CN116684836A - Method, device, equipment and readable storage medium for operating computing power network - Google Patents

Abstract

The application relates to the field of mobile communication, and provides a method, a device, equipment and a readable storage medium for operating a power network, wherein the method is applied to the power network comprising a control plane functional entity, a power service functional entity, a user node and an access network node, and comprises the following steps: the power calculation method comprises the steps that through task connection between a power calculation service functional entity and a control plane functional entity, a power calculation result of a power calculation task is fed back to the control plane functional entity, and the power calculation task is sent to the power calculation service functional entity by the control plane functional entity based on the task connection; and feeding back the calculation result corresponding to the target measurement information to the control plane functional entity through the connection between the control plane functional entity and the calculation service functional entity. The application obtains flexible deployment of control and calculation network elements, intensive utilization of calculation resources and flexible optimized data surface transmission of measurement data by realizing the capability of supporting calculation service in the 3GPP communication network.

Description

Method, device, equipment and readable storage medium for operating computing power network

Technical Field

The present application relates to the field of mobile communications technologies, and in particular, to a method, an apparatus, a device, and a readable storage medium for operating a computing network.

Background

The conventional 3GPP (the 3rd Generation Partnership Project) communication system is mainly used for transmitting data of a user data plane, and with the evolution of the 3GPP communication system, the calculation requirements of users and networks on the communication system are higher and higher. Data training like localization, perception and AI (Artificial Intelligence ) based all require support of corresponding algorithms and algorithms. In current 3GPP communication systems, specific computing functionality and interfaces are not explicitly described.

All the current positioning measurement calculation schemes are based on the current architecture of positioning control and positioning calculation coupling, and the coupling of a control plane and a data plane, so that the transmission paths of the control plane message and the data plane message are not optimal, and one equipment manufacturer realizes the simultaneous transmission of the control plane and the data plane and is complex to realize. In addition, the distributed deployment of the computing power resources cannot realize the sharing of the resources among different computing users, and the intensive utilization of the resources is difficult to realize.

Disclosure of Invention

The application provides a method, a device, equipment and a readable storage medium for operating a computing power network, which are used for solving the technical problems that the current computing power resource can not realize the sharing of the resource among different computing users and the intensive utilization of the resource is difficult to realize.

The application provides a power calculation network operation method, which is applied to a power calculation network, wherein the power calculation network comprises a control plane functional entity, a power calculation service functional entity, a user node and an access network node, and comprises the following steps:

the power calculation result of a power calculation task is fed back to the control plane functional entity through task connection between the power calculation service functional entity and the control plane functional entity, and the power calculation task is sent to the power calculation service functional entity by the control plane functional entity based on the task connection;

and feeding back a power calculation result corresponding to the target measurement information to the control plane functional entity through the connection between the control plane functional entity and the power calculation service functional entity, wherein the target measurement information is acquired through the user node and/or the access network node.

According to the method for operating a power calculation network provided by the present application, the feeding back the power calculation result of the power calculation task to the control plane functional entity through the task connection between the power calculation service functional entity and the control plane functional entity includes:

under the condition that the control plane functional entity receives a service request, establishing task connection between the power calculation service functional entity and the control plane functional entity;

determining a power calculation result of a power calculation task through the power calculation service functional entity, wherein the power calculation task is transmitted to the power calculation service functional entity by the control plane functional entity based on the task connection;

and feeding back the force calculation result to the control plane functional entity through the force calculation service functional entity.

According to the method for operating the power computing network provided by the application, the task connection between the power computing service functional entity and the control plane functional entity is established, and the method comprises the following steps:

sending a power calculation task creation request to the power calculation service functional entity through the control plane functional entity;

task resources and computing power resources are distributed to the computing power tasks corresponding to the computing power task creation request through the computing power service functional entity;

and under the condition that the resource allocation of the power calculation task is completed, sending a message of the completion of the power calculation task creation to the control plane functional entity through the power calculation service functional entity so as to establish task connection between the power calculation service functional entity and the control plane functional entity.

