CN113259032A

CN113259032A - Resource control method and device

Info

Publication number: CN113259032A
Application number: CN202010087238.8A
Authority: CN
Inventors: 王立毅
Original assignee: Datang Mobile Communications Equipment Co Ltd
Current assignee: Datang Mobile Communications Equipment Co Ltd
Priority date: 2020-02-11
Filing date: 2020-02-11
Publication date: 2021-08-13
Anticipated expiration: 2040-02-11
Also published as: CN113259032B

Abstract

The embodiment of the invention provides a resource control method and a device, wherein the method comprises the following steps: counting uplink statistical information corresponding to uplink scheduling and downlink statistical information corresponding to downlink scheduling in a current period, wherein the uplink statistical information comprises an uplink resource number, an uplink resource demand and an uplink resource idle amount, and the downlink statistical information comprises a downlink resource number, a downlink resource demand and a downlink resource idle amount; calculating resource utilization information in the current period according to the uplink statistical information and the downlink statistical information, wherein the resource utilization information comprises: the uplink resource satisfaction rate, the uplink resource vacancy rate, the downlink resource satisfaction rate and the downlink resource vacancy rate; according to the resource utilization information, adjusting the sharing resource allocation proportion of uplink scheduling and downlink scheduling; and in the next period, allocating the shared channel resources for uplink scheduling and downlink scheduling according to the adjusted shared resource allocation proportion. The embodiment of the invention can automatically adjust the sharing resource allocation proportion and improve the resource utilization rate and the network utilization rate.

Description

Resource control method and device

Technical Field

The present invention relates to the field of communications technologies, and in particular, to a resource control method and apparatus.

Background

At present, uplink and Downlink resource scheduling information in a TDD (Time Division Duplexing) LTE (long Term Evolution) system is carried by a PDCCH (Physical Downlink Control Channel), where the PDCCH is formed by CCE (Control Channel Elements) resources, the CCE resources are the minimum unit of corresponding Control Channel resources allocated and scheduled for uplink and Downlink resources, and the CCE resources are commonly used for uplink and Downlink and have a limited number. In general, in an LTE system, CCE resources are allocated to uplink and downlink in a certain proportion by a static configuration manner according to different service models.

However, in the prior art, in a static configuration mode, uplink and downlink can only use quota CCE resources allocated to the uplink and downlink respectively, and when a service model changes, the problem that the allocated CCE resources cannot be effectively used is caused.

In addition, in order to overcome the problem of resource allocation after service change, in the prior art, a professional network maintainer monitors the service change in real time and statically allocates allocation proportions again, but when the allocation proportions of the resources are unreasonable, or the network maintainer does not adjust the allocation proportions in time, particularly when short-time services change, the problem that the resources cannot be effectively utilized still occurs, and a large amount of manpower, material resources and time cost exist.

Disclosure of Invention

The embodiment of the invention provides a resource control method and a resource control device, which can automatically and dynamically adjust the allocation proportion of shared resources.

The embodiment of the invention provides a resource control method, which comprises the following steps:

counting uplink statistical information corresponding to uplink scheduling and downlink statistical information corresponding to downlink scheduling in a current period, wherein the uplink statistical information comprises an uplink resource number, an uplink resource demand and an uplink resource idle amount, and the downlink statistical information comprises a downlink resource number, a downlink resource demand and a downlink resource idle amount;

calculating resource utilization information in the current period according to the uplink statistical information and the downlink statistical information, wherein the resource utilization information comprises: the uplink resource satisfaction rate, the uplink resource vacancy rate, the downlink resource satisfaction rate and the downlink resource vacancy rate;

according to the resource utilization information, adjusting the sharing resource allocation proportion of uplink scheduling and downlink scheduling;

and in the next period, allocating the shared channel resources for uplink scheduling and downlink scheduling according to the adjusted shared resource allocation proportion.

An embodiment of the present invention provides a resource control apparatus, where the apparatus includes:

the statistical module is used for counting uplink statistical information corresponding to uplink scheduling and downlink statistical information corresponding to downlink scheduling in a current period, wherein the uplink statistical information comprises an uplink resource number, an uplink resource demand and an uplink resource idle amount, and the downlink statistical information comprises a downlink resource number, a downlink resource demand and a downlink resource idle amount;

a calculating module, configured to calculate resource utilization information in a current period according to the uplink statistical information and the downlink statistical information, where the resource utilization information includes: the uplink resource satisfaction rate, the uplink resource vacancy rate, the downlink resource satisfaction rate and the downlink resource vacancy rate;

the adjusting module is used for adjusting the sharing resource allocation proportion of uplink scheduling and downlink scheduling according to the resource utilization information;

and the allocation module is used for allocating the shared channel resources for uplink scheduling and downlink scheduling according to the adjusted shared resource allocation proportion in the next period.

An embodiment of the present invention provides an electronic device, including: a processor, a memory and a computer program stored on the memory and executable on the processor, characterized in that the processor implements the resource control method as described above when executing the program.

Embodiments of the present invention provide a readable storage medium, and when instructions in the storage medium are executed by a processor of an electronic device, the electronic device is enabled to execute the resource control method as described above.

The embodiment of the invention has the following advantages:

according to the embodiment of the invention, the resource utilization information can be calculated according to the uplink statistical information and the downlink statistical information in the current period, and the sharing resource allocation proportion is automatically adjusted according to the resource utilization information, so that the resource allocation is carried out in the next period according to the adjusted sharing resource allocation proportion. Therefore, the embodiment of the invention can automatically and reasonably adjust the sharing resource distribution proportion based on the statistical information of the historical period without human intervention and monitoring, thereby improving the resource utilization rate and the network utilization rate, reducing the cost and ensuring the stability of the service.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings needed to be used in the description of the embodiments of the present invention will be briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art that other drawings can be obtained according to these drawings without inventive labor.

