CN113260054B - Wireless resource processing method, device, equipment and storage medium - Google Patents

Abstract

The embodiment of the disclosure provides a wireless resource processing method, which includes: receiving a first request message of radio resource configuration; determining the state of the radio resource corresponding to the first request message according to the radio resource management information; when the state of the wireless resource requested to be configured by the first request message is an open state, configuring the wireless resource according to the first request message; wherein the open state includes a state in which configuration parameters of the radio resources are modifiable; after the radio resource configuration is completed, generating radio resource management information indicating that the radio resource is in a locked state; wherein the locked state comprises a state in which configuration parameters of the radio resources are not modifiable.

Description

Wireless resource processing method, device, equipment and storage medium

Technical Field

The present invention relates to the field of communications technologies, and in particular, to a method, an apparatus, a device, and a storage medium for processing a radio resource.

Background

Operators propose open and intelligent radio access networks. Compared with the existing wireless access network architecture and functions, the open and intelligent wireless access network introduces a wireless intelligent controller. The wireless intelligent controller is introduced to improve the intelligent processing capacity of a wireless network by introducing wireless big data, an artificial intelligence technology and a wireless capacity open platform. The method and the system can flexibly and efficiently support complex and various vertical industry services and slicing requirements, realize efficient automatic network management and efficient utilization of spectrum resources in a complex networking environment, reduce the complexity of the existing wireless resource management and scheduling algorithm, improve the performance of a wireless network, reduce the energy consumption of the wireless network and the like.

The wireless intelligent controller comprises a near real-time wireless intelligent controller. The near-Real-Time Radio resource Controller (near-RT RIC) is used for completing near-Real-Time information acquisition of a Radio access network and issuing control resources and the like facing to use cases of allocation, monitoring, control, management and the like of Radio resources. For example, a near real-time wireless intelligent controller provides basic platform functionality to support the deployment and operation of third party applications. Here, the third-party application refers to an application that addresses a problem for a different use case. Such as load balancing, Quality of Experience (QoE) optimization, etc. However, there may be conflicts between different said applications for the requested radio resources for near real-time information acquisition, radio resource allocation, control, etc.

Disclosure of Invention

The embodiment of the disclosure provides a wireless resource processing method, a wireless resource processing device and a storage medium. The technical scheme of the embodiment of the disclosure is realized as follows:

in a first aspect, an embodiment of the present disclosure provides a radio resource processing method, including:

receiving a first request message of radio resource configuration;

determining the state of the radio resource corresponding to the first request message according to the radio resource management information;

when the state of the wireless resource requested to be configured by the first request message is an open state, configuring the wireless resource according to the first request message; wherein the open state comprises a state in which configuration parameters of the radio resources are modifiable;

after the radio resource configuration is completed, generating radio resource management information indicating that the radio resource is in a locked state; wherein the locked state comprises a state in which configuration parameters of the radio resources are not modifiable.

In one embodiment, when the radio resource status corresponding to the first request message is a locked status, the method further includes:

performing conflict processing on the wireless resource requested to be configured, and modifying configuration parameters of the wireless resource; setting the state indicated by the radio resource management information of the radio resource after the configuration parameters are modified to be the locking state;

alternatively, the first request message is rejected.

In one embodiment, the performing the conflict processing of the radio resource requesting configuration and modifying the configuration parameter of the radio resource includes:

receiving the first request message, and modifying the configuration parameters of the wireless resources according to the first request message;

or, optimizing the first request message, and modifying the configuration parameters of the radio resources according to the optimized first request message.

In one embodiment, the accepting the first request message and modifying the configuration parameters of the radio resources according to the first request message includes:

when the priority of the application requesting to configure the wireless resource is higher than the priority of the application occupying the wireless resource, accepting the first request message, and modifying the configuration parameters of the wireless resource according to the first request message;

and/or when the priority of the user requesting to configure the wireless resource is higher than the priority of the user occupying the wireless resource, receiving the first request message, and modifying the configuration parameter of the wireless resource according to the first request message;

and/or when the wireless resource utilization rate of the application requesting for configuring the wireless resource is greater than the wireless resource utilization rate of the application occupying the wireless resource, receiving the first request message, and modifying the configuration parameter of the wireless resource according to the first request message;

and/or when the service quality standard rate of the application requesting to configure the wireless resource using the wireless resource is higher than the service quality standard rate of the application occupying the wireless resource using the wireless resource, accepting the first request message, and modifying the configuration parameters of the wireless resource according to the first request message.

In one embodiment, the first request message includes information requesting configuration of a set duration of the radio resource; when the generating of the radio resource management information indicating that the radio resource is in a locked state further comprises:

starting a timer;

the method further comprises the following steps:

and when the timing duration of the timer is equal to the set duration, updating the radio resource management information of the radio resource from the locking state to the opening state.

In one embodiment, the receiving the first request message for radio resource configuration includes:

receiving a first request message of the radio resource configuration in a first setting period;

performing conflict processing for requesting different wireless resources among the first request messages of the multiple wireless resource configurations received in the first setting period, and obtaining the first request messages of the wireless resource configurations after the conflict processing;

the determining the state of the radio resource corresponding to the request message according to the radio resource management information includes:

and determining the state of the wireless resource corresponding to the first request message of the wireless resource configuration after the conflict processing according to the wireless resource management information.

In one embodiment, the performing collision processing for requesting different radio resources among the first request messages of the radio resource configurations received in the first setting period to obtain the first request message of the radio resource configuration after collision processing includes:

when the first request messages of the plurality of wireless resource configurations do not conflict, determining that the first request message of any one wireless resource configuration is the first request message of the wireless resource configuration after conflict processing; when the first request messages of the plurality of the radio resource configurations conflict, one or more first request messages of the radio resource configurations which do not conflict with each other are selected and/or optimized from the first request messages of the plurality of the radio resource configurations, and the first request messages of the radio resource configurations which do not conflict with each other are determined to be the first request messages of the radio resource configurations after the conflict processing.

In one embodiment, the first request message for selecting and/or optimizing one or more radio resource configurations that do not conflict with each other is determined as the first request message for the conflict-processed radio resource configuration, and includes:

selecting a first request message of the radio resource configuration requested by a high-priority application from the first request messages of the plurality of radio resource configurations, and determining the first request message of the radio resource configuration after conflict processing;

and/or, the first request message of the radio resource configuration requested by the high-priority user is selected from the first request messages of the plurality of radio resource configurations, and is determined as the first request message of the radio resource configuration after the conflict processing;

and/or, the first request message of the radio resource configuration with the high radio resource utilization rate is selected from the first request messages of the plurality of radio resource configurations, and the first request message of the radio resource configuration after the conflict processing is determined;

and/or, the first request message of the radio resource configuration with the high standard rate of the requested radio resource service quality is selected from the first request messages of the plurality of radio resource configurations, and is determined as the first request message of the radio resource configuration after the conflict processing;

and/or merging the first request messages of the plurality of radio resource configurations, and determining the merged first request message of the radio resource configuration as the first request message of the radio resource configuration after the collision processing;

and/or selecting from the first request messages of the plurality of radio resource configurations, and determining that the selected first request message of the radio resource configuration is the first request message of the radio resource configuration after the collision processing;

and/or optimizing the first request message of the plurality of radio resource configurations, and determining the optimized first request message of the radio resource configuration as the first request message of the radio resource configuration after the collision processing.

In a second aspect, an embodiment of the present disclosure further provides a method for processing a data subscription, including:

receiving a second request message of data subscription;

and performing conflict processing on the subscription parameters contained in the plurality of second request messages, and acquiring the data based on the subscription parameters after the conflict processing.

In one embodiment, the receiving the second request message for the data subscription includes:

receiving a second request message of data subscription in a second setting period;

the performing of the conflict processing of the subscription parameters included in the plurality of second request messages includes:

and performing conflict processing on the subscription parameters contained in the plurality of second requests received in the second setting period.

In an embodiment, the performing the conflict processing on the subscription parameters included in the plurality of second requests received in the second setting period includes:

when the plurality of second requests contain the same subscription item, merging the subscription items contained in the plurality of second requests received in the second setting period.

In one embodiment, the merging the subscription items included in the plurality of second requests received in the second setting period includes:

when the time granularity of collecting data in the subscription items contained in the plurality of second requests is different, determining the time granularity smaller than a set threshold as the time granularity of collecting data in the combined subscription items.

