CN114024996A - Large-scale heterogeneous intelligent terminal container management method and system - Google Patents

Abstract

The invention discloses a large-scale heterogeneous intelligent terminal container management method and a system, wherein the large-scale heterogeneous intelligent terminal container management method comprises the following steps: acquiring composite information, wherein the composite information comprises a plurality of pieces of information to be analyzed, and each piece of information to be analyzed corresponds to one intelligent terminal to be controlled; respectively acquiring an information format type, an information source area and an information application scene corresponding to each piece of information to be analyzed in the composite information; acquiring a target container from the container set based on the information format type, the information source area and the information application scene, wherein the target container comprises a target control application which is used for processing information to be analyzed in the composite information; and processing the composite information based on the target container, acquiring a target control instruction, and controlling the intelligent terminal to be controlled based on the target control instruction. The invention is beneficial to improving the data processing efficiency and the management efficiency of the intelligent terminal and is beneficial to carrying out cooperative control on a plurality of intelligent terminals.

Description

Large-scale heterogeneous intelligent terminal container management method and system

Technical Field

The invention relates to the technical field of intelligent terminal regulation and control management, in particular to a large-scale heterogeneous intelligent terminal container management method and system.

Background

With the development of scientific technology, various intelligent terminals are more and more widely applied, and in various application scenarios, large-scale heterogeneous intelligent terminals are usually deployed according to actual needs, wherein the heterogeneous intelligent terminals refer to different types of intelligent terminals, and the types of data generated by the heterogeneous intelligent terminals or acquired by the heterogeneous intelligent terminals are different. For example, in a power grid application scenario, heterogeneous smart terminals such as an electric meter, a camera, an unmanned aerial vehicle, and a wearable device may be deployed, and a large-scale heterogeneous smart terminal is typically deployed, and each smart terminal needs to be managed reasonably.

In the prior art, the intelligent terminal can be controlled through a container technology. The problem in the prior art is that, generally, one container is used to process data of one intelligent terminal and control one intelligent terminal, and one container cannot process data of multiple intelligent terminals (especially multiple heterogeneous intelligent terminals) at the same time, so that cooperative control of multiple intelligent terminals cannot be realized. To a plurality of heterogeneous intelligent terminal's compound data, need split this compound data and send different containers and handle, so, be unfavorable for improving the treatment effeciency, and be unfavorable for carrying out cooperative control to a plurality of intelligent terminal, influence and use experience.

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

Disclosure of Invention

The invention mainly aims to provide a large-scale heterogeneous intelligent terminal container management method and system, and aims to solve the problems that when an intelligent terminal is controlled through a container technology in the prior art, data of one intelligent terminal is generally processed correspondingly through one container and the intelligent terminal is controlled, the data of a plurality of intelligent terminals (especially a plurality of heterogeneous intelligent terminals) cannot be processed simultaneously through one container, the data processing efficiency and the management efficiency of the intelligent terminals are not improved, the cooperative control of the intelligent terminals is not facilitated, and the use experience is influenced.

In order to achieve the above object, a first aspect of the present invention provides a large-scale heterogeneous intelligent terminal container management method, where the large-scale heterogeneous intelligent terminal container management method includes:

acquiring composite information, wherein the composite information comprises a plurality of pieces of information to be analyzed, and each piece of information to be analyzed corresponds to one intelligent terminal to be controlled;

respectively acquiring an information format type, an information source area and an information application scene corresponding to each piece of information to be analyzed in the composite information;

acquiring a target container from a container set based on the information format type, the information source area and the information application scene, wherein the target container comprises a target control application, and the target control application is used for processing all information to be analyzed in the composite information;

and processing the composite information based on the target container, acquiring a target control instruction, and controlling the intelligent terminal to be controlled based on the target control instruction.

Optionally, the composite information is formed by combining information to be analyzed corresponding to each intelligent terminal to be controlled, and each piece of information to be analyzed includes running state data of the corresponding intelligent terminal to be controlled and/or collected data of the corresponding intelligent terminal to be controlled.

Optionally, the obtaining information format types, information source areas, and information application scenarios corresponding to the pieces of information to be analyzed in the composite information respectively includes:

acquiring an information format type of the information to be analyzed based on a data format corresponding to the information to be analyzed, wherein the information format type is any one of a video data format, an audio data format, a text data format and an image data format;

acquiring position information of an intelligent terminal to be controlled corresponding to the information to be analyzed, and acquiring an information source area corresponding to the information to be analyzed based on the position information;

and acquiring a preset application scene of the intelligent terminal to be controlled corresponding to the information to be analyzed, and using the preset application scene as the information application scene.

Optionally, the obtaining a target container from a container set based on the information format type, the information source area, and the information application scenario includes:

when the composite information meets a first condition, acquiring a category container corresponding to the information format type from the container set and using the category container as the target container, wherein the category container is a container for processing information of one format type;

when the composite information does not satisfy the first condition and the composite information satisfies a second condition, acquiring an area container corresponding to the information source area from the container set and using the area container as the target container, wherein the area container is used for processing information in one area;

when the composite information does not satisfy the first condition and the second condition and the composite information satisfies a third condition, acquiring a scene container corresponding to the information application scene from the container set and using the scene container as the target container, wherein the scene container is a container for processing information in one application scene;

the first condition is that information format types of all information to be analyzed in the composite information are the same, the second condition is that information source areas of all information to be analyzed in the composite information are the same, and the third condition is that information application scenarios of all information to be analyzed in the composite information are the same.

Optionally, obtaining a target container from the container set based on the information format type, the information source area, and the information application scenario includes:

acquiring an intelligent distribution container in the container set, wherein the intelligent distribution container is used for storing information processing records of all other containers in the container set;

and querying and acquiring the target container through the intelligent distribution container, wherein the target container is a container processed with historical information, and the historical information is the same as the information format type, the information source area and/or the information application scene of the information to be analyzed.

Optionally, the processing the composite information based on the target container and obtaining the target control instruction includes:

acquiring a target control state, wherein the target control state is a state to be reached by the intelligent terminal to be controlled;

and analyzing the composite information based on the target control application in the target container to obtain the current state of the intelligent terminal to be controlled, and obtaining the target control instruction based on the target control state and the current state.