According to the method for operating the power calculation network provided by the application, the control plane functional entity comprises a perception functional entity, a position management functional entity and a network data analysis functional entity, and the method for operating the power calculation network further comprises the following steps:

sending a calculation task creation request to the calculation service functional entity through the position management functional entity under the condition that the position management functional entity receives a positioning request;

under the condition that the perception functional entity receives the perception request, sending a calculation task creation request to the calculation service functional entity through the perception functional entity;

sending a calculation task creation request to the calculation service functional entity through the network data analysis functional entity;

and under the condition that the resource allocation of the computing power task corresponding to the computing power task creation request is completed, sending a message of the completion of the computing power task creation to the perception function entity, the position management function entity and the network data analysis function entity through the computing power service function entity.

According to the method for operating a power calculation network provided by the present application, the feeding back the power calculation result corresponding to the target measurement information to the control plane functional entity through the connection between the control plane functional entity and the power calculation service functional entity includes:

sending a measurement indication message to the user node and/or the access network node through the control plane functional entity and carrying a task identifier;

acquiring target measurement information corresponding to the measurement indication message through the user node and/or the access network node, and sending the target measurement information and the task identifier to the power calculation service functional entity;

and feeding back a calculation result corresponding to the target measurement information to the control plane functional entity through the calculation service functional entity.

According to the method for operating a power network provided by the present application, the sending, by the control plane functional entity, a measurement indication message to the user node and/or the access network node includes:

sending a measurement indication message to the user node through the location management function entity;

and sending a measurement indication message to the access network node through the perception functional entity.

According to the power calculation network operation method provided by the application, the power calculation network operation method further comprises the following steps:

the user node and/or the access network node sends the target measurement information and task identification to the power calculation service functional entity through a control plane or a data plane;

acquiring computing task context information based on the target measurement information and the task identifier;

and determining a calculation force result corresponding to the target measurement information according to the calculation task context information and the corresponding calculation algorithm.

The application also provides a computing power network operation device, which comprises:

the power calculation task feedback module is used for feeding back a power calculation result of a power calculation task to the control plane functional entity through task connection between the power calculation service functional entity and the control plane functional entity, wherein the power calculation task is sent to the power calculation service functional entity by the control plane functional entity based on the task connection;

and the force calculation result feedback module is used for feeding back the force calculation result corresponding to the target measurement information to the control plane functional entity through the connection between the control plane functional entity and the force calculation service functional entity, wherein the target measurement information is acquired through the user node and/or the access network node.

The application also provides an electronic device comprising a memory, a processor and a computer program stored on the memory and executable on the processor, the processor implementing the method of operating a power network as described in any one of the above when executing the program.

The application also provides a non-transitory computer readable storage medium having stored thereon a computer program which, when executed by a processor, implements a method of operating a power network as described in any of the above.

The application provides a power calculation network operation method, a device, equipment and a readable storage medium. Firstly, feeding back a force calculation result of a force calculation task to a control plane functional entity through task connection between the force calculation service functional entity and the control plane functional entity, wherein the force calculation task is sent to the force calculation service functional entity by the control plane functional entity based on task connection; and then, feeding back a force calculation result corresponding to the target measurement information to the control plane functional entity through connection between the control plane functional entity and the force calculation service functional entity, wherein the target measurement information is acquired through a user node and/or an access network node. The flexible deployment of the control and calculation units and the intensive utilization of the calculation force resources are realized through the separation of the calculation and the control and the centralized calculation force functional units. Flexible data plane transmission of measurement data is realized.

Drawings

In order to more clearly illustrate the application or the technical solutions of the prior art, the following description will briefly explain the drawings used in the embodiments or the description of the prior art, and it is obvious that the drawings in the following description are some embodiments of the application, and other drawings can be obtained according to the drawings without inventive effort for a person skilled in the art.

FIG. 1 is a schematic flow chart of a method of operating a computing power network according to the present application;

FIG. 2 is a schematic diagram of a power network architecture in a power network operation method provided by the present application;

FIG. 3 is a timing diagram of a computational service process in a method of operating a computational power network provided by the present application;

FIG. 4 is a second flow chart of the method for operating a computing power network according to the present application;

FIG. 5 is a timing diagram of a data transmission process in the method of operating a power network provided by the present application;

FIG. 6 is a schematic diagram of a power network operating device according to the present application;

fig. 7 is a schematic structural diagram of an electronic device provided by the present application.

Detailed Description

For the purpose of making the objects, technical solutions and advantages of the present application more apparent, the technical solutions of the present application will be clearly and completely described below with reference to the accompanying drawings, and it is apparent that the described embodiments are some embodiments of the present application, not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the application without making any inventive effort, are intended to be within the scope of the application.