In a third aspect, an embodiment of the present disclosure further provides a wireless resource processing apparatus, including a first receiving module, a determining module, a configuring module, and a generating module; wherein the content of the first and second substances,

the first receiving module is configured to receive a first request message for radio resource configuration;

the determining module is configured to determine, according to radio resource management information, a state of a radio resource corresponding to the first request message;

the configuration module is configured to configure the radio resource according to the first request message when the state of the radio resource requested to be configured by the first request message is an open state; wherein the open state comprises a state in which configuration parameters of the radio resources are modifiable;

the generating module is configured to generate radio resource management information indicating that the radio resource is in a locked state after the radio resource configuration is completed; wherein the locked state comprises a state in which configuration parameters of the radio resources are not modifiable.

In one embodiment, the configuration module is further configured to perform conflict processing on the radio resource requested to be configured, and modify a configuration parameter of the radio resource; setting the state indicated by the radio resource management information of the radio resource after the configuration parameters are modified to be the locking state; alternatively, the first request message is rejected.

In one embodiment, the configuration module is further configured to accept the first request message, and modify the configuration parameters of the radio resources according to the first request message; or, optimizing the first request message, and modifying the configuration parameters of the radio resources according to the optimized first request message.

In one embodiment, the configuration module is further configured to accept the first request message and modify the configuration parameters of the radio resources according to the first request message when the priority of the application requesting to configure the radio resources is higher than the priority of the application occupying the radio resources;

and/or, when the priority of the user requesting to configure the wireless resource is higher than the priority of the user occupying the wireless resource, receiving the first request message, and modifying the configuration parameter of the wireless resource according to the first request message;

and/or when the radio resource utilization rate of the application requesting for configuring the radio resource is greater than the radio resource utilization rate of the application occupying the radio resource, receiving the first request message, and modifying the configuration parameter of the radio resource according to the first request message;

and/or when the service quality standard reaching rate of the application requesting to configure the wireless resource using the wireless resource is higher than the service quality standard reaching rate of the application occupying the wireless resource using the wireless resource, accepting the first request message, and modifying the configuration parameters of the wireless resource according to the first request message.

In one embodiment, the apparatus further comprises a timer module to start a timer; and is also used for starting a timer; and when the timing duration of the timer is equal to the set duration, updating the radio resource management information of the radio resource from the locking state to the opening state.

In one embodiment, the first receiving module is further configured to receive a first request message of the radio resource configuration in a first setting period; performing conflict processing for requesting different wireless resources among the first request messages of the wireless resource configurations received in the first setting period, and obtaining the first request messages of the wireless resource configurations after the conflict processing; the determining module is further configured to determine, according to the radio resource management information, a state of the radio resource corresponding to the first request message of the radio resource configuration after the conflict processing.

In one embodiment, the first receiving module is further configured to determine that the first request message of any one of the radio resource configurations is the first request message of the radio resource configuration after the collision processing when there is no collision between the first request messages of the plurality of radio resource configurations; when the first request messages of the plurality of the radio resource configurations conflict, one or more first request messages of the radio resource configurations which do not conflict with each other are selected and/or optimized from the first request messages of the plurality of the radio resource configurations, and the first request messages of the radio resource configurations which do not conflict with each other are determined to be the first request messages of the radio resource configurations after the conflict processing.

In one embodiment, the first receiving module is further configured to determine, as the first request message of the conflict-processed radio resource configuration, a first request message of the radio resource configuration requested by a high-priority application from among the first request messages of the plurality of radio resource configurations;

and/or, the first request message of the radio resource configuration requested by the high-priority user is selected from the first request messages of the plurality of radio resource configurations, and is determined as the first request message of the radio resource configuration after the conflict processing;

and/or, the first request message of the radio resource configuration with the high radio resource utilization rate is selected from the first request messages of the plurality of radio resource configurations, and the first request message of the radio resource configuration after the conflict processing is determined;

and/or, the first request message of the radio resource configuration with the high standard rate of the requested radio resource service quality is selected from the first request messages of the plurality of radio resource configurations, and is determined as the first request message of the radio resource configuration after the conflict processing;

and/or merging the first request messages of the plurality of radio resource configurations, and determining the merged first request message of the radio resource configuration as the first request message of the radio resource configuration after the collision processing;

and/or selecting from the first request messages of the plurality of radio resource configurations, and determining that the selected first request message of the radio resource configuration is the first request message of the radio resource configuration after the conflict processing;

and/or optimizing the first request message of the plurality of radio resource configurations, and determining the optimized first request message of the radio resource configuration as the first request message of the radio resource configuration after the conflict processing.

In a fourth aspect, an embodiment of the present disclosure further provides a device for processing data subscription, where the device includes a second receiving module and an obtaining module:

the second receiving module is configured to receive a second request message for data subscription;

the obtaining module is configured to perform conflict processing on subscription parameters included in the plurality of second request messages, and obtain the data based on the subscription parameters after the conflict processing.

In one embodiment, the second receiving module is further configured to receive a second request message for data subscription in a second setting period;

the obtaining module is further configured to perform conflict processing on the subscription parameters included in the plurality of second requests received in the second setting period.

In an embodiment, the obtaining module is further configured to, when multiple second requests include the same subscription item, merge the subscription items included in the multiple second requests received in the second setting period.

In an embodiment, the obtaining module is further configured to determine, when time granularities of collecting data in the subscription items included in the plurality of second requests are different, the time granularity smaller than a set threshold as the time granularity of collecting data in the combined subscription item.

In a fifth aspect, an embodiment of the present disclosure further provides a radio resource processing device, where the device includes: a processor and a memory for storing a computer service capable of running on the processor, wherein the processor is configured to implement the method of any embodiment of the invention when running the computer service.

In a sixth aspect, this disclosed embodiment further provides a storage medium, where the storage medium has computer-executable instructions, and the computer-executable instructions are executed by a processor to implement the method according to any embodiment of the present invention.

The disclosed embodiment provides a method, a device, equipment and a storage medium for processing wireless resources, wherein the method comprises the steps of receiving a first request message for wireless resource configuration; determining the state of the radio resource corresponding to the first request message according to the radio resource management information; when the state of the wireless resource requested to be configured by the first request message is an open state, configuring the wireless resource according to the first request message; wherein the open state comprises a state in which configuration parameters of the radio resources are modifiable. Here, whether to configure the radio resource according to the first request message is determined based on the status of the radio resource indicated by the radio resource management information, and the radio resource is configured according to the first request message when the status of the radio resource requested to be configured by the first request message is an open status. In this way, the conflict of the radio resource allocation caused by directly performing the radio resource allocation without comprehensively considering the state that the current allocation parameter of the radio resource requested to be allocated cannot be modified can be reduced. After the radio resource configuration is completed, generating radio resource management information indicating that the radio resource is in a locked state; wherein the locked state comprises a state in which configuration parameters of the radio resources are not modifiable. Here, after the configuration parameters of the radio resources are modified, the radio resource management information indicating that the radio resources are in the locked state is generated at the same time, and when the request message for the radio resource configuration is received again, the state in which the configuration parameters of the radio resources cannot be modified can be accurately known based on the radio resource management information. In the embodiment of the disclosure, the status of the radio resource is indicated by the radio resource management information, and the radio resource is configured based on the status of the radio resource indicated by the radio resource management information, so that the conflict of radio resource configuration caused by directly performing the radio resource configuration without comprehensively considering the status that the current configuration parameter of the radio resource requested to be configured cannot be modified is reduced.

Drawings

Fig. 1 is a system architecture diagram of a radio access network according to an embodiment of the present disclosure.

Fig. 2 is a flowchart illustrating a radio resource processing method according to an embodiment of the present disclosure.

Fig. 3 is a schematic diagram illustrating a management status of a request message for radio resource configuration according to an embodiment of the present disclosure.

Fig. 4 is a schematic diagram of a status of a radio resource according to an embodiment of the present disclosure.

Fig. 5 is a flowchart illustrating a radio resource processing method according to another embodiment of the disclosure.

Fig. 6 is a flowchart illustrating a radio resource processing method according to another embodiment of the disclosure.

Fig. 7 is a flowchart illustrating a radio resource processing method according to another embodiment of the disclosure.

Fig. 8 is a flowchart illustrating a radio resource processing method according to another embodiment of the disclosure.

Fig. 9 is a flowchart illustrating a radio resource processing method according to another embodiment of the present disclosure.

Fig. 10 is a flowchart illustrating a data subscription processing method according to an embodiment of the present disclosure.