FIG. 1 is a flow chart of a first embodiment of a resource control method of the present invention;

FIG. 2 is a flowchart of a second embodiment of a resource control method according to the present invention;

fig. 3 is a flowchart illustrating a method for dynamically adjusting the allocation ratio of the shared resources for uplink scheduling and downlink scheduling according to the present invention;

FIG. 4 is a block diagram of an embodiment of a resource control apparatus according to the present invention;

fig. 5 shows a schematic structural diagram of an electronic device provided by the present invention.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are some, not all, embodiments of the present invention. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Method embodiment one

Referring to fig. 1, a flowchart of a first embodiment of a resource control method according to the present invention is shown, which may specifically include:

step 101, counting uplink statistical information corresponding to uplink scheduling and downlink statistical information corresponding to downlink scheduling in a current period, wherein the uplink statistical information comprises an uplink resource number, an uplink resource demand and an uplink resource idle amount, and the downlink statistical information comprises a downlink resource number, a downlink resource demand and a downlink resource idle amount.

The resource control method of the embodiment of the invention can be used in a TDD LTE system, resources scheduled by uplink and downlink in the system mainly comprise CCE resources, the CCE resources are commonly used by uplink and downlink, and the quantity is limited.

In an optional embodiment of the present invention, before step 101, the method may further include:

setting an initial resource allocation proportion, wherein the initial resource allocation proportion comprises the following steps: an uplink exclusive resource proportion, a downlink exclusive resource proportion, and a shared resource proportion.

In the embodiment of the present invention, CCE resources of a PDCCH may be divided into 3 parts: uplink exclusive resources, downlink exclusive resources and shared resources, wherein the shared resources are used when sharing a time slot. In actual use, the exclusive resource proportion is set, so that the lowest available resource can be ensured, and the situation that no resource is available due to burst service is avoided. The shared resource proportion is set, when the service changes, the uplink and downlink shared resource allocation proportion can be adjusted, so that the uplink and downlink resource allocation can adapt to the change of the service.

In one example of the embodiment of the present invention, the initial resource allocation ratio is set as follows: the uplink exclusive resource proportion is 30%, the downlink exclusive resource proportion is 30%, and the shared resource proportion is 40%. For the shared resource proportion, the shared resource allocation proportion of the initial uplink scheduling is 20%, and the shared resource allocation proportion of the downlink scheduling is 20%. In another example, the initial resource allocation ratio is set as follows: the uplink exclusive resource proportion is 0%, the downlink exclusive resource proportion is 0%, and the shared resource proportion is 100%. For the shared resource proportion, the shared resource allocation proportion of the initial uplink scheduling is 50%, and the shared resource allocation proportion of the downlink scheduling is 50%.

Optionally, when the uplink exclusive resource proportion and the downlink exclusive resource proportion are both set to zero, that is, when the shared resource proportion is 100%, all CCE resources of the PDCCH are used as shared resources, and the embodiment of the present invention may dynamically adjust all CCE resources; when the uplink exclusive resource proportion and the downlink exclusive resource proportion are set to be not zero, part of CCE resources of the PDCCH are used as shared resources, and the embodiment of the invention can dynamically adjust the CCE resources of the shared part.

The embodiment of the invention can periodically count the uplink statistical information corresponding to uplink scheduling and the downlink statistical information corresponding to downlink scheduling, wherein the uplink statistical information comprises the number of uplink resources, the demand quantity of the uplink resources and the idle quantity of the uplink resources, and the downlink statistical information comprises the number of downlink resources, the demand quantity of the downlink resources and the idle quantity of the downlink resources. And outputting a statistical result when the statistical period is up. The embodiment of the invention can carry out statistics on a plurality of periods, wherein the period before the current period is a history period. Optionally, when the current period starts, the statistical information counted before the current period may be cleared.

The number of uplink resources refers to the number of resources allowed to be used by uplink in the current period, and includes the number of uplink exclusive CCE resources allowed to be used by uplink and the number of uplink shared CCE resources allowed to be used by uplink.

The uplink resource demand refers to the number of CCE resources required by uplink scheduling in the current period, and the number of CCE resources which are not enough to cause scheduling failure is subtracted. The actual uplink allocation amount refers to the number of CCE resources successfully scheduled for uplink in the current period.

The uplink resource idle amount refers to the number of CCE resources which are not allocated to the number of uplink CCE resources after the current period is finished.

The downlink resource number refers to the number of CCE resources allowed to be used in the downlink in the current period, and includes the number of downlink exclusive CCE resources allowed to be used in the downlink and the number of downlink shared CCE resources allowed to be used in the downlink.

The downlink resource demand refers to the number of CCE resources required by downlink scheduling in the current period, and the number of CCE resources which are not enough to cause scheduling failure is subtracted. The actual downlink allocation amount refers to the number of CCE resources successfully scheduled for downlink in the current period.

The downlink resource idle amount refers to the number of CCE resources which are not allocated to the number of downlink CCE resources after the current period is finished.

102, calculating resource utilization information in the current period according to the uplink statistical information and the downlink statistical information, wherein the resource utilization information comprises: the uplink resource satisfaction rate, the uplink resource vacancy rate, the downlink resource satisfaction rate and the downlink resource vacancy rate.

After the current period is counted, calculating resource utilization information in the current period according to the uplink statistical information and the downlink statistical information, specifically, the uplink resource satisfaction rate is uplink actual allocation amount/uplink resource demand, the uplink resource vacancy rate is uplink resource vacancy amount/uplink resource demand, and similarly, the downlink resource satisfaction rate is downlink actual allocation amount/downlink resource demand, and the downlink resource vacancy rate is downlink resource vacancy amount/downlink resource demand. Lower satisfaction rates indicate a lack of resources and higher idleness rates indicate more idle resources.

And 103, adjusting the sharing resource allocation proportion of the uplink scheduling and the downlink scheduling according to the resource utilization information.

Optionally, the adjusting, according to the resource utilization information, the allocation ratio of the shared resources in uplink scheduling and downlink scheduling includes: and adjusting the distribution proportion of the uplink scheduling and the downlink scheduling in the proportion of the shared resources according to the resource utilization information.

When the current period is over, the demand condition of the CCE resources may be evaluated and predicted according to the resource utilization information, and the allocation ratio of the shared resources in uplink scheduling and downlink scheduling in the shared resources of the current period is adjusted, for example, the shared resource ratio of the current period is 40%, where the allocation ratio of the shared resources in uplink scheduling is 20%, and the allocation ratio of the shared resources in downlink scheduling is 20%, and assuming that according to the resource utilization information of the current period, it is known that the uplink resources are more tense and the downlink resources are more idle, the allocation ratio of the shared resources in uplink scheduling in the shared resource ratio may be adjusted to 30%, and the allocation ratio of the shared resources in downlink scheduling may be adjusted to 10%.

