CN101170834B - Resource distributing method and device - Google Patents
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- CN101170834B CN101170834B CN2007101947865A CN200710194786A CN101170834B CN 101170834 B CN101170834 B CN 101170834B CN 2007101947865 A CN2007101947865 A CN 2007101947865A CN 200710194786 A CN200710194786 A CN 200710194786A CN 101170834 B CN101170834 B CN 101170834B
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Abstract
The invention embodiment provides a resources allocation method and device. Utilize actual transmission speed of users in cells and the users priority to calculate the cells dispatching priority; adjust the resources allocated to the cell with higher dispatching priority than the first preset threshold value downwards and adjust the resources allocated to the cell with lower dispatching priority than the second preset threshold value upwards, in order to dynamically adjust the resources allocated to cells according to the cell user actual transmission speed and the user priority state and balance the Iub port resources allocated to the users with the same priority in different cells and facilitate users in all cells to enjoy different due service.
Description
Technical field
The present invention relates to mobile communication technology, particularly a kind of method and apparatus of resource allocation.
Background technology
Wideband Code Division Multiple Access (WCDMA) (WCDMA) technology is introduced high speed downlink packet and is inserted after (HSDPA) technology, the shortage of the uplink capacity that causes for the growth that reduces because of the down link load, further improve the up average throughput and the capacity of user and system, and shortening postpones, thereby carry out multimedia service and bag transfer of data better, introduced high speed uplink bag data again and inserted (HSUPA) technology.The HSUPA technology can adopt base station (NodeB) up fast dispatch, mix the short frame transmission technology of re-transmission automatically, soft handover, 2ms Transmission Time Interval (TTI) etc., can support the highest peak rate 5.76Mbps that eats dishes without rice or wine in theory.
Along with increasing substantially of upstream data transmission rate, the demand of up Iub bandwidth is also increased substantially, the Iub bandwidth resources may become the bottleneck that influences user throughput.Therefore, the congestion problems that solves the Iub mouth has become problem anxious to be solved, and wherein the Iub mouth is the logic interfacing between NodeB and the radio network controller (RNC).Exist some to solve the resource allocation methods of Iub mouth congestion problems in the prior art, mainly contained following two kinds of methods:
First method: dynamically adjust sub-district targeted loads thresholding according to the congestion condition of Iub mouth, utilize dispatching algorithm the employed resource of each user to be dispatched then according to adjusted sub-district targeted loads thresholding, the flow that flow that the feasible targeted loads of eating dishes without rice or wine allows and Iub mouth allow mates substantially, thereby avoids causing the congested of Iub mouth.
Second method: utilize dispatching algorithm the user of each sub-district to be distributed the Iub bandwidth authorizing according to interface-free resources, then, remaining available resource according to the Iub mouth, judge whether to allow the user of this sub-district to improve transmission rate, thereby guarantee that the Iub bandwidth authorizing that the user for each sub-district distributes can not cause the congested of Iub mouth.
In actual applications, business system is often according to the expense priority different for the user sets of user payment, and provides differentiated service according to the priority of this setting for them, allows the user priority acquisition more resources of high priority when resource-constrained.Yet, though above-mentioned two kinds of resource allocation methods can be avoided the congestion problems of Iub mouth, but, when the user of sub-district 1 inserts earlier, the user of this sub-district 1 can seize the resource of most Iub mouth, when inserting behind the user of sub-district 2, because targeted loads and Iub bandwidth authorizing to each sub-district are to adjust synchronously, the user of sub-district 2 just can't return the Iub resource race to control, this just can cause Iub mouth resource that the same priority user that is in different districts is assigned with and unbalanced, even if make that the user's priority in the sub-district 2 is higher, also can't enjoy due differentiated service.
Summary of the invention
The embodiment of the invention provides a kind of method and apparatus of resource allocation, so that the Iub mouth resource that the balanced same priority user who is in different districts is assigned with makes the usefulness of each sub-district can enjoy differentiated service per family.