Fig. 11 is a schematic structural diagram of a radio resource processing apparatus according to an embodiment of the present disclosure.

Fig. 12 is a schematic structural diagram of a data subscription processing apparatus according to an embodiment of the present disclosure.

Fig. 13 is a schematic hardware structure diagram of a radio resource processing device according to an embodiment of the present disclosure.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings and examples. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. The terminology used in the description of the invention herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention. As used herein, the term "and/or" includes any and all combinations of one or more of the associated listed items.

Before further detailed description of the disclosed embodiments, in order to facilitate understanding of the disclosed embodiments, an open and intelligent radio access network is described below:

please refer to fig. 1, which is a schematic diagram of a system architecture of a radio access network according to an embodiment of the present disclosure. The wireless intelligent controller comprises a non-real-time wireless intelligent controller 03 and a near-real-time wireless intelligent controller 01. The near-real-time wireless intelligent controller 01 receives a configuration request of the network management/charging system 02 through an O1 interface and receives a configuration request of the non-real-time wireless intelligent controller 03 through an A1 interface, and performs corresponding configuration and information feedback. Meanwhile, the near real-time wireless intelligent controller 01 sends configuration and control information to the base station or a part of the function units 04 (such as a central unit, a distribution unit and a radio remote unit) of the base station through an E2 interface, and receives information such as measurement and the like provided by the base station or a part of the function units of the base station.

The near real-time wireless intelligent controller is oriented to the allocation, detection, control, management and the like of wireless resources, and completes the near real-time information acquisition and control of the wireless access network. The near real-time wireless intelligent controller provides basic platform functions to support the deployment and the operation of third-party applications. Here, the third-party application refers to an application that addresses a problem for a different use case. Such as load balancing, Quality of Experience (QoE) optimization, etc.

Here, there may be a conflict in radio resource configurations requested by different applications for near real-time information acquisition, radio resource allocation, control, etc. Here, the definition of conflict includes at least the following:

1. for the same radio resource management target, the repetition of data acquisition, different time periods or frequencies of data acquisition, different lengths of data acquisition, and the like occur.

2. The same radio resource management target is different in the arrangement of the same type of information in the same time unit. For example, in the same time unit, the UE is configured to be handed over or not handed over.

3. There is contention between radio resource configurations within the same time unit for different radio resource management goals. For example, in the same time unit, the number of resource blocks of 2 UEs requesting configuration is 60, and the total number of the two is 120, which is greater than the total number of resource blocks of the corresponding cell 100.

4. Applications use radio resources beyond a pre-agreed quality of service level. For example, the service level agreed in advance is the highest level of the second level, but the requested service level is the first level; wherein the first grade is better than the second grade.

Here, the cases of generating the conflict include at least the following 2 cases: 1. different applications generate conflict among the configuration parameters requested by the request messages in the same time unit; 2. a conflict arises between the application of the newly generated request message and the configuration parameters that are being validated by the near real-time wireless intelligent controller.

As shown in fig. 2, an embodiment of the present disclosure provides a radio resource processing method, where the method includes:

step 101, a first request message of radio resource configuration is received.

In one embodiment, it may be that the near real-time wireless intelligent controller receives a first request message of the radio resource configuration sent from the non-real-time wireless intelligent controller, the network management system, the charging system and the base station device. Here, the first request message for radio resource configuration includes configuration parameter information of radio resources requested from the near real-time wireless intelligent controller. Here, the first request message of the radio resource configuration may further include a cell reselection/handover threshold, a load balancing threshold, a radio resource management target (such as a maximum resource utilization rate, etc.), a user type (such as a guest client, a non-limited flow client, etc.), cell information (such as a cell identifier, a resource block utilization rate, etc.), user information (a user identifier, channel information, a connection state, an idle state, etc.), and the like. Here, the user information may include bearer information (e.g., a quality of service class identifier, a quality of service class profile, etc.) of the user.

In one embodiment, the first request message for the radio resource configuration sent by an application deployed on the near real-time wireless intelligent controller may be received. Here, the application may refer to an application that is directed to different use cases to solve a certain problem. For example, applications oriented to load balancing, Quality of Experience (QoE) optimization, and the like.

In an embodiment, when a plurality of first request messages of the radio resource configuration are received continuously, the first request messages may be sorted and buffered in a queue manner, and then the first request messages of the radio resource configuration may be acquired one by one according to a first-in first-out manner of the queue, and the first request messages of the radio resource configuration may be processed.

Referring to fig. 3, in an embodiment, in order to manage the first request message of the radio resource configuration in order, the received first request message of the radio resource configuration may be managed in a classified manner through a management status. In one embodiment, the management status of the first request message for radio resource configuration is divided into at least three types: a ready state 31, a run state 32 and an end state 33.

In one embodiment, when receiving the first request message request of radio resource configuration, the state of the first request message of radio resource configuration is set to the ready state 31. When the first request message for radio resource configuration is merged, selected or optimized, the first request message for radio resource configuration is set to the run state 32. When the first request message for radio resource configuration is not selected, rejected or the response to the request is finished, the state of the first request message for radio resource configuration may be set to the end state 33.

Step 102, determining the state of the radio resource corresponding to the first request message according to the radio resource management information.

In one embodiment, the radio resource management information may be information for managing radio resources. The radio resource management information may be a state indicating whether configuration parameters of various types of radio resources are modifiable. In one embodiment, when the radio resource is occupied, the configuration parameter of the radio resource is in a state of not being modifiable.

Referring to fig. 4, in one embodiment, the states of the radio resources include an open state 42 in which the configuration parameters of the radio resources can be modified and a locked state 41 in which the configuration parameters of the radio resources cannot be modified. Here, when the rrc message indicates that the status of the radio resource corresponding to the request message is open, it may be determined that the configuration parameter of the radio resource corresponding to the request message is modifiable. When the radio resource management information indicates that the state of the radio resource corresponding to the request message is a locked state, it may be determined that the configuration parameter of the radio resource corresponding to the request message is in an unmodifiable state.

Here, when the radio resource management information is in the open state 42, the radio resource management information may be set to the locked state 41 after the radio resource is configured. Here, when the radio resource management information is in the locked state 41, a timer may be set according to the validation time information carried in the radio resource management information, and whether the validation time set by the timer expires is monitored based on a clock period, and when the validation time expires, the corresponding locked state 41 of the radio resource management information is modified to be in the open state 42. Here, when the rrc message is in the locked state 41, the rrc message may be changed to the open state 42 according to the rrc principle (e.g., the duration of the handover interval, the class of service, etc.). Here, when the rrc message is in the locked state 41, the rrc message may be changed to the open state 42 according to the received state transition message.

Step 103, when the state of the radio resource requested to be configured by the first request message is an open state, configuring the radio resource according to the first request message; wherein the open state comprises a state in which configuration parameters of the radio resources are modifiable.

Here, the state in which the configuration parameter of the radio resource can be modified may be a state in which the radio resource is not occupied. Here, the configuring of the radio resource according to the first request message may be configuring a spectrum resource according to the first request message.

Step 104, after the configuration of the radio resource is completed, generating radio resource management information indicating that the radio resource is in a locked state; wherein the locking state is a state in which the configuration parameter of the radio resource is not modifiable.

In the embodiment of the disclosure, a first request message of wireless resource configuration is received; determining the state of the radio resource corresponding to the first request message according to the radio resource management information; when the state of the wireless resource requested to be configured by the first request message is an open state, configuring the wireless resource according to the first request message; wherein the open state comprises a state in which configuration parameters of the radio resources are modifiable. Here, whether to configure the radio resource according to the first request message is determined based on the status of the radio resource indicated by the radio resource management information, and the radio resource is configured according to the first request message when the status of the radio resource requested to be configured by the first request message is an open status. In this way, the conflict of the radio resource allocation caused by directly performing the radio resource allocation without comprehensively considering the state that the current allocation parameter of the radio resource requesting the allocation cannot be modified can be reduced. After the radio resource configuration is completed, generating radio resource management information indicating that the radio resource is in a locked state; wherein the locked state comprises a state in which configuration parameters of the radio resources are not modifiable. Here, after the configuration parameters of the radio resources are modified, the radio resource management information indicating that the radio resources are in the locked state is generated at the same time, and when the request message for the radio resource configuration is received again, the state in which the configuration parameters of the radio resources cannot be modified can be accurately known based on the radio resource management information. In the embodiment of the disclosure, the status of the radio resource is indicated by the radio resource management information, and the radio resource is configured based on the status of the radio resource indicated by the radio resource management information, so that the conflict of radio resource configuration caused by directly performing the radio resource configuration without comprehensively considering the status that the current configuration parameter of the radio resource requested to be configured cannot be modified is reduced.