Optionally, the analyzing the composite information based on the target control application in the target container to obtain a current state of the intelligent terminal to be controlled, and obtaining the target control instruction based on the target control state and the current state includes:

acquiring the maximum information calculation capacity of the target container;

when the calculated amount corresponding to the composite information is larger than the maximum information calculation capacity of the target container, respectively acquiring the priority of each piece of information to be analyzed in the composite information;

and calculating capacity based on the priority and the maximum information, performing batch analysis on all the information to be analyzed through a target control application in the target container to obtain the current state of the intelligent terminal to be controlled, and obtaining the target control instruction based on the target control state and the current state.

A second aspect of the present invention provides a large-scale heterogeneous intelligent terminal container management system, where the large-scale heterogeneous intelligent terminal container management system includes:

the system comprises a composite information acquisition module, a control module and a control module, wherein the composite information acquisition module is used for acquiring composite information, the composite information comprises a plurality of pieces of information to be analyzed, and each piece of information to be analyzed corresponds to one intelligent terminal to be controlled;

the composite information analysis module is used for respectively acquiring the information format type, the information source area and the information application scene corresponding to each piece of information to be analyzed in the composite information;

a target container obtaining module, configured to obtain a target container from a container set based on the information format type, the information source area, and the information application scenario, where the target container includes a target control application, and the target control application is configured to process all information to be analyzed in the composite information;

and the control module is used for processing the composite information based on the target container, acquiring a target control instruction and controlling the intelligent terminal to be controlled based on the target control instruction.

Optionally, the composite information analysis module includes:

an information format type obtaining unit, configured to obtain an information format type of the information to be analyzed based on a data format corresponding to the information to be analyzed, where the information format type is any one of a video data format, an audio data format, a text data format, and an image data format;

an information source area obtaining unit, configured to obtain location information of the to-be-controlled intelligent terminal corresponding to the to-be-analyzed information, and obtain an information source area corresponding to the to-be-analyzed information based on the location information;

and the information application scene acquisition unit is used for acquiring a preset application scene of the intelligent terminal to be controlled corresponding to the information to be analyzed and taking the preset application scene as the information application scene.

Optionally, the target container obtaining module includes:

a category container acquiring unit configured to acquire, when the composite information satisfies a first condition, a category container corresponding to the information format type from the container set, the category container being a container for processing information of one format type, and serve as the target container;

an area container acquiring unit configured to acquire, as the target container, an area container corresponding to the information source area from the container set when the composite information does not satisfy the first condition and the composite information satisfies a second condition, the area container being a container for processing information in one area;

a scene container acquiring unit, configured to acquire a scene container corresponding to the information application scene from the container set and serve as the target container when the composite information does not satisfy the first condition and the second condition and the composite information satisfies a third condition, where the scene container is a container for processing information in one application scene;

the first condition is that information format types of all information to be analyzed in the composite information are the same, the second condition is that information source areas of all information to be analyzed in the composite information are the same, and the third condition is that information application scenarios of all information to be analyzed in the composite information are the same.

As can be seen from the above, in the scheme of the present invention, composite information is obtained, where the composite information includes a plurality of pieces of information to be analyzed, and each piece of information to be analyzed corresponds to one intelligent terminal to be controlled; respectively acquiring an information format type, an information source area and an information application scene corresponding to each piece of information to be analyzed in the composite information; acquiring a target container from a container set based on the information format type, the information source area and the information application scene, wherein the target container comprises a target control application, and the target control application is used for processing all information to be analyzed in the composite information; and processing the composite information based on the target container, acquiring a target control instruction, and controlling the intelligent terminal to be controlled based on the target control instruction. Compared with the method for processing the data of the intelligent terminal through one container in the prior art, the method and the device can acquire the composite information corresponding to a plurality of intelligent terminals to be controlled, and acquire one target container according to the information format type, the information source area and the information application scene of the information to be analyzed in the composite information. This target container can handle compound information, can handle simultaneously and control a plurality of intelligent terminal to a plurality of intelligent terminal's (can be a plurality of heterogeneous intelligent terminal) data through a target container promptly, is favorable to improving data processing efficiency and to intelligent terminal's managerial efficiency, and is favorable to carrying out cooperative control to a plurality of intelligent terminal, promotes user's use and experiences.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present invention, the drawings needed to be used in the embodiments or the prior art descriptions 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 it is obvious for those skilled in the art to obtain other drawings based on these drawings without inventive exercise.

Fig. 1 is a schematic flowchart of a large-scale heterogeneous intelligent terminal container management method according to an embodiment of the present invention;

FIG. 2 is a flowchart illustrating a detailed process of step S200 in FIG. 1 according to an embodiment of the present invention;

FIG. 3 is a flowchart illustrating a detailed process of step S300 in FIG. 1 according to an embodiment of the present invention;

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

FIG. 5 is a flowchart illustrating the step S402 in FIG. 4 according to an embodiment of the present invention;

fig. 6 is a schematic structural diagram of a large-scale heterogeneous intelligent terminal container management system according to an embodiment of the present invention;

fig. 7 is a schematic structural diagram of the composite information analysis module 520 in fig. 6 according to an embodiment of the present invention;

fig. 8 is a schematic structural diagram of the target container acquiring module 530 in fig. 6 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.

With the development of scientific technology, various intelligent terminals are more and more widely applied, and in various application scenarios, large-scale heterogeneous intelligent terminals are usually deployed according to actual needs, wherein the heterogeneous intelligent terminals refer to different types of intelligent terminals, and the types of data generated by the heterogeneous intelligent terminals or acquired by the heterogeneous intelligent terminals are different. For example, in a power grid application scenario, heterogeneous smart terminals such as an electric meter, a camera, an unmanned aerial vehicle, and a wearable device may be deployed, and a large-scale heterogeneous smart terminal is typically deployed, and each smart terminal needs to be managed reasonably.

In the prior art, the intelligent terminal can be controlled through a container technology. Among other things, the container technique can partition resources of a single operating system into isolated groups to better balance conflicting resource usage requirements among the isolated groups. Specifically, application software (such as data processing and intelligent terminal management application) and resources required by the application software during running can be deployed in the container, and based on the container technology, the flexibility of application software deployment can be improved, the deployment efficiency is improved, and the deployment cost is reduced, so that the container technology is more and more widely applied to different application scenes.