And step 104, in the next period, allocating the shared channel resources for uplink scheduling and downlink scheduling according to the adjusted shared resource allocation proportion.

And inputting the adjusted sharing resource allocation proportion of the uplink scheduling and the downlink scheduling into the next period, and allocating the sharing channel resources for the uplink scheduling and the downlink scheduling according to the adjusted sharing resource allocation proportion in the next period.

It should be noted that, regarding the duration of the period, a person skilled in the art may set the period according to an actual service situation, and the present invention is not limited.

To sum up, the embodiment of the present invention calculates the resource utilization information according to the uplink statistical information and the downlink statistical information in the current period, and automatically adjusts the sharing resource allocation ratio of the uplink scheduling and the downlink scheduling according to the resource utilization information, so that the resource allocation can be performed in the next period according to the adjusted sharing resource allocation ratio. Therefore, the embodiment of the invention can automatically and dynamically adjust the sharing resource allocation proportion based on the current period without human intervention, thereby improving the resource utilization rate and the network utilization rate, reducing the cost and ensuring the stability of the service.

Method embodiment two

In practical applications, the following four resource usage scenarios may occur: the uplink and downlink are all tense, the uplink is tensed and the downlink is idle, the uplink is idle and the downlink is tense, and the uplink and the downlink are idle. Wherein, the tense means that the actual resource distribution amount is less than the resource demand amount, and the idle means that the resource demand amount is less than the actual resource distribution amount. Referring to fig. 2, a flowchart of a second embodiment of the resource control method according to the present invention is shown, and as shown in fig. 2, the embodiment of the present invention adjusts the sharing resource allocation ratio for the above four scenarios. The method specifically comprises the following steps:

step 201, counting uplink statistical information corresponding to uplink scheduling and downlink statistical information corresponding to downlink scheduling in a current period, where the uplink statistical information includes an uplink resource number, an uplink resource demand and an uplink resource idle amount, and the downlink statistical information includes a downlink resource number, a downlink resource demand and a downlink resource idle amount.

Optionally, before step 201, the method further includes: setting an initial resource allocation proportion, wherein the initial resource allocation proportion comprises the following steps: an uplink exclusive resource proportion, a downlink exclusive resource proportion, and a shared resource proportion.

Step 202, calculating resource utilization information in the current period according to the uplink statistical information and the downlink statistical information, wherein the resource utilization information comprises: the uplink resource satisfaction rate, the uplink resource vacancy rate, the downlink resource satisfaction rate and the downlink resource vacancy rate.

Optionally, before step 202, the method further includes: and linearly averaging the statistical information of the current period and the statistical information of the historical period according to the proportion of the preset aging factor.

According to the current period statistical information and the historical period statistical information, the weight of the current period statistical information is adjusted through the aging factor, so that the service fluctuation is smoothed, the distribution proportion of the shared resources can be smoothed when the service fluctuates suddenly through the smoothed current period statistical information, the distribution proportion of the shared resources is kept changing within a certain range, and the stability of the resources is kept. The preset aging factor is set by a person skilled in the art according to the service condition. For example, if the aging factor corresponding to the current period is 4, the aging factor corresponding to the first period before the current period is 3, and the aging factor corresponding to the second period before the current period is 3, the weight of the statistical information of the current period is 0.4, the weight of the statistical information of the first period before the current period is 0.3, and the weight of the statistical information of the second period before the current period is 0.3, the final statistical information is obtained according to the weights according to the statistical information of the three periods, and the resource utilization information is calculated according to the final statistical information.

It should be noted that, the method adopted for smoothing the traffic fluctuation is not particularly limited. The period duration may also be adjusted, the longer the period is, the smoother the adjustment according to the statistical information is, the setting of the specific period duration is adjusted according to the needs of the skilled person in the art, for example, the period duration may be increased under the condition of slow service change, and the period duration may be decreased under the condition of fast service change.

Optionally, after step 202, the method further includes: and judging the sizes of the idle rate of the uplink resource and a preset uplink idle threshold and the idle rate of the downlink resource and a preset downlink idle threshold.

It should be noted that, in the embodiment of the present invention, the allocation ratio of the shared resource is adjusted for the above four scenarios, and the following scenarios are described, where the four scenarios are selected in parallel.

Situation one

Step 203, calculating an adjustment factor when the uplink resource idle rate is smaller than the preset uplink idle threshold and the downlink resource idle rate is smaller than the preset downlink idle threshold.

Optionally, the calculating an adjustment factor includes: and subtracting a preset satisfaction rate difference value from the uplink resource satisfaction rate, and then subtracting the downlink resource satisfaction rate to obtain a result, which is used as the adjustment factor.

The preset uplink idle threshold and the preset downlink idle threshold are set by a person skilled in the art according to actual service needs, and the setting can be set according to the degree of the requirement of the uplink and the downlink on resources or the difference of service conditions, so that the uplink idle threshold and the downlink idle threshold can be the same or different.

And under the condition that the uplink resource vacancy rate is smaller than the preset uplink vacancy threshold and the downlink resource vacancy rate is smaller than the preset downlink vacancy threshold, namely under the condition that uplink and downlink resources are in shortage, calculating an adjusting factor, wherein the adjusting factor is the uplink resource satisfaction rate, the preset satisfaction rate difference and the downlink resource satisfaction rate.

The preset satisfaction rate difference refers to a difference value that is preset and should be met between the uplink resource satisfaction rate and the downlink resource satisfaction rate, and a specific numerical value of the difference value can be set by a person skilled in the art according to a service requirement. Optionally, when both uplink and downlink resources are in shortage, the resource supply scheduled by one of the uplink or downlink may be preferentially ensured by setting a preset satisfaction rate difference. For example, in practical application, because the uplink scheduling time slot of the TDD system is few, the supply of the uplink resource can be preferentially ensured under a general condition, and if the preset satisfaction rate difference value can be set to zero, the supply of the uplink resource can be preferentially ensured, and meanwhile, the requirement of the downlink resource can also be satisfied.

Step 203 is followed by step 204 of adjusting the allocation ratio of the uplink scheduling shared resource to the downlink scheduling shared resource according to the adjustment factor.