Referring to fig. 1, the present application provides a power calculation network operation method, which is applied to a power calculation network, wherein the power calculation network includes a control plane functional entity, a power calculation service functional entity, a user node and an access network node, and the power calculation network operation method includes:

step 100, feeding back a force calculation result of a force calculation task to the control plane functional entity through task connection between the force calculation service functional entity and the control plane functional entity, wherein the force calculation task is sent to the force calculation service functional entity by the control plane functional entity based on the task connection;

in particular, the computing service function is responsible as a computing network element for providing computing services to other network elements as consumers. Considering the increasing demand for computing services in current 3GPP communication systems, there is a lack of support for generic network elements and architecture for computing services in current systems. The power network operation method provided in this embodiment provides a general power driven 3GPP network (i.e. the power network in this embodiment) architecture manner, as shown in fig. 2, and provides services of power and algorithm for sensing, positioning, AI training, and the like by introducing a general power network element (i.e. the power service functional entity in this embodiment). Meanwhile, from the perspective of UE (User Equipment), the computing power service functional entity can be regarded as a server of MEC (Mobile Edge Computing ), and the UE node and/or NG-RAN (NG Radio Access Network,5G radio access network) node can transmit data obtained based on task awareness or measurement to the MEC service through a data plane.

A computation service function entity CSF (Computing Service Function, computation service function), i.e., a computation power service function entity in the present embodiment, is set in the 3GPP communication architecture. The CSF provides computing service capabilities for different services and positioning, sensing or NWDAF (Network Data Analytics Function, network data analysis function) may invoke computing services such as positioning computing, sensing computing and AI training/machine learning provided by the CSF. The CSF is a MEC server from the UE and NG-RAN point of view.

Step 200, feeding back a calculation result corresponding to the target measurement information to the control plane functional entity through connection between the control plane functional entity and the calculation service functional entity, wherein the target measurement information is acquired through the user node and/or the access network node.

Specifically, the UE may send measurement data to a server of the MEC after establishing a PDU (protocol data unit ) session, and the MEC server calculates the result and returns the result to a control plane functional entity (such as LMF or SF). The control function may obtain measurement data via control plane transmission and send the measurement data to the CSF. The mapping between management entity, UE/NG-RAN and CSF may be achieved by an ID of the formulated service request.

In this embodiment, the power calculation network operation method is applied to a power calculation network, where the power calculation network includes a control plane functional entity, a power calculation service functional entity, a user node, and an access network node. Firstly, feeding back a force calculation result of a force calculation task to a control plane functional entity through task connection between the force calculation service functional entity and the control plane functional entity, wherein the force calculation task is sent to the force calculation service functional entity by the control plane functional entity based on task connection; and then, feeding back a force calculation result corresponding to the target measurement information to the control plane functional entity through connection between the control plane functional entity and the force calculation service functional entity, wherein the target measurement information is acquired through a user node and/or an access network node. The flexible deployment of the control and calculation units and the intensive utilization of the calculation force resources are realized through the separation of the calculation and the control and the centralized calculation force functional units. Flexible data plane transmission of measurement data is realized.

In one embodiment, the method for operating a computing power network provided by the embodiment of the present application may further include:

step 110, under the condition that the control plane functional entity receives a service request, establishing task connection between the computing power service functional entity and the control plane functional entity;

step 120, determining, by the power computing service functional entity, a power computing result of a power computing task, where the power computing task is sent by the control plane functional entity to the power computing service functional entity based on the task connection;

and 130, feeding back the force calculation result to the control plane functional entity through the force calculation service functional entity.

Wherein step 110 comprises:

step 111, sending, by the control plane functional entity, a computing power task creation request to the computing power service functional entity;

step 112, task resources and computing power resources are allocated to the computing power task corresponding to the computing power task creation request through the computing power service functional entity;

step 113, sending, by the power service functional entity, a message of completion of power task creation to the control plane functional entity to establish task connection between the power service functional entity and the control plane functional entity, in the case that resource allocation of the power task is completed.

