CN115665218A - Remote control method and system for Internet of things equipment and related equipment - Google Patents

Abstract

The invention discloses a remote control method, a remote control system and related equipment of Internet of things equipment, wherein the method comprises the following steps: acquiring to-be-transmitted data corresponding to each Internet of things device in the power Internet of things; grouping data sets to be transmitted to obtain text data to be transmitted, image data to be transmitted and audio data to be transmitted, transmitting the various data to a remote control center through different communication channels, and dividing and combining the received data through the remote control center to obtain a plurality of data to be processed; distributing computing resources for the data to be processed according to the data quantity and the data complexity of the data to be processed, acquiring and outputting fault analysis results corresponding to the Internet of things equipment according to the data to be processed so as to trigger a target object to input an operation instruction, generating a control command corresponding to the Internet of things equipment according to the operation instruction through a remote control center, and controlling the Internet of things equipment according to the control commands. The invention is beneficial to improving the data transmission efficiency and the control efficiency of the Internet of things equipment.

Description

Remote control method and system for Internet of things equipment and related equipment

Technical Field

The invention relates to the technical field of control over equipment of the Internet of things, in particular to a remote control method and system for equipment of the Internet of things and related equipment.

Background

With the development of science and technology, especially the development of the internet of things technology, the application of various internet of things devices is more and more extensive, and the calculation analysis of data of the internet of things and the management and control of the internet of things devices are more and more concerned.

In the prior art, when controlling internet of things equipment in the internet of things (especially an electric power internet of things), only near-distance control is usually performed, specifically, data acquisition is performed on each internet of things equipment to obtain operation state data corresponding to each internet of things equipment, the operation state data corresponding to the same internet of things equipment are packed into a data packet, and each data packet is directly transmitted to a control center so that the control center performs data analysis. The problem in the prior art is that for the same internet of things device, the corresponding operation state data may include multiple types (for example, text types and image types) of information, when all operation state data corresponding to the same internet of things device are directly packed into one data packet, the data packet may include multiple types of information, and when the data packet is directly transmitted, the transmission efficiency is relatively slow when a complex mixed type of data is transmitted, which is not beneficial to improving the control efficiency of the internet of things device.

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

Disclosure of Invention

The invention mainly aims to provide a remote control method and system for equipment of the internet of things and related equipment, and aims to solve the problems that when the equipment of the internet of things is controlled in the prior art, all running state data corresponding to the same equipment of the internet of things are directly packaged into a data packet, and the data transmission efficiency of a scheme for directly transmitting each data packet to a control center is low, and the control efficiency of the equipment of the internet of things is not improved.

In order to achieve the above object, a first aspect of the present invention provides a remote control method for an internet of things device, where the remote control method for an internet of things device includes:

the method comprises the steps of respectively obtaining data to be transmitted corresponding to each piece of Internet of things equipment in the power Internet of things, wherein the data to be transmitted comprises current state information, historical state information and standard parameter information corresponding to the Internet of things equipment, the current state information comprises at least one of current state text information, current state image information and current state audio information, the historical state information comprises at least one of historical state text information, historical state image information and historical state audio information, and the standard parameter information comprises at least one of standard parameter text information, standard parameter image information and standard parameter audio information;

grouping data sets to be transmitted to obtain a group of text data to be transmitted, a group of image data to be transmitted and a group of audio data to be transmitted, wherein the text data to be transmitted comprises all current state text information, historical state text information and standard parameter text information in the data sets to be transmitted, the image data to be transmitted comprises all current state image information, historical state image information and standard parameter image information in the data sets to be transmitted, the audio data to be transmitted comprises all current state audio information, historical state audio information and standard parameter audio information in the data sets to be transmitted, and the data sets to be transmitted are sets formed by the data to be transmitted corresponding to all internet of things equipment in the power internet of things;

transmitting the text data to be transmitted, the image data to be transmitted and the audio data to be transmitted to a remote control center through a text communication channel, an image communication channel and an audio communication channel respectively, and performing data division and combination on the received text data to be transmitted, the received image data to be transmitted and the received audio data to be transmitted through the remote control center to obtain a plurality of data to be processed, wherein one piece of data to be processed comprises current state information, historical state information and standard parameter information corresponding to the equipment of the internet of things;

distributing computing resources to the data to be processed according to the data quantity and the data complexity of the data to be processed, and acquiring fault analysis results corresponding to the Internet of things equipment according to the data to be processed based on the computing resources corresponding to the data to be processed;

and outputting the fault analysis result to a target object so as to trigger the target object to input an operation instruction through interactive operation, generating a control command corresponding to each piece of Internet of things equipment according to the operation instruction through the remote control center, and controlling each piece of Internet of things equipment according to each control command.