Optionally, step 204 includes: if the adjustment factor is larger than 0, increasing the sharing resource allocation proportion of downlink scheduling and reducing the sharing resource allocation proportion of uplink scheduling; and if the adjusting factor is less than 0, increasing the sharing resource allocation proportion of the uplink scheduling and reducing the sharing resource allocation proportion of the downlink scheduling.

It should be noted that, optionally, when the adjustment factor is equal to 0, the current allocation ratio of the shared resource may be kept unchanged.

For example, the initial resource allocation proportion in the current period is as follows: the uplink exclusive resource proportion is 30%, and the downlink exclusive resource proportion is 30%. The shared resource proportion is 40% (dynamic adjustment is performed on part of CCE resources), wherein, for the shared resource proportion, the shared resource allocation proportion for uplink scheduling is 20%, the shared resource allocation proportion for downlink scheduling is 20%, the preset satisfaction rate difference is 10%, the preset uplink idle threshold is 20%, and the preset downlink idle threshold is 10%. After the current period is finished, the resource utilization information obtained by calculation is as follows: the uplink resource satisfaction rate is 50%, the uplink resource vacancy rate is 0%, the downlink resource satisfaction rate is 90%, and the downlink resource vacancy rate is 0%, at this time, the uplink resource vacancy rate is 0% smaller than 20% of the preset uplink vacancy threshold, the downlink resource vacancy rate is 0% smaller than 10% of the preset downlink vacancy threshold, and therefore the uplink and downlink resources are in shortage. The adjustment factor is 50% of the uplink resource satisfaction rate, 10% of the preset satisfaction rate difference value, and 90% of the downlink resource satisfaction rate, namely 50%, because the adjustment factor is less than 0, the sharing resource allocation proportion of the uplink scheduling is increased, and the sharing resource allocation proportion of the downlink scheduling is reduced.

It should be noted that, the increase of the uplink shared resource is equal to the decrease of the downlink shared resource, and finally, the allocation proportion of the uplink shared resource is increased by 20%, and the total of the increased uplink resources is: the uplink exclusive resource 30% + the uplink shared resource allocation proportion 20% + the increased uplink shared resource allocation proportion 20% + is 70%, that is, after adjustment, the shared resource allocation proportion of uplink scheduling is 40%; the allocation proportion of the shared resources of the downlink scheduling is reduced by 20%, and the reduced downlink resources are: 30% of downlink exclusive resource + 20% of downlink shared resource allocation proportion, and 30% of reduced downlink shared resource allocation proportion 20%, that is, after adjustment, the shared resource allocation proportion of downlink scheduling is 0%.

For another example, the initial resource allocation proportion in the current period is as follows: the uplink exclusive resource proportion is 0%, and the downlink exclusive resource proportion is 0%. The shared resource proportion is 100% (dynamic adjustment is performed on all CCE resources), wherein, for the shared resource proportion, the shared resource allocation proportion for uplink scheduling is 50%, the shared resource allocation proportion for downlink scheduling is 50%, the preset satisfaction rate difference is 10%, the preset uplink idle threshold is 20%, and the preset downlink idle threshold is 10%. After the current period is finished, the resource utilization information obtained by calculation is as follows: the uplink resource satisfaction rate is 50%, the uplink resource vacancy rate is 0%, the downlink resource satisfaction rate is 90%, and the downlink resource vacancy rate is 0%, at this time, the uplink resource vacancy rate is 0% smaller than 20% of the preset uplink vacancy threshold, the downlink resource vacancy rate is 0% smaller than 10% of the preset downlink vacancy threshold, and therefore the uplink and downlink resources are in shortage. The adjustment factor is 50% of the uplink resource satisfaction rate, 10% of the preset satisfaction rate difference value, and 90% of the downlink resource satisfaction rate, namely 50%, because the adjustment factor is less than 0, the sharing resource allocation proportion of the uplink scheduling is increased, and the sharing resource allocation proportion of the downlink scheduling is reduced.

It should be noted that, the increase of the uplink shared resource is equal to the decrease of the downlink shared resource, and finally, the allocation proportion of the uplink scheduled shared resource is increased by 25%, and the adjusted uplink resources are: the uplink shared resource allocation proportion is 50% + the increased uplink shared resource allocation proportion is 25% ═ 75%; the distribution proportion of the shared resources of the downlink scheduling after adjustment is reduced by 25%, and the downlink resources are: the downlink shared resource allocation proportion is 50 percent, and the reduced downlink shared resource allocation proportion is 25 percent.

In addition, when the uplink and downlink resources are all in shortage, the uplink and downlink resources can be distributed according to a preset resource distribution proportion without dynamic adjustment.

Optionally, after the adjustment factor is calculated, according to the resource utilization information, the allocation ratio of the shared resources in uplink scheduling and downlink scheduling may be adjusted step by a preset adjustment step length, or the allocation ratio of the shared resources may be adjusted to the target allocation ratio at a time by the adjustment factor. The different adjustment factors obtained by calculation correspond to different resource quantities, and the larger the adjustment factor is in value, the more the resource quantity is adjusted. For example, when the adjustment factor is calculated to be 10%, the number of resources to be adjusted is 20, and when the adjustment factor is-20%, the number of resources to be adjusted is 40.

Situation two

Step 205, in case that the uplink resource idle rate is smaller than a preset uplink idle threshold and the downlink resource idle rate is larger than a preset downlink idle threshold, determining whether the downlink resource idle rate is larger than a preset downlink idle adjustment threshold.

Step 205 is followed by executing step 206, and if the idle rate of the downlink resource is greater than the preset downlink idle adjustment threshold, increasing the allocation ratio of the shared resource in the uplink scheduling and decreasing the allocation ratio of the shared resource in the downlink scheduling.

It should be noted that, under the condition that the idle rate of the uplink resource is smaller than a preset uplink idle threshold and the idle rate of the downlink resource is larger than a preset downlink idle threshold, if the idle rate of the downlink resource is smaller than the preset downlink idle adjustment threshold, the current allocation proportion of the shared resource is kept unchanged.

And when the idle rate of the uplink resources is less than a preset uplink idle threshold and the idle rate of the downlink resources is greater than a preset downlink idle threshold, namely the uplink resources are in shortage, judging whether the idle rate of the downlink resources is greater than a preset downlink idle adjustment threshold or not under the condition that the downlink resources are idle, and when the idle rate of the downlink resources is greater than the preset downlink idle adjustment threshold, indicating that the idle amount of the downlink resources can be allocated to the uplink for scheduling.

