CN115102860B

CN115102860B - Power Internet of things application issuing deployment method and system

Info

Publication number: CN115102860B
Application number: CN202211019090.XA
Authority: CN
Inventors: 宋佳骏; 洪慧君; 陆慧; 王嘉延; 卢有飞; 索智鑫; 梁雪青; 王译萱
Original assignee: Guangzhou Power Supply Bureau of Guangdong Power Grid Co Ltd
Current assignee: Guangzhou Power Supply Bureau of Guangdong Power Grid Co Ltd
Priority date: 2022-08-24
Filing date: 2022-08-24
Publication date: 2022-11-22
Anticipated expiration: 2042-08-24
Also published as: CN115102860A

Abstract

The invention discloses a method and a system for issuing and deploying power Internet of things application, wherein the method comprises the following steps: acquiring an application to be deployed and application deployment information corresponding to the application to be deployed through an application acquisition terminal in the power internet of things, wherein the application deployment information comprises version information and a target type of the application to be deployed; acquiring terminal information of all intelligent terminals to be judged in the power internet of things, wherein the terminal information comprises category information of the intelligent terminals to be judged, installed applications, version information of the installed applications and position information of the intelligent terminals to be judged; acquiring a target intelligent terminal from the intelligent terminal to be judged according to the application deployment information and the terminal information; constructing an application issuing path from the application acquisition terminal to the target intelligent terminal based on the position information of the intelligent terminal to be judged; and issuing the application to be deployed to the target intelligent terminal according to the application issuing path and deploying the application. The invention is beneficial to realizing the automatic application issuing deployment and improving the efficiency of the application issuing deployment.

Description

Power Internet of things application issuing deployment method and system

Technical Field

The invention relates to the technical field of Internet of things, in particular to a power Internet of things application issuing and deploying method and system.

Background

With the development of science and technology, the technology of the internet of things is rapidly developed, and the application range of the internet of things is wider and wider. For example, in an electric power application scenario, the internet of things can be constructed, so that intelligent terminals in the electric power scenario are associated, and better control and management are realized. In an actual use process, corresponding applications may need to be installed or existing applications may need to be updated in each intelligent terminal in the power internet of things, that is, applications need to be issued and deployed in the power internet of things.

In the prior art, for an application to be deployed, a user needs to manually specify which intelligent terminal or intelligent terminals to issue, and then the application can be issued and deployed. The problem of the prior art is that when the application is issued and deployed in the power internet of things, the intelligent terminal to be issued can only be manually specified by a user, and automatic issuing and deployment of the application cannot be intelligently achieved, namely, full-intelligent automation cannot be achieved in the application issuing and deployment updating process, the efficiency of the application issuing and deployment in the power internet of things is not improved, the maintenance of the power internet of things is not facilitated, and the use experience is influenced.

Thus, there is a need for improvement and development of the prior art.

Disclosure of Invention

The invention mainly aims to provide an application issuing and deploying method and system for an electric power internet of things, and aims to solve the problems that in the prior art, when application issuing and deploying are carried out in the electric power internet of things, an intelligent terminal to be issued can only be manually specified by a user, automatic issuing and deploying of applications cannot be intelligently realized, namely, full-intelligent automation cannot be realized in the application issuing, deploying and updating process, the efficiency of application issuing and deploying in the electric power internet of things is not favorably improved, the maintenance of the electric power internet of things is not favorably carried out, and the use experience is influenced.

In order to achieve the above object, a first aspect of the present invention provides a method for issuing and deploying an application of an electric power internet of things, where the method for issuing and deploying an application of an electric power internet of things includes:

acquiring an application to be deployed and application deployment information corresponding to the application to be deployed through an application acquisition terminal in the power internet of things, wherein the application deployment information comprises version information of the application to be deployed and a target category corresponding to the application to be deployed;

acquiring terminal information of all intelligent terminals to be judged in the power internet of things, wherein the terminal information comprises category information of the intelligent terminals to be judged, installed applications in the intelligent terminals to be judged, version information of the installed applications and position information of the intelligent terminals to be judged;

acquiring a target intelligent terminal from all the intelligent terminals to be judged according to the application deployment information and the terminal information, wherein the type information of the target intelligent terminal is the same as the type of the target intelligent terminal, the installed applications of the target intelligent terminal do not include a target conflict application, the name of the target conflict application is the same as that of the application to be deployed, and the version of the target conflict application is not lower than that of the application to be deployed;

constructing an application issuing path from the application acquisition terminal to the target intelligent terminal based on the position information of the intelligent terminal to be judged;

and issuing the application to be deployed to the target intelligent terminal according to the application issuing path and performing application deployment.

Optionally, the obtaining a target intelligent terminal from the intelligent terminal to be determined according to the application deployment information and the terminal information includes:

acquiring target type intelligent terminals from all intelligent terminals to be judged of the power internet of things according to the type information of the intelligent terminals to be judged and the target type, wherein the type information of the target type intelligent terminals is the same as the target type;

and acquiring target intelligent terminals from all the target type terminals according to the version information of the applications to be deployed, the installed applications in the target type intelligent terminals and the version information of the installed applications, wherein the installed applications of the target intelligent terminals do not include the target conflict applications.

Optionally, the application deployment information further includes an application privacy level of the application to be deployed, the terminal information further includes a terminal privacy level of the intelligent terminal to be determined, and the obtaining of the target category intelligent terminal from all intelligent terminals to be determined of the power internet of things according to the category information of the intelligent terminal to be determined and the target category includes:

all intelligent terminals to be judged, with the terminal privacy level not lower than the application privacy level, in the power internet of things are used as target privacy intelligent terminals;

and taking the target privacy intelligent terminal with the same type information as the target type intelligent terminal.

Optionally, the constructing an application delivery path from the application obtaining terminal to the target intelligent terminal based on the location information of the intelligent terminal to be determined includes:

and acquiring an application issuing path through a pre-trained deep reinforcement learning path planning model according to the position information of all the intelligent terminals to be judged, wherein the application issuing path takes the application acquisition terminal as an initial node and at least one target intelligent terminal as a termination node, and the application issuing path passes through all the target intelligent terminals.

Optionally, the constructing an application delivery path from the application acquisition terminal to the target intelligent terminal based on the location information of the intelligent terminal to be determined includes:

for an ith node, acquiring a nearest target intelligent terminal corresponding to the ith node according to the position information, wherein the nearest target intelligent terminal is a target intelligent terminal which is closest to the ith node in target intelligent terminals which are not connected in a connection state;

if the ith node can communicate with the nearest target intelligent terminal, taking the nearest target intelligent terminal as an (i + 1) th node, and modifying the connection state of the nearest target intelligent terminal into a connected state;

if the ith node and the nearest target intelligent terminal cannot communicate, acquiring a switching intelligent terminal corresponding to the ith node according to the position information, taking the switching intelligent terminal as an (i + 1) th node, and modifying the connection state of the switching intelligent terminal into connected state, wherein the switching intelligent terminal is an intelligent terminal to be judged which can communicate with the ith node and is closest to the nearest target intelligent terminal in the intelligent terminals to be judged;

when the connection states of all the target intelligent terminals are connected, the construction of the application issuing path is completed, and the application issuing path is composed of all the nodes which are connected in sequence;

wherein i is an integer greater than 0, and the 1 st node is the application acquisition terminal.

