirement, and includes the logic channel of GBR traffic, then the terminal carries out resource point to the logic channel
Match;
Optionally, the terminal is to all logic channels for having data transfer demands logically channel priority descending
Sequence carries out after the second wheel resource allocation, further includes:
If the terminal is determined there are also surplus resources, dropped by all priority of logical channels for there are data transfer demands
Sequence sequence to remaining data to be transmitted carry out resource allocation, until the data to be transmitted of resource exhaustion or all logic channels all
It is assigned with resource.
Optionally, for the token being able to use in the corresponding token bucket for MDBV control of the logic channel
Number is to be used in the token bucket of MDBV control described in the corresponding MDBV of the logic channel is corresponding with the logic channel
The difference of the number of the token of actual use.
Optionally, the terminal updates the logic channel for the available tokens number in the token bucket of MDBV control, packet
It includes:
The terminal determine logic channel in the token bucket of MDBV control the period (N-PDB, N] in it is practical
The number M of the token used, using the size of token bucket and the difference of M as the available tokens in the corresponding token bucket of the object
Number;Wherein, N is scheduling instance, and PDB is the corresponding Packet Delay budget of the logic channel.
As shown in Figure 10, the embodiment of the present invention provides a kind of method for carrying out resource allocation, this method comprises:
Step 1000, network side equipment determine the corresponding MDBV of resource allocation object and the token bucket for MDBV control;
Step 1001, the network side equipment are according to the determining MDBV and the token bucket for MDBV control
The resource allocation object carries out resource allocation;
Wherein, if carrying out ascending resource distribution, the resource allocation object is logic channel group;If carrying out downlink resource
Distribution, then the resource allocation object is logic channel.
Optionally, before determining token bucket and object corresponding MDBV of the logic channel for MDBV control, the net
Network side apparatus determines that logic channel is established and completes;And/or it is determined according to system loading and needs to carry out resource allocation based on MDBV.
Optionally, if carrying out ascending resource distribution, the network side equipment is determined according to system loading to be needed based on MDBV
After carrying out resource allocation, notice terminal needs to carry out resource allocation based on MDBV.
Optionally, if carrying out downlink resource distribution, the network side equipment is according to the mapping relations of Flow and logic channel
Determine the corresponding MDBV of logic channel;Or
If carrying out ascending resource distribution, the network side equipment determines logic according to the mapping relations of Flow and logic channel
The corresponding MDBV of channel, and the sum of the corresponding MDBV of logic channel in same logic channel group is corresponded to as logic channel group
MDBV;Or
If carrying out ascending resource distribution, the sum of corresponding MDBV of the logic channel that the network side equipment reports terminal makees
For the corresponding MDBV of logic channel group;Or
If carrying out ascending resource distribution, the network side equipment receives the corresponding MDBV of logic channel group that terminal reports.
Optionally, if Flow and logic channel are mapped using 1:1, the network side equipment using the corresponding MDBV of Flow as
The corresponding MDBV of the logic channel;Or
If Flow and logic channel are mapped using M:1, the network side equipment is closed according to the mapping of Flow and logic channel
System will be mapped to the sum of corresponding MDBV of Flow of the logic channel as the corresponding MDBV of the logic channel;Or
If Flow and logic channel are mapped using M:1, the network side equipment will be closed according to Flow and mapping logical channels
System, by the sum of corresponding MDBV of Flow for being actually mapped to the logic channel as the corresponding MDBV of the logic channel;Its
In, the M is positive integer.
Optionally, the network side equipment determines the corresponding MDBV of resource allocation object in MAC layer.
Optionally, before MAC layer determines the corresponding MDBV of resource allocation object, the network side equipment by SDAP or
The mapping relations of rrc layer notice MAC layer Flow and logic channel;Or
The network side equipment notifies the mapping relations and QFI of MAC layer Flow and logic channel by SDAP or rrc layer
Corresponding MDBV;Or
The network side equipment notifies the corresponding MDBV of MAC layer logic channel by SDAP or rrc layer;Or
The network side equipment notifies MAC layer to be actually mapped to the Flow of logic channel by SDAP layers;Or
The Flow and QFI that the network side equipment notifies MAC layer to be actually mapped to logic channel by SDAP layers are corresponding
MDBV;Or
The network side equipment passes through the SDAP layers of corresponding MDBV of notice MAC layer logic channel.
Optionally, if the resource allocation object is logic channel group, the method also includes:
The network side equipment notifies the mapping relations of MAC layer logic channel and logic channel group by the rrc layer.