Scene three

Step 207, judging whether the idle rate of the uplink resource is greater than a preset uplink idle adjustment threshold or not under the condition that the idle rate of the uplink resource is greater than a preset uplink idle threshold and the idle rate of the downlink resource is less than a downlink preset idle threshold.

Step 207 is followed by step 208, in which if the uplink resource idle rate is greater than the preset uplink idle adjustment threshold, the allocation ratio of the shared resources in the downlink scheduling is increased, and the allocation ratio of the shared resources in the uplink scheduling is decreased.

It should be noted that, under the condition that the idle rate of the uplink resource is greater than a preset uplink idle threshold and the idle rate of the downlink resource is less than a preset downlink idle threshold, if the idle rate of the uplink resource is less than the preset uplink idle adjustment threshold, the current allocation proportion of the shared resource is kept unchanged.

And when the uplink resource vacancy rate is greater than the preset uplink vacancy threshold and the downlink resource vacancy rate is less than the downlink preset vacancy threshold, namely the uplink resource is vacant, under the condition that the downlink resource is in shortage, judging whether the uplink resource vacancy rate is greater than a preset uplink vacancy adjustment threshold, and when the uplink resource vacancy rate is greater than the preset uplink vacancy adjustment threshold, indicating that the vacancy amount of the uplink resource can be allocated to the downlink for scheduling.

The uplink idle adjustment threshold and the downlink idle adjustment threshold are set by a person skilled in the art according to actual service needs, in order to avoid a situation that no available resource exists when a service changes due to the fact that a shared resource allocated on a resource idle side is completely occupied by a resource tight side, for example, if the uplink resource idle rate is 10% and is greater than the uplink idle resource adjustment threshold by 5%, the shared resource allocated by the uplink resource can be allocated to the downlink. The setting can be set differently according to the degree of the requirement of the uplink and the downlink on the resources or the service condition, so that the uplink idle adjustment threshold and the downlink idle adjustment threshold can be the same or different. Optionally, in order to ensure that the uplink resource is available, the downlink idle adjustment threshold may be set to 0, and the uplink idle adjustment threshold may be set to non-0.

It should be noted that, in the process of adjusting the allocation ratio of the shared resources in the uplink scheduling and the downlink scheduling, the ratio of increasing/decreasing the uplink shared resources is equal to the ratio of decreasing/increasing the downlink shared resources. The adjustment of the shared resource proportion can be performed according to the configured adjustment step length, and for the condition that one side of the resource is idle, the resource on the idle side can be partially or completely allocated to the resource on the resource-tight side according to the resource requirement on the resource-tight side.

For example, the initial resource allocation proportion in the current period is as follows: the uplink exclusive resource proportion is 30%, and the downlink exclusive resource proportion is 30%. The shared resource proportion is 40% (dynamic adjustment is performed on part of CCE resources), wherein, for the shared resource proportion, the shared resource allocation proportion for uplink scheduling is 20%, the shared resource allocation proportion for downlink scheduling is 20%, the preset uplink idle threshold is 20%, the preset downlink idle threshold is 10%, and the preset uplink idle adjustment threshold is 30%. After the current period is finished, the resource utilization information obtained by calculation is as follows: the uplink resource satisfaction rate is 100%, the uplink resource vacancy rate is 50%, the downlink resource satisfaction rate is 80%, and the downlink resource vacancy rate is 0%, at this time, 50% of the uplink resource vacancy rate is greater than 20% of the preset uplink vacancy threshold, 0% of the downlink resource vacancy rate is less than 10% of the preset downlink vacancy threshold, 50% of the uplink resource vacancy rate is greater than 30% of the preset uplink resource vacancy adjustment threshold, at this time, the uplink resource is vacant, and the downlink resource is in shortage. The downlink resource balance is 50% × (100% -80%) which is 10%, so the allocation ratio of the shared resources for uplink scheduling can be reduced by 10% and the allocation ratio of the shared resources for downlink scheduling can be increased by 10%. After adjustment, the uplink resources are: uplink exclusive resource 30% + uplink shared resource allocation ratio 20% — reduced uplink shared resource allocation ratio 10% ═ 40%, downlink resources are: the downlink exclusive resource 30% + the downlink shared resource allocation ratio 20% + the increased downlink shared resource allocation ratio 10% ═ 60%.

For another example, the initial resource allocation proportion in the current period is as follows: the uplink exclusive resource proportion is 0%, and the downlink exclusive resource proportion is 0%. The shared resource proportion is 100% (dynamic adjustment is performed on all CCE resources), wherein, for the shared resource proportion, the shared resource allocation proportion for uplink scheduling is 50%, the shared resource allocation proportion for downlink scheduling is 50%, the preset uplink idle threshold is 20%, the preset downlink idle threshold is 10%, and the preset uplink idle adjustment threshold is 30%. After the current period is finished, the resource utilization information obtained by calculation is as follows: the uplink resource satisfaction rate is 100%, the uplink resource vacancy rate is 50%, the downlink resource satisfaction rate is 80%, and the downlink resource vacancy rate is 0%, at this time, the uplink resource vacancy rate is 50% greater than the preset uplink vacancy threshold by 20%, the downlink resource vacancy rate is less than the preset downlink vacancy threshold by 10%, the uplink resource vacancy rate is 50% greater than the preset uplink resource vacancy adjustment threshold by 30%, at this time, the uplink resource is vacant, and the downlink resource is in tension. The downlink resource balance is 50% × (100% -80%) which is 10%, so the allocation ratio of the shared resources for uplink scheduling can be reduced by 10% and the allocation ratio of the shared resources for downlink scheduling can be increased by 10%. After adjustment, the uplink resources are: the uplink shared resource allocation proportion is 50% -the decreased uplink shared resource allocation proportion is 10% -40%, and the downlink resources are: the downlink shared resource allocation ratio 50% + the increased downlink shared resource allocation ratio 10% ═ 60%.

Scene four

Step 209, under the condition that the uplink resource idle rate is greater than the preset uplink idle threshold and the downlink resource idle rate is greater than the preset downlink idle threshold, keeping the current sharing resource allocation proportion unchanged.