Specifically, as shown in fig. 3, after receiving a service request, an entity such as a Sensing Function SF (Sensing Function) entity, a location management Function LMF (Location Management Function) entity request, or an NWDAF (Network Data Analytics Function) entity, initiates a request for creating a computing task to a CSF entity, and the process includes: a: the NWDAF initiates an AI data training request to the CSF, wherein the AI data training request comprises task ID information of a calculation task or information such as an algorithm and the like; b: after receiving the positioning request, the LMF comprises task ID information or algorithm information of a positioning data calculation task; c: after receiving the sensing request, the SF control plane comprises task ID information or algorithm information of a sensing calculation task; (2) The CSF acknowledges receipt of the computational task request based on the computational service task request; (3) CSF returns a computational task acknowledgement message to NWDAF, LMF or SF; (4) The NWDAF, LMF or SF obtains the calculation task data through the control surface, initiates calculation task data transmission information to the CSF, and the information comprises the information of the calculation data; (5) The CSF calculates data based on a service consumer NWDAF, LMF or SF formulation algorithm or an algorithm selected by the CSF to obtain a task calculation result; (6) The CSF returns a calculation result to the NWDAF, LMF or SF, and the control entity returns result information to the task user based on the calculation result.

In this embodiment, the force calculation service functional entity feeds back the force calculation result to the control plane functional entity.

In one embodiment, the method for operating a computing power network provided by the embodiment of the present application may further include:

step 300, under the condition that the location management functional entity receives the positioning request, sending a calculation task creation request to the calculation service functional entity through the location management functional entity;

step 400, under the condition that the perception functional entity receives the perception request, sending a calculation task creation request to the calculation service functional entity through the perception functional entity;

step 500, sending a computing power task creation request to the computing power service functional entity through the network data analysis functional entity;

step 600, when the resource allocation of the computing task corresponding to the computing task creation request is completed, sending, by the computing service functional entity, a message of completion of computing task creation to the sensing functional entity, the location management functional entity, and the network data analysis functional entity.

Specifically, as described above, after receiving the positioning request, the location management function entity LMF sends a calculation task creation request to the calculation service function entity; after the sensing function entity receives the sensing request, the sensing function entity SF sends a calculation task creation request to a calculation service function entity; the network data analysis function entity NWDAF sends a calculation task creation request to the calculation service function entity. And under the condition that the resource allocation of the computing power task corresponding to the computing power task creation request is completed, sending a message of the completion of the computing power task creation to the perception function entity, the position management function entity and the network data analysis function entity through the computing power service function entity.

In this embodiment, the computing power service functional entity sends a message of completing the creation of the computing power task to the perception functional entity, the location management functional entity and the network data analysis functional entity.

Referring to fig. 4, in an embodiment, the method for operating a computing power network according to the embodiment of the present application may further include:

step 210, sending, by the control plane functional entity, a measurement indication message to the user node and/or the access network node and carrying a task identifier;

step 220, obtaining, by the user node and/or the access network node, target measurement information corresponding to the measurement indication message, and sending the target measurement information and the task identifier to the power calculation service functional entity;

and 230, feeding back a force calculation result corresponding to the target measurement information to the control plane functional entity through the force calculation service functional entity.

Wherein step 200 comprises:

step 211, sending a measurement indication message to the user node through the location management function entity;

and step 212, sending a measurement indication message to the access network node through the perception function entity.

Specifically, as shown in fig. 5, the process of data plane task data transmission is as follows: (1) After receiving the service task request, the control function of the LMF or SF or NWDAF determines whether the entity of data acquisition (such as sensing measurement data) is UE or NG-RAN, and sends a (measurement) indication message to the UE or NG-RAN, including the identification ID of the (measurement) task and possibly including information of the selected CSF; (2) The UE or the NG-RAN selects to transmit the data of the measurement task through a control plane or a data plane based on the identification information of the CSF of the task; (3) If the measurement task data is selected to be transmitted through the data plane, determining the address of the CSF through an MEC server discovery method based on the received CSF information, and determining the data plane connection such as PDU session to the MEC; (4) The UE or NG-RAN directly returns task measurement data (i.e. target measurement information in this embodiment) together with the identification ID of the task to the CSF entity through the control plane N1/N2 or through the data plane connection; (5) The CSF obtains the context information of the calculation task based on the measurement information returned by the UE or the NG-RAN and based on the task ID, calculates based on an algorithm, and obtains a positioning or sensing calculation result; (6) The CSF feeds back the calculation result to the consumer LMF or SF or NWDAF of the calculation task.

In this embodiment, the power calculation service functional entity feeds back the power calculation result corresponding to the target measurement information to the control plane functional entity.