Optionally, if carrying out downlink resource distribution, the network side equipment is used for the order that MDBV is controlled according to logic channel
The size of board bucket and period (N-PDB, N] in the token bucket that has used of the logic channel number M of token determine
Available tokens number in the corresponding token bucket of the logic channel;Or
If carrying out ascending resource distribution, size of the network side equipment logic channel group for the token bucket of MDBV control
And the period (N-PDB, N] in the token bucket that has used of the logic channel group number M of token determine the logic
Available tokens number in the corresponding token bucket of channel group;
Wherein N is scheduling instance, and PDB is the corresponding Packet Delay budget of the logic channel.
Optionally, the network side equipment determines the corresponding PDB of logic channel in the following manner:
The network side equipment is determined to be mapped to the logic channel according to the mapping relations of Flow and logic channel
The corresponding 5QI of all Flow or be actually mapped to the corresponding 5QI of all Flow of the logic channel;
The network side equipment determines that maximum PDB is corresponding as the logic channel according to the corresponding 5QI of the Flow
PDB.
Optionally, if carrying out downlink resource distribution, the network side equipment is by the corresponding MDBV of the logic channel and institute
The difference for stating the number of the token actually used in the token bucket for MDBV control can be distributed as the logic channel
The data volume of resource;
The network side equipment according to the logic channel for MDBV control token bucket in available tokens number and
The data volume minimum value between the two of the practical resource to be allocated of current logic channel is that the logic channel carries out resource allocation.
Optionally, if carry out ascending resource distribution, the network side equipment by the corresponding MDBV of the logic channel group with
The difference of the number of the token actually used in the corresponding token bucket for MDBV control of the logic channel group
As the available tokens number in the corresponding token bucket of the logic channel group;
The network side equipment is patrolled according to the available tokens number in the corresponding token bucket of the logic channel group and currently
The data volume minimum value between the two of the practical resource to be allocated of volume channel is that the logic channel group carries out resource allocation.
Above by reference to showing according to the method, apparatus (system) of the embodiment of the present application and/or the frame of computer program product
Figure and/or flow chart describe the application.It should be understood that can realize that block diagram and or flow chart is shown by computer program instructions
The combination of the block of a block and block diagram and or flow chart diagram for figure.These computer program instructions can be supplied to logical
With computer, the processor of special purpose computer and/or other programmable data processing units, to generate machine, so that via meter
The instruction that calculation machine processor and/or other programmable data processing units execute creates for realizing block diagram and or flow chart block
In specified function action method.
Correspondingly, the application can also be implemented with hardware and/or software (including firmware, resident software, microcode etc.).More
Further, the application can take computer usable or the shape of the computer program product on computer readable storage medium
Formula has the computer realized in the medium usable or computer readable program code, to be made by instruction execution system
It is used with or in conjunction with instruction execution system.In the present context, computer can be used or computer-readable medium can be with
It is arbitrary medium, may include, stores, communicates, transmits or transmit program, is made by instruction execution system, device or equipment
With, or instruction execution system, device or equipment is combined to use.
Obviously, various changes and modifications can be made to the invention without departing from essence of the invention by those skilled in the art
Mind and range.In this way, if these modifications and changes of the present invention belongs to the range of the claims in the present invention and its equivalent technologies
Within, then the present invention is also intended to include these modifications and variations.
Claims (56)
1. a kind of method for carrying out resource allocation, which is characterized in that this method comprises:
Terminal determines the corresponding maximum data burst capacity MDBV of logic channel and the token bucket for MDBV control;
The terminal is that the logic channel is provided according to the determining MDBV and the token bucket for MDBV control
Source distribution.
2. the method as described in claim 1, which is characterized in that the terminal determines the corresponding MDBV of logic channel and is used for
Before the token bucket of MDBV control, further includes:
The terminal determines that logic channel is established and completes;And/or
The terminal receives the notice for needing to carry out resource allocation based on MDBV of network side equipment transmission.
3. the method as described in claim 1, which is characterized in that the terminal determines the corresponding MDBV of logic channel, comprising:
The terminal determines the corresponding MDBV of logic channel according to the mapping relations of stream Flow and logic channel.
4. method as claimed in claim 3, which is characterized in that the terminal is true according to the mapping relations of Flow and logic channel
Determine the corresponding MDBV of logic channel, comprising:
If Flow and logic channel are mapped using 1:1, the terminal is corresponding using the corresponding MDBV of Flow as the logic channel
MDBV;Or
If Flow and logic channel are mapped using M:1, the terminal will be reflected according to the mapping relations of Flow and logic channel
The sum of corresponding MDBV of Flow of the logic channel is mapped to as the corresponding MDBV of the logic channel;Or
If Flow and logic channel are mapped using M:1, the terminal will will actually be reflected according to Flow and mapping logical channels relationship
The sum of corresponding MDBV of Flow of the logic channel is mapped to as the corresponding MDBV of the logic channel;Wherein, the M is positive
Integer.