When the idle rate of the uplink resource is greater than the preset uplink idle threshold and the idle rate of the downlink resource is greater than the preset downlink idle threshold, it indicates that both the uplink resource and the downlink resource are idle, and at this time, the current allocation proportion of the shared resource can be kept unchanged.

After the allocation ratio of the shared resource is adjusted through one of the above four scenarios, step 210 is performed.

And step 210, in the next period, allocating shared channel resources for uplink scheduling and downlink scheduling according to the adjusted shared resource allocation proportion.

And inputting the adjusted allocation proportion of the uplink scheduling shared resources and the downlink scheduling shared resources into the next period, and allocating the shared channel resources for the uplink scheduling and the downlink scheduling in the next period according to the adjusted allocation proportion of the shared resources.

To sum up, the embodiment of the present invention calculates the resource utilization information according to the uplink statistical information and the downlink statistical information in the current period, and automatically adjusts the sharing resource allocation ratio of uplink scheduling and downlink scheduling according to four scenarios corresponding to the resource utilization information in different adjustment manners according to the scenarios, so that the next period can allocate all or part of resources according to the adjusted sharing resource allocation ratio. Therefore, the embodiment of the invention can automatically and dynamically adjust the sharing resource allocation proportion based on the current period without human intervention, thereby improving the resource utilization rate and the network utilization rate, reducing the cost and ensuring the stability of the service.

EXAMPLE III

Referring to fig. 3, a flowchart illustrating a method for dynamically adjusting a shared resource allocation ratio of uplink scheduling and downlink scheduling according to the present invention is shown, which specifically includes:

step 301, judging whether the idle rate of the uplink resource is greater than an uplink idle threshold; if yes, go to step 302, otherwise go to step 303.

Step 302, judging whether the idle rate of the downlink resource is greater than a downlink idle threshold; if so, the process ends, otherwise, go to step 304.

Step 301 and step 302 are used to determine the usage of uplink resource and downlink resource, when the idle rate of uplink resource is greater than the idle threshold of uplink, it indicates that the uplink resource is idle, and when the idle rate of uplink resource is less than the idle threshold of uplink, it indicates that the uplink resource is in short supply. When the idle rate of the downlink resource is greater than the idle threshold of the downlink, the uplink resource is idle, and when the idle rate of the downlink resource is less than the idle threshold of the downlink, the downlink resource is in shortage.

When the idle rate of the uplink resource is greater than the idle threshold of the uplink, step 302 is continuously executed, and when the idle rate of the downlink resource is greater than the idle threshold of the downlink, it indicates that the uplink resource is idle and the downlink resource is also idle, and at this time, the allocation ratio of the shared resource is not adjusted. When the idle rate of the downlink resource is less than the idle threshold of the downlink resource, it indicates that the uplink resource is idle and the downlink resource is in tension, and step 304 is continuously executed.

Step 303, judging whether the idle rate of the downlink resource is greater than a downlink idle threshold; if so, go to step 305, otherwise, go to step 306.

When the idle rate of the uplink resource is smaller than the idle threshold of the uplink, continuing to execute step 303, and when the idle rate of the downlink resource is larger than the idle threshold of the downlink resource, indicating that the uplink resource is in shortage and the downlink resource is idle, continuing to execute step 305; when the idle rate of the downlink resource is less than the idle threshold of the downlink resource, it indicates that the uplink resource is in tension, and the downlink resource is also in tension, and step 306 is continuously executed.

Step 304, judging whether the idle rate of the uplink resource is greater than an uplink idle adjustment threshold; if yes, go to step 307, otherwise, the process ends.

And judging whether the idle rate of the uplink resources is greater than an uplink idle adjustment threshold or not under the condition that the uplink resources are idle and the downlink resources are in shortage. When the idle rate of the uplink resource is greater than the uplink idle adjustment threshold, it indicates that the uplink resource is idle and the idle resource can be allocated to the downlink, and step 307 is continuously executed; when the idle rate of the uplink resource is smaller than the uplink idle adjustment threshold, the uplink resource is idle, but the idle resource cannot be allocated to the downlink, and the allocation proportion of the shared resource is not adjusted.

Step 305, judging whether the idle rate of the downlink resource is greater than a downlink idle adjustment threshold; if so, go to step 309, otherwise, the process ends.

And under the condition that the uplink resources are in shortage and the downlink resources are idle, judging whether the idle rate of the downlink resources is greater than a downlink idle adjustment threshold or not. When the idle rate of the downlink resource is greater than the idle adjustment threshold, it indicates that the downlink resource is idle and can allocate the idle resource to the uplink, and step 309 is continuously executed; when the idle rate of the downlink resource is smaller than the downlink idle adjustment threshold, the downlink resource is idle, but the idle resource cannot be allocated to the uplink, and the allocation proportion of the shared resource is not adjusted.

Step 306, judging whether the adjustment factor is larger than 0; if greater than 0, go to step 308, if less than 0, go to step 309, if equal to 0, the process ends.

Under the condition that the uplink resources are in shortage and the downlink resources are also in shortage, an adjusting factor is calculated, and the sharing resource allocation proportion is adjusted according to the size of the adjusting factor.

Step 307, the operation of increasing the allocation ratio of the downlink shared resource and decreasing the allocation ratio of the uplink shared resource is performed.

And under the conditions that the uplink resources are idle and are in tension and the idle rate of the uplink resources is greater than the uplink idle adjustment threshold, increasing the allocation proportion of the downlink shared resources and reducing the allocation proportion of the uplink shared resources.

Step 308, the operation of increasing the allocation ratio of the downlink shared resource and decreasing the allocation ratio of the uplink shared resource is performed.

And under the condition that the uplink resources are in tension and the downlink resources are also in tension and the adjustment factor is greater than 0, increasing the distribution proportion of the downlink shared resources and reducing the distribution proportion of the uplink shared resources.

Step 309, executing the operation of increasing the allocation ratio of the uplink shared resource and decreasing the allocation ratio of the downlink shared resource.

And under the condition that the uplink resources are in tension and the downlink resources are also in tension, and the adjustment factor is less than 0, increasing the allocation proportion of the uplink shared resources and reducing the allocation proportion of the downlink shared resources. And increasing the allocation proportion of the uplink shared resources and reducing the allocation proportion of the downlink shared resources under the conditions that the uplink resources are in shortage, the downlink resources are idle and the idle rate of the downlink resources is greater than the downlink idle adjustment threshold.