The problem in the prior art is that, generally, one container is used to process data of one intelligent terminal and control one intelligent terminal, and one container cannot process data of multiple intelligent terminals (especially multiple heterogeneous intelligent terminals) at the same time, so that cooperative control of multiple intelligent terminals cannot be realized. To a plurality of heterogeneous intelligent terminal's compound data, need split this compound data and send different containers and handle, so, be unfavorable for improving the treatment effeciency, and be unfavorable for carrying out cooperative control to a plurality of intelligent terminal, influence and use experience. Meanwhile, in a power grid application scene, a large-scale intelligent terminal is usually deployed, if a scheme that one container controls one intelligent terminal is adopted, large-scale container deployment is needed, and a large number of containers need to be called when the intelligent terminal is used, so that the calculation efficiency is influenced, and the management efficiency of the intelligent terminal is not improved. Therefore, the prior art scheme is not beneficial to large-scale intelligent terminal management.

In order to solve at least one of the problems, in the scheme of the present invention, composite information is obtained, where the composite information includes a plurality of pieces of information to be analyzed, and each piece of the information to be analyzed corresponds to one intelligent terminal to be controlled; respectively acquiring an information format type, an information source area and an information application scene corresponding to each piece of information to be analyzed in the composite information; acquiring a target container from a container set based on the information format type, the information source area and the information application scene, wherein the target container comprises a target control application, and the target control application is used for processing all information to be analyzed in the composite information; and processing the composite information based on the target container, acquiring a target control instruction, and controlling the intelligent terminal to be controlled based on the target control instruction. Compared with the method for processing the data of the intelligent terminal through one container in the prior art, the method and the device can acquire the composite information corresponding to a plurality of intelligent terminals to be controlled, and acquire one target container according to the information format type, the information source area and the information application scene of the information to be analyzed in the composite information. This target container can handle compound information, can handle simultaneously and control a plurality of intelligent terminal to a plurality of intelligent terminal's (can be a plurality of heterogeneous intelligent terminal) data through a target container promptly, is favorable to improving data processing efficiency and to intelligent terminal's managerial efficiency, and is favorable to carrying out cooperative control to a plurality of intelligent terminal, promotes user's use and experiences.

Exemplary method

As shown in fig. 1, an embodiment of the present invention provides a large-scale heterogeneous intelligent terminal container management method, specifically, the method includes the following steps:

step S100, acquiring composite information, wherein the composite information comprises a plurality of pieces of information to be analyzed, and each piece of information to be analyzed corresponds to one intelligent terminal to be controlled.

The composite information is information formed by compositing a plurality of pieces of information to be analyzed, and each piece of information to be analyzed is data information corresponding to the intelligent terminal to be controlled. The intelligent terminal to be controlled is an intelligent terminal which needs to be managed and controlled (such as a power grid device which needs to be managed). Specifically, the current state of the intelligent terminal to be controlled can be known by analyzing and processing the composite information, and the user can preset or input the target state that the intelligent terminal to be controlled wants to reach in real time, so that the intelligent terminal to be controlled is controlled according to the current state and the target state, for example, the flight trajectory of the unmanned aerial vehicle is controlled, and the method is not particularly limited herein.

It should be noted that, in this embodiment, the large-scale heterogeneous intelligent terminal container management method may be applied to a power grid application scenario, and at this time, the to-be-controlled intelligent terminal may be a large-scale heterogeneous power grid terminal, such as a traditional electric meter, a novel electric meter, an unmanned aerial vehicle, a camera, a wearable device, an electric power inspection device, an unmanned intelligent system, and the like. Correspondingly, the composite information comprises information to be analyzed corresponding to the large-scale heterogeneous terminal.

Specifically, the composite information is formed by combining information to be analyzed corresponding to each intelligent terminal to be controlled, and each piece of information to be analyzed includes running state data of the corresponding intelligent terminal to be controlled and/or collected data of the corresponding intelligent terminal to be controlled. Therefore, when the composite information is processed, the current state of each intelligent terminal can be analyzed according to the running state data and the collected data of each intelligent terminal, and the management and the control of large-scale heterogeneous intelligent terminals are better realized. It should be noted that the information to be analyzed corresponding to one intelligent terminal may only include the operation state data or the collected data, or may also include the operation state data and the collected data at the same time, which depends on the actual requirement and is not limited specifically herein.

In an electric power application scene, can carry on the camera through unmanned aerial vehicle, patrol and examine the ammeter in an area (for example a predetermined target area), gather the image of each ammeter promptly, carry out the analysis to the image, judge whether the ammeter damages and/or whether show normally. At this time, the intelligent terminal to be controlled may include the unmanned aerial vehicle, the camera, and all the electric meters in the area. The operation state data of the unmanned aerial vehicle can comprise data such as the position, the flight speed and the flight angle of the unmanned aerial vehicle; the operation state data of the camera can comprise data such as the residual storage space of the camera, the position of the camera and the like, and image data acquired by the camera is used as corresponding acquired data; the operation state data of the electric meter comprises electric meter display numerical values and the like. So, can be based on the compound information that above-mentioned all data constitute, carry out the analysis to the image data that the camera gathered, judge whether current ammeter damages, compare the digit that the ammeter shows among the image data with the demonstration numerical value that the ammeter provided, judge whether the ammeter is unusual, if no abnormity, then control unmanned aerial vehicle and fly to next ammeter to the realization is patrolled and examined to the ammeter.

Step S200, respectively obtaining the information format type, the information source area and the information application scenario corresponding to each piece of information to be analyzed in the composite information.

Specifically, the information format type, the information source area and the information application scenario may represent format characteristics, source area characteristics and application scenario characteristics corresponding to the information to be analyzed. In this embodiment, as shown in fig. 2, the step S200 specifically includes the following steps:

step S201, obtaining an information format type of the information to be analyzed based on a data format corresponding to the information to be analyzed, where the information format type is any one of a video data format, an audio data format, a text data format, and an image data format.

Specifically, the data format corresponding to the information to be analyzed is determined by the corresponding intelligent terminal to be controlled, for example, when the intelligent terminal to be controlled can collect video data, the corresponding information to be analyzed is the video data format, when the intelligent terminal to be controlled collects image data, the corresponding information to be analyzed is the image data format, and when the intelligent terminal to be controlled feeds back the operation state (for example, the remaining power, the flight speed, and the like) in the form of characters, the corresponding information to be analyzed is the character data format.

It should be noted that, in this embodiment, one piece of information to be analyzed corresponds to one intelligent terminal to be controlled, but one intelligent terminal to be controlled may correspond to a plurality of pieces of information to be analyzed with different information format types. For example, one camera (intelligent terminal to be controlled) may collect image data and audio data, and then process the image data and the audio data to generate two pieces of information to be analyzed, so as to obtain a target container capable of simultaneously performing audio data processing and image data processing according to the format type of the information to be analyzed.