As shown in fig. 5, another embodiment of the present disclosure provides a radio resource processing method, including:

step 501, performing conflict processing on the radio resource requested to be configured, and modifying the configuration parameter of the radio resource.

In one embodiment, the first request message for radio resource configuration requests that the configured radio resource is a first frequency domain resource. In an embodiment, the frequency domain resource currently occupied by the first application is the first frequency domain resource, and the frequency domain resource requested to be configured by the first request message of the radio resource configuration of the second application is also the first frequency domain resource, at this time, a conflict process that the first frequency domain resource requested to be configured is occupied needs to be performed. If the priority level of the user requesting to configure the first frequency domain resource is higher than that of the user occupying the first frequency domain resource currently, the configuration parameter of the first frequency domain resource needs to be modified, the first frequency domain resource occupied currently is released, and the first frequency domain resource is configured to the second application.

Step 502, setting the status indicated by the radio resource management information of the radio resource after the configuration parameter is modified to the locked status; alternatively, the first request message is rejected.

Here, after the configuration parameters of the radio resources are modified, radio resource management information indicating that the radio resources are in a locked state is generated at the same time, and when the request message for the radio resource configuration is received again, the state in which the configuration parameters of the radio resources cannot be modified can be accurately known based on the radio resource management information.

In one embodiment, the first request message is rejected when the radio resource cannot be provided.

In one embodiment, the performing the conflict processing of the radio resource requesting configuration and modifying the configuration parameter of the radio resource includes:

receiving the first request message, and modifying the configuration parameters of the wireless resources according to the first request message;

in one embodiment, the modifying the configuration of the radio resource according to the first request message may be modifying a configuration parameter of the radio resource according to a configuration parameter of the radio resource included in the first request message.

Or, optimizing the first request message, and modifying the configuration parameters of the radio resources according to the optimized first request message.

In one embodiment, the optimization of the first request message may be to satisfy neither the request of the first application nor the request of the second application, but to satisfy both the requests of the first application and the second application.

In one embodiment, said accepting said first request message, modifying configuration parameters of said radio resources in accordance with said first request message, comprises:

when the priority of the application requesting to configure the wireless resource is higher than the priority of the application occupying the wireless resource, accepting the first request message, and modifying the configuration parameters of the wireless resource according to the first request message;

and/or, when the priority of the user requesting to configure the wireless resource is higher than the priority of the user occupying the wireless resource, receiving the first request message, and modifying the configuration parameter of the wireless resource according to the first request message;

and/or when the radio resource utilization rate of the application requesting for configuring the radio resource is greater than the radio resource utilization rate of the application occupying the radio resource, receiving the first request message, and modifying the configuration parameter of the radio resource according to the first request message;

and/or when the service quality standard reaching rate of the application requesting to configure the wireless resource using the wireless resource is higher than the service quality standard reaching rate of the application occupying the wireless resource using the wireless resource, accepting the first request message, and modifying the configuration parameters of the wireless resource according to the first request message.

In one embodiment, the priority of each application may be stored in advance in the form of a storage list. Here, the priority of the application may be set based on the service performance parameter requirements of the application. For example, the priority of the application is set according to the service delay parameter requirement of the application, and the higher priority is preferentially set for the application requiring the lower delay parameter value. For example, if the first application requires a delay parameter value of 10ms and the second application requires a delay value of 5ms, the second application may be set to a higher priority. In one embodiment, the priority of the application may be set to different levels according to the requirements. For example, 4 levels are set, respectively high priority, medium priority, normal priority, and low priority. Each priority level may include one or more applications. When the wireless resource is configured, the wireless resource is preferentially configured to the application with higher priority level. After receiving a first request message of radio resource configuration sent by a high-priority application, receiving the first request message, and modifying configuration parameters of the radio resources according to the first request message.

In one embodiment, the priority of each type of user may be stored in advance in the form of a storage list. Here, the priority of the user may be set based on the importance level requirement of the user. The higher priority is set to the user of higher rank. In one embodiment, the user's priority may be set to different levels as desired. For example, 4 levels are set, respectively high priority, medium priority, normal priority, and low priority. Each priority level may include one or more different users. When the wireless resource is configured, the wireless resource is preferentially configured to the user with higher priority level. For example, when two different users have conflicting demands for radio resources at the same time, then the demands of the high priority users may be preferentially met. After receiving a first request message of radio resource configuration sent by a user with high priority, receiving the first request message, and modifying configuration parameters of the radio resources according to the first request message.

In one embodiment, the wireless resources may be spectrum resources. The occupied and configuration-requested spectrum resource can be released when the spectrum resource utilization rate of the spectrum resource used by the application requesting to configure the spectrum resource is greater than the spectrum resource utilization rate of the spectrum resource used by the application occupying the spectrum resource. After receiving a first request message of spectrum resource configuration sent by a user with higher spectrum resource utilization rate using the spectrum resource, receiving the first request message, and modifying the configuration parameters of the wireless resource according to the first request message.

In one embodiment, the parameter of the quality of service of the radio resource may be at least one of: network bandwidth, network delay, jitter, packet loss, etc. In one embodiment, the first request message is received when the achievement rate of the network delay of the application requesting to configure the wireless resource using the wireless resource is higher than the achievement rate of the network delay of the application occupying the wireless resource using the wireless resource, and the configuration parameter of the wireless resource is modified according to the first request message.

As shown in fig. 6, in a radio resource processing method provided by another embodiment of the present disclosure, the first request message includes information requesting to configure a set duration of the radio resource; when the generating of the radio resource management information indicating that the radio resource is in a locked state further comprises:

in step S601, a timer is started.

Here, the timer may be started when the radio resource configuration is completed; or starting the timer when the wireless resource takes effect; the timer may be started when radio resource management information indicating that the radio resource is in a locked state is generated. Here, the timer may be started in different starting manners as described above according to the setting requirements of the system. Here, each starting manner corresponds to a timing start point of the timer. Step S602, when the timing duration of the timer is equal to the set duration, updating the radio resource management information of the radio resource from the locked state to the open state.

Here, the set duration may be a valid time after the setting parameter of the radio resource is validated. In one embodiment, the set duration may be a duration for which the application requests the allocation of the radio resource to the application when the application transmits the radio resource allocation first request message. In one embodiment, the set duration is carried in the radio resource configuration request message. The timing duration may be a duration counted from the clear state. In one embodiment, the timer duration is cleared when the radio resource management information of the radio resource is updated from the locked state to the open state. After releasing the radio resources, the radio resources can be used for reconfiguration. Updating the radio resource management information of the radio resource from the locked state to the open state may be used as an indication of whether there is a conflict when an application requests radio resource configuration.

As shown in fig. 7, another embodiment of the present disclosure provides a radio resource processing method, in step 101, the receiving a request message of radio resource configuration includes:

step 701, receiving a first request message of the radio resource configuration in a first setting period.

Here, the first setting period may be set according to the response time requirement, for example, for an application with a high response time requirement, a shorter setting period may be set; for applications with lower response time requirements, a longer set period may be set. Taking a near real-time wireless intelligent controller as an example, the executed timeliness requirement is very high, generally the requirement is 10 ms-1 second, and even the order of magnitude of less than 10 ms. In one embodiment, if the function implemented by the application is a radio resource management function in the base station, it is generally required to be 10-100 ms; if the function implemented by the application is a service-related function, it is generally required to be in the range of 100ms to 1 s. Here, the first setting period may be dynamically adjusted according to the requirements of the application.

Step 702, performing conflict processing for requesting different radio resources among the first request messages of the radio resource configurations received in the first setting period, and obtaining the first request message of the radio resource configuration after the conflict processing.

In one embodiment, the near real-time wireless intelligent controller receives a first request message of the radio resource configuration sent by a first application and a first request message of the radio resource configuration sent by a second application respectively in the first setting period.

In step 102, the determining, according to the radio resource management information, a state of a radio resource corresponding to the request message includes:

step 703, determining the state of the radio resource corresponding to the first request message of the radio resource configuration after the conflict processing according to the radio resource management information.

Here, the radio resource corresponding to the first request message of the radio resource configuration after the collision processing is the radio resource requested finally.