5. method as claimed in claim 4, which is characterized in that the terminal determines the corresponding MDBV of logic channel, comprising:
The terminal determines the corresponding MDBV of logic channel in media access control MAC layer.
6. method as claimed in claim 5, which is characterized in that the terminal determines that logic channel is corresponding by MAC layer
Before MDBV, further includes:
The terminal notifies MAC layer Flow and logic channel by protocol data adaptation layer SDAP or radio resource control RRC layer
Mapping relations;Or
The terminal notifies the mapping relations and QFI of MAC layer Flow and logic channel corresponding by SDAP or rrc layer
MDBV;Or
The terminal notifies the corresponding MDBV of MAC layer logic channel by SDAP or rrc layer;Or
The terminal notifies MAC layer to be actually mapped to the Flow of logic channel by SDAP layers;Or
The terminal notifies MAC layer to be actually mapped to the corresponding MDBV of Flow and QFI of logic channel by SDAP layers;Or
The terminal is standby to pass through the SDAP layers of corresponding MDBV of notice MAC layer logic channel.
7. the method as described in claim 1, which is characterized in that the size of the token bucket for MDBV control is logic letter
The corresponding MDBV in road.
8. the method as described in claim 1, which is characterized in that the terminal determines token of the logic channel for MDBV control
Available tokens number in bucket, comprising:
The terminal determine logic channel for MDBV control token bucket in the period (N-PDB, N] in actually used
Token number M, using the size of token bucket and the difference of M as the available tokens in the corresponding token bucket of the logic channel
Number;
Wherein, N is scheduling instance, and PDB is the corresponding Packet Delay budget of the logic channel.
9. method according to claim 8, which is characterized in that the logic channel is corresponding in the following manner for the terminal
PDB:
The terminal is determined to be mapped to all Flow of the logic channel according to the mapping relations of Flow and logic channel
The corresponding 5QI or corresponding 5QI of all Flow for being actually mapped to the logic channel;
The terminal determines maximum PDB as the corresponding PDB of the logic channel according to the corresponding 5QI of the Flow.
10. the method as described in claim 1, which is characterized in that the terminal is according to the determining MDBV and described is used for
The token bucket of MDBV control is that the logic channel carries out resource allocation, comprising:
Step 1: the terminal is to having PBR token and have the logic channels of data transfer demands logically channel priority descending
Sequence is ranked up, and is then successively based on PBR to each logic channel and is carried out first round resource allocation, while updating each logic
Token number in the corresponding PBR token bucket of channel, while to the logic channel for thering is MDBV to require, complete the resource based on PBR point
After matching, need to update the available tokens number in the corresponding token bucket for MDBV control of the logic channel;
Step 2: the terminal is after determining also surplus resources, logically to all logic channels for having data transfer demands
Channel priority descending order carries out the second wheel resource allocation:
For the logic channel for having MDBV to require, the logic channel described in the second wheel resource allocation process allows to distribute resource
Data measure the logic channel for MDBV control token bucket in available tokens number and the logic channel currently to
Smaller value in the data volume of resource is distributed, resource allocation is carried out to the logic channel;If the logic channel for currently needing to distribute
It is the logic channel that no MDBV is required, then the terminal is according to the data volume of the current resource to be allocated of the logic channel to institute
It states logic channel and carries out resource allocation.
11. method as claimed in claim 10, which is characterized in that the terminal believes all logics for having data transfer demands
Road is logically after the second wheel of channel priority descending order progress resource allocation, further includes:
If the terminal determines that there are also surplus resources, by suitable to all priority of logical channels descendings for having data transfer demands
Ordered pair residue data to be transmitted carries out resource allocation, until the data to be transmitted of resource exhaustion or all logic channels is all distributed
Resource.
12. the method as described in claim 1, which is characterized in that the terminal is according to the determining MDBV and described is used for
The token bucket of MDBV control is that the logic channel carries out resource allocation, further includes:
Step 1: the terminal is to having available PBR token and have the logic channels of data transfer demands logically channel priority
Descending order is ranked up, and is then successively based on PBR to each logic channel and is carried out first round resource allocation, while updating each
Token number in the corresponding PBR token bucket of logic channel, while to the logic channel for thering is MDBV to require, complete the money based on PBR
After the distribution of source, need to update the logic channel for the available tokens number in the token bucket of MDBV control;
Step 2: the terminal is after determining also surplus resources, logically to all logic channels for having data transfer demands
Channel priority descending order carries out the second wheel resource allocation:
For the logic channel for having MDBV to require, the logic channel described in the second wheel resource allocation process allows to distribute resource
Data measure the logic channel for MDBV control token bucket in available tokens number and the logic channel currently to
Smaller value in the data volume of resource is distributed, resource allocation is carried out to the logic channel;If the logic channel for currently needing to distribute
It is no MDBV requirement, and includes the logic channel of GBR traffic, then the terminal carries out resource allocation to the logic channel.