A kind of method of resource allocation, this method comprises:
Select to participate in the sub-district user that calculates, the user's of selection the actual transmission rate and the quotient of priority weighting are asked on average, with the mean value of trying to achieve dispatching priority as this sub-district;
Described dispatching priority is higher than the resource that the sub-district of first threshold is assigned with adjusts downwards, dispatching priority is lower than the resource that the sub-district of second threshold value is assigned with upwards adjusts; Wherein, described first threshold is more than or equal to described second threshold value.
A kind of device of resource allocation, this device comprises: adjustment unit and comprise the chooser unit and the computing unit of priority computation subunit; Wherein, the priority computation subunit comprises: weight computation module, quotient computing module and mean value calculation mould are determined;
Described chooser unit is used to select the user that participation is calculated in the sub-district;
Described weight computation module is used to calculate each user's who selects described chooser unit priority weighting;
Described quotient computing module is used to calculate the merchant of each user's who selects described chooser unit actual transmission rate and described user's priority weighting;
Described mean value calculation module is used to calculate the mean value of the quotient that described quotient computing module calculates, with the dispatching priority of this mean value as this sub-district;
Described adjustment unit, be used for result of calculation according to described mean value calculation module, dispatching priority is higher than the resource that the sub-district of first threshold is assigned with adjusts downwards, dispatching priority is lower than the resource that the sub-district of second threshold value is assigned with upwards adjusts; Wherein, described first threshold is more than or equal to described second threshold value.
As can be seen from the above technical solutions, in the method and apparatus that the embodiment of the invention provides, utilize the actual transmission rate of user in the sub-district and user's priority to calculate the dispatching priority of this sub-district; Dispatching priority is higher than the resource that the sub-district of preset first threshold value is assigned with adjusts downwards, dispatching priority is lower than the resource that the sub-district of default second threshold value is assigned with upwards adjusts.This mode can dynamically be adjusted the resource of distributing to the sub-district use according to the actual speed rate of user in the sub-district and user's priority status, thereby the Iub mouth resource that the balanced same priority user who is in different districts is assigned with makes the usefulness of each sub-district can enjoy due differentiated service per family.
Description of drawings
The method flow diagram that Fig. 1 provides for the embodiment of the invention;
The structure drawing of device that Fig. 2 provides for the embodiment of the invention.
Embodiment
In order to make the purpose, technical solutions and advantages of the present invention clearer, describe the present invention below in conjunction with the drawings and specific embodiments.
The method that the embodiment of the invention provides can comprise: calculate the dispatching priority of this sub-district according to the actual transmission rate of user in the sub-district and user's priority; Dispatching priority is higher than the resource that the sub-district of first threshold is assigned with adjusts downwards, dispatching priority is lower than the resource that the sub-district of second threshold value is assigned with upwards adjusts.
The method flow diagram that Fig. 1 provides for the embodiment of the invention, as shown in Figure 1, this method can may further comprise the steps:
Step 101: whether the transmission rate of judging user in the sub-district can both satisfy self-demand, if not, and execution in step 102; If then execution in step 105.
In this step, whether the transmission rate of judging user in the sub-district satisfies happy bit sign (happy bit) judgement that self-demand can be by each user in the sub-district.The user can send to NodeB with this happy bit by the Dedicated Physical Control Channel (E-DPCCH) that strengthens.If the user is satisfied to the transmitted power of self, promptly can satisfy self-demand, then can in happy bit, carry satisfied information, for example, with " 1 " sign; If the user is dissatisfied to the transmitted power of self, promptly can not satisfy certainly
In addition, this step is not necessary, can not carry out this step yet, that is to say and can directly carry out 102.
Step 102: the user who selects to participate in this sub-district calculating.
Select the user who participates in the sub-district calculating can adopt the multiple choices method in this step, for example, can adopt a kind of or combination in any in the following method:
1) selects all users in the sub-district.