Optionally, the method further includes:

and when the ith node does not have a corresponding transfer intelligent terminal, acquiring the mobile communication terminal as an (i + 1) th node, wherein the position information of the mobile communication terminal comprises preset movement range boundary information.

Optionally, the mobile communication terminal is an unmanned aerial vehicle.

Optionally, the issuing the application to be deployed to the target intelligent terminal according to the application issuing path and performing application deployment includes:

starting from the 1 st node of the application delivery path, delivering the application to be deployed to all nodes of the application delivery path according to the connection sequence of the nodes, and controlling the target intelligent terminal to install and deploy the application to be deployed;

when the application privacy level of the application to be deployed is greater than a preset privacy threshold value, encrypting received data at a H node in the application issuing path according to any one preset encryption mode, sending the encrypted data and corresponding encryption mode sequence number information to a H +1 node, decrypting the received data layer by the target intelligent terminal according to a preset encryption mode comparison table to obtain the application to be deployed and deploying the application, wherein H is greater than 1 and less than H, H is a sequence number of a last node in the application issuing path, encrypting the application data corresponding to the application to be deployed by the 1 node according to any one preset encryption mode, and sending the encrypted application data and the corresponding encryption mode sequence number information to the 2 node.

The second aspect of the present invention provides an electric power internet of things application issuing and deployment system, wherein the electric power internet of things application issuing and deployment system includes:

the system comprises a to-be-deployed application acquisition module, a deployment information acquisition module and a deployment information acquisition module, wherein the to-be-deployed application acquisition module is used for acquiring an application to be deployed and application deployment information corresponding to the application to be deployed through an application acquisition terminal in the power internet of things, and the application deployment information comprises version information of the application to be deployed and a target category corresponding to the application to be deployed;

the terminal information acquisition module is used for acquiring terminal information of all intelligent terminals to be judged in the power internet of things, wherein the terminal information comprises category information of the intelligent terminals to be judged, installed applications in the intelligent terminals to be judged, version information of the installed applications and position information of the intelligent terminals to be judged;

a target intelligent terminal obtaining module, configured to obtain a target intelligent terminal from all the intelligent terminals to be determined according to the application deployment information and the terminal information, where category information of the target intelligent terminal is the same as the target category and an installed application of the target intelligent terminal does not include a target conflict application, a name of the target conflict application is the same as the application to be deployed, and a version of the target conflict application is not lower than the application to be deployed;

the application issuing path construction module is used for constructing an application issuing path from the application acquisition terminal to the target intelligent terminal based on the position information of the intelligent terminal to be judged;

and the application issuing module is used for issuing the application to be deployed to the target intelligent terminal according to the application issuing path and performing application deployment.

Optionally, the target intelligent terminal obtaining module includes:

a target type intelligent terminal obtaining unit, configured to obtain a target type intelligent terminal from all to-be-determined intelligent terminals of the power internet of things according to the type information of the to-be-determined intelligent terminal and the target type, where the type information of the target type intelligent terminal is the same as the target type;

and the target intelligent terminal obtaining unit is used for obtaining a target intelligent terminal from all the target type terminals according to the version information of the application to be deployed, the installed application in the target type intelligent terminal and the version information of the installed application, wherein the installed application of the target intelligent terminal does not include the target conflict application.

As can be seen from the above, in the scheme of the present invention, an application to be deployed and application deployment information corresponding to the application to be deployed are obtained through an application obtaining terminal in an electric power internet of things, where the application deployment information includes version information of the application to be deployed and a target category corresponding to the application to be deployed; acquiring terminal information of all intelligent terminals to be judged in the power internet of things, wherein the terminal information comprises category information of the intelligent terminals to be judged, installed applications in the intelligent terminals to be judged, version information of the installed applications and position information of the intelligent terminals to be judged; acquiring a target intelligent terminal from all the intelligent terminals to be judged according to the application deployment information and the terminal information, wherein the type information of the target intelligent terminal is the same as the type of the target intelligent terminal, the installed applications of the target intelligent terminal do not include a target conflict application, the name of the target conflict application is the same as that of the application to be deployed, and the version of the target conflict application is not lower than that of the application to be deployed; constructing an application issuing path from the application acquisition terminal to the target intelligent terminal based on the position information of the intelligent terminal to be judged; and issuing the application to be deployed to the target intelligent terminal according to the application issuing path and performing application deployment. Compared with the prior art that the intelligent terminal to be issued can only be manually specified by a user, and automatic issuing and deployment of the application cannot be intelligently realized, in the invention, the application to be deployed and the corresponding application deployment information thereof can be acquired through the application acquisition terminal in the power internet of things, and after the terminal information of all the intelligent terminals to be judged in the power internet of things is acquired, the target intelligent terminal is acquired through automatic judgment of the application deployment information and the terminal information, the corresponding application issuing path is automatically constructed, the application to be deployed is automatically issued to the target intelligent terminal and deployed, the user does not need to manually specify the target intelligent terminal to be deployed, the full-intelligent automation of the application issuing and deployment updating process is favorably realized, the efficiency of application issuing and deployment in the power internet of things is favorably improved, the labor cost is reduced, the maintenance of the power is favorably realized, and the use experience of the user is improved.

Drawings

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

Fig. 1 is a schematic flow chart of a power internet of things application issuing and deploying method according to an embodiment of the present invention;

FIG. 2 is a flowchart illustrating the step S300 in FIG. 1 according to an embodiment of the present invention;

FIG. 3 is a flowchart illustrating the step S301 in FIG. 2 according to an embodiment of the present invention;

FIG. 4 is a flowchart illustrating the step S400 in FIG. 1 according to an embodiment of the present invention;

fig. 5 is a schematic structural diagram of an electric power internet of things application issuing and deploying system provided in the embodiment of the present invention;

fig. 6 is a schematic structural diagram of the target intelligent terminal acquiring module 630 in fig. 5 according to an embodiment of the present invention.

Detailed Description

In the following description, for purposes of explanation and not limitation, specific details are set forth, such as particular system structures, techniques, etc. in order to provide a thorough understanding of the embodiments of the invention. It will be apparent, however, to one skilled in the art that the present invention may be practiced in other embodiments that depart from these specific details. In other instances, detailed descriptions of well-known systems, devices, circuits, and methods are omitted so as not to obscure the description of the present invention with unnecessary detail.