13. method as claimed in claim 12, which is characterized in that the terminal believes all logics for having data transfer demands
Road is logically after the second wheel of channel priority descending order progress resource allocation, further includes:
If the terminal determines that there are also surplus resources, the terminal is by all bgical channel priorities for having data transfer demands
Grade descending order carries out resource allocation to remaining data to be transmitted, until resource exhaustion or the number to be transmitted of all logic channels
According to being all assigned with resource.
14. the method as described in claim 10 or 12, which is characterized in that the logic channel is corresponding described for MDBV control
The number for the token being able to use in the token bucket of system is that the corresponding MDBV of the logic channel is corresponding with the logic channel
The difference of the number of the token actually used in the token bucket for MDBV control.
15. the method as described in claim 10 or 12, which is characterized in that the terminal updates the logic channel and controls for MDBV
Available tokens number in the token bucket of system, comprising:
The terminal determine logic channel for MDBV control token bucket in the period (N-PDB, N] in actually used
Token number M, using the size of token bucket and the difference of M as the available tokens in the corresponding token bucket of the object
Number;
Wherein, N is scheduling instance, and PDB is the corresponding Packet Delay budget of the logic channel.
16. a kind of method for carrying out resource allocation, which is characterized in that this method comprises:
Network side equipment determines the corresponding MDBV of resource allocation object and the token bucket for MDBV control;
The network side equipment is the resource allocation according to the determining MDBV and the token bucket for MDBV control
Object carries out resource allocation;
Wherein, if carrying out ascending resource distribution, the resource allocation object is logic channel group;If carrying out downlink resource point
Match, then the resource allocation object is logic channel.
17. the method described in claim 16, which is characterized in that the network side equipment determines that resource allocation object is corresponding
MDBV and for MDBV control token bucket before, further includes:
The network side equipment determines that logic channel is established and completes;And/or
The network side equipment is determined according to system loading to need to carry out resource allocation based on MDBV.
18. method as claimed in claim 17, which is characterized in that this method further include:
If carrying out ascending resource distribution, the network side equipment is determined according to system loading to need to carry out resource allocation based on MDBV
Later, notice terminal needs to carry out resource allocation based on MDBV.
19. the method described in claim 16, which is characterized in that the network side equipment determines that resource allocation object is corresponding
MDBV, comprising:
If carrying out downlink resource distribution, the network side equipment determines logic channel according to the mapping relations of Flow and logic channel
Corresponding MDBV;Or
If carrying out ascending resource distribution, the network side equipment determines logic channel according to the mapping relations of Flow and logic channel
Corresponding MDBV, and it is used as logic channel group corresponding the sum of the corresponding MDBV of logic channel in same logic channel group
MDBV;Or
If carrying out ascending resource distribution, the sum of corresponding MDBV of logic channel that terminal reports is used as and patrols by the network side equipment
Collect the corresponding MDBV of channel group;Or
If carrying out ascending resource distribution, the network side equipment receives the corresponding MDBV of logic channel group that terminal reports.
20. method as claimed in claim 19, which is characterized in that the network side equipment is reflected according to Flow and logic channel
The relationship of penetrating determines the corresponding MDBV of logic channel, comprising:
If Flow and logic channel are mapped using 1:1, the network side equipment is believed using the corresponding MDBV of Flow as the logic
The corresponding MDBV in road;Or
If Flow and logic channel are mapped using M:1, the network side equipment, will according to the mapping relations of Flow and logic channel
The sum of corresponding MDBV of Flow of the logic channel can be mapped to as the corresponding MDBV of the logic channel;Or
If Flow and logic channel are mapped using M:1, the network side equipment will be according to Flow and mapping logical channels relationship, will
The sum of corresponding MDBV of Flow of the logic channel is actually mapped to as the corresponding MDBV of the logic channel;Wherein, institute
Stating M is positive integer.
21. method as claimed in claim 20, which is characterized in that the network side equipment determines that resource allocation object is corresponding
MDBV, comprising:
The network side equipment determines the corresponding MDBV of resource allocation object in MAC layer.