In one embodiment, the performing collision processing for requesting different radio resources among the first request messages of the radio resource configurations received in the first setting period to obtain the first request message of the radio resource configuration after collision processing includes:

when the first request messages of the plurality of radio resource configurations do not conflict, determining that the first request message of any one radio resource configuration is the first request message of the radio resource configuration after conflict processing;

when the first request messages of the plurality of radio resource configurations conflict with each other, the first request message of one or more radio resource configurations which do not conflict with each other is selected and/or optimized from the first request messages of the plurality of radio resource configurations and determined as the first request message of the radio resource configuration after conflict processing.

In one embodiment, the first request message for selecting and/or optimizing one or more radio resource configurations that do not conflict with each other is determined as the first request message for the conflict-processed radio resource configuration, and includes:

selecting a first request message of the radio resource configuration requested by a high-priority application from the first request messages of the plurality of radio resource configurations to determine as the first request message of the radio resource configuration after the conflict processing;

and/or, the first request message of the radio resource configuration requested by the high-priority user is selected from the first request messages of the plurality of radio resource configurations, and is determined as the first request message of the radio resource configuration after the conflict processing;

and/or, the first request message of the radio resource configuration with the high radio resource utilization rate is selected from the first request messages of the plurality of radio resource configurations, and the first request message of the radio resource configuration after the conflict processing is determined;

and/or selecting the first request message of the radio resource configuration with high standard reaching rate of the requested radio resource service quality from the first request messages of the plurality of radio resource configurations, and determining the first request message of the radio resource configuration after conflict processing;

and/or merging the first request messages of the plurality of radio resource configurations, and determining the merged first request message of the radio resource configuration as the first request message of the radio resource configuration after the collision processing;

and/or selecting from the first request messages of the plurality of radio resource configurations, and determining that the selected first request message of the radio resource configuration is the first request message of the radio resource configuration after the collision processing;

and/or optimizing the first request message of the plurality of radio resource configurations, and determining the optimized first request message of the radio resource configuration as the first request message of the radio resource configuration after the collision processing.

In one embodiment, the priority of each application may be stored in advance in the form of a storage list. Here, the priority of the application may be set based on the service performance parameter requirements of the application. For example, the priority of the application is set according to the service delay parameter requirement of the application, and the higher priority is preferentially set for the application requiring the lower delay parameter value. Here, the priority of the application may be set to different levels according to the need. For example, 4 levels are set, respectively high priority, medium priority, normal priority, and low priority. Each priority level may include one or more applications. When the wireless resource allocation is carried out, the wireless resource is allocated to the application with higher priority level preferentially. After receiving a first request message of radio resource configuration sent by an application, determining the first request message of the radio resource configuration requested by a high-priority application from the first request messages of the plurality of radio resource configurations as the first request message of the radio resource configuration after conflict processing.

In one embodiment, the priority of each type of user may be stored in advance in the form of a storage list. Here, the priority of the user may be set based on the importance level requirement of the user. The higher priority is set to the user with higher priority. Here, the priorities of the users may be set to different levels according to the needs. For example, 4 levels are set, respectively high priority, medium priority, normal priority, and low priority. Each priority level may include a plurality of different classes of users. When the wireless resource is configured, the wireless resource is preferentially configured to the user with higher priority level. For example, when two different users have conflicting demands for radio resources at the same time, then the demands of the important users can be met preferentially. After receiving a first request message of radio resource configuration sent by a user, selecting the first request message of radio resource configuration requested by a high-priority user from the first request messages of the plurality of radio resource configurations, and determining the first request message of the radio resource configuration after the conflict processing.

In one embodiment, the wireless resources may be spectrum resources. The first request message may be a first request message that is determined to be the non-conflicting spectrum resource configuration by a first request message that selects the spectrum resource configuration with a higher requested spectrum resource utilization from among the first request messages of the plurality of spectrum resource configurations. After receiving a first request message of spectrum resource allocation sent by a user, selecting the first request message of the radio resource allocation with a high radio resource utilization rate from the first request messages of the plurality of radio resource allocations, and determining the first request message of the radio resource allocation after the conflict processing.

In one embodiment, the parameter of the quality of service of the radio resource may be at least one of: network bandwidth, network delay, jitter, packet loss, etc. For example, the first request message for selecting the radio resource configuration with the highest radio resource network delay standard reaching rate from the first request messages of the plurality of radio resource configurations is determined as the first request message of the radio resource configuration after the conflict processing.

In order that the disclosed embodiments may be better understood, they are further described below by way of two examples:

example 1: the method is applied to a near real-time wireless intelligent controller in a wireless resource allocation oriented application scene. The example is a starting mode of radio resource processing based on message triggering, and the near-real-time wireless intelligent controller triggers the starting of the radio resource processing once receiving a first request message of radio resource configuration sent by an application. If a plurality of messages arrive during the wireless resource processing, the messages can be sorted and buffered in a queue mode and processed one by one. Referring to fig. 8, the method includes:

step S1, the near real-time wireless intelligent controller detects whether a first request message of wireless resource allocation sent by an application is received; when detecting that the first request message of the radio resource configuration is received, executing step S2; otherwise, execution continues with step S1.

Step S2, the near real-time wireless intelligent controller determines whether the state of the wireless resource corresponding to the first request message is an open state according to the wireless resource management information, and if the state is the open state, the near real-time wireless intelligent controller executes step S3; otherwise, step S5 is executed.

Step S3, the near real-time wireless intelligent controller configures the wireless resource according to the request message; wherein the open state is an idle state of the radio resource. Here, the idle state may be a state in which configuration parameters of the radio resources may be modified.

Step S4, after completing the configuration of the wireless resource, the near real-time wireless intelligent controller generates wireless resource management information indicating that the wireless resource is in a locked state; wherein the locking state is a state in which the wireless resource is occupied. Here, the occupied state may be a state in which configuration parameters of the wireless resources cannot be modified.

Step S5, the near real-time wireless intelligent controller carries out the occupied conflict processing of the wireless resource requested to be configured so as to release the occupied wireless resource requested to be configured; updating the state indicated by the radio resource management information of the released radio resource to the open state according to the release result of the radio resource; step S3 is executed. Here, the performing collision processing that the wireless resource requested to be configured is occupied to release the wireless resource that is occupied and requested to be configured includes: when the priority of the application requesting to configure the wireless resource is higher than that of the application occupying the wireless resource, releasing the occupied wireless resource requesting to configure; and/or when the priority of the user requesting to configure the wireless resource is higher than the priority of the user occupying the wireless resource, releasing the occupied wireless resource requesting to configure; and/or when the wireless resource utilization rate of the application requesting to configure the wireless resource is greater than that of the application occupying the wireless resource, releasing the occupied wireless resource requesting to configure; and/or releasing the occupied wireless resource requested to be configured when the service quality standard rate of the application requesting to configure the wireless resource using the wireless resource is higher than the service quality standard rate of the application occupying the wireless resource using the wireless resource.

In this example, a manner of starting radio resource processing triggered based on a radio resource configuration request message is adopted, and whether to configure the radio resource according to the request message is determined based on a state of the radio resource indicated by the radio resource management information. And when the state of the wireless resource requested to be configured by the request message is an open state, configuring the wireless resource according to the request message. In this way, it is possible to reduce the conflict of radio resource allocation caused by directly performing the radio resource allocation without comprehensively considering the state where the radio resource requested to be allocated is currently occupied. And meanwhile, generating wireless resource management information indicating that the wireless resource is in a locked state, and when receiving the request message for wireless resource configuration again, accurately acquiring the occupied state of the wireless resource based on the wireless resource management information.

Example 2: the method is applied to a near real-time wireless intelligent controller in a wireless resource allocation oriented application scene. The example is a starting mode of the radio resource processing triggered based on a set period, and the near real-time wireless intelligent controller triggers the starting of the radio resource processing every time a timing period is integral multiple of the set period. Here, the setting period is set to 100 ms. Referring to fig. 9, the method includes:

step T1, the near real-time wireless intelligent controller detects whether the timing time is integral multiple of the set period; when the counted time is an integral multiple of the set period, T2 is executed; otherwise, T3 is executed.

And step T2, the near real-time wireless intelligent controller receives a first request message of wireless resource allocation sent by an application.

Step T3, performing conflict processing for requesting different radio resources among the first request messages of the radio resource allocation received in the setting period.