In one embodiment, the method for operating a computing power network provided by the embodiment of the present application may further include:

step 600, the user node and/or the access network node sends the target measurement information and task identifier to the power calculation service functional entity through a control plane or a data plane;

step 700, acquiring context information of a computing task based on the target measurement information and the task identifier;

step 800, determining a calculation result corresponding to the target measurement information according to the calculation task context information and the corresponding calculation algorithm.

Specifically, as described above, the control function of 1, LMF or SF or NWDAF, upon receiving the service task request, determines whether the measured entity is UE or NG-RAN, and sends a measurement indication message to the UE or NG-RAN, including the identification ID of the measurement task and may include information of the selected CSF. Wherein, 1a: the LMF or SF control plane initiates a data measurement indication message to UE, wherein the message comprises the identification ID of the task and the information of the selected CSF; 1b: the LMF or SF control plane initiates a data measurement indication message to the NG-RAN, which includes the identification ID of the task and information of the selected CSF. 2. The UE or NG-RAN determines PDU session information to the CSF based on information of the designated CSF. 3. If it is selected to transmit measurement task data over the data plane, the address of the CSF is determined by the MEC server discovery method based on the received CSF information or the identification information of CSF (MEC Server) is determined by the discovery of the MEC server with corresponding computing service capabilities and the data plane connection such as PDU session to CSF (MEC Server) is determined. Wherein, 3.A: the UE sends the measurement information to the CSF through a data surface based on the measurement information obtained by positioning or sensing, and the measurement information comprises an identification ID of a task; 3.b: the NG-RAN sends measurement information to the CSF via the data plane based on the measurement information obtained by positioning or sensing, including the identification ID of the task. 4. The UE or NG-RAN returns the task measurement data (i.e. the target measurement information in this embodiment) directly to the CSF entity along with the identity ID of the task, either through the control plane N1/N2 or through the data plane connection. Wherein, 4a: CSF returns a positioning task calculation result to LMF; 4b: CSF returns the perceived task calculation to SF.

The embodiment realizes flexible deployment of the control and calculation units and intensive utilization of the calculation force resources through the separation of the calculation and the control and the centralized calculation force/algorithm functional units. By multiplexing the current MEC-based server discovery, data plane establishment, roaming and other processes, flexible data plane transmission of measurement data is realized.

The description of the power network operation device provided by the application is provided below, and the power network operation device described below and the power network operation method described above can be referred to correspondingly.

Referring to fig. 6, the present application further provides a power network operation device, including:

the power calculation task feedback module 601 is configured to feedback a power calculation result of a power calculation task to a control plane functional entity through task connection between the power calculation service functional entity and the control plane functional entity, where the power calculation task is sent to the power calculation service functional entity by the control plane functional entity based on the task connection;

and a force calculation result feedback module 602, configured to feed back a force calculation result corresponding to the target measurement information to the control plane functional entity through a connection between the control plane functional entity and the force calculation service functional entity, where the target measurement information is acquired through the user node and/or the access network node.

Optionally, the computing force task feedback module includes:

the task connection establishment unit is used for establishing task connection between the power calculation service functional entity and the control plane functional entity under the condition that the control plane functional entity receives a service request;

the power calculation result determining unit is used for determining a power calculation result of a power calculation task through the power calculation service functional entity, wherein the power calculation task is sent to the power calculation service functional entity by the control plane functional entity based on the task connection;

and the first calculation result feedback unit is used for feeding back the calculation result to the control surface functional entity through the calculation service functional entity.

Optionally, the task connection establishment unit includes:

a computing power task creation request sending unit, configured to send a computing power task creation request to the computing power service functional entity through the control plane functional entity;

the resource allocation unit is used for allocating task resources and computing power resources for the computing power task corresponding to the computing power task creation request through the computing power service functional entity;

and the task connection establishment unit is used for sending a message of completion of the establishment of the computing power task to the control plane functional entity through the computing power service functional entity under the condition that the resource allocation of the computing power task is completed so as to establish task connection between the computing power service functional entity and the control plane functional entity.