Further, the information format type may also be other specific data formats, such as a three-dimensional point cloud data format, and is not limited herein.

Step S202, obtaining the position information of the to-be-controlled intelligent terminal corresponding to the to-be-analyzed information, and obtaining an information source area corresponding to the to-be-analyzed information based on the position information.

In this embodiment, the information to be analyzed may further include location information of the intelligent terminal to be controlled corresponding to the information to be analyzed, for example, the location information is stored in the information to be analyzed in a form of location coordinates, and an information source area corresponding to the information to be analyzed may be obtained based on the location information, where the information source area is an area where the intelligent terminal to be controlled corresponding to the information to be analyzed (that is, the intelligent terminal to be controlled that generates the information to be analyzed) is located.

In an application scenario, a plurality of regions to be judged are preset, boundary coordinates of each region to be judged are obtained, and an information source region corresponding to information to be analyzed can be analyzed according to position coordinates in the information to be analyzed.

In another application scenario, different areas may be pre-divided, all the intelligent terminals in one area set the same position number, the position numbers of the intelligent terminals in different areas are different, the position numbers are stored in the information to be analyzed, and the information source area of each information to be analyzed may be determined according to each position number after the composite information is acquired.

It should be noted that, in the actual use process, there may be other ways of obtaining the information source area, and the method is not limited in detail here.

Step S203, acquiring a preset application scene of the intelligent terminal to be controlled corresponding to the information to be analyzed, and taking the preset application scene as the information application scene.

Specifically, in this embodiment, application scenarios, such as a power saving scenario, a safety maintenance scenario, a high power operation scenario, a sleep scenario, etc., are set in advance for each to-be-controlled intelligent terminal, and are not limited specifically herein. And storing the corresponding scene information into the information to be analyzed, so that the corresponding preset application scene can be obtained according to the information to be analyzed, and the application scene of the information to be analyzed can be known.

It should be noted that different application scenarios have different requirements for each intelligent terminal, for example, each intelligent terminal is required to operate at a lower power in a power saving scenario, and each intelligent terminal is required to operate at a higher power in a high power scenario, so that the intelligent terminal to be controlled can be managed according to the information application scenario.

Step S300, acquiring a target container from a container set based on the information format type, the information source area, and the information application scenario, where the target container includes a target control application, and the target control application is configured to process all information to be analyzed in the composite information.

In this embodiment, the composite information may be classified according to the information format type, the information source area, and the information application scenario of the information to be analyzed, so as to obtain a container (i.e., a target container) that can best process the composite information. Specifically, a container set is preset, where the container set includes a plurality of containers, and each container is respectively deployed with corresponding application software for data processing and control. In this embodiment, the application software deployed in each container is different, and each container may be used to process data in different types, different areas, or different application scenarios. In an application scenario, the container set includes a category container, a region container, and a scene container, where a category container is used to process information of a format type, and a format type of a specific process is determined according to a specific category container, for example, a category container is used to process information of a format type a; a zone container for processing information in a zone; a scene container is used for processing information in an application scene. And each container in the container set is provided with one or more corresponding application software and an operating environment thereof, and the processing and analysis of the composite information can be realized by calling the corresponding application software.

Wherein the target container is a container selected from the container set that best handles the current composite information. Specifically, in this embodiment, as shown in fig. 3, the step S300 specifically includes the following steps:

step S301, when the composite information satisfies a first condition, acquiring a category container corresponding to the information format type from the container set, and using the category container as the target container, where the category container is a container for processing information of one format type.

Step S302 is executed to, when the composite information does not satisfy the first condition and the composite information satisfies a second condition, acquire, from the container set, an area container corresponding to the information source area, where the area container is a container for processing information in one area, and use the area container as the target container.

Step S303, when the composite information does not satisfy the first condition and the second condition, and the composite information satisfies a third condition, acquiring a scene container corresponding to the information application scene from the container set, where the scene container is a container for processing information in one application scene, and the scene container is used as the target container;

the first condition is that information format types of all information to be analyzed in the composite information are the same, the second condition is that information source areas of all information to be analyzed in the composite information are the same, and the third condition is that information application scenarios of all information to be analyzed in the composite information are the same.

Specifically, in this embodiment, when the information format types of all the information to be analyzed are the same, for example, the information format types are all image data, the image data category container for processing the image data is used as a target container, and the container is specially used for processing the image data, so that the composite information can be quickly processed according to the target container, and the control efficiency is improved.

When the information format types of all the information to be analyzed are not completely the same (i.e. the information to be analyzed includes the data to be analyzed of different information format types), if the information source areas of all the information to be analyzed are the same, for example, the corresponding intelligent terminals to be controlled all belong to a preset first area, the first area container for processing the information of the first area is taken as a target container. It should be noted that the first area is a preset area, so that which intelligent terminals to be controlled in the first area can be known in advance, application software for processing each intelligent terminal to be controlled in the area is deployed in the first area container in advance, and information to be analyzed generated in the area can be analyzed and processed quickly, so that the control efficiency is improved.

When the information format types and the information source areas of all the information to be analyzed are not completely the same, if the information application scenarios corresponding to all the information to be analyzed are the same, for example, all the information application scenarios are power saving scenarios, the corresponding power saving scenario target container may be obtained. The target container is pre-deployed with application software for data processing and control in a node scene, so that composite information can be rapidly processed, and a control instruction conforming to a current application scene (e.g., a power-saving scene) can be obtained.

It should be noted that, in the above, the unmanned aerial vehicle carries the camera, and the electric meters in an area (for example, a preset target area) are inspected, that is, images of the electric meters are collected, the images are analyzed, and when it is determined whether the electric meters are damaged or not or whether the electric meters are normally displayed, the obtained composite information corresponds to the intelligent terminal to be controlled in the preset target area, that is, the information format types of the information to be analyzed in the composite information are different but the information source areas are the same, so that the area container corresponding to the target area can be obtained and used as the target container.

It should be noted that, in the foregoing process, the determination is performed sequentially according to the order of the first condition, the second condition, and the third condition, and in the actual use process, the order of the corresponding determination conditions may be set and adjusted according to actual requirements, which is not limited specifically herein.