Step T4, detecting whether the first request messages of a plurality of wireless resource configurations received in the current setting period conflict; when there is no conflict, T6 is executed; when conflicting, T5 is executed.

Step T5, selecting and/or optimizing one or more first request messages of the radio resource configurations from the plurality of first request messages of the radio resource configurations, which do not conflict with each other, to determine the first request message of the radio resource configuration after conflict processing; t7 is executed.

Step T6, determining that the first request message of any one of the radio resource configurations is the first request message of the radio resource configuration after the collision processing; execution of T7

Step T7, determining whether the status of the radio resource corresponding to the first request message of the radio resource configuration after the conflict processing is an open status according to the radio resource management information. When in the open state, T8 is executed; otherwise, T9 is executed.

And step T8, configuring the radio resource according to the first request message of radio resource configuration after the conflict processing, where the open state is an idle state of the radio resource. Here, the idle state may be a state in which configuration parameters of the radio resources may be modified.

Step T9, performing conflict processing of occupied wireless resource requested to be configured to release occupied wireless resource requested to be configured; and updating the state indicated by the radio resource management information of the released radio resource to the open state according to the release result of the radio resource.

A step T10 of generating radio resource management information indicating that the radio resource is in a locked state after the radio resource configuration is completed; wherein the locking state is a state in which the wireless resource is occupied. Here, the occupied state may be a state in which configuration parameters of the wireless resources cannot be modified.

In this example, a starting manner of radio resource processing triggered based on a setting period is adopted, and first, conflict processing is performed on a radio resource configuration request message received in the setting period to obtain a radio resource configuration request message after the conflict processing. Then, it is determined whether to configure the radio resource according to the request message based on the status of the radio resource indicated by the radio resource management information, and when the status of the radio resource requested to be configured by the request message is an open status, the radio resource is configured according to the request message. In this way, collisions in radio resource allocation can be reduced. When the state of the wireless resource requested to be configured by the request message is a locked state, the conflict processing can be carried out, and the occupied and requested wireless resource can be released. Meanwhile, after the radio resource configuration is completed, generating radio resource management information indicating that the radio resource is in a locked state; wherein the locking state is a state in which the wireless resource is occupied. Here, after the radio resource is occupied, radio resource management information indicating that the radio resource is in a locked state is generated, and when the request message for radio resource allocation is received again, it is possible to accurately indicate and reduce a collision at the time of radio resource allocation.

As shown in fig. 10, a method for processing a data subscription provided in an embodiment of the present disclosure includes:

step 111, receiving a second request message of data subscription;

in one embodiment, it may be that the near real-time wireless intelligent controller receives a second request message for the data subscription sent from the non-real-time wireless intelligent controller, the network management system, the charging system and the base station device. Here, the second request message of the data subscription includes subscription parameter information of the data subscription requested from the near real-time wireless smart controller. Here, the second request message of the data subscription may further include a cell reselection/handover threshold, a load balancing threshold, a radio resource management target (such as a maximum resource utilization rate, etc.), a user type (such as a guest client, a non-traffic client, etc.), cell information (such as a cell identifier, a resource block utilization rate, etc.), user information (a user identifier, channel information, a connection state, an idle state, etc.), and the like. Here, the user information may include bearer information (such as a quality of service class identifier, a quality of service class profile, etc.) of the user.

In one embodiment, the second request message for the data subscription sent by an application deployed on the near real-time wireless intelligent controller may be received. Here, the application may refer to an application that faces different use cases to solve a certain problem. For example, applications oriented to load balancing, Quality of Experience (QoE) optimization, and the like.

In an embodiment, when a plurality of second request messages of the data subscription are continuously received, the second request messages may be sorted and buffered in a queue manner, and then the second request messages of the data subscription may be acquired one by one according to a first-in first-out manner of the queue, and the second request messages of the data subscription may be processed.

Referring again to fig. 3, in an embodiment, in order to manage the second request message of the data subscription in order, the received second request message of the data subscription may be managed in a classified manner through a management state. In one embodiment, the management status of the second request message of the data subscription is divided into at least three types: a ready state 31, a run state 32 and an end state 33.

In one embodiment, when receiving the second request message request of the data subscription, the state of the second request message of the data subscription is set to the ready state 31. When the second request message of the data subscription is merged, selected or optimized, the second request message of the data subscription is set to the run state 32. When the second request message of the data subscription is not selected, rejected or the response to the request ends, the state of the second request message of the data subscription may be set to the end state 33. Step 112, performing conflict processing on the subscription parameters included in the plurality of second request messages, and acquiring the data based on the subscription parameters after the conflict processing.

In one embodiment, the subscription parameter included in the second request message for data subscription may be a frequency of data collection. In one embodiment, in the near-real-time wireless intelligent controller, data acquisition can be performed only based on one frequency in the same time period, and if two applications send data acquisition requests to the near-real-time wireless intelligent controller and the data acquisition frequencies of the two application requests are different, a conflict is generated and needs to be processed. For example, the frequency of the data acquisition currently performed by the first application is 50Hz, and the frequency of the data acquisition requested to be configured by the radio resource configuration request message sent by the second application is 60Hz, at this time, collision processing of the acquisition frequency is required. If the second application has higher priority than the first application, configuring according to the frequency (60Hz) of the data acquisition requested to be configured by the radio resource configuration request message of the second application.

In one embodiment, the receiving the second request message for the data subscription includes:

receiving a second request message of data subscription in a second setting period;

here, the second setting period may be set according to the response time requirement, for example, for an application with a higher response time requirement, a shorter second setting period may be set; for applications with lower response time requirements, a longer second setting period may be set. Taking a near real-time wireless intelligent controller as an example, the executed timeliness requirement is very high, generally the requirement is 10 ms-1 second, and even the order of magnitude of less than 10 ms. In one embodiment, if the function implemented by the application is a radio resource management function in the base station, it is generally required to be 10-100 ms; if the function implemented by the application is a service-related function, it is generally required to be in the range of 100ms to 1 s. Here, the second setting period may be dynamically adjusted according to the requirements of the application.

The performing of the conflict processing of the subscription parameters included in the second request message includes:

and performing conflict processing on the subscription parameters contained in the plurality of second requests received in the second setting period.

In one embodiment, the conflict handling may be a merging of subscription parameters contained in the repeat request messages of the application. For example, the lengths of the acquisition periods of the same data are not consistent for different applications, and the collision processing may be to combine the lengths of the acquisition periods and use a shorter period length. Or different applications repeat the configuration parameters of the same data subscription, and the conflict processing may be to merge the configuration parameters and adopt only one configuration. Or the effective time lengths are not consistent, the conflict processing can be to combine the time lengths and only use the shorter time length.

In one embodiment, the conflict handling may be a selection of a configuration of data subscriptions comprised by different second request messages of the application. For example, the request messages of different applications have different configurations for the same data subscription, and the conflict processing may include counting the comprehensive data on the near-real-time wireless intelligent controller, and selecting the request message corresponding to the better configuration for requesting.

In an embodiment, the performing the conflict processing on the subscription parameters included in the plurality of second requests received in the second setting period includes:

when the plurality of second requests contain the same subscription item, merging the subscription items contained in the plurality of second requests received in the second setting period.

Here, the subscription items may correspond to a type of data having the same characteristics.

In one embodiment, the merging the subscription items included in the plurality of second requests received in the second setting period includes:

when the time granularity of collecting data in the subscription items contained in the plurality of second requests is different, determining the time granularity smaller than a set threshold as the time granularity of collecting data in the combined subscription items.

Here, the temporal granularity may be an acquisition frequency of data.

In one embodiment, the acquisition frequency requested by the second request message for radio resource configuration of one application is 60Hz, and the acquisition frequency requested by the second request message for radio resource configuration of another application is 50 Hz. Thus, a collision occurs between the two second request messages of the radio resource allocation, where the second request message of the radio resource allocation with the frequency of 50Hz can be selected to be determined as the second request message of the radio resource allocation after the collision processing. In the data acquisition, after the data acquired by the frequency of 50Hz is obtained, the data acquired by the frequency of 60Hz may be obtained by calculation.

Here, it should be noted that: the following description of the apparatus side is similar to the description of the above method items, and the description of the beneficial effects of the method is not repeated. For technical details not disclosed in the device-side embodiment of the present invention, reference is made to the description of the method embodiment of the present invention.