22. method as claimed in claim 21, which is characterized in that the network side equipment determines resource allocation pair in MAC layer
Before corresponding MDBV, further includes:
The network side equipment notifies the mapping relations of MAC layer Flow and logic channel by SDAP or rrc layer;Or
The network side equipment notifies that the mapping relations and QFI of MAC layer Flow and logic channel are corresponding by SDAP or rrc layer
MDBV;Or
The network side equipment notifies the corresponding MDBV of MAC layer logic channel by SDAP or rrc layer;Or
The network side equipment notifies MAC layer to be actually mapped to the Flow of logic channel by SDAP layers;Or
The network side equipment notifies MAC layer to be actually mapped to the corresponding MDBV of Flow and QFI of logic channel by SDAP layers;
Or
The network side equipment passes through the SDAP layers of corresponding MDBV of notice MAC layer logic channel.
23. method as claimed in claim 22, which is characterized in that if the resource allocation object is logic channel group, institute
State method further include:
The network side equipment notifies the mapping relations of MAC layer logic channel and logic channel group by the rrc layer.
24. the method described in claim 16, which is characterized in that the network side equipment resource allocation object is controlled for MDBV
Available tokens number in the token bucket of system, comprising:
If carry out downlink resource distribution, the network side equipment according to logic channel for MDBV control token bucket size with
And the period (N-PDB, N] in the token bucket that has used of the logic channel number M of token determine the logic channel
Available tokens number in corresponding token bucket;Or
If carry out ascending resource distribution, the network side equipment logic channel group for MDBV control token bucket size and
Period (N-PDB, N] in the token bucket that has used of the logic channel group number M of token determine the logic channel
Available tokens number in the corresponding token bucket of group;
Wherein N is scheduling instance, and PDB is the corresponding Packet Delay budget of the logic channel.
25. method as claimed in claim 24, which is characterized in that the network side equipment determines logic letter in the following manner
The corresponding PDB of road group:
The network side equipment is determined to be mapped to the institute of the logic channel according to the mapping relations of Flow and logic channel
There is the corresponding 5QI of Flow or is actually mapped to the corresponding 5QI of all Flow of the logic channel;
The network side equipment determines that maximum PDB is corresponding as the logic channel according to the corresponding 5QI of the Flow
PDB。
26. the method as described in claim 16~25 is any, which is characterized in that the network side equipment is according to determining
MDBV and the token bucket for MDBV control are that the resource allocation object carries out resource allocation, comprising:
If carrying out downlink resource distribution, the network side equipment controls the corresponding MDBV of the logic channel and the MDBV that is used for
The difference of the number of the token actually used in the token bucket of system is as in the corresponding token bucket of the logic channel MDBV
Available tokens number;
The network side equipment is according to the available tokens number and current logic in the corresponding token bucket of the logic channel MDBV
The data volume minimum value between the two of the practical resource to be allocated of channel is that the logic channel carries out resource allocation.
27. the method as described in claim 16~25 is any, which is characterized in that the network side equipment is according to determining
It is that the resource allocation object carries out resource allocation for the token bucket of MDBV control and the MDBV, comprising:
If carrying out ascending resource distribution, the network side equipment is by the corresponding MDBV of the logic channel group and the logic channel
The difference of the number of the token actually used in the corresponding token bucket for MDBV control of group is as the logic
Available tokens number in the corresponding token bucket of channel;
The network side equipment is according to the available tokens number and current logic letter in the corresponding token bucket of the logic channel group
The minimum value of the practical data to be transmitted amount of road group between the two is that the logic channel group carries out resource allocation.
28. a kind of terminal for carrying out resource allocation, which is characterized in that the terminal includes: processor, memory and transceiver;
Wherein, the processor, for reading the program in memory and execution:
Determine the corresponding MDBV of logic channel and the token bucket for MDBV control;According to the determining MDBV and the use
It is that the logic channel carries out resource allocation in the token bucket of MDBV control.
29. terminal as claimed in claim 28, which is characterized in that the processor is also used to:
Before determining the corresponding MDBV of logic channel and the token bucket controlled for MDBV, determine that logic channel has been established
At;And/or receive the notice for needing to carry out resource allocation based on MDBV of network side equipment transmission.
30. terminal as claimed in claim 28, which is characterized in that the processor is specifically used for:
The corresponding MDBV of logic channel is determined according to the mapping relations of Flow and logic channel.
31. terminal as claimed in claim 30, which is characterized in that the processor is specifically used for:
If Flow and logic channel are mapped using 1:1, using the corresponding MDBV of Flow as the corresponding MDBV of the logic channel;
If or Flow and logic channel are mapped using M:1, according to the mapping relations of Flow and logic channel, will be mapped to institute
The sum of corresponding MDBV of Flow of logic channel is stated as the corresponding MDBV of the logic channel;
Or if Flow and logic channel are mapped using M:1, will be according to Flow and mapping logical channels relationship, by being actually mapped to
The sum of corresponding MDBV of Flow of logic channel is stated as the corresponding MDBV of the logic channel;Wherein, the M is positive integer.