In an application scenario, another method for acquiring a target container is further provided, and specifically, an intelligent distribution container in the container set is acquired, where the intelligent distribution container is used to store information processing records of all other containers in the container set; and querying and acquiring the target container through the intelligent distribution container, wherein the target container is a container processed with historical information, and the historical information is the same as the information format type, the information source area and/or the information application scene of the information to be analyzed.

The intelligent distribution container is a container which is arranged in a container set in advance and is specially used for distributing the compound information, the intelligent distribution container can be used for storing information processing records of all other containers, and therefore, the container which processes history information similar to the current compound information can be inquired according to the intelligent distribution container and is used as a target container, the distribution efficiency of the compound information is improved, and the optimal target container is obtained. It should be noted that the intelligent distribution container itself may also be a container for processing composite information, and is not particularly limited herein. Furthermore, the target container corresponding to the historical information which is the same as the information format type, the information source area and the information application scene of the information to be analyzed is obtained in a limited mode, so that the information processing efficiency and the intelligent terminal management efficiency are improved.

In another application scenario, another method for acquiring a target container is also provided. Specifically, an intelligent distribution container is not required to be preset in the container set, any one container in the container set is used as a candidate target container, and the information format type, the information source area and the information application scene of each piece of information to be analyzed in the composite information are sent to the candidate target container. The candidate target container firstly judges whether the information processed by the candidate target container is correspondingly matched with the composite information (namely the information has the same format type, the same information source area and/or the same information application scene), and if the information is matched with the composite information, the candidate target container is taken as the target container. And if not, querying a container of the history information which is processed to be matched from a history information base and using the container as a target container, wherein the history information base is used for storing information processing records of all containers in the container set. Therefore, the efficiency of acquiring the target container can be improved, the acquired target container can be ensured to better process corresponding composite information, and the management efficiency of the intelligent terminal is improved.

And step S400, processing the composite information based on the target container, acquiring a target control instruction, and controlling the intelligent terminal to be controlled based on the target control instruction.

The target control instruction is a command for controlling the intelligent terminal, specifically, the target control instruction for each intelligent terminal to be controlled can be obtained after the composite information is processed by the target container, and then each target control instruction is sent to the corresponding intelligent terminal to be controlled by the target container, so that the intelligent terminal to be controlled adjusts the running state of the intelligent terminal to be controlled according to the target control instruction, and the management requirement of a user is met. For example, after the target container analyzes that the camera shoots the current ammeter and finishes the inspection of the current ammeter according to the composite information, the target container sends a moving instruction to the unmanned aerial vehicle, so that the unmanned aerial vehicle moves to the next ammeter according to the moving instruction, and sends a collecting instruction to the camera, so that after the unmanned aerial vehicle moves to the next ammeter, the camera collects an image of the next ammeter, and thus, the inspection of all the ammeters in the area is finished. By referring to the management control flow, the large-scale heterogeneous intelligent terminal in the power grid can be rapidly managed.

In this embodiment, as shown in fig. 4, the step S400 specifically includes the following steps:

step S401, acquiring a target control state, where the target control state is a state to be reached by the intelligent terminal to be controlled.

Step S402, analyzing the composite information based on the target control application in the target container, obtaining the current state of the intelligent terminal to be controlled, and obtaining the target control instruction based on the target control state and the current state.

The target control state can be preset, can be input by a user in real time, can be acquired from a cloud according to actual conditions, or can be adjusted according to actual requirements, and is not specifically limited herein. For example, when patrolling and examining the ammeter, the target state that unmanned aerial vehicle corresponds can be the position that passes through each ammeter place in proper order, and the target state that the camera corresponds is then the shooting of accomplishing all ammeters, and wherein, the position and the quantity of the ammeter in an area are preset.

The composite information is analyzed based on the target control application in the target container, and the current state of the intelligent terminal to be controlled is obtained, for example, the intelligent terminal to be controlled can comprise an unmanned aerial vehicle and a camera, the current state of the unmanned aerial vehicle comprises the current electricity meter number (or position number and position information) where the unmanned aerial vehicle is located, and the current state of the camera comprises the current electricity meter number of the completion of shooting. So, can acquire the positional information that unmanned aerial vehicle needs the next ammeter to go to according to current state and target state to send the removal instruction that corresponds and give unmanned aerial vehicle, make unmanned aerial vehicle move to next ammeter position, send simultaneously and prepare to shoot the instruction and give the camera, when unmanned aerial vehicle reachd next ammeter position, the image that this ammeter corresponds is shot to the camera. It should be noted that the target control instruction may be determined according to a specific intelligent terminal to be controlled, and is not specifically limited herein.

It should be noted that the target control instruction is generated by the target container based on the current state and the target control state corresponding to all the intelligent terminals to be controlled, so that the cooperative control over all the intelligent terminals to be controlled can be realized based on the target control instruction. For example, according to the composite information, the speed of the unmanned aerial vehicle and the distance from the unmanned aerial vehicle to the next ammeter can be known, so that the moving time of the unmanned aerial vehicle to the next ammeter can be obtained, and thus, the preset camera can be used for shooting after the moving time (namely, the corresponding shooting preparation instruction is used for shooting after the moving time is finished), so that cooperative control is realized, the management efficiency is improved, and a better management effect is obtained.

Further, in this embodiment, the calculation capacity of the target container is also considered, so as to achieve a better data processing effect and an intelligent terminal management effect. As shown in fig. 5, the step S402 specifically includes the following steps:

step S4021, acquiring the maximum information calculation capacity of the target container.

Step S4022, when the calculated amount corresponding to the composite information is greater than the maximum information calculation capacity of the target container, obtaining the priority of each piece of information to be analyzed in the composite information.

Step S4023, calculating capacity based on the priority and the maximum information, performing batch analysis on all the information to be analyzed through the target control application in the target container to obtain the current state of the intelligent terminal to be controlled, and obtaining the target control instruction based on the target control state and the current state.

The maximum information calculation capacity of the target container may be determined by a target control application deployed in the target container and a calculation resource that the target container can call, and may refer to other influencing factors, which are not specifically limited herein. Specifically, the corresponding maximum information calculation capacity may be preset for each container in the container set.