As shown in fig. 11, an embodiment of the present disclosure further provides a radio resource processing apparatus, which includes a first receiving module 121, a determining module 122, a configuring module 123, and a generating module 124; wherein, the first and the second end of the pipe are connected with each other,

the first receiving module 121 is configured to receive a first request message for radio resource configuration;

the determining module 122 is configured to determine, according to radio resource management information, a state of a radio resource corresponding to the first request message;

the configuring module 123 is configured to configure the radio resource according to the first request message when the state of the radio resource requested to be configured by the first request message is an open state; wherein the open state comprises a state in which configuration parameters of the radio resources are modifiable;

the generating module 124 is configured to generate radio resource management information indicating that the radio resource is in a locked state after the radio resource configuration is completed; wherein the locked state comprises a state in which configuration parameters of the radio resources are not modifiable.

In an embodiment, the configuring module 123 is further configured to perform conflict processing on the radio resource requested to be configured, and modify a configuration parameter of the radio resource; setting the state indicated by the radio resource management information of the radio resource after the configuration parameters are modified to be the locking state; alternatively, the first request message is rejected.

In an embodiment, the configuring module 123 is further configured to accept the first request message, and modify the configuration parameter of the radio resource according to the first request message; or, optimizing the first request message, and modifying the configuration parameters of the radio resources according to the optimized first request message.

In one embodiment, the configuration module 123 is further configured to accept the first request message and modify the configuration parameter of the radio resource according to the first request message when the priority of the application requesting to configure the radio resource is higher than the priority of the application occupying the radio resource;

and/or when the priority of the user requesting to configure the wireless resource is higher than the priority of the user occupying the wireless resource, receiving the first request message, and modifying the configuration parameter of the wireless resource according to the first request message;

and/or when the wireless resource utilization rate of the application requesting for configuring the wireless resource is greater than the wireless resource utilization rate of the application occupying the wireless resource, receiving the first request message, and modifying the configuration parameter of the wireless resource according to the first request message;

and/or when the service quality standard reaching rate of the application requesting to configure the wireless resource using the wireless resource is higher than the service quality standard reaching rate of the application occupying the wireless resource using the wireless resource, accepting the first request message, and modifying the configuration parameters of the wireless resource according to the first request message.

In one embodiment, the apparatus further comprises a timer module 125, the timer module 125 configured to start a timer; the timer is also used for starting the timer; and when the timing duration of the timer is equal to the set duration, updating the radio resource management information of the radio resource from the locked state to the open state.

In an embodiment, the first receiving module 121 is further configured to receive a first request message of the radio resource configuration in a first setting period; performing conflict processing for requesting different wireless resources among the first request messages of the wireless resource configurations received in the first setting period, and obtaining the first request messages of the wireless resource configurations after the conflict processing; the determining module 122 is further configured to determine, according to the radio resource management information, a state of the radio resource corresponding to the first request message of the radio resource configuration after the collision processing.

In one embodiment, the first receiving module 121 is further configured to determine that the first request message of any one of the radio resource configurations is the first request message of the radio resource configuration after the collision processing when there is no collision between the first request messages of the plurality of radio resource configurations; when the first request messages of the plurality of the radio resource configurations conflict, one or more first request messages of the radio resource configurations which do not conflict with each other are selected and/or optimized from the first request messages of the plurality of the radio resource configurations, and the first request messages of the radio resource configurations which do not conflict with each other are determined to be the first request messages of the radio resource configurations after the conflict processing.

In one embodiment, the first receiving module 121 is further configured to determine, as the first request message of the conflict-processed radio resource configuration, the first request message of the radio resource configuration requested by the high-priority application from the first request messages of the plurality of radio resource configurations;

and/or, the first request message of the radio resource configuration requested by the high-priority user is selected from the first request messages of the plurality of radio resource configurations, and is determined as the first request message of the radio resource configuration after the conflict processing;

and/or, the first request message of the radio resource configuration with the high radio resource utilization rate is selected from the first request messages of the plurality of radio resource configurations, and the first request message of the radio resource configuration after the conflict processing is determined;

and/or, the first request message of the radio resource configuration with the high standard rate of the requested radio resource service quality is selected from the first request messages of the plurality of radio resource configurations, and is determined as the first request message of the radio resource configuration after the conflict processing;

and/or merging the first request messages of the plurality of radio resource configurations, and determining the merged first request message of the radio resource configuration as the first request message of the radio resource configuration after the collision processing;

and/or selecting from the first request messages of the plurality of radio resource configurations, and determining that the selected first request message of the radio resource configuration is the first request message of the radio resource configuration after the collision processing;

and/or optimizing the first request message of the plurality of radio resource configurations, and determining the optimized first request message of the radio resource configuration as the first request message of the radio resource configuration after the collision processing.

As shown in fig. 12, an embodiment of the present disclosure further provides a data subscription processing apparatus, where the apparatus includes a second receiving module 131 and an obtaining module 132:

the second receiving module 131 is configured to receive a second request message for data subscription;

the obtaining module 132 is configured to perform conflict processing on the subscription parameters included in the plurality of second request messages, and obtain the data based on the subscription parameters after the conflict processing.

In one embodiment, the second receiving module 131 is further configured to receive a second request message for data subscription in a second setting period;

the obtaining module 132 is further configured to perform conflict processing on the subscription parameters included in the plurality of second requests received in the second setting period.

In an embodiment, the obtaining module 132 is further configured to, when a plurality of the second requests include the same subscription item, merge the subscription items included in the plurality of second requests received in the second setting period.

In one embodiment, the obtaining module 132 is further configured to determine, when time granularities of collecting data in the subscription items included in the plurality of second requests are different, the time granularity smaller than a set threshold as the time granularity of collecting data in the combined subscription item.

Here, it should be noted that: the following description of the radio resource processing device and the storage medium is similar to the above description of the radio resource processing method, and the description of the beneficial effects of the same method is not repeated. For technical details not disclosed in the embodiments of the radio resource processing apparatus of the present invention, reference should be made to the description of the embodiments of the method of the present invention for understanding.

As shown in fig. 13, an embodiment of the present disclosure provides a radio resource processing apparatus, including: a processor 141 and a memory 142 for storing a computer service capable of running on the processor 141, wherein the processor 141 is configured to implement the method applied to any embodiment of the present invention when the computer service is run. When the computer service is operated, the method is used for realizing the method of any embodiment of the disclosure.

In some embodiments, memory 142 in embodiments of the present disclosure may be either volatile memory or nonvolatile memory, or may include both volatile and nonvolatile memory. The non-volatile Memory may be a Read-Only Memory (ROM), a Programmable ROM (PROM), an Erasable PROM (EPROM), an Electrically Erasable PROM (EEPROM), or a flash Memory. Volatile Memory can be Random Access Memory (RAM), which acts as external cache Memory. By way of illustration and not limitation, many forms of RAM are available, such as Static random access memory (Static RAM, SRAM), Dynamic Random Access Memory (DRAM), Synchronous Dynamic random access memory (Synchronous DRAM, SDRAM), Double Data Rate Synchronous Dynamic random access memory (ddr Data Rate SDRAM, ddr SDRAM), Enhanced Synchronous SDRAM (ESDRAM), Synchlink DRAM (SLDRAM), and Direct Rambus RAM (DRRAM). The memory of the systems and methods described herein is intended to comprise, without being limited to, these and any other suitable types of memory.

And processor 141 may be an integrated circuit chip having signal processing capabilities. In implementation, the steps of the above method may be performed by integrated logic circuits of hardware in a processor or instructions in the form of software. The Processor may be a general purpose Processor, a Digital Signal Processor (DSP), an Application Specific Integrated Circuit (ASIC), an off-the-shelf Programmable Gate Array (FPGA) or other Programmable logic device, discrete Gate or transistor logic device, or discrete hardware components. The various methods, steps, and logic blocks disclosed in the embodiments of the present disclosure may be implemented or performed. A general purpose processor may be a microprocessor or the processor may be any conventional processor or the like. The steps of the method disclosed in connection with the embodiments of the present disclosure may be directly implemented by a hardware decoding processor, or implemented by a combination of hardware and software modules in the decoding processor. The software module may be located in ram, flash memory, rom, prom, or eprom, registers, etc. storage media as is well known in the art. The storage medium is located in a memory, and a processor reads information in the memory and completes the steps of the method in combination with hardware of the processor.

The embodiment of the disclosure also provides a storage medium, and the storage medium has computer executable instructions, and the computer executable instructions are executed by a processor to implement the method of any embodiment of the invention.