2) select actual transmission rate in the sub-district can not satisfy the user of self-demand.
In this mode, NodeB can select to carry among the happy bit user of dissatisfied information according to the happy bit of each user in the sub-district.
3) actual transmission rate does not reach the user who guarantees bit rate (GBR) in the selection sub-district.
The GBR that relates in this mode can be the standard of a predefined measurement transmission rate quality, and the user that common transmission rate reaches GBR shows that the resource of this user's use is more, and the quality of service of enjoyment is higher.NodeB can select not reach the user of GBR according to the actual transmission rate of user in the sub-district.
4) select priority in the sub-district to be higher than the user of setting threshold.
In this mode, in order to embody the user's that priority is the highest in the sub-district demand, and guarantee that the highest user of priority enjoys the differentiated service that it should be enjoyed, NodeB can select the highest user of priority in this sub-district.This selection can be undertaken by the dispatching priority indication (SPI) that each user sends, and carries user's precedence information among this SPI, and for example, SPI is that 15 user can be Gold Subscriber, the i.e. the highest user of priority; SPI is that 14 user is a Silver Subscriber, i.e. the user that takes second place of priority; SPI is that 13 user is a Bronze Subscriber, i.e. the user that takes second place again of priority, and the like.So just can select the dispatching priority of the Gold Subscriber participation calculation plot in this sub-district.
Also can adopt with the combination in the upper type and select user in the sub-district, for example, can select actual transmission rate in the sub-district can not satisfy self-demand and do not reach the user of GBR.Certainly, can adopt other selection mode, for example, can be according to the priority criteria of setting, select priority greater than user of this priority criteria or the like, give unnecessary details no longer one by one at this.
Step 103: each user's that calculation procedure 102 is selected priority weighting.
In this step, calculate among each the comfortable selected user of user select the weight of self priority.
Step 104: utilize the user's who selects the actual transmission rate and the dispatching priority of priority weighting calculation plot.Execution in step 106.
In this step, the dispatching priority of calculation plot (CellPriority) can adopt:
CellPriority=Average (the actual transmission rate/user's of user priority weighting), wherein, it is average that Average represents to ask.When having selected a plurality of user, each user's the actual transmission rate and the quotient of self priority weighting to be asked on average, the mean value of trying to achieve is as the dispatching priority of this sub-district.
Step 105: the dispatching priority setting that this sub-district then is set is higher than first threshold.Execution in step 106.
In this step, if NodeB judges the happy bit of all users in the sub-district and all carries satisfied sign, illustrate that this sub-district takies more resource, the dispatching priority of this sub-district is higher, the resources balance that needs this sub-district is taken uses for other sub-district, therefore, the dispatching priority that this sub-district is set is higher than first threshold, the maximum dispatching priority value that dispatching priority that can this sub-district is set to preset.
Following steps can be carried out to this sub-district that calculates in the base station behind the dispatching priority that calculates a sub-district, also can all carry out the step of above step 101-105 to all sub-districts, after waiting to obtain the dispatching priority of each sub-district, carry out following steps:
Step 106: according to the dispatching priority of each sub-district, dispatching priority is higher than the resource that the sub-district of preset first threshold value is assigned with adjusts first set point downwards, dispatching priority is lower than the resource that the sub-district of default second threshold value is assigned with adjusts upward second set point.
In this step, can set in advance the first threshold and second threshold value.The sub-district that dispatching priority is higher than first threshold illustrates that the resource of distributing to this sub-district is more, for the resources balance that guarantees that other user of ad eundem enjoys in each sub-district, promptly also can enjoy equal differentiated service, then need to give the lower sub-district of other dispatching priority with the resources balance of this sub-district, so, this dispatching priority is higher than the resource that the sub-district of first threshold is assigned with adjusts downwards.As a same reason, the sub-district explanation that dispatching priority is lower than second threshold value divides the interior resource of this sub-district of giving less, then need the resources balance of the sub-district that other dispatching priority is higher to give this sub-district, so, this dispatching priority is lower than the resource that the sub-district of second threshold value is assigned with adjusts upward.Concrete adjustment can be adopted the adjustment mode of fixed step size, promptly adjusts a set point.Also can adjust the resource that each sub-district is assigned with according to dynamic step-length according to the dispatching priority situation of each sub-district of calculating.