It will be understood that the terms "comprises" and/or "comprising," when used in this specification and the appended claims, specify the presence of stated features, integers, steps, operations, elements, and/or components, but do not preclude the presence or addition of one or more other features, integers, steps, operations, elements, components, and/or groups thereof.

It is also to be understood that 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 in the specification of the present invention and the appended claims, the singular forms "a," "an," and "the" are intended to include the plural forms as well, unless the context clearly indicates otherwise.

It should be further understood that the term "and/or" as used in this specification and the appended claims refers to and includes any and all possible combinations of one or more of the associated listed items.

As used in this specification and the appended claims, the term "if" may be interpreted contextually as "when …" or "upon" or "in response to a determination" or "in response to a detection". Similarly, the phrase "if it is determined" or "if a [ described condition or event ] is detected" may be interpreted depending on the context to mean "upon determining" or "in response to determining" or "upon detecting [ described condition or event ]" or "in response to detecting [ described condition or event ]".

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

In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present invention, but the present invention may be practiced in other ways than those specifically described and will be readily apparent to those of ordinary skill in the art without departing from the spirit of the present invention, and therefore the present invention is not limited to the specific embodiments disclosed below.

In the prior art, for an application to be deployed, a user is required to manually specify which intelligent terminal or intelligent terminals to issue, and then the application can be issued and deployed. The problem of the prior art is that when the application is issued and deployed in the power internet of things, the intelligent terminal to be issued can only be manually specified by a user, and automatic issuing and deployment of the application cannot be intelligently achieved, namely, full-intelligent automation cannot be achieved in the application issuing and deployment updating process, the efficiency of the application issuing and deployment in the power internet of things is not improved, the maintenance of the power internet of things is not facilitated, and the use experience is influenced.

Meanwhile, in an application scenario, in the process of specifying the intelligent terminal by the user, part of the intelligent terminals needing application deployment may be omitted due to unskilled operation or unfamiliar operation of all the intelligent terminals (the number of the intelligent terminals in a large power internet of things is huge), so that the application deployment cannot be performed, and the functions of the internet of things and the use experience of the user are affected.

In another application scenario, each intelligent terminal may only be in communication connection with some other intelligent terminals, but is not in direct connection with the intelligent terminal that acquires the application to be deployed, and some intelligent terminals may not be connected with the cloud end due to deployment location, privacy requirements, and the like, so that the application to be deployed cannot be directly issued to the corresponding target intelligent terminal, and a user is also required to manually specify a corresponding application issuing path, which consumes more time and affects the efficiency of application issuing and deployment.

In order to solve at least one of the problems, in the scheme of the invention, an application to be deployed and application deployment information corresponding to the application to be deployed are acquired through an application acquisition terminal in an electric power internet of things, wherein the application deployment information includes version information of the application to be deployed and a target category corresponding to the application to be deployed; acquiring terminal information of all intelligent terminals to be judged in the power internet of things, wherein the terminal information comprises category information of the intelligent terminals to be judged, installed applications in the intelligent terminals to be judged, version information of the installed applications and position information of the intelligent terminals to be judged; acquiring a target intelligent terminal from all the intelligent terminals to be judged according to the application deployment information and the terminal information, wherein the type information of the target intelligent terminal is the same as the type of the target intelligent terminal, the installed applications of the target intelligent terminal do not include a target conflict application, the name of the target conflict application is the same as that of the application to be deployed, and the version of the target conflict application is not lower than that of the application to be deployed; constructing an application issuing path from the application acquisition terminal to the target intelligent terminal based on the position information of the intelligent terminal to be judged; and issuing the application to be deployed to the target intelligent terminal according to the application issuing path and performing application deployment.

Compared with the prior art that the intelligent terminal to be issued can only be manually specified by a user and automatic issuing and deployment of the application cannot be intelligently realized, the method and the device can acquire the application to be deployed and the application deployment information corresponding to the application to be deployed through the application acquisition terminal in the power internet of things, automatically judge and acquire the target intelligent terminal through the application deployment information and the terminal information after acquiring the terminal information of all the intelligent terminals to be judged in the power internet of things, automatically construct a corresponding application issuing path, automatically issue the application to be deployed to the target intelligent terminal and deploy the application, do not need the user to manually specify the target intelligent terminal to be deployed and the corresponding application issuing path, are favorable for realizing full-intelligent automation of an application issuing and deployment updating process, are favorable for improving the efficiency of application issuing and deployment in the power internet of things, can reduce labor cost, are favorable for maintaining the power internet of things and improve the use experience of the user.

Exemplary method

As shown in fig. 1, an embodiment of the present invention provides a power internet of things application issuing and deployment method, specifically, the method includes the following steps:

step S100, an application to be deployed and application deployment information corresponding to the application to be deployed are obtained through an application obtaining terminal in the power internet of things, wherein the application deployment information comprises version information of the application to be deployed and a target category corresponding to the application to be deployed.

Based on the scheme of this embodiment, a plurality of applications to be deployed may be simultaneously obtained and issued for deployment, or the applications to be deployed may be continuously obtained one by one and issued for deployment.

The target category is a category of an intelligent terminal that needs to install the application to be deployed, for example, when the application to be deployed is a video processing application, the corresponding target category may be a video capture category (the corresponding target intelligent terminal may be a camera, etc.); when the application to be deployed is a temperature control application, the corresponding target category may be a temperature control category (the corresponding target intelligent terminal may be an air conditioner, a refrigerator, or the like), and is not limited specifically herein. The version information can be used for indicating the version of the application to be deployed, so that the application to be deployed of different versions can be conveniently distinguished, the application can be updated, and the problem that the application to be deployed of the new version cannot be installed due to the fact that the application to be deployed of the old version is installed is solved.

In an application scenario, the application acquisition terminal may be a fixed intelligent terminal preset in the power internet of things, and a user (e.g., a software maintenance worker) may connect the application acquisition terminal through a fixed interface so as to issue and deploy an application.

In another application scenario, the application acquisition terminal may also be any one of the intelligent terminals with a data transceiving function in the power internet of things, so that a user can conveniently input a corresponding application to be deployed into the power internet of things. For example, when the user is in any area range corresponding to the power internet of things, the user may select an intelligent terminal as the application acquisition terminal nearby, and transmit the application to be deployed to the power internet of things in a wireless communication mode, a near field network mode, a removable storage medium mode or the like, and then issue and deploy the application. Therefore, the user does not need to move to the fixed application acquisition terminal at a specific position, corresponding application to be deployed can be conveniently transmitted by the staff, the efficiency of issuing and deploying the application of the power internet of things can be improved, and the use experience can be improved.