32. terminal as claimed in claim 31, which is characterized in that the processor is specifically used for:
The corresponding MDBV of logic channel is determined in MAC layer.
33. terminal as claimed in claim 32, which is characterized in that the processor is also used to:
Before determining the corresponding MDBV of logic channel by MAC layer, MAC layer Flow and logic are notified by SDAP or rrc layer
The mapping relations of channel;Or
The corresponding MDBV of mapping relations and QFI of MAC layer Flow and logic channel are notified by SDAP or rrc layer;Or
The corresponding MDBV of MAC layer logic channel is notified by SDAP or rrc layer;Or pass through the SDAP layers of practical mapping of notice MAC layer
To the Flow of logic channel;Or
MAC layer is notified to be actually mapped to the corresponding MDBV of Flow and QFI of logic channel by SDAP layers;Or
Pass through the SDAP layers of corresponding MDBV of notice MAC layer logic channel.
34. terminal as claimed in claim 28, which is characterized in that the size of the token bucket for MDBV control is logic
The corresponding MDBV of channel.
35. terminal as claimed in claim 28, which is characterized in that the processor is also used to:
Determine logic channel in the token bucket of MDBV control the period (N-PDB, N] in the token that has actually used
Number M, using the size of token bucket and the difference of M as the available tokens number in the corresponding token bucket of the logic channel;
Wherein, N is scheduling instance, and PDB is the corresponding Packet Delay budget of the logic channel.
36. terminal as claimed in claim 35, which is characterized in that the processor is specifically used for: determining in the following manner
The corresponding PDB of logic channel:
It is determined to be mapped to the corresponding 5QI of all Flow of the logic channel according to the mapping relations of Flow and logic channel
Or it is actually mapped to the corresponding 5QI of all Flow of the logic channel;It is determined according to the corresponding 5QI of the Flow maximum
PDB is as the corresponding PDB of the logic channel.
37. terminal as claimed in claim 28, which is characterized in that the processor is specifically used for:
Step 1: the terminal is to having available PBR token and have the logic channels of data transfer demands logically channel priority
Descending order is ranked up, and is then successively based on PBR to each logic channel and is carried out first round resource allocation, while updating each
Token number in the corresponding PBR token bucket of logic channel, while to the logic channel for thering is MDBV to require, complete the money based on PBR
After the distribution of source, need to update available tokens number of the logic channel for MDBV control;
Step 2: the terminal is after determining also surplus resources, logically to all logic channels for having data transfer demands
Channel priority descending order carries out the second wheel resource allocation:
For the logic channel for having MDBV to require, the logic channel described in the second wheel resource allocation process allows to distribute resource
Data measure the logic channel for MDBV control token bucket in available tokens number and the logic channel currently to
Smaller value in the data volume of resource is distributed, resource allocation is carried out to the logic channel;If the logic channel for currently needing to distribute
It is the logic channel that no MDBV is required, then the terminal is according to the data volume of the current resource to be allocated of the logic channel to institute
It states logic channel and carries out resource allocation.
38. terminal as claimed in claim 37, which is characterized in that the processor is also used to:
To all logic channels for having data transfer demands logically channel priority descending order carry out second wheel resource
After distribution, if the terminal determines that there are also surplus resources, by all priority of logical channels for having data transfer demands
Descending order carries out resource allocation to remaining data to be transmitted, until resource exhaustion or the data to be transmitted of all logic channels
All it is assigned with resource.
39. terminal as claimed in claim 28, which is characterized in that the processor is also used to:
Step 1: the terminal is to having available PBR token and have the logic channels of data transfer demands logically channel priority
Descending order is ranked up, and is then successively based on PBR to each logic channel and is carried out first round resource allocation, while updating each
Token number in the corresponding PBR token bucket of logic channel, while to the logic channel for thering is MDBV to require, complete the money based on PBR
After the distribution of source, need to update the logic channel for the available tokens number in the token bucket of MDBV control;
Step 2: the terminal is after determining also surplus resources, logically to all logic channels for having data transfer demands
Channel priority descending order carries out the second wheel resource allocation:
For the logic channel for having MDBV to require, the logic channel described in the second wheel resource allocation process allows to distribute resource
Data measure the logic channel for MDBV control token bucket in available tokens number and the logic channel currently to
Smaller value in the data volume of resource is distributed, resource allocation is carried out to the logic channel;If the logic channel for currently needing to distribute
It is no MDBV requirement, and includes the logic channel of GBR traffic, then the terminal carries out resource allocation to the logic channel.