In summary, the embodiment of the present invention automatically adjusts the allocation ratio of the shared resources for uplink scheduling and downlink scheduling according to the idle ratio of the uplink resources and the idle ratio of the downlink resources, so that the allocation of all or part of the resources can be performed in the next period according to the adjusted allocation ratio of the shared resources. Therefore, the embodiment of the invention can automatically and dynamically adjust the sharing resource allocation proportion based on the current period without human intervention, thereby improving the resource utilization rate and the network utilization rate, reducing the cost and ensuring the stability of the service.

Device embodiment

Referring to fig. 4, a block diagram of a resource control device according to an embodiment of the present invention is shown, which may specifically include:

a counting module 401, configured to count uplink statistical information corresponding to uplink scheduling and downlink statistical information corresponding to downlink scheduling in a current period, where the uplink statistical information includes an uplink resource number, an uplink resource demand amount, and an uplink resource idle amount, and the downlink statistical information includes a downlink resource number, a downlink resource demand amount, and a downlink resource idle amount;

a calculating module 402, configured to calculate resource utilization information in a current period according to the uplink statistical information and the downlink statistical information, where the resource utilization information includes: the uplink resource satisfaction rate, the uplink resource vacancy rate, the downlink resource satisfaction rate and the downlink resource vacancy rate;

an adjusting module 403, configured to adjust a sharing resource allocation ratio of uplink scheduling and downlink scheduling according to the resource utilization information;

an allocating module 404, configured to allocate, in the next period, shared channel resources for uplink scheduling and downlink scheduling according to the adjusted shared resource allocation proportion.

Optionally, the adjusting module 403 includes:

a module for calculating an adjustment factor, configured to calculate an adjustment factor when the uplink resource idle rate is smaller than the preset uplink idle threshold and the downlink resource idle rate is smaller than the preset downlink idle threshold;

and the first adjusting submodule is used for adjusting the sharing resource allocation proportion of the uplink scheduling and the downlink scheduling according to the adjusting factor.

Optionally, the sub-module for calculating the adjustment factor includes:

a calculation adjustment factor unit, configured to subtract a preset satisfaction rate difference from the uplink resource satisfaction rate and then subtract the downlink resource satisfaction rate to obtain a result, which is used as the adjustment factor;

optionally, the first adjusting sub-module includes:

a first adjusting unit, configured to increase a shared resource allocation proportion of downlink scheduling and decrease the shared resource allocation proportion of uplink scheduling if the adjustment factor is greater than 0; and if the adjusting factor is less than 0, increasing the sharing resource allocation proportion of the uplink scheduling and reducing the sharing resource allocation proportion of the downlink scheduling.

Optionally, the adjusting module 403 includes:

the first judgment sub-module is used for judging whether the idle rate of the downlink resource is greater than a preset downlink idle adjustment threshold or not under the condition that the idle rate of the uplink resource is less than a preset uplink idle threshold and the idle rate of the downlink resource is greater than a preset downlink idle threshold;

and the second adjusting submodule is used for increasing the sharing resource allocation proportion of the uplink scheduling and reducing the sharing resource allocation proportion of the downlink scheduling if the idle rate of the downlink resource is greater than the preset downlink idle adjusting threshold.

Optionally, the adjusting module 403 includes:

a second judging sub-module, configured to judge whether the uplink resource idle rate is greater than a preset uplink idle adjustment threshold or not, when the uplink resource idle rate is greater than a preset uplink idle threshold and the downlink resource idle rate is less than a downlink preset idle threshold;

and a third adjusting submodule, configured to increase a shared resource allocation proportion of downlink scheduling and decrease the shared resource allocation proportion of uplink scheduling if the uplink resource idle rate is greater than the preset uplink idle adjustment threshold.

Optionally, the adjusting module 403 includes:

and the fourth adjusting submodule is used for keeping the current sharing resource distribution proportion unchanged under the condition that the uplink resource idle rate is greater than a preset uplink idle threshold and the downlink resource idle rate is greater than a preset downlink idle threshold.

Optionally, the apparatus further comprises:

a setting module, configured to set an initial resource allocation ratio, where the initial resource allocation ratio includes: an uplink exclusive resource proportion, a downlink exclusive resource proportion and a shared resource proportion;

the adjusting module is specifically configured to adjust a distribution ratio of uplink scheduling and downlink scheduling in the shared resource ratio according to the resource utilization information.

In summary, the embodiment of the present invention can calculate the resource utilization information according to the uplink statistical information and the downlink statistical information in the current period, and automatically adjust the sharing resource allocation ratio according to the resource utilization information, so that the next period performs resource allocation according to the adjusted sharing resource allocation ratio. Therefore, the embodiment of the invention can automatically and reasonably adjust the sharing resource distribution proportion based on the historical period without human intervention and monitoring, thereby improving the resource utilization rate and the network utilization rate, reducing the cost and ensuring the stability of the service.

Referring to fig. 5, a schematic structural diagram of an electronic device according to another embodiment of the present invention is shown.

Referring to fig. 5, the electronic device comprises a memory 501, a processor 502, a bus 503, and a computer program stored on the memory 501 and executable on the processor. The memory 501 and the processor 502 complete communication with each other through the bus 503.

The processor 502 is configured to call a program instruction in the processor 501, so as to implement the steps of the resource control method according to the embodiment of the present invention when executing the program.

A storage medium according to another embodiment of the present invention stores a computer program, and the computer program is executed by a processor to implement the steps of the resource control method according to the embodiment of the present invention.

The embodiments in the present specification are described in a progressive manner, each embodiment focuses on differences from other embodiments, and the same and similar parts among the embodiments are referred to each other.

With regard to the apparatus in the above-described embodiment, the specific manner in which each module performs the operation has been described in detail in the embodiment related to the method, and will not be elaborated here.

As will be appreciated by one skilled in the art, embodiments of the present invention may be provided as a method, apparatus, or computer program product. Accordingly, embodiments of the present invention may take the form of an entirely hardware embodiment, an entirely software embodiment or an embodiment combining software and hardware aspects. Furthermore, embodiments of the present invention may take the form of a computer program product embodied on one or more computer-usable storage media (including, but not limited to, disk storage, CD-ROM, optical storage, and the like) having computer-usable program code embodied therein.