In this step, the first threshold that sets in advance and second threshold value can be same values, also can be different values, and it is provided with can be the fixed value that sets in advance, and also can be the threshold values that the resource situation according to reality dynamically arranges.The step-length of adjusting, promptly first set point also can be identical value with second set point, also can be different values, concrete setting situation also can be provided with according to the adjustment demand of reality.
In addition, the resource that each sub-district of adjustment is assigned with in this step can be by adjusting the mode of sub-district targeted loads, be about to the targeted loads thresholding that dispatching priority is higher than the sub-district of first threshold and adjust fixed step size downwards, the targeted loads thresholding that dispatching priority is lower than the sub-district of second threshold value adjusts upward fixed step size.Then, can utilize dispatching algorithm, distribute the resource of each user's use in the sub-district according to the targeted loads thresholding of sub-district.Also can be by adjusting the mode of the Iub bandwidth that can use the sub-district, the Iub bandwidth that is about to sub-district that dispatching priority is higher than first threshold can use is adjusted fixed step size downwards, dispatching priority is lower than the Iub bandwidth that the sub-district of second threshold value can use adjusts upward fixed step size.Then, can utilize dispatching algorithm, the resource that each user uses in the Iub allocated bandwidth sub-district that can use according to the sub-district.Wherein, the resource of distributing each user to use in the sub-district is prior art, does not repeat them here.
In addition, flow process shown in the execution graph that can circulate 1, for example, set the fixing cycle, in each cycle, all adjust the resource that each sub-district is assigned with according to particular step size by flow process shown in Figure 1, because each transmitted power of adjusting user in each sub-district, back all can change, after above-mentioned flow process was carried out in circulation, the resource that each sub-district is assigned with can reach poised state gradually like this.
The structure drawing of device that Fig. 2 provides for the embodiment of the invention, this device can be arranged in the base station of NodeB or other type.As shown in Figure 2, this device can comprise: computing unit 200 and adjustment unit 210.
Wherein, computing unit 200 can comprise: chooser unit 201 and priority computation subunit 202.
This chooser unit 201 can adopt a kind of or combination in any in the following method to select the user:
1) selects all users in the sub-district.
2) select actual transmission rate in the sub-district can not satisfy the user of self-demand.
3) actual transmission rate does not reach the user who guarantees bit rate (GBR) in the selection sub-district.
4) select priority in the sub-district to be higher than the user of certain threshold value.
Certainly, can adopt other selection mode, for example, can be according to the priority criteria of setting, select priority greater than user of this priority criteria or the like.
Mean value calculation module 2023 is used to calculate the mean value of the quotient that quotient computing module 2022 calculates, with the dispatching priority of this mean value as this sub-district.
In addition, adjustment unit 210 comprises: judgment sub-unit 211 and resource are adjusted subelement 212.
Resource is adjusted subelement 212, is used for when judgment sub-unit 211 judges that the dispatching priority of this sub-district is higher than presetting first threshold the resource that this sub-district is assigned with being adjusted first set point downwards; When judgment sub-unit 211 judged that the dispatching priority of this sub-district is lower than the second default threshold value, the resource that this sub-district is assigned with adjusted upward second set point.