Step S200, acquiring terminal information of all intelligent terminals to be judged in the power Internet of things, wherein the terminal information comprises category information of the intelligent terminals to be judged, installed applications in the intelligent terminals to be judged, version information of the installed applications and position information of the intelligent terminals to be judged.

The intelligent terminal to be judged can comprise all intelligent terminals in the electric power internet of things (except the application acquisition terminal), so that all intelligent terminals in the electric power internet of things can be judged automatically and rapidly, application issuing deployment is carried out, and the intelligent level of the electric power internet of things is improved. The category information represents the category corresponding to the intelligent terminal to be judged, such as the category of data which can be processed; the installed application and the version information of the installed application can be used for judging whether the corresponding intelligent terminal to be judged completes the deployment of the corresponding application to be deployed or not, and if the deployment is completed, repeated issuing and deployment are not needed; the position information can be used for constructing a corresponding application issuing path. Communication distances of all intelligent terminals in the power internet of things are usually limited, and long-distance data communication cannot be performed, so that reasonable path planning needs to be performed to achieve issuing of applications to be deployed.

It should be noted that, the application issuing and deployment method for the power internet of things in this embodiment may be executed by the application acquisition terminal, any one of the intelligent terminals in the power internet of things, or one additional control system (for example, the application issuing and deployment system for the power internet of things), and the corresponding terminal information of the intelligent terminal to be determined may be pre-stored or uploaded to the application acquisition terminal, any one of the intelligent terminals in the power internet of things, or one additional control system in real time.

Further, each step corresponding to the power internet of things application issuing and deploying method and/or the terminal information of the intelligent terminal to be judged in the embodiment may also be embedded into the program package of the application to be deployed in advance, so that any one intelligent terminal in the power internet of things can execute the power internet of things application issuing and deploying method in the embodiment according to the program package of the application to be deployed when obtaining the program package of the application to be deployed, and issue and deploy of the application to be deployed are completed, which is beneficial to improving the efficiency of application deployment and the applicability of the method in the embodiment.

Preferably, in this embodiment, all the terminal information of the intelligent terminal to be determined in the power internet of things is transmitted to the application acquisition terminal step by step based on preset information update time, so as to avoid application false delivery caused by intelligent terminal replacement, offline or position movement and the like, and further improve the efficiency of application delivery deployment.

In an application scenario, the step-by-step transmission process may include: the method comprises the steps that a terminal information acquisition notice is sent to all intelligent terminals to be judged, which are communicated with the application acquisition terminal, through the application acquisition terminal, each intelligent terminal to be judged, which receives the terminal information acquisition notice, forwards the terminal information acquisition notice to all non-informed terminals which are in communication connection with the terminal information acquisition notice until each intelligent terminal to be judged receives the terminal information acquisition notice, namely, each intelligent terminal to be judged in the power internet of things is informed (the isolated intelligent terminal to be judged can be informed and forwarded by adopting an unmanned aerial vehicle), and then each informed intelligent terminal to be judged reversely uploads corresponding terminal information to the application acquisition terminal according to a path issued by the notice.

Step S300, a target intelligent terminal is obtained from all the intelligent terminals to be judged according to the application deployment information and the terminal information, wherein the type information of the target intelligent terminal is the same as the type of the target, the installed applications of the target intelligent terminal do not include a target conflict application, the name of the target conflict application is the same as the type of the applications to be deployed, and the version of the target conflict application is not lower than the type of the applications to be deployed.

The target conflict application refers to an application to be deployed, which is installed in the intelligent terminal to be determined in advance and has a higher version or the same version as the application to be deployed, and generally, in the application updating process, if the target conflict application is installed in one intelligent terminal, the application to be deployed does not need to be issued again, so that the consumption of data transmission can be reduced, and the application deployment efficiency can be improved.

In this embodiment, as shown in fig. 2, the step S300 specifically includes the following steps:

step S301, acquiring target type intelligent terminals from all the intelligent terminals to be judged of the power internet of things according to the type information of the intelligent terminals to be judged and the target type, wherein the type information of the target type intelligent terminals is the same as the target type.

Step S302, obtaining a target intelligent terminal from all the target class terminals according to the version information of the application to be deployed, the installed application in the target class intelligent terminal, and the version information of the installed application, where the installed application of the target intelligent terminal does not include the target conflict application.

Specifically, in this embodiment, all the target category intelligent terminals can be quickly and automatically screened and obtained from all the intelligent terminals to be judged according to the category information of the intelligent terminals to be judged and the target categories of the applications to be deployed, and further, all the target intelligent terminals not containing the target conflict applications can be screened and obtained from all the target category intelligent terminals, manual screening is not needed, the screening process can be accurately, quickly and intelligently realized, all the intelligent terminals needing to be issued and deployed with the applications to be deployed can be quickly obtained, and the application issuing and deploying efficiency is improved.

Preferably, it may also be determined in advance whether each terminal to be determined includes a target low-version application, where the name of the target low-version application is the same as that of the application to be deployed and the version of the target low-version application is lower than that of the application to be deployed. When one terminal to be judged comprises the target low-version application, the terminal can be directly used as a target intelligent terminal to realize application updating, subsequent judgment is not needed, and the judgment calculation amount is reduced.

It should be noted that the target categories corresponding to the applications to be deployed may be preset or may be specified by a user, one application to be deployed may correspond to multiple target categories, and multiple target categories may have an "and" relationship (that is, the category information of the intelligent terminal to be determined is the same as all the target categories) or an "or" relationship (that is, only the category information of the intelligent terminal to be determined is the same as any one target category), so as to better screen the corresponding target category terminals.

In this embodiment, the application deployment information further includes an application privacy level of the application to be deployed, and the terminal information further includes a terminal privacy level of the intelligent terminal to be determined. As shown in fig. 3, the step S301 specifically includes the following steps:

and S3011, taking all the intelligent terminals to be judged, of which the terminal privacy levels are not lower than the application privacy level, in the power Internet of things as target privacy intelligent terminals.

In step S3012, the target privacy intelligent terminal having the same category information as the target category is set as the target category intelligent terminal.

And the application privacy grade and the terminal privacy grade respectively represent the security grade corresponding to the application to be deployed and the terminal to be judged. In the embodiment, considering that part of applications to be deployed may relate to privacy information, the intelligent terminals to be judged are further screened according to the privacy level, so that the security in the application issuing process is improved. Specifically, each intelligent terminal to be determined is preset with a corresponding terminal privacy level (which may also be adjusted according to actual requirements), for example, the privacy level of the terminal to be determined, which any person may use in a connected manner, is 0, the privacy level of the terminal to be determined, which is authorized to be used by a part of users, is 1, and the privacy level of the terminal to be determined, which is only used by the user after real-time authentication, is 2. For the application to be deployed, the application privacy level can also be preset or adjusted according to actual requirements.