Embodiments of the present invention are described with reference to flowchart illustrations and/or block diagrams of methods, terminal devices (systems), and computer program products according to embodiments of the invention. It will be understood that each flow and/or block of the flow diagrams and/or block diagrams, and combinations of flows and/or blocks in the flow diagrams and/or block diagrams, can be implemented by computer program instructions. These computer program instructions may be provided to a processor of a general purpose computer, special purpose computer, embedded processor, or other programmable data processing terminal to produce a machine, such that the instructions, which execute via the processor of the computer or other programmable data processing terminal, create means for implementing the functions specified in the flowchart flow or flows and/or block diagram block or blocks.

These computer program instructions may also be stored in a computer-readable memory that can direct a computer or other programmable data processing terminal to function in a particular manner, such that the instructions stored in the computer-readable memory produce an article of manufacture including instruction means which implement the function specified in the flowchart flow or flows and/or block diagram block or blocks.

These computer program instructions may also be loaded onto a computer or other programmable data processing terminal to cause a series of operational steps to be performed on the computer or other programmable terminal to produce a computer implemented process such that the instructions which execute on the computer or other programmable terminal provide steps for implementing the functions specified in the flowchart flow or flows and/or block diagram block or blocks.

While preferred embodiments of the present invention have been described, additional variations and modifications of these embodiments may occur to those skilled in the art once they learn of the basic inventive concepts. Therefore, it is intended that the appended claims be interpreted as including preferred embodiments and all such alterations and modifications as fall within the scope of the embodiments of the invention.

Finally, it should also be noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or terminal that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or terminal. Without further limitation, an element defined by the phrase "comprising an … …" does not exclude the presence of other like elements in a process, method, article, or terminal that comprises the element.

The resource control method and apparatus provided by the present invention are introduced in detail, and a specific example is applied in the text to explain the principle and the implementation of the present invention, and the description of the above embodiment is only used to help understanding the method and the core idea of the present invention; meanwhile, for a person skilled in the art, according to the idea of the present invention, there may be variations in the specific embodiments and the application scope, and in summary, the content of the present specification should not be construed as a limitation to the present invention.

Claims

1. A method for resource control, the method comprising:

2. The method according to claim 1, wherein the adjusting the allocation ratio of the shared resources for uplink scheduling and downlink scheduling according to the resource utilization information comprises:

calculating an adjustment factor under the condition that the uplink resource idle rate is smaller than the preset uplink idle threshold and the downlink resource idle rate is smaller than the preset downlink idle threshold;

and adjusting the sharing resource allocation proportion of the uplink scheduling and the downlink scheduling according to the adjusting factor.

3. The method of claim 2, wherein the calculating an adjustment factor comprises:

subtracting a preset satisfaction rate difference value from the uplink resource satisfaction rate, and then subtracting the downlink resource satisfaction rate to obtain a result which is used as the adjustment factor;

the adjusting the sharing resource allocation proportion of the uplink scheduling and the downlink scheduling according to the adjusting factor comprises:

if the adjustment factor is larger than 0, increasing the sharing resource allocation proportion of downlink scheduling and reducing the sharing resource allocation proportion of uplink scheduling; and if the adjusting factor is less than 0, increasing the sharing resource allocation proportion of the uplink scheduling and reducing the sharing resource allocation proportion of the downlink scheduling.

4. The method according to claim 1, wherein the adjusting the allocation ratio of the shared resources for uplink scheduling and downlink scheduling according to the resource utilization information comprises:

judging whether the idle rate of the downlink resource is greater than a preset downlink idle adjustment threshold or not under the condition that the idle rate of the uplink resource is less than a preset uplink idle threshold and the idle rate of the downlink resource is greater than a preset downlink idle threshold;

and if the idle rate of the downlink resources is greater than the preset downlink idle adjustment threshold, increasing the sharing resource allocation proportion of the uplink scheduling and reducing the sharing resource allocation proportion of the downlink scheduling.

5. The method according to claim 1, wherein the adjusting the allocation ratio of the shared resources for uplink scheduling and downlink scheduling according to the resource utilization information comprises:

judging whether the idle rate of the uplink resource is greater than a preset uplink idle adjustment threshold or not under the condition that the idle rate of the uplink resource is greater than a preset uplink idle threshold and the idle rate of the downlink resource is less than a downlink preset idle threshold;

and if the uplink resource idle rate is greater than the preset uplink idle adjustment threshold, increasing the sharing resource allocation proportion of downlink scheduling and reducing the sharing resource allocation proportion of uplink scheduling.

6. The method according to claim 1, wherein the adjusting the allocation ratio of the shared resources for uplink scheduling and downlink scheduling according to the resource utilization information comprises:

and under the condition that the uplink resource idle rate is greater than a preset uplink idle threshold and the downlink resource idle rate is greater than a preset downlink idle threshold, keeping the current sharing resource allocation proportion unchanged.

7. The method according to claim 1, wherein before the counting the uplink statistical information corresponding to the uplink scheduling and the downlink statistical information corresponding to the downlink scheduling in the current period, the method further comprises:

setting an initial resource allocation proportion, wherein the initial resource allocation proportion comprises the following steps: an uplink exclusive resource proportion, a downlink exclusive resource proportion and a shared resource proportion;

the adjusting the sharing resource allocation proportion of the uplink scheduling and the downlink scheduling according to the resource utilization information comprises:

and adjusting the distribution proportion of the uplink scheduling and the downlink scheduling in the proportion of the shared resources according to the resource utilization information.

8. An apparatus for resource control, the apparatus comprising:

9. The apparatus of claim 8, wherein the adjustment module comprises:

10. The apparatus of claim 9, wherein the calculate adjustment factor submodule comprises:

the first adjusting submodule includes:

11. The apparatus of claim 8, wherein the adjustment module comprises:

12. The apparatus of claim 8, wherein the adjustment module comprises:

13. The apparatus of claim 8, wherein the adjustment module comprises:

14. The apparatus of claim 8, further comprising:

15. An electronic device, comprising: processor, memory and computer program stored on the memory and executable on the processor, characterized in that the processor implements the resource control method according to one or more of claims 1-7 when executing the program.

16. A readable storage medium, characterized in that instructions in the storage medium, when executed by a processor of an electronic device, enable the electronic device to perform the resource control method according to one or more of method claims 1-7.