The resource that resource adjustment subelement 212 adjustment sub-districts are assigned with can be by adjusting the mode of sub-district targeted loads, be about to the targeted loads thresholding that dispatching priority is higher than the sub-district of first threshold and adjust fixed step size downwards, the targeted loads thresholding that dispatching priority is lower than the sub-district of second threshold value adjusts upward fixed step size.Then, can utilize dispatching algorithm, distribute the resource of each user's use in the sub-district according to the targeted loads thresholding of sub-district.Also can be by adjusting the mode of the Iub bandwidth that can use the sub-district, the Iub bandwidth that is about to sub-district that dispatching priority is higher than first threshold can use is adjusted fixed step size downwards, dispatching priority is lower than the Iub bandwidth that the sub-district of second threshold value can use adjusts upward fixed step size.Then, can utilize dispatching algorithm, the resource that each user uses in the Iub allocated bandwidth sub-district that can use according to the sub-district.
In addition, this device can also comprise: dispatching priority setup unit 220 and judging unit 230.
Dispatching priority setup unit 220, the dispatching priority that is used to be provided with the sub-district is higher than first threshold.
Judging unit 230 is used to judge whether the actual transmission rate of the user in the sub-district can both satisfy self-demand, if the dispatching priority of then notifying dispatching priority setup unit 220 that the sub-district is set is higher than described first threshold; If not, then notify computing unit 200 to calculate the dispatching priority of this sub-district.
By above description as can be seen, in the method and apparatus that the embodiment of the invention provides, utilize the actual transmission rate of user in the sub-district and user's priority to calculate the dispatching priority of this sub-district; Dispatching priority is higher than the resource that the sub-district of preset first threshold value is assigned with adjusts downwards, dispatching priority is lower than the resource that the sub-district of default second threshold value is assigned with upwards adjusts.This mode can dynamically be adjusted the resource of distributing to the sub-district use according to the actual speed rate of user in the sub-district and user's priority status, thereby the Iub mouth resource that the balanced same priority user who is in different districts is assigned with makes the usefulness of each sub-district can enjoy due differentiated service per family.
The beneficial effect that the technical scheme that embodies the embodiment of the invention and provide below by an object lesson is brought.Respectively there are a Gold Subscriber, a Silver Subscriber, a Bronze Subscriber in sub-district 0 and sub-district 1; There are two Silver Subscriber, a Bronze Subscriber in sub-district 2.Wherein, the SPI of Gold Subscriber is 15, and the SPI of Silver Subscriber is 14, and the SPI of Bronze Subscriber is 13.Table 1 for the scheme that adopts the prior art and the embodiment of the invention and provide after the contrast situation of resource allocation.
Table 1
| ? | User's SPI | Adopt the resource allocation situation of prior art | Adopt resource allocation situation of the present invention |
| Sub-district 0 | 15 | 644 | 1015 |
| 14 | 92 | 159 | ? |
| 13 | 65 | 79 | ? |
| Sub-district 1 | 15 | 657 | 1015 |
| 14 | 105 | 186 | ? |
| 13 | 68 | 75 | ? |
| Sub-district 2 | 14 | 555 | 103 |
| 14 | 561 | 125 | ? |
| 13 | 62 | 51 | ? |
The resource allocation situation embodies by each user's transmission rate in the table 1.As can be seen, the technical scheme that adopts prior art to provide, the transmission rate of the Silver Subscriber of sub-district 0 is 92, the transmission rate of the Silver Subscriber of sub-district 1 is 105, the transmission rate of the Silver Subscriber of sub-district 2 is 555 and 561, though belong to Silver Subscriber, the user who belongs to different districts can not enjoy equal differentiated service, that is to say that this method can not balanced be in the resource that the same priority user of different districts is assigned with.And the technical scheme that adopts the embodiment of the invention to provide, the transmission rate of the Silver Subscriber of sub-district 0 is 159, the transmission rate of the Silver Subscriber of sub-district 1 is 186, the transmission rate of the Silver Subscriber of sub-district 2 is 103 and 125, as can be seen, the technical scheme that adopts the embodiment of the invention to provide, the resource that the same priority user of different districts is assigned with are relatively more balanced, and the user of different districts can enjoy equal differentiated service.