40. terminal as claimed in claim 39, which is characterized in that the processor is also used to:
To all logic channels for having data transfer demands logically channel priority descending order carry out second wheel resource
After distribution, if the terminal determines that there are also surplus resources, by all priority of logical channels for having data transfer demands
Descending order carries out resource allocation to remaining data to be transmitted, until resource exhaustion or the data to be transmitted of all logic channels
All it is assigned with resource.
41. the terminal as described in claim 37 or 39, which is characterized in that the logic channel is corresponding described for MDBV control
The number for the token being able to use in the token bucket of system is that the corresponding MDBV of the logic channel is corresponding with the logic channel
The difference of the number of the token actually used in the token bucket for MDBV control.
42. the terminal as described in claim 37 or 39, which is characterized in that the processor is specifically used for:
Determine logic channel in the token bucket of MDBV control the period (N-PDB, N] in the token that has actually used
Number M, using the size of token bucket and the difference of M as the available tokens number in the corresponding token bucket of the object;
Wherein, N is scheduling instance, and PDB is the corresponding Packet Delay budget of the logic channel.
43. a kind of network side equipment for carrying out resource allocation, which is characterized in that the network side equipment includes: processor, memory
And transceiver;
Wherein, the processor, for reading the program in memory and execution:
Determine the corresponding MDBV of resource allocation object and the token bucket for MDBV control;According to the determining MDBV and described
Token bucket for MDBV control is that the resource allocation object carries out resource allocation;Wherein, if carrying out ascending resource distribution,
The resource allocation object is logic channel group;If carrying out downlink resource distribution, the resource allocation object is logic channel.
44. network side equipment as claimed in claim 43, which is characterized in that the processor is also used to:
Before determining the corresponding MDBV of resource allocation object and the token bucket controlled for MDBV, determine that logic channel has been established
At;And/or it is determined according to system loading and needs to carry out resource allocation based on MDBV.
45. network side equipment as claimed in claim 44, which is characterized in that the network side equipment includes:
Notification module, if being determined according to system loading for carrying out ascending resource distribution and needing to carry out resource allocation based on MDBV
Later, notice terminal needs to carry out resource allocation based on MDBV.
46. network side equipment as claimed in claim 43, which is characterized in that the processor is specifically used for:
If carrying out downlink resource distribution, the corresponding MDBV of logic channel is determined according to the mapping relations of Flow and logic channel;
If carrying out ascending resource distribution, the corresponding MDBV of logic channel is determined according to the mapping relations of Flow and logic channel, and
It regard the sum of the corresponding MDBV of logic channel in same logic channel group as the corresponding MDBV of logic channel group;Or
If carrying out ascending resource distribution, the sum of corresponding MDBV of the logic channel that terminal is reported is corresponding as logic channel group
MDBV;Or
If carrying out ascending resource distribution, the corresponding MDBV of logic channel group that terminal reports is received.
47. network side equipment as claimed in claim 46, which is characterized in that the processor is specifically used for:
If Flow and logic channel are mapped using 1:1, using the corresponding MDBV of Flow as the corresponding MDBV of the logic channel;Or
If Flow and logic channel are mapped using M:1, according to the mapping relations of Flow and logic channel, will be mapped to described
The sum of corresponding MDBV of the Flow of logic channel is as the corresponding MDBV of the logic channel;Or
If Flow and logic channel are mapped using M:1, will will be actually mapped to described according to Flow and mapping logical channels relationship
The sum of corresponding MDBV of the Flow of logic channel is as the corresponding MDBV of the logic channel;Wherein, the M is positive integer.
48. network side equipment as claimed in claim 47, which is characterized in that the processor is specifically used for:
The corresponding MDBV of resource allocation object is determined in MAC layer.
49. network side equipment as claimed in claim 48, which is characterized in that the processor is also used to:
Before MAC layer determines the corresponding MDBV of resource allocation object, MAC layer Flow and logic are notified by SDAP or rrc layer
The mapping relations of channel;Or
The corresponding MDBV of mapping relations and QFI of MAC layer Flow and logic channel are notified by SDAP or rrc layer;Or
The corresponding MDBV of MAC layer logic channel is notified by SDAP or rrc layer;Or
MAC layer is notified to be actually mapped to the Flow of logic channel by SDAP layers;Or
MAC layer is notified to be actually mapped to the corresponding MDBV of Flow and QFI of logic channel by SDAP layers;Or
Pass through the SDAP layers of corresponding MDBV of notice MAC layer logic channel.
50. network side equipment as claimed in claim 49, which is characterized in that if the resource allocation object is logic channel
Group, the processor are also used to:
The mapping relations of MAC layer logic channel and logic channel group are notified by the rrc layer.