Optionally, the control plane functional entity includes a sensing functional entity, a location management functional entity, and a network data analysis functional entity, and the power network operation device further includes:

the first power calculation task creation request sending module is used for sending a power calculation task creation request to the power calculation service functional entity through the position management functional entity under the condition that the position management functional entity receives the positioning request;

the second calculation task creation request sending module is used for sending a calculation task creation request to the calculation service functional entity through the perception functional entity under the condition that the perception functional entity receives the perception request;

a third calculation task creation request sending module, configured to send a calculation task creation request to the calculation service functional entity through the network data analysis functional entity;

and the power calculation task creation completion message sending module is used for sending a power calculation task creation completion message to the perception functional entity, the position management functional entity and the network data analysis functional entity through the power calculation service functional entity under the condition that the resource allocation of the power calculation task corresponding to the power calculation task creation request is completed.

Optionally, the force calculation result feedback module includes:

a first measurement indication message sending unit, configured to send a measurement indication message to the user node and/or the access network node through the control plane functional entity, where the measurement indication message carries a task identifier;

a target measurement information acquisition unit, configured to acquire target measurement information corresponding to the measurement indication message through the user node and/or the access network node, and send the target measurement information and the task identifier to the power calculation service functional entity;

and the second calculation result feedback unit is used for feeding back the calculation result corresponding to the target measurement information to the control surface functional entity through the calculation service functional entity.

Optionally, the measurement instruction message sending unit includes:

a second measurement indication message sending unit, configured to send a measurement indication message to the user node through the location management function entity;

and the third measurement indication message sending unit is used for sending measurement indication messages to the access network node through the perception functional entity.

Optionally, the power network operation device further includes:

the information sending module is used for sending the target measurement information and the task identifier to the power calculation service functional entity through a control plane or a data plane by the user node and/or the access network node;

the computing task context information acquisition module is used for acquiring computing task context information based on the target measurement information and the task identifier;

and the calculation force result determining module is used for determining a calculation force result corresponding to the target measurement information according to the calculation task context information and the corresponding calculation algorithm.

Fig. 7 illustrates a physical schematic diagram of an electronic device, as shown in fig. 7, which may include: processor 710, communication interface (Communications Interface) 720, memory 730, and communication bus 740, wherein processor 710, communication interface 720, memory 730 communicate with each other via communication bus 740. Processor 710 may invoke logic instructions in memory 730 to perform the power network operation method.

Further, the logic instructions in the memory 730 described above may be implemented in the form of software functional units and may be stored in a computer readable storage medium when sold or used as a stand alone product. Based on this understanding, the technical solution of the present application may be embodied essentially or in a part contributing to the prior art or in a part of the technical solution, in the form of a software product stored in a storage medium, comprising several instructions for causing a computer device (which may be a personal computer, a server, a network device, etc.) to perform all or part of the steps of the method according to the embodiments of the present application. And the aforementioned storage medium includes: a U-disk, a removable hard disk, a Read-Only Memory (ROM), a random access Memory (RAM, random Access Memory), a magnetic disk, or an optical disk, or other various media capable of storing program codes.

In yet another aspect, the present application also provides a non-transitory computer readable storage medium having stored thereon a computer program which, when executed by a processor, is implemented to perform the method of operation of a computing network provided by the methods described above.

The apparatus embodiments described above are merely illustrative, wherein the elements illustrated as separate elements may or may not be physically separate, and the elements shown as elements may or may not be physical elements, may be located in one place, or may be distributed over a plurality of network elements. Some or all of the modules may be selected according to actual needs to achieve the purpose of the solution of this embodiment. Those of ordinary skill in the art will understand and implement the present application without undue burden.

From the above description of the embodiments, it will be apparent to those skilled in the art that the embodiments may be implemented by means of software plus necessary general hardware platforms, or of course may be implemented by means of hardware. Based on this understanding, the foregoing technical solution may be embodied essentially or in a part contributing to the prior art in the form of a software product, which may be stored in a computer readable storage medium, such as ROM/RAM, a magnetic disk, an optical disk, etc., including several instructions for causing a computer device (which may be a personal computer, a server, or a network device, etc.) to execute the method described in the respective embodiments or some parts of the embodiments.

Finally, it should be noted that: the above embodiments are only for illustrating the technical solution of the present application, and are not limiting; although the application has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical scheme described in the foregoing embodiments can be modified or some technical features thereof can be replaced by equivalents; such modifications and substitutions do not depart from the spirit and scope of the technical solutions of the embodiments of the present application.