Therefore, the intelligent terminal to be judged, which meets the privacy requirement, is screened out as the target privacy terminal, and then the corresponding target type intelligent terminal is screened out from the target privacy terminal, so that the safety of application issuing deployment is improved.

It should be noted that, in an application scenario, the application receiving terminal may also serve as a terminal to be determined, and perform the above-mentioned determination and screening process, and if the application receiving terminal meets each condition corresponding to the target intelligent terminal, the application receiving terminal may also serve as a target intelligent terminal, and directly install the corresponding application to be deployed.

Furthermore, in another application scenario, the terminal information of the intelligent terminal to be determined further includes automatic update setting information, the target intelligent terminal further needs to be screened according to the automatic update setting information, and only the intelligent terminal with the automatic update setting is opened can be used as the target intelligent terminal.

And S400, constructing an application issuing path from the application acquisition terminal to the target intelligent terminal based on the position information of the intelligent terminal to be judged.

In an application scenario, the step S400 specifically includes: and acquiring an application issuing path through a pre-trained deep reinforcement learning path planning model according to the position information of all the intelligent terminals to be judged, wherein the application issuing path takes the application acquisition terminal as an initial node and at least one target intelligent terminal as a termination node, and the application issuing path passes through all the target intelligent terminals.

The pre-trained deep reinforcement learning path planning model is a pre-trained model for planning a path in a deep learning mode. According to the deep reinforcement learning path planning model, flexible topology can be performed, and multi-target path planning can be realized when a plurality of target terminals exist. Preferably, communication delay, packet loss rate and the like between the intelligent terminals to be judged can be acquired, and the corresponding deep reinforcement learning path planning model can take the minimum delay and packet loss rate as a target.

In an application scenario, the deep reinforcement learning path planning model is deployed in all the intelligent terminals to be judged, so that all path planning is finished without a certain main node (a terminal specially used for control or an application acquisition terminal), and each sub-node (any intelligent terminal to be judged) can perform intelligent path planning. Therefore, the path planning can be performed in advance by the main node, when a problem is found in one node in the path in the application issuing process, the error information does not need to be fed back to the main node, the path is re-planned and the application is issued, and only the sub-node which finds the problem needs to intelligently find the next node according to the deep reinforcement learning path planning model. Therefore, time is saved, efficiency is improved, and accuracy of application issuing can be improved.

Deployment of the deep reinforcement learning path planning model needs to occupy a certain storage space, the calculation amount of the process of path planning through the model is possibly large, and correspondingly required calculation time is also long. Therefore, in this embodiment, in order to further improve the efficiency of application delivery deployment, each node in the application delivery path is directly obtained through a preset algorithm and the application delivery path is constructed. Specifically, as shown in fig. 4, the step S400 specifically includes the following steps:

step S401, for the ith node, obtaining a nearest target intelligent terminal corresponding to the ith node according to the position information, wherein the nearest target intelligent terminal is a target intelligent terminal which is closest to the ith node in target intelligent terminals which are not connected in a connection state.

Step S402, if the ith node and the nearest target intelligent terminal can communicate with each other, regarding the nearest target intelligent terminal as an i +1 th node, and modifying the connection state of the nearest target intelligent terminal to be connected.

Step S403, if the ith node and the nearest target intelligent terminal cannot communicate with each other, acquiring a transit intelligent terminal corresponding to the ith node according to the location information, taking the transit intelligent terminal as an i +1 th node, and modifying a connection state of the transit intelligent terminal to be connected, where the transit intelligent terminal is an intelligent terminal to be determined that is closest to the nearest target intelligent terminal among the intelligent terminals to be determined that can communicate with the ith node.

And step S404, when the connection states of all the target intelligent terminals are connected, the construction of the application issuing path is completed, and the application issuing path is formed by all the nodes which are connected in sequence.

It should be noted that, the target terminal is screened from the to-be-determined intelligent terminals, so that the range of the to-be-determined intelligent terminal is wider (or the same) as that of the target intelligent terminal, that is, the to-be-determined intelligent terminal in this embodiment includes the target intelligent terminal and the non-target intelligent terminal, and the switching intelligent terminal in the step S403 is the to-be-determined intelligent terminal meeting the corresponding requirement, and the switching intelligent terminal may be a target intelligent terminal or not. When the switching intelligent terminal is a target intelligent terminal, the target intelligent terminal can not be used as the next nearest intelligent terminal (because the connection state of the target intelligent terminal is modified to be connected).

It should be noted that the transit intelligent terminal obtained in step S403 may be an intelligent terminal to be determined whose connection state is connected, that is, an intelligent terminal to be determined may serve as a duplicate node. Preferably, when a certain switching intelligent terminal is a to-be-determined intelligent terminal connected in the connected state, original application data in the connected to-be-determined intelligent terminal is directly used without resending the application data to the connected to-be-determined intelligent terminal, so that the application data forwarding time can be reduced, and the application deployment efficiency can be improved.

In an application scenario, the terminal privacy level of the switching intelligent terminal is not lower than the application privacy level of the application to be deployed, so that an intermediate node in an application issuing path is prevented from revealing privacy data in the corresponding application to be deployed, and the application deployment safety is improved. In another application scenario, the data corresponding to the application to be deployed may also be encrypted and transmitted, so as to improve the security of application deployment.

It should be noted that the delivery path is formed by all the nodes connected in sequence, that is, the 1 st node sends data to the 2 nd node, the 2 nd node sends data to the 3 rd node, and so on until all the nodes receive corresponding data.

In an application scenario, a situation that the ith node transmits data to the (i + 1) th node but the (i + 1) th node does not establish communication connection with any other intelligent terminal to be judged may occur, and at this time, the ith node may be used as a transit intelligent terminal of the (i + 1) th node. In another application scenario, if the (i + 1) th node cannot feed back data to the ith node (for example, communication between the (i) th node and the ith node is suddenly cut off, the ith node is suddenly disconnected, and the like), a mobile communication terminal needs to be configured for the (i + 1) th node.

Preferably, the power internet of things application issuing and deploying method further includes: and when the ith node does not have a corresponding transfer intelligent terminal, acquiring the mobile communication terminal as the (i + 1) th node, wherein the position information of the mobile communication terminal comprises preset movement range boundary information.

The mobile communication terminal is arranged in a preset range and can move in the preset range. It should be noted that a plurality of mobile communication terminals can be arranged in the area corresponding to the power internet of things, so that data transmission is more convenient. In the actual use process, each intelligent terminal to be judged in the power internet of things is usually fixed, such as an electric meter, a camera and the like, so that the flexibility and the efficiency of the application issuing and deploying process can be improved by configuring part of the mobile communication terminals.