It should be noted that, after the target container acquires the composite information, it needs to be calculated and processed, in this process, if the calculated amount corresponding to the composite information is greater than the maximum information calculation capacity of the target container, the target container cannot quickly complete the simultaneous processing of all the information to be analyzed in the composite information, and at this time, the information to be analyzed in the composite information can be processed in batches, so as to avoid the calculated amount exceeding the processing capacity of the target container. The calculated amount corresponding to the composite information can be determined according to the number of the information to be analyzed and the information format type of each information to be analyzed. For example, a calculation amount of a piece of information to be analyzed in a text data format is preset as a, a calculation amount of a piece of information to be analyzed in image data is preset as b, and when only the two types of information to be analyzed are included in the composite information, a calculation amount corresponding to the entire composite information can be calculated according to the specific number of the information to be analyzed. In another application scenario, the calculated amount of the corresponding composite information may also be obtained through real-time analysis by the target control application in the target container, which is not specifically limited herein.

When the calculated amount of the composite information is not more than the maximum information calculation capacity of the target container, the composite information may be directly processed based on the target container. Otherwise, batch processing of the composite information is required. Specifically, priorities may be set for each intelligent terminal to be controlled in advance, and the priorities of the corresponding intelligent terminals to be controlled are retained in the information to be analyzed, so that all the information to be analyzed may be batched based on the priorities and the maximum information calculation capacity of the target container during the calculation process, and then each batch of the information to be analyzed may be sequentially analyzed and calculated. And the sum of the calculated amount corresponding to the information to be analyzed of each batch of analysis is not more than the maximum information calculation capacity. In an application scenario, priorities of different information format types, different information source areas and/or different information application scenarios can be preset, so that better batching is realized, and the management efficiency of the intelligent terminal to be controlled is improved.

In another application scenario, to further improve the processing efficiency of the composite information, a first portion of information to be analyzed may be allocated to a current target container for processing based on the priority, and then a second target container may be obtained from the container set based on the information format type, the information source area, and the information application scenario of a remaining second portion of information to be analyzed, and a second portion of information to be analyzed may be processed based on the second target container. The specific processing procedure may refer to the above specific procedure, and is not described herein again. It should be noted that, when the calculated amount corresponding to the second part of information to be analyzed is greater than the maximum information calculation capacity of the second target container, the second part of information to be analyzed is further divided and allocated. Therefore, the processing efficiency of the composite information can be improved, and the management efficiency of the large-scale heterogeneous intelligent terminal to be controlled is improved.

As can be seen from the above, in the large-scale heterogeneous intelligent terminal container management method provided in the embodiment of the present invention, composite information is obtained, where the composite information includes a plurality of pieces of information to be analyzed, and each piece of the information to be analyzed corresponds to one intelligent terminal to be controlled; respectively acquiring an information format type, an information source area and an information application scene corresponding to each piece of information to be analyzed in the composite information; acquiring a target container from a container set based on the information format type, the information source area and the information application scene, wherein the target container comprises a target control application, and the target control application is used for processing all information to be analyzed in the composite information; and processing the composite information based on the target container, acquiring a target control instruction, and controlling the intelligent terminal to be controlled based on the target control instruction. Compared with the method for processing the data of the intelligent terminal through one container in the prior art, the method and the device can acquire the composite information corresponding to a plurality of intelligent terminals to be controlled, and acquire one target container according to the information format type, the information source area and the information application scene of the information to be analyzed in the composite information. This target container can handle compound information, can handle simultaneously and control a plurality of intelligent terminal to a plurality of intelligent terminal's (can be a plurality of heterogeneous intelligent terminal) data through a target container promptly, is favorable to improving data processing efficiency and to intelligent terminal's managerial efficiency, and is favorable to carrying out cooperative control to a plurality of intelligent terminal, promotes user's use and experiences.

Specifically, in this embodiment, a target container can control a plurality of intelligent terminals to be controlled (may be a type of intelligent terminal, may also be a type of intelligent terminal in a region, and may also be a type of intelligent terminal in an application scenario), that is, the target container can perform comprehensive processing on composite data, directly control the plurality of intelligent terminals to be controlled, can improve control efficiency, and can implement cooperative control, and simultaneously, can also optimize the process of data distribution and processing.

It should be noted that the large-scale heterogeneous intelligent terminal container management method may also be used for processing multiple pieces of composite information, and in this embodiment, a processing procedure of one piece of composite information is taken as an example, but is not specifically limited.

Exemplary device

As shown in fig. 6, corresponding to the large-scale heterogeneous intelligent terminal container management method, an embodiment of the present invention further provides a large-scale heterogeneous intelligent terminal container management system, where the large-scale heterogeneous intelligent terminal container management system includes:

the composite information obtaining module 510 is configured to obtain composite information, where the composite information includes multiple pieces of information to be analyzed, and each piece of the information to be analyzed corresponds to one intelligent terminal to be controlled.

The composite information is information formed by compositing a plurality of pieces of information to be analyzed, and each piece of information to be analyzed is data information corresponding to the intelligent terminal to be controlled. The intelligent terminal to be controlled is an intelligent terminal which needs to be managed and controlled (such as a power grid device which needs to be managed). Specifically, the current state of the intelligent terminal to be controlled can be known by analyzing and processing the composite information, and the user can preset or input the target state that the intelligent terminal to be controlled wants to reach in real time, so that the intelligent terminal to be controlled is controlled according to the current state and the target state, for example, the flight trajectory of the unmanned aerial vehicle is controlled, and the method is not particularly limited herein.

It should be noted that, in this embodiment, under can being applied to the electric wire netting scene with above-mentioned large-scale heterogeneous intelligent terminal container management system, at this moment, above-mentioned intelligent terminal that waits to control can be large-scale heterogeneous electric wire netting terminal, for example traditional ammeter, novel ammeter, unmanned aerial vehicle, camera, wearable equipment, electric power inspection equipment, unmanned intelligent system etc.. Correspondingly, the composite information comprises information to be analyzed corresponding to the large-scale heterogeneous terminal.

The composite information analysis module 520 is configured to obtain an information format type, an information source area, and an information application scenario corresponding to each piece of information to be analyzed in the composite information.

Specifically, the information format type, the information source area and the information application scenario may represent format characteristics, source area characteristics and application scenario characteristics corresponding to the information to be analyzed. In this embodiment, as shown in fig. 7, the composite information analysis module 520 specifically includes:

an information format type obtaining unit 521, configured to obtain an information format type of the information to be analyzed based on a data format corresponding to the information to be analyzed, where the information format type is any one of a video data format, an audio data format, a text data format, and an image data format.

Specifically, the data format corresponding to the information to be analyzed is determined by the corresponding intelligent terminal to be controlled, for example, when the intelligent terminal to be controlled can collect video data, the corresponding information to be analyzed is the video data format, when the intelligent terminal to be controlled collects image data, the corresponding information to be analyzed is the image data format, and when the intelligent terminal to be controlled feeds back the operation state (for example, the remaining power, the flight speed, and the like) in the form of characters, the corresponding information to be analyzed is the character data format.