51. network side equipment as claimed in claim 43, which is characterized in that the processor is also used to:
Size and period (N- if carrying out downlink resource distribution, according to logic channel for the token bucket of MDBV control
PDB, N] in the token bucket that has used of the logic channel number M of token determine the corresponding token bucket of the logic channel
In available tokens number;Or
Size and period (N- if carrying out ascending resource distribution, according to logic channel group for the token bucket of MDBV control
PDB, N] in the token bucket that has used of the logic channel group number M of token determine the corresponding order of the logic channel group
Available tokens number in board bucket;
Wherein N is scheduling instance, and PDB is the corresponding Packet Delay budget of the logic channel.
52. network side equipment as claimed in claim 51, which is characterized in that the processor is specifically used for: passing through following side
Formula determines the corresponding PDB of logic channel:
It is determined to be mapped to the corresponding 5QI of all Flow of the logic channel according to the mapping relations of Flow and logic channel
Or it is actually mapped to the corresponding 5QI of all Flow of the logic channel;It is determined according to the corresponding 5QI of the Flow maximum
PDB is as the corresponding PDB of the logic channel.
53. the network side equipment as described in claim 43~52 is any, which is characterized in that the processor is specifically used for:
If carrying out downlink resource distribution, the corresponding MDBV of the logic channel is used in the token bucket that MDBV is controlled with described
The difference of the number of token through actually using can distribute the data volume of resource as the logic channel;Believed according to the logic
In the corresponding token bucket of road MDBV the number of available tokens and current logic channel actually both data volumes of resource to be allocated it
Between minimum value be the logic channel carry out resource allocation.
54. the network side equipment as described in claim 43~52 is any, which is characterized in that the processor is specifically used for:
If ascending resource distribution is carried out, by the corresponding MDBV of the logic channel group use corresponding with the logic channel group
The difference of the number of the token actually used in the token bucket of MDBV control is as the corresponding order of the logic channel group
The number of available tokens in board bucket;According to the number and current logic of available tokens in the corresponding token bucket of the logic channel group
The minimum value of the practical data to be transmitted amount of channel group between the two is that the logic channel group carries out resource allocation.
55. a kind of terminal for carrying out resource allocation, which is characterized in that the terminal includes:
First determining module, the token bucket for determining the corresponding MDBV of logic channel and for MDBV control;
First distribution module, for being logic letter according to the determining MDBV and the token bucket for MDBV control
Road carries out resource allocation.
56. a kind of network side equipment for carrying out resource allocation, which is characterized in that the network side equipment includes:
Second determining module, the token bucket for determining the corresponding MDBV of resource allocation object and for MDBV control;
Second distribution module, for being the resource point according to the determining MDBV and the token bucket for MDBV control
Resource allocation is carried out with object;
Wherein, if carrying out ascending resource distribution, the resource allocation object is logic channel group;If carrying out downlink resource point
Match, then the resource allocation object is logic channel.
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CN116582496B (en) * | 2023-07-13 | 2024-04-19 | 广东睿江云计算股份有限公司 | Token bucket packet loss optimization method and system |
Citations (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN102791003A (en) * | 2011-05-20 | 2012-11-21 | 中兴通讯股份有限公司 | Service stream admission control realizing method and device |
US20170317894A1 (en) * | 2016-05-02 | 2017-11-02 | Huawei Technologies Co., Ltd. | Method and apparatus for communication network quality of service capability exposure |
Family Cites Families (2)
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---|---|---|---|---|
CN101621457B (en) * | 2008-07-01 | 2012-05-23 | 大唐移动通信设备有限公司 | Multi-service scheduling method and system |
CN107204836B (en) * | 2016-03-16 | 2020-02-04 | 电信科学技术研究院 | Parallel scheduling method and device for carrier aggregation |
-
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Patent Citations (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN102791003A (en) * | 2011-05-20 | 2012-11-21 | 中兴通讯股份有限公司 | Service stream admission control realizing method and device |
US20170317894A1 (en) * | 2016-05-02 | 2017-11-02 | Huawei Technologies Co., Ltd. | Method and apparatus for communication network quality of service capability exposure |
Non-Patent Citations (1)
Title |
---|
NOKIA SHANGHAI BELL: "MDBV in Uplink", 《3GPP TSG-RAN WG2 MEETING #101BIS R2-1804911》 * |
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN112235833A (en) * | 2020-10-14 | 2021-01-15 | 中国联合网络通信集团有限公司 | Dynamic configuration method of data stream parameters and session management functional entity |
CN112235833B (en) * | 2020-10-14 | 2023-06-02 | 中国联合网络通信集团有限公司 | Dynamic configuration method of data flow parameters and session management functional entity |
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