Optionally, the obtaining data to be transmitted corresponding to each internet of things device in the power internet of things includes:

respectively carrying out synchronous data acquisition on the Internet of things equipment to obtain state acquisition information corresponding to the Internet of things equipment;

respectively transmitting state acquisition information corresponding to each piece of Internet of things equipment to a target database corresponding to each piece of Internet of things equipment, processing each piece of state acquisition information according to preset data processing steps in the target database and storing the state acquisition information as current state information corresponding to each piece of Internet of things equipment, wherein the target database corresponding to one piece of Internet of things equipment is one of a plurality of preset databases, the plurality of preset databases comprise a Mysql database, a MongoDB database and an Hbase database, and the preset data processing steps comprise data cleaning and data fusion;

respectively extracting standard parameter information corresponding to the Internet of things equipment from each target database;

and according to a preset historical data time length value and the acquisition time corresponding to each piece of current state information, extracting and obtaining the historical state information corresponding to each piece of Internet of things equipment from each target database respectively.

Optionally, the transmitting the text data to be transmitted, the image data to be transmitted, and the audio data to be transmitted to a remote control center through a text communication channel, an image communication channel, and an audio communication channel respectively includes:

counting to obtain the data volume of the text data to be transmitted, the data volume of the image data to be transmitted and the data volume of the audio data to be transmitted;

dividing communication resources of a preset text transmission channel, a preset image transmission channel and a preset audio transmission channel according to the data volume of the text data to be transmitted, the data volume of the image data to be transmitted and the data volume of the audio data to be transmitted so as to obtain the divided text communication channel, the divided image communication channel and the divided audio communication channel, wherein the communication resources comprise network bandwidth;

and transmitting the text data to be transmitted to the remote control center through the text communication channel, transmitting the image data to be transmitted to the remote control center through the image communication channel, and transmitting the audio data to be transmitted to the remote control center through the audio communication channel.

Optionally, the transmitting the text data to be transmitted to the remote control center through the text communication channel, transmitting the image data to be transmitted to the remote control center through the image communication channel, and transmitting the audio data to be transmitted to the remote control center through the audio communication channel includes:

respectively encrypting the text data to be transmitted, the image data to be transmitted and the audio data to be transmitted to obtain encrypted text data to be transmitted, encrypted image data to be transmitted and encrypted audio data to be transmitted, wherein the text data to be transmitted, the image data to be transmitted and the audio data to be transmitted have different corresponding encryption modes;

and transmitting the encrypted text data to be transmitted to the remote control center through the text communication channel, transmitting the encrypted image data to be transmitted to the remote control center through the image communication channel, and transmitting the encrypted audio data to be transmitted to the remote control center through the audio communication channel.

Optionally, each piece of information in the data to be transmitted includes a target device number, where the target device number is a number of the internet of things device corresponding to the data to be transmitted, and numbers corresponding to different internet of things devices are different.

Optionally, the performing data division and combination on the received text data to be transmitted, the image data to be transmitted, and the audio data to be transmitted through the remote control center to obtain a plurality of data to be processed includes:

and according to the number of the target device corresponding to each piece of information in the text data to be transmitted, the image data to be transmitted and the audio data to be transmitted, performing data division and combination on the received text data to be transmitted, the received image data to be transmitted and the received audio data to be transmitted through the remote control center to obtain a plurality of data to be processed, wherein the remote control center is a control module in an information physical system.

Optionally, the allocating a computing resource to each piece of to-be-processed data according to the data amount and the data complexity of each piece of to-be-processed data, and acquiring a fault analysis result corresponding to each piece of internet-of-things equipment according to each piece of to-be-processed data based on the computing resource corresponding to each piece of to-be-processed data includes:

acquiring a fault identification model corresponding to each piece of to-be-processed data according to a target device number in each piece of to-be-processed data, and acquiring model complexity of each fault identification model;

calculating and acquiring comprehensive processing complexity corresponding to each piece of data to be processed according to the data quantity and the data complexity of each piece of data to be processed and the model complexity corresponding to each piece of data to be processed;

distributing computing resources for each piece of data to be processed according to the comprehensive processing complexity corresponding to each piece of data to be processed, wherein more computing resources correspond to the data to be processed with higher comprehensive processing complexity;

and respectively processing the data to be processed through the fault identification model corresponding to the data to be processed based on the computing resources corresponding to the data to be processed, and obtaining the fault analysis result corresponding to the internet of things equipment.

A second aspect of the present invention provides an internet of things device remote control system, where the internet of things device remote control system includes:

the data acquisition