The above only is preferred embodiment of the present invention, and is in order to restriction the present invention, within the spirit and principles in the present invention not all, any modification of being made, is equal to replacement, improvement etc., all should be included within the scope of protection of the invention.
Claims (10)
1. the method for a resource allocation is characterized in that, this method comprises:
Select to participate in the sub-district user that calculates, the user's of selection the actual transmission rate and the quotient of priority weighting are asked on average, with the mean value of trying to achieve dispatching priority as this sub-district;
Described dispatching priority is higher than the resource that the sub-district of first threshold is assigned with adjusts downwards, dispatching priority is lower than the resource that the sub-district of second threshold value is assigned with upwards adjusts; Wherein, described first threshold is more than or equal to described second threshold value.
2. method according to claim 1 is characterized in that, the described resource that is assigned with comprises: the targeted loads of sub-district, perhaps, the Iub bandwidth that the sub-district can be used.
3. method according to claim 2 is characterized in that, the described adjustment downwards comprises: adjust first step-length downwards;
Described upwards the adjustment comprises: adjust upward second step-length.
4. method according to claim 2 is characterized in that, the user who participates in calculating in the described selection sub-district comprises a kind of or combination in any in the following method:
Select all users in the sub-district;
Actual transmission rate can not satisfy the user of self-demand in the selection sub-district;
Actual transmission rate does not reach the user who guarantees bit rate GBR in the selection sub-district.
5. method according to claim 2 is characterized in that, each user's of selecting the actual transmission rate and the quotient of priority weighting are asked on average, and the mean value of the trying to achieve dispatching priority as this sub-district is comprised:
Calculate each user's of described selection priority weighting;
Calculate the merchant of each user's actual transmission rate and described user's priority weighting respectively;
All quotients that calculate are asked on average, and with the mean value of the trying to achieve dispatching priority as this sub-district.
6. according to each described method of claim 1 to 5, it is characterized in that, before the user who in described selection sub-district, participates in calculating, also comprise: whether the actual transmission rate of judging user in the sub-district can both satisfy self-demand, if, the dispatching priority that this sub-district then is set is higher than described first threshold, if not, then continues to carry out the step that participates in the user of calculating in the described selection sub-district.
7. the device of a resource allocation is characterized in that, this device comprises: adjustment unit and comprise the chooser unit and the computing unit of priority computation subunit; Wherein, the priority computation subunit comprises: weight computation module, quotient computing module and mean value calculation module;
Described chooser unit is used to select the user that participation is calculated in the sub-district;
Described weight computation module is used to calculate each user's who selects described chooser unit priority weighting;
Described quotient computing module is used to calculate the merchant of each user's who selects described chooser unit actual transmission rate and described user's priority weighting;
Described mean value calculation module is used to calculate the mean value of the quotient that described quotient computing module calculates, with the dispatching priority of this mean value as this sub-district;
Described adjustment unit, be used for result of calculation according to described mean value calculation module, dispatching priority is higher than the resource that the sub-district of first threshold is assigned with adjusts downwards, dispatching priority is lower than the resource that the sub-district of second threshold value is assigned with upwards adjusts; Wherein, described first threshold is more than or equal to described second threshold value.
8. device according to claim 7 is characterized in that, a kind of or combination in any of described chooser unit in the following ways selects to participate in the sub-district user that calculates:
Select all users in the sub-district;
Actual transmission rate can not satisfy the user of self-demand in the selection sub-district;
Actual transmission rate does not reach the user who guarantees bit rate GBR in the selection sub-district.