In this embodiment, the mobile communication terminal has a data communication function, that is, can be used for receiving and sending data, and serves as a transit node (that is, a transit intelligent terminal) in the application delivery path. Preferably, the mobile communication terminal is an unmanned aerial vehicle with a data communication function, so that the unmanned aerial vehicle can be directly and automatically controlled to move to a proper position in a corresponding range, the transmission process of data corresponding to the application to be deployed is realized, and the issuing and the deployment of the application are realized.

In an application scenario, a mobile communication support terminal may be further provided, where the mobile communication support terminal is a terminal that can move within a certain range and can provide a wireless communication network or a near field communication network for an intelligent terminal within a preset communication radius range, and the ith node may obtain a transit intelligent terminal (that is, the ith node may perform data communication with a node to be determined) through the mobile communication support terminal. Preferably, if the preset communication radius of the mobile communication support terminal is a, the mobile communication support terminal is controlled to move on a spherical surface with a spatial distance a from the ith node, wherein a place with an obstacle is avoided. Preferably, the mobile communication support terminal is an unmanned aerial vehicle or a vehicle equipped with a small base station.

And S500, issuing the application to be deployed to the target intelligent terminal according to the application issuing path and deploying the application.

In this embodiment, after the application delivery path is constructed, the corresponding application to be deployed is delivered according to the application delivery path, and the target intelligent terminal is controlled to complete installation and deployment of the application to be deployed according to the received data. Specifically, the ID of each target intelligent terminal may be added to the installation package data corresponding to the application to be deployed, and after each intelligent terminal receives the installation package data, whether the intelligent terminal is the target intelligent terminal is determined according to the ID of the target intelligent terminal, and if the intelligent terminal is the target intelligent terminal, the application is installed.

Specifically, in this embodiment, the step S500 includes: starting from the 1 st node of the application issuing path, issuing the application to be deployed to all nodes of the application issuing path according to the connection sequence of the nodes, and controlling the target intelligent terminal to install and deploy the application to be deployed;

The connection order of the nodes is the order corresponding to the node sequence numbers, for example, the 1 st node is connected with the 2 nd node, the 2 nd node is connected with the 3 rd node, and so on.

In an application scenario, a privacy threshold is preset (may also be adjusted according to actual requirements), and an application privacy level of an application to be deployed may be used to indicate whether the application needs to perform additional privacy protection. And when the application privacy level is greater than the privacy threshold value, it is indicated that the application to be deployed needs privacy protection. At this time, data corresponding to the application to be deployed may be encrypted at each node (i.e., each smart terminal).

In this embodiment, each intelligent terminal in the power internet of things is preset with an encryption mode comparison table, which includes encryption mode serial number information and a corresponding specific encryption mode, and may further include a corresponding decryption mode, and at the h-th node, an encryption mode is randomly selected from the encryption mode comparison table to encrypt received data, and the encrypted data and the corresponding encryption mode serial number information are sent to the next node together. After a target intelligent terminal receives data (which can comprise installation package data and corresponding encryption mode serial number information data) corresponding to an application to be deployed, a corresponding encryption mode is obtained from an encryption mode comparison table stored in the target intelligent terminal according to the encryption mode serial number information of the last layer (assumed to be layer b, namely encrypted for b times), and then the data is decrypted according to a decryption mode corresponding to the encryption mode, so that the encryption mode serial number information during encryption for b-1 times and the corresponding encrypted data (namely the data received by the b-1 th node) can be obtained, and the corresponding decryption mode can be obtained and decrypted. Therefore, the corresponding application to be deployed can be obtained after decryption layer by layer, application deployment is completed, and the safety of application deployment can be improved. And the 1 st node directly encrypts the installation package data corresponding to the application to be deployed.

In an application scenario, the target intelligent terminal may also feed back the application deployment and running conditions back to the application acquisition terminal according to the application delivery path, for example, if the installation is successful and the running is normal, the successful information is fed back, and otherwise, the failure information is fed back, so that the application acquisition terminal knows the application deployment condition and determines whether the application needs to be delivered again, thereby improving the success rate of application delivery and deployment.

As can be seen from the above, in the application issuing and deploying method for the power internet of things, an application to be deployed and application deployment information corresponding to the application to be deployed are acquired through an application acquisition terminal in the power internet of things, where the application deployment information includes version information of the application to be deployed and a target category corresponding to the application to be deployed; acquiring terminal information of all intelligent terminals to be judged in the power internet of things, wherein the terminal information comprises category information of the intelligent terminals to be judged, installed applications in the intelligent terminals to be judged, version information of the installed applications and position information of the intelligent terminals to be judged; acquiring a target intelligent terminal from all the intelligent terminals to be judged according to the application deployment information and the terminal information, wherein the type information of the target intelligent terminal is the same as the type of the target, target conflict applications are not included in the installed applications of the target intelligent terminal, the names of the target conflict applications are the same as those of the applications to be deployed, and the versions of the target conflict applications are not lower than those of the applications to be deployed; constructing an application issuing path from the application acquisition terminal to the target intelligent terminal based on the position information of the intelligent terminal to be judged; and issuing the application to be deployed to the target intelligent terminal according to the application issuing path and performing application deployment.

Compared with the prior art that the intelligent terminal to be issued can only be manually specified by a user, and automatic issuing and deployment of the application cannot be intelligently realized, in the invention, the application to be deployed and the corresponding application deployment information thereof can be acquired through the application acquisition terminal in the power internet of things, and after the terminal information of all the intelligent terminals to be judged in the power internet of things is acquired, the target intelligent terminal is acquired through automatic judgment of the application deployment information and the terminal information, the corresponding application issuing path is automatically constructed, the application to be deployed is automatically issued to the target intelligent terminal and deployed, the user does not need to manually specify the target intelligent terminal to be deployed, the full-intelligent automation of the application issuing and deployment updating process is favorably realized, the efficiency of application issuing and deployment in the power internet of things is favorably improved, the labor cost is reduced, the maintenance of the power is favorably realized, and the use experience of the user is improved.

It should be noted that the power internet of things application issuing and deploying method may also be used for issuing and deploying a plurality of applications to be deployed, and in this embodiment, issuing and deploying one application to be deployed is taken as an example, but is not limited specifically.

Exemplary device

As shown in fig. 5, an embodiment of the present invention further provides a power internet of things application issuing deployment system corresponding to the power internet of things application issuing deployment method, where the power internet of things application issuing deployment system includes:

the to-be-deployed application acquiring module 610 is configured to acquire, through an application acquiring terminal in the power internet of things, an application to be deployed and application deployment information corresponding to the application to be deployed, where the application deployment information includes version information of the application to be deployed and a target category corresponding to the application to be deployed.