In the several embodiments provided in the present application, it should be understood that the disclosed apparatus and method may be implemented in other ways. The above-described device embodiments are merely illustrative, for example, the division of the unit is only a logical functional division, and there may be other division ways in actual implementation, such as: multiple units or components may be combined, or may be integrated into another system, or some features may be omitted, or not implemented. In addition, the coupling, direct coupling or communication connection between the components shown or discussed may be through some interfaces, and the indirect coupling or communication connection between the devices or units may be electrical, mechanical or in other forms.

The units described as separate parts may or may not be physically separate, and parts displayed as units may or may not be physical units, that is, may be located in one place, or may be distributed on a plurality of network units; some or all of the units can be selected according to actual needs to achieve the purpose of the solution of the embodiment.

In addition, all the functional units in the embodiments of the present invention may be integrated into one processing module, or each unit may be separately used as one unit, or two or more units may be integrated into one unit; the integrated unit can be realized in a form of hardware, or in a form of hardware plus a software functional unit. Those of ordinary skill in the art will understand that: all or part of the steps for implementing the method embodiments may be implemented by hardware related to program instructions, and the program may be stored in a computer readable storage medium, and when executed, the program performs the steps including the method embodiments; and the aforementioned storage medium includes: a mobile storage device, a Read-Only Memory (ROM), a Random Access Memory (RAM), a magnetic disk or an optical disk, and other various media capable of storing program codes.

The methods disclosed in the several method embodiments provided in the present application may be combined arbitrarily without conflict to obtain new method embodiments.

Features disclosed in several of the product embodiments provided in the present application may be combined in any combination to yield new product embodiments without conflict.

The features disclosed in the several method or apparatus embodiments provided in the present application may be combined arbitrarily, without conflict, to arrive at new method embodiments or apparatus embodiments.

The above description is only for the specific embodiments of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art can easily think of the changes or substitutions within the technical scope of the present invention, and shall cover the scope of the present invention. Therefore, the protection scope of the present invention shall be subject to the protection scope of the appended claims.

Claims (10)

1. A method for processing radio resources, comprising:

receiving a first request message of radio resource configuration;

determining the state of the radio resource corresponding to the first request message according to the radio resource management information;

when the state of the wireless resource requested to be configured by the first request message is an open state, configuring the wireless resource according to the first request message; wherein the open state comprises a state in which configuration parameters of the radio resources are modifiable;

after the radio resource configuration is completed, generating radio resource management information indicating that the radio resource is in a locked state; wherein the locked state comprises a state in which configuration parameters of the radio resources are not modifiable;

when the state of the radio resource corresponding to the first request message is a locked state, the method further includes: performing conflict processing on the wireless resource requested to be configured, and modifying configuration parameters of the wireless resource; and setting the state indicated by the radio resource management information of the radio resource after the configuration parameters are modified as the locking state.

2. The method of claim 1, wherein the performing the conflict handling of the radio resource requested to be configured to modify the configuration parameter of the radio resource comprises:

receiving the first request message, and modifying the configuration parameters of the wireless resources according to the first request message;

or, optimizing the first request message, and modifying the configuration parameters of the radio resources according to the optimized first request message.

3. The method according to claim 2, wherein the accepting the first request message and modifying the configuration parameters of the radio resources according to the first request message comprises:

when the priority of the application requesting to configure the wireless resource is higher than the priority of the application occupying the wireless resource, accepting the first request message, and modifying the configuration parameters of the wireless resource according to the first request message;

and/or when the priority of the user requesting to configure the wireless resource is higher than the priority of the user occupying the wireless resource, receiving the first request message, and modifying the configuration parameter of the wireless resource according to the first request message;

and/or when the radio resource utilization rate of the application requesting for configuring the radio resource is greater than the radio resource utilization rate of the application occupying the radio resource, receiving the first request message, and modifying the configuration parameter of the radio resource according to the first request message;

and/or when the service quality standard reaching rate of the application requesting to configure the wireless resource using the wireless resource is higher than the service quality standard reaching rate of the application occupying the wireless resource using the wireless resource, accepting the first request message, and modifying the configuration parameters of the wireless resource according to the first request message.

4. The method according to claim 1, wherein the first request message includes information requesting to configure a set duration of the radio resource; when the generating of the radio resource management information indicating that the radio resource is in a locked state further comprises:

starting a timer;

the method further comprises the following steps:

and when the timing duration of the timer is equal to the set duration, updating the radio resource management information of the radio resource from the locking state to the opening state.

5. The radio resource processing method according to claim 1, wherein the receiving the first request message for radio resource configuration comprises:

receiving a first request message of the radio resource configuration in a first setting period;

performing conflict processing for requesting different wireless resources among the first request messages of the wireless resource configurations received in the first setting period, and obtaining the first request messages of the wireless resource configurations after the conflict processing;

the determining the state of the radio resource corresponding to the request message according to the radio resource management information includes:

and determining the state of the wireless resource corresponding to the first request message of the wireless resource configuration after the conflict processing according to the wireless resource management information.

6. The method according to claim 5, wherein the performing collision processing for requesting different radio resources between the first request messages of the plurality of radio resource configurations received in the first setting period to obtain the first request message of the radio resource configuration after collision processing includes:

when the first request messages of the plurality of radio resource configurations do not conflict, determining that the first request message of any one radio resource configuration is the first request message of the radio resource configuration after conflict processing;

when the first request messages of the plurality of the radio resource configurations conflict, one or more first request messages of the radio resource configurations which do not conflict with each other are selected and/or optimized from the first request messages of the plurality of the radio resource configurations, and the first request messages of the radio resource configurations which do not conflict with each other are determined to be the first request messages of the radio resource configurations after the conflict processing.

7. The method according to claim 6, wherein the determining the first request message for selecting and/or optimizing one or more radio resource configurations that do not conflict with each other as the first request message for the conflict-processed radio resource configuration comprises:

selecting a first request message of the radio resource configuration requested by a high-priority application from the first request messages of the plurality of radio resource configurations to determine as the first request message of the radio resource configuration after the conflict processing;

and/or, the first request message of the radio resource configuration requested by the high-priority user is selected from the first request messages of the plurality of radio resource configurations, and is determined as the first request message of the radio resource configuration after the conflict processing;

and/or, the first request message of the radio resource configuration with the high radio resource utilization rate is selected from the first request messages of the plurality of radio resource configurations, and the first request message of the radio resource configuration after the conflict processing is determined;

and/or, the first request message of the radio resource configuration with the high standard rate of the requested radio resource service quality is selected from the first request messages of the plurality of radio resource configurations, and is determined as the first request message of the radio resource configuration after the conflict processing;

and/or merging the first request messages of the plurality of radio resource configurations, and determining the merged first request message of the radio resource configuration as the first request message of the radio resource configuration after the collision processing;

and/or selecting from the first request messages of the plurality of radio resource configurations, and determining that the selected first request message of the radio resource configuration is the first request message of the radio resource configuration after the collision processing;

and/or optimizing the first request message of the plurality of radio resource configurations, and determining the optimized first request message of the radio resource configuration as the first request message of the radio resource configuration after the collision processing.

8. The wireless resource processing device is characterized by comprising a first receiving module, a determining module, a configuring module and a generating module; wherein the content of the first and second substances,

the first receiving module is configured to receive a first request message for radio resource configuration;

the determining module is configured to determine, according to radio resource management information, a state of a radio resource corresponding to the first request message;

the configuration module is configured to configure the radio resource according to the first request message when the state of the radio resource requested to be configured by the first request message is an open state; wherein the open state comprises a state in which configuration parameters of the radio resources are modifiable;

the generating module is configured to generate radio resource management information indicating that the radio resource is in a locked state after the radio resource configuration is completed; wherein the locked state comprises a state in which configuration parameters of the radio resources are not modifiable;

the configuration module is further configured to, when the state of the radio resource corresponding to the first request message is a locked state, perform collision processing on the radio resource requested to be configured, and modify a configuration parameter of the radio resource; and setting the state indicated by the radio resource management information of the radio resource after the configuration parameters are modified as the locking state.

9. A radio resource processing apparatus, characterized in that the apparatus comprises: a processor and a memory for storing a computer service capable of running on the processor, wherein the processor is configured to implement the method of any one of claims 1 to 7 when running the computer service.

10. A storage medium having computer-executable instructions embodied therein, the computer-executable instructions being executable by a processor to implement the method of any one of claims 1 to 7.

Images