Claims (10)

1. The power computing network operation method is characterized in that the power computing network operation method is applied to a power computing network, the power computing network comprises a control plane functional entity, a power computing service functional entity, a user node and an access network node, and the power computing network operation method comprises the following steps:

the power calculation result of a power calculation task is fed back to the control plane functional entity through task connection between the power calculation service functional entity and the control plane functional entity, and the power calculation task is sent to the power calculation service functional entity by the control plane functional entity based on the task connection;

and feeding back a power calculation result corresponding to the target measurement information to the control plane functional entity through the connection between the control plane functional entity and the power calculation service functional entity, wherein the target measurement information is acquired through the user node and/or the access network node.

2. The method according to claim 1, wherein the feeding back the calculation result of the calculation task to the control plane functional entity through the task connection between the calculation service functional entity and the control plane functional entity includes:

under the condition that the control plane functional entity receives a service request, establishing task connection between the power calculation service functional entity and the control plane functional entity;

determining a power calculation result of a power calculation task through the power calculation service functional entity, wherein the power calculation task is transmitted to the power calculation service functional entity by the control plane functional entity based on the task connection;

and feeding back the force calculation result to the control plane functional entity through the force calculation service functional entity.

3. The method of claim 2, wherein the establishing a task connection between the computing power service function entity and the control plane function entity comprises:

sending a power calculation task creation request to the power calculation service functional entity through the control plane functional entity;

task resources and computing power resources are distributed to the computing power tasks corresponding to the computing power task creation request through the computing power service functional entity;

and under the condition that the resource allocation of the power calculation task is completed, sending a message of the completion of the power calculation task creation to the control plane functional entity through the power calculation service functional entity so as to establish task connection between the power calculation service functional entity and the control plane functional entity.

4. A method of operation of a power network according to claim 3, wherein the control plane functional entities include a awareness functional entity, a location management functional entity, and a network data analysis functional entity, the method of operation of a power network further comprising:

sending a calculation task creation request to the calculation service functional entity through the position management functional entity under the condition that the position management functional entity receives a positioning request;

under the condition that the perception functional entity receives the perception request, sending a calculation task creation request to the calculation service functional entity through the perception functional entity;

sending a calculation task creation request to the calculation service functional entity through the network data analysis functional entity;

and under the condition that the resource allocation of the computing power task corresponding to the computing power task creation request is completed, sending a message of the completion of the computing power task creation to the perception function entity, the position management function entity and the network data analysis function entity through the computing power service function entity.

5. The method according to claim 4, wherein the feeding back the calculation result corresponding to the target measurement information to the control plane functional entity through the connection between the control plane functional entity and the calculation service functional entity includes:

sending a measurement indication message to the user node and/or the access network node through the control plane functional entity and carrying a task identifier;

acquiring target measurement information corresponding to the measurement indication message through the user node and/or the access network node, and sending the target measurement information and the task identifier to the power calculation service functional entity;

and feeding back a calculation result corresponding to the target measurement information to the control plane functional entity through the calculation service functional entity.

6. The method according to claim 5, wherein said sending, by the control plane functional entity, a measurement indication message to the user node and/or the access network node comprises:

sending a measurement indication message to the user node through the location management function entity;

and sending a measurement indication message to the access network node through the perception functional entity.

7. The method of claim 5, further comprising:

the user node and/or the access network node sends the target measurement information and task identification to the power calculation service functional entity through a control plane or a data plane;

acquiring computing task context information based on the target measurement information and the task identifier;

and determining a calculation force result corresponding to the target measurement information according to the calculation task context information and the corresponding calculation algorithm.

8. A computing power network operation device, comprising:

the power calculation task feedback module is used for feeding back a power calculation result of a power calculation task to the control plane functional entity through task connection between the power calculation service functional entity and the control plane functional entity, wherein the power calculation task is sent to the power calculation service functional entity by the control plane functional entity based on the task connection;

and the force calculation result feedback module is used for feeding back the force calculation result corresponding to the target measurement information to the control plane functional entity through the connection between the control plane functional entity and the force calculation service functional entity, wherein the target measurement information is acquired through the user node and/or the access network node.

9. An electronic device comprising a memory, a processor and a computer program stored on the memory and executable on the processor, wherein the processor implements the method of operating a power network according to any one of claims 1 to 7 when the program is executed by the processor.

10. A non-transitory computer readable storage medium, on which a computer program is stored, characterized in that the computer program, when executed by a processor, implements the method of operation of a power network according to any one of claims 1 to 7.