The target category is a category of an intelligent terminal that needs to install the application to be deployed, for example, when the application to be deployed is a video processing application, the corresponding target category may be a video capture category (the corresponding target intelligent terminal may be a camera, etc.); when the application to be deployed is a temperature control application, the corresponding target category may be a temperature control category (the corresponding target intelligent terminal may be an air conditioner, a refrigerator, or the like), and is not specifically limited herein. The version information can be used for indicating the version of the application to be deployed, so that the application to be deployed of different versions can be conveniently distinguished, the application can be updated, and the problem that the application to be deployed of the new version cannot be installed due to the fact that the application to be deployed of the old version is installed is solved.

In another application scenario, the application acquisition terminal may also be any one of the intelligent terminals with the data transceiving function in the power internet of things, so that a user can conveniently input a corresponding application to be deployed into the power internet of things.

The terminal information obtaining module 620 is configured to obtain terminal information of all to-be-determined intelligent terminals in the power internet of things, where the terminal information includes category information of the to-be-determined intelligent terminals, installed applications in the to-be-determined intelligent terminals, version information of the installed applications, and location information of the to-be-determined intelligent terminals.

The intelligent terminal to be judged can comprise all intelligent terminals in the electric power internet of things (except the application acquisition terminal), so that all intelligent terminals in the electric power internet of things can be judged automatically and rapidly, application issuing deployment is carried out, and the intelligent level of the electric power internet of things is improved. The category information represents the category corresponding to the intelligent terminal to be judged, such as the category of data capable of being processed; the installed application and the version information of the installed application can be used for judging whether the corresponding intelligent terminal to be judged completes the deployment of the corresponding application to be deployed or not, and if the deployment is completed, repeated issuing and deployment are not needed; the position information can be used for constructing a corresponding application issuing path. Communication distances of all intelligent terminals in the power internet of things are usually limited, and data communication in a long distance cannot be performed, so that reasonable path planning needs to be performed to realize issuing of applications to be deployed.

A target intelligent terminal obtaining module 630, configured to obtain a target intelligent terminal from all the intelligent terminals to be determined according to the application deployment information and the terminal information, where the category information of the target intelligent terminal is the same as the category of the target and an installed application of the target intelligent terminal does not include a target conflict application, a name of the target conflict application is the same as the application to be deployed, and a version of the target conflict application is not lower than the application to be deployed.

The target conflict application refers to an application to be deployed, which is installed in advance in the intelligent terminal to be judged and has a higher version or the same version as the application to be deployed, and generally, in the application updating process, if the target conflict application is installed in one intelligent terminal, the application to be deployed does not need to be issued to the intelligent terminal, so that the consumption of data transmission can be reduced, and the application deployment efficiency can be improved.

In this embodiment, as shown in fig. 6, the target intelligent terminal obtaining module 630 specifically includes the following units:

and a target class intelligent terminal obtaining unit 631, configured to obtain a target class intelligent terminal from all the intelligent terminals to be determined in the power internet of things according to the class information of the intelligent terminal to be determined and the target class, where the class information of the target class intelligent terminal is the same as the target class.

A target intelligent terminal obtaining unit 632, configured to obtain a target intelligent terminal from all the target class terminals according to the version information of the application to be deployed, the installed applications in the target class intelligent terminals, and the version information of the installed applications, where the installed applications of the target intelligent terminal do not include the target conflict application.

And an application delivery path constructing module 640, configured to construct an application delivery path from the application acquiring terminal to the target intelligent terminal based on the position information of the intelligent terminal to be determined.

In an application scenario, the application delivery path constructing module 640 is specifically configured to: and acquiring an application issuing path through a pre-trained deep reinforcement learning path planning model according to the position information of all the intelligent terminals to be judged, wherein the application issuing path takes the application acquisition terminal as an initial node and at least one target intelligent terminal as a termination node, and the application issuing path passes through all the target intelligent terminals.

In another application scenario, the application delivery path constructing module 640 is specifically configured to: for an ith node, acquiring a nearest target intelligent terminal corresponding to the ith node according to the position information, wherein the nearest target intelligent terminal is a target intelligent terminal which is closest to the ith node in target intelligent terminals which are not connected in a connection state; if the ith node can communicate with the nearest target intelligent terminal, taking the nearest target intelligent terminal as an (i + 1) th node, and modifying the connection state of the nearest target intelligent terminal into a connected state; if the ith node and the nearest target intelligent terminal cannot communicate, acquiring a switching intelligent terminal corresponding to the ith node according to the position information, taking the switching intelligent terminal as an (i + 1) th node, and modifying the connection state of the switching intelligent terminal into connected state, wherein the switching intelligent terminal is an intelligent terminal to be judged which can communicate with the ith node and is closest to the nearest target intelligent terminal in the intelligent terminals to be judged; when the connection states of all the target intelligent terminals are connected, the construction of the application issuing path is completed, and the application issuing path is composed of all the nodes which are connected in sequence; wherein i is an integer greater than 0, and the 1 st node is the application acquisition terminal.

And the application issuing module 650 is configured to issue the application to be deployed to the target intelligent terminal according to the application issuing path and perform application deployment.

Specifically, in this embodiment, the specific functions of the power internet-of-things application delivery deployment system and the modules thereof may refer to corresponding descriptions in the power internet-of-things application delivery deployment method, which are not described herein again.

It should be noted that, the dividing manner of each module of the power internet of things application issuing and deploying system is not unique, and is not specifically limited herein.

The embodiment of the invention also provides a computer-readable storage medium, wherein the computer-readable storage medium is stored with a power internet of things application issuing deployment program, and when being executed by a processor, the power internet of things application issuing deployment program realizes the steps of any one of the power internet of things application issuing deployment methods provided by the embodiment of the invention.

It should be understood that, the sequence numbers of the steps in the foregoing embodiments do not imply an execution sequence, and the execution sequence of each process should be determined by functions and internal logic of the process, and should not constitute any limitation to the implementation process of the embodiments of the present invention.

It will be apparent to those skilled in the art that, for convenience and brevity of description, only the above-mentioned division of the functional units and modules is illustrated, and in practical applications, the above-mentioned functions may be distributed as different functional units and modules according to needs, that is, the internal structure of the system may be divided into different functional units or modules to implement all or part of the above-mentioned functions. Each functional unit and module in the embodiments may be integrated in one processing unit, or each unit may exist alone physically, or two or more units are integrated in one unit, and the integrated unit may be implemented in a form of hardware, or in a form of software functional unit. In addition, specific names of the functional units and modules are only for convenience of distinguishing from each other, and are not used for limiting the protection scope of the present invention. For the specific working processes of the units and modules in the system, reference may be made to the corresponding processes in the foregoing method embodiments, which are not described herein again.