It should be noted that, in this embodiment, one piece of information to be analyzed corresponds to one intelligent terminal to be controlled, but one intelligent terminal to be controlled may correspond to a plurality of pieces of information to be analyzed with different information format types. For example, one camera (intelligent terminal to be controlled) may collect image data and audio data, and then process the image data and the audio data to generate two pieces of information to be analyzed, so as to obtain a target container capable of simultaneously performing audio data processing and image data processing according to the format type of the information to be analyzed.

Further, the information format type may also be other specific data formats, such as a three-dimensional point cloud data format, and is not limited herein.

An information source area obtaining unit 522 is configured to obtain the location information of the to-be-controlled intelligent terminal corresponding to the to-be-analyzed information, and obtain the information source area corresponding to the to-be-analyzed information based on the location information.

In this embodiment, the information to be analyzed may further include location information of the intelligent terminal to be controlled corresponding to the information to be analyzed, for example, the location information is stored in the information to be analyzed in a form of location coordinates, and an information source area corresponding to the information to be analyzed may be obtained based on the location information, where the intelligent terminal to be controlled corresponding to the information to be analyzed (that is, the intelligent terminal to be controlled that generates the information to be analyzed) is located.

In an application scenario, a plurality of regions to be judged are preset, boundary coordinates of each region to be judged are obtained, and an information source region corresponding to information to be analyzed can be analyzed according to position coordinates in the information to be analyzed.

In another application scenario, different areas may be pre-divided, all the intelligent terminals in one area set the same position number, the position numbers of the intelligent terminals in different areas are different, the position numbers are stored in the information to be analyzed, and the information source area of each information to be analyzed may be determined according to each position number after the composite information is acquired.

It should be noted that, in the actual use process, there may be other ways of obtaining the information source area, and the method is not limited in detail here.

The information application scene obtaining unit 523 is configured to obtain a preset application scene of the intelligent terminal to be controlled corresponding to the information to be analyzed, and use the preset application scene as the information application scene.

Specifically, in this embodiment, application scenarios, such as a power saving scenario, a safety maintenance scenario, a high power operation scenario, a sleep scenario, etc., are set in advance for each to-be-controlled intelligent terminal, and are not limited specifically herein. And storing the corresponding scene information into the information to be analyzed, so that the corresponding preset application scene can be obtained according to the information to be analyzed, and the application scene of the information to be analyzed can be known.

It should be noted that different application scenarios have different requirements for each intelligent terminal, for example, each intelligent terminal is required to operate at a lower power in a power saving scenario, and each intelligent terminal is required to operate at a higher power in a high power scenario, so that the intelligent terminal to be controlled can be managed according to the information application scenario.

A target container obtaining module 530, configured to obtain a target container from a container set based on the information format type, the information source area, and the information application scenario, where the target container includes a target control application, and the target control application is configured to process all information to be analyzed in the composite information.

In this embodiment, the composite information may be classified according to the information format type, the information source area, and the information application scenario of the information to be analyzed, so as to obtain a container (i.e., a target container) that can best process the composite information. Specifically, a container set is preset, where the container set includes a plurality of containers, and each container is respectively deployed with corresponding application software for data processing and control. In this embodiment, the application software deployed in each container is different, and each container may be used to process data in different types, different areas, or different application scenarios. In an application scenario, the container set includes a category container, a region container, and a scene container.

In this embodiment, as shown in fig. 8, the target container acquiring module 530 specifically includes:

a category container acquiring unit 531, configured to acquire, when the composite information satisfies a first condition, a category container corresponding to the information format type from the container set, and serve as the target container, where the category container is a container used for processing information of one format type.

An area container acquiring unit 532, configured to acquire an area container corresponding to the information source area from the container set as the target container when the composite information does not satisfy the first condition and the composite information satisfies a second condition, where the area container is a container for processing information in one area.

A scene container obtaining unit 533, configured to, when the composite information does not satisfy the first condition and the second condition, and the composite information satisfies a third condition, obtain, from the container set, a scene container corresponding to the information application scene, where the scene container is a container for processing information in one application scene, and serve as the target container.

The first condition is that information format types of all information to be analyzed in the composite information are the same, the second condition is that information source areas of all information to be analyzed in the composite information are the same, and the third condition is that information application scenarios of all information to be analyzed in the composite information are the same.

It should be noted that, in the foregoing process, the determination is performed sequentially according to the order of the first condition, the second condition, and the third condition, and in the actual use process, the order of the corresponding determination conditions may be set and adjusted according to actual requirements, which is not limited specifically herein.

And the control module 540 is configured to process the composite information based on the target container, acquire a target control instruction, and control the to-be-controlled intelligent terminal based on the target control instruction.

The target control instruction is a command for controlling the intelligent terminal, specifically, the target control instruction for each intelligent terminal to be controlled can be obtained after the composite information is processed by the target container, and then each target control instruction is sent to the corresponding intelligent terminal to be controlled by the target container, so that the intelligent terminal to be controlled adjusts the running state of the intelligent terminal to be controlled according to the target control instruction, and the management requirement of a user is met.

Specifically, in this embodiment, the specific functions of the large-scale heterogeneous intelligent terminal container management system and the modules thereof may refer to the corresponding descriptions in the large-scale heterogeneous intelligent terminal container management method, which are not described herein again.

It should be noted that, the dividing manner of each module of the large-scale heterogeneous intelligent terminal container management system is not unique, and is not specifically limited herein.

The embodiment of the invention also provides a computer-readable storage medium, wherein a large-scale heterogeneous intelligent terminal container management program is stored on the computer-readable storage medium, and when being executed by a processor, the large-scale heterogeneous intelligent terminal container management program realizes the steps of any large-scale heterogeneous intelligent terminal container management method 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 its function and inherent logic, 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. The specific working processes of the units and modules in the system may refer to the corresponding processes in the foregoing method embodiments, and 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 for illustrating the technical solutions of the present invention, and not for limiting 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 (10)

1. A large-scale heterogeneous intelligent terminal container management method is characterized by comprising the following steps:

acquiring composite information, wherein the composite information comprises a plurality of pieces of information to be analyzed, and each piece of information to be analyzed corresponds to one intelligent terminal to be controlled;

respectively acquiring an information format type, an information source area and an information application scene corresponding to each piece of information to be analyzed in the composite information;

acquiring a target container from a container set based on the information format type, the information source area and the information application scene, wherein the target container comprises a target control application, and the target control application is used for processing all information to be analyzed in the composite information;

and processing the composite information based on the target container, acquiring a target control instruction, and controlling the intelligent terminal to be controlled based on the target control instruction.