9. device according to claim 7 is characterized in that, described adjustment unit comprises: judgment sub-unit and resource are adjusted subelement;
Described judgment sub-unit is used to judge whether the dispatching priority of this sub-district that described computing unit calculates is higher than presetting first threshold or is lower than the second default threshold value;
Described resource is adjusted subelement, is used for when described judgment sub-unit judges that the dispatching priority of this sub-district is higher than presetting first threshold, and the resource that this sub-district is assigned with is adjusted first step-length downwards; When described judgment sub-unit judged that the dispatching priority of this sub-district is lower than the second default threshold value, the resource that this sub-district is assigned with adjusted upward second step-length.
10. according to each described device of claim 7 to 9, it is characterized in that this device also comprises: dispatching priority setup unit and judging unit;
Described dispatching priority setup unit, the dispatching priority that is used to be provided with the sub-district is higher than described first threshold;
Described judging unit is used to judge whether the actual transmission rate of the user in the sub-district can both satisfy self-demand, if the dispatching priority of then notifying described dispatching priority setup unit that the sub-district is set is higher than described first threshold; If not, then notify described computing unit to calculate the dispatching priority of this sub-district.
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| CN2007101947865A CN101170834B (en) | 2007-12-06 | 2007-12-06 | Resource distributing method and device |
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| CN2007101947865A CN101170834B (en) | 2007-12-06 | 2007-12-06 | Resource distributing method and device |
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| CN101170834A CN101170834A (en) | 2008-04-30 |
| CN101170834B true CN101170834B (en) | 2011-09-21 |
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Families Citing this family (10)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| US20100291941A1 (en) * | 2009-05-15 | 2010-11-18 | Te-Ming Chen | Method for improving cell load balance in cellular network and associated user equipment |
| CN102083140B (en) * | 2009-11-30 | 2014-04-09 | 中国移动通信集团江苏有限公司 | Method and device for balanced configuration of wireless channel |
| CN102316538B (en) * | 2010-07-02 | 2014-04-02 | 华为技术有限公司 | Service quality of service (QoS) maintenance method and device in heterogeneous network |
| CN111182596B (en) * | 2014-01-29 | 2021-11-19 | 华为技术有限公司 | Device, method and system for selecting cell |
| CN104301944B (en) * | 2014-09-17 | 2018-02-13 | 华为技术有限公司 | Resource capability distribution method and equipment |
| WO2016154920A1 (en) * | 2015-03-31 | 2016-10-06 | 华为技术有限公司 | Resource allocation method and access apparatus |
| CN108271269A (en) * | 2016-12-30 | 2018-07-10 | 电信科学技术研究院 | A kind of priority level adjustment method and device |
| CN107888428A (en) * | 2017-12-04 | 2018-04-06 | 郑州云海信息技术有限公司 | A kind of bandwidth adjusting method, device, equipment and readable storage medium storing program for executing |
| CN110636624B (en) * | 2019-11-04 | 2023-04-07 | 中国联合网络通信集团有限公司 | Resource allocation method, device, equipment and storage medium |
| CN111711688B (en) * | 2020-06-16 | 2023-02-28 | 阿波罗智能技术(北京)有限公司 | Data transmission method, device and equipment based on transmitter and storage medium |
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| CN1878142A (en) * | 2006-07-07 | 2006-12-13 | 华为技术有限公司 | Method for confirming scheduling priority and scheduling method |
| CN1984457A (en) * | 2006-04-04 | 2007-06-20 | 华为技术有限公司 | Method for up-link scheduling controlled by base-station |
| CN101060474A (en) * | 2006-04-20 | 2007-10-24 | 大唐移动通信设备有限公司 | A service quality assurance-based grouping service wireless resource dispatching method |
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| CN1984457A (en) * | 2006-04-04 | 2007-06-20 | 华为技术有限公司 | Method for up-link scheduling controlled by base-station |
| CN101060474A (en) * | 2006-04-20 | 2007-10-24 | 大唐移动通信设备有限公司 | A service quality assurance-based grouping service wireless resource dispatching method |
| CN1878142A (en) * | 2006-07-07 | 2006-12-13 | 华为技术有限公司 | Method for confirming scheduling priority and scheduling method |
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