In the above embodiments, the descriptions of the respective embodiments have respective emphasis, and reference may be made to the related descriptions of other embodiments for parts that are not described or illustrated in a certain embodiment.

Those of ordinary skill in the art would appreciate that the elements and algorithm steps of the examples described in connection with the embodiments disclosed herein may be implemented as electronic hardware, or combinations of computer software and electronic hardware. Whether such functionality is implemented as hardware or software depends upon the particular application and design constraints imposed on the implementation. Skilled artisans may implement the described functionality in varying ways for each particular application, but such implementation decisions should not be interpreted as causing a departure from the scope of the present invention.

In the embodiments provided in the present invention, it should be understood that the disclosed system/intelligent terminal and method can be implemented in other ways. For example, the above-described system/intelligent terminal embodiments are merely illustrative, and for example, the division of the above modules or units is only one logical function division, and the actual implementation may be implemented by another division, for example, a plurality of units or components may be combined or integrated into another system, or some features may be omitted, or not executed.

The integrated modules/units described above, if implemented in the form of software functional units and sold or used as separate products, may be stored in a computer readable storage medium. Based on such understanding, all or part of the flow of the method according to the embodiments of the present invention may also be implemented by a computer program, which may be stored in a computer-readable storage medium and can implement the steps of the embodiments of the method when the computer program is executed by a processor. The computer program includes computer program code, and the computer program code may be in a source code form, an object code form, an executable file or some intermediate form. The computer readable medium may include: any entity or device capable of carrying the above-mentioned computer program code, recording medium, usb disk, removable hard disk, magnetic disk, optical disk, computer Memory, read-Only Memory (ROM), random Access Memory (RAM), electrical carrier wave signal, telecommunication signal, software distribution medium, etc. It should be noted that the contents contained in the computer-readable storage medium can be increased or decreased as required by legislation and patent practice in the jurisdiction.

The above-mentioned embodiments are only used to illustrate the technical solution of the present invention, and not to limit the same; although the present invention has been described in detail with reference to the foregoing embodiments, it will be understood by those skilled in the art; the technical solutions described in the foregoing embodiments may still be modified, or some technical features may be equivalently replaced; such modifications and substitutions do not depart from the spirit and scope of the embodiments of the present invention, and they should be construed as being included therein.

Claims

1. The application issuing and deploying method for the power Internet of things is characterized by comprising the following steps:

acquiring a target intelligent terminal from all the intelligent terminals to be judged according to the application deployment information and the terminal information, wherein the category information of the target intelligent terminal is the same as the category of the target, target conflict applications are not included in the installed applications of the target intelligent terminal, the names of the target conflict applications are the same as the applications to be deployed, and the versions of the target conflict applications are not lower than the applications to be deployed;

issuing the application to be deployed to the target intelligent terminal according to the application issuing path and performing application deployment;

the acquiring a target intelligent terminal from the intelligent terminal to be judged according to the application deployment information and the terminal information includes: acquiring target type intelligent terminals from all intelligent terminals to be judged of the power Internet of things according to the type information of the intelligent terminals to be judged and the target type, wherein the type information of the target type intelligent terminals is the same as the target type; acquiring target intelligent terminals from all the target type intelligent terminals according to the version information of the applications to be deployed, the installed applications in the target type intelligent terminals and the version information of the installed applications, wherein the installed applications of the target intelligent terminals do not include the target conflict applications;

the application deployment information further comprises an application privacy grade of the application to be deployed, the terminal information further comprises a terminal privacy grade of the intelligent terminal to be judged, and the target type intelligent terminal is acquired from all intelligent terminals to be judged of the power internet of things according to the type information of the intelligent terminal to be judged and the target type, and the method comprises the following steps: all intelligent terminals to be judged, of which the terminal privacy grade is not lower than the application privacy grade, in the power internet of things are used as target privacy intelligent terminals; and taking the target privacy intelligent terminal with the same category information as the target category intelligent terminal.

2. The electric power internet of things application issuing deployment method according to claim 1, wherein the constructing an application issuing path from the application acquisition terminal to the target intelligent terminal based on the position information of the intelligent terminal to be judged comprises:

and acquiring an application issuing path through a pre-trained deep reinforcement learning path planning model according to the position information of all the intelligent terminals to be judged, wherein the application issuing path takes the application acquiring terminal as an initial node and at least one target intelligent terminal as a termination node, and the application issuing path passes through all the target intelligent terminals.

3. The power internet of things application issuing deployment method according to claim 1, wherein the constructing an application issuing path from the application acquisition terminal to the target intelligent terminal based on the position information of the intelligent terminal to be judged comprises:

for the ith node, acquiring a nearest target intelligent terminal corresponding to the ith node according to the position information, wherein the nearest target intelligent terminal is a target intelligent terminal which is closest to the ith node in target intelligent terminals which are not connected in a connection state;

4. The power internet of things application issuing and deploying method according to claim 3, further comprising:

and when the ith node does not have a corresponding switching intelligent terminal, acquiring the mobile communication terminal as the (i + 1) th node, wherein the position information of the mobile communication terminal comprises preset movement range boundary information.

5. The power internet of things application issuing and deploying method according to claim 4, wherein the mobile communication terminal is an unmanned aerial vehicle.

6. The electric power internet of things application issuing and deploying method according to claim 3, wherein the issuing of the application to be deployed to the target intelligent terminal and the application deployment according to the application issuing path comprises:

starting from the 1 st node of the application issuing path, issuing the application to be deployed to all nodes of the application issuing path according to the connection sequence of the nodes, and controlling the target intelligent terminal to install and deploy the application to be deployed;

7. The utility model provides a deployment system is issued in electric power thing networking application which characterized in that, the deployment system is issued in electric power thing networking application includes:

the application issuing module is used for issuing the application to be deployed to the target intelligent terminal according to the application issuing path and performing application deployment;

wherein, the target intelligent terminal acquisition module includes: the target type intelligent terminal obtaining unit is used for obtaining target type intelligent terminals from all the intelligent terminals to be judged of the power internet of things according to the type information of the intelligent terminals to be judged and the target type, wherein the type information of the target type intelligent terminals is the same as the target type; a target intelligent terminal obtaining unit, configured to obtain a target intelligent terminal from all target intelligent terminals according to the version information of the application to be deployed, an installed application in the target intelligent terminal, and the version information of the installed application, where the installed application of the target intelligent terminal does not include the target conflicting application;

the application deployment information further includes an application privacy level of the application to be deployed, the terminal information further includes a terminal privacy level of the intelligent terminal to be determined, and the target category intelligent terminal acquisition unit is specifically configured to: all intelligent terminals to be judged, of which the terminal privacy grade is not lower than the application privacy grade, in the power internet of things are used as target privacy intelligent terminals; and taking the target privacy intelligent terminal with the same category information as the target category intelligent terminal.