2. The large-scale heterogeneous intelligent terminal container management method according to claim 1, wherein the composite information is formed by combining information to be analyzed corresponding to each intelligent terminal to be controlled, and each piece of information to be analyzed includes operation state data of the corresponding intelligent terminal to be controlled and/or acquisition data of the corresponding intelligent terminal to be controlled.

3. The large-scale heterogeneous intelligent terminal container management method according to claim 1, wherein the respectively obtaining information format types, information source areas and information application scenarios corresponding to the information to be analyzed in the composite information comprises:

acquiring an information format type of the information to be analyzed based on a data format corresponding to the information to be analyzed, wherein the information format type is any one of a video data format, an audio data format, a text data format and an image data format;

acquiring position information of the intelligent terminal to be controlled corresponding to the information to be analyzed, and acquiring an information source area corresponding to the information to be analyzed based on the position information;

and acquiring a preset application scene of the intelligent terminal to be controlled corresponding to the information to be analyzed, and using the preset application scene as the information application scene.

4. The method for managing the large-scale heterogeneous intelligent terminal container according to claim 1, wherein the obtaining a target container from a container set based on the information format type, the information source area and the information application scenario comprises:

when the composite information meets a first condition, acquiring a category container corresponding to the information format type from the container set and using the category container as the target container, wherein the category container is a container for processing information of one format type;

when the composite information does not meet the first condition and the composite information meets a second condition, acquiring an area container corresponding to the information source area from the container set and using the area container as the target container, wherein the area container is used for processing information in an area;

when the composite information does not satisfy the first condition and the second condition and the composite information satisfies a third condition, acquiring a scene container corresponding to the information application scene from the container set and using the scene container as the target container, wherein the scene container is a container for processing information in one application scene;

the first condition is that the information format types of all the information to be analyzed in the composite information are the same, the second condition is that the information source areas of all the information to be analyzed in the composite information are the same, and the third condition is that the information application scenarios of all the information to be analyzed in the composite information are the same.

5. The large-scale heterogeneous intelligent terminal container management method according to claim 1, wherein obtaining a target container from a container set based on the information format type, the information source area and the information application scenario comprises:

acquiring an intelligent distribution container in the container set, wherein the intelligent distribution container is used for storing information processing records of all other containers in the container set;

and querying and acquiring the target container through the intelligent distribution container, wherein the target container is a container processed with historical information, and the historical information is the same as the information format type, the information source area and/or the information application scene of the information to be analyzed.

6. The large-scale heterogeneous intelligent terminal container management method according to claim 1, wherein the processing the composite information and obtaining a target control instruction based on the target container comprises:

acquiring a target control state, wherein the target control state is a state to be reached by the intelligent terminal to be controlled;

and analyzing the composite information based on a target control application in the target container, acquiring the current state of the intelligent terminal to be controlled, and acquiring the target control instruction based on the target control state and the current state.

7. The large-scale heterogeneous intelligent terminal container management method according to claim 6, wherein the analyzing the composite information based on a target control application in the target container to obtain a current state of the intelligent terminal to be controlled and obtaining the target control instruction based on the target control state and the current state includes:

acquiring the maximum information calculation capacity of the target container;

when the calculated amount corresponding to the composite information is larger than the maximum information calculation capacity of the target container, respectively acquiring the priority of each piece of information to be analyzed in the composite information;

and calculating capacity based on the priority and the maximum information, performing batch analysis on all the information to be analyzed through a target control application in the target container to obtain the current state of the intelligent terminal to be controlled, and obtaining the target control instruction based on the target control state and the current state.

8. A large-scale heterogeneous intelligent terminal container management system, the system comprising:

the system comprises a composite information acquisition module, a control module and a control module, wherein the composite information acquisition module is used for acquiring composite information, the composite information comprises a plurality of pieces of information to be analyzed, and each piece of information to be analyzed corresponds to one intelligent terminal to be controlled;

the composite information analysis module is used for respectively acquiring the information format type, the information source area and the information application scene corresponding to each piece of information to be analyzed in the composite information;

a target container obtaining module, configured to obtain a target container from a container set based on the information format type, the information source area, and the information application scenario, where the target container includes a target control application, and the target control application is used to process all information to be analyzed in the composite information;

and the control module is used for processing the composite information based on the target container, acquiring a target control instruction and controlling the intelligent terminal to be controlled based on the target control instruction.

9. The large-scale heterogeneous intelligent terminal container management system according to claim 8, wherein the composite information analysis module comprises:

the information format type acquiring unit is used for acquiring the information format type of the information to be analyzed based on the data format corresponding to the information to be analyzed, wherein the information format type is any one of a video data format, an audio data format, a character data format and an image data format;

an information source area obtaining unit, configured to obtain position information of the to-be-controlled intelligent terminal corresponding to the to-be-analyzed information, and obtain an information source area corresponding to the to-be-analyzed information based on the position information;

and the information application scene acquisition unit is used for acquiring a preset application scene of the intelligent terminal to be controlled corresponding to the information to be analyzed and taking the preset application scene as the information application scene.

10. The large-scale heterogeneous intelligent terminal container management system according to claim 8, wherein the target container acquisition module comprises:

a category container acquiring unit, configured to acquire, when the composite information satisfies a first condition, a category container corresponding to the information format type from the container set and serve as the target container, where the category container is a container used for processing information of one format type;

an area container acquiring unit, configured to acquire an area container corresponding to the information source area from the container set and serve as the target container when the composite information does not satisfy the first condition and the composite information satisfies a second condition, where the area container is a container used for processing information in an area;

a scene container obtaining unit, configured to, when the composite information does not satisfy the first condition and the second condition and the composite information satisfies a third condition, obtain a scene container corresponding to the information application scene from the container set and use the scene container as the target container, where the scene container is a container used for processing information in one application scene;

the first condition is that the information format types of all the information to be analyzed in the composite information are the same, the second condition is that the information source areas of all the information to be analyzed in the composite information are the same, and the third condition is that the information application scenarios of all the information to be analyzed in the composite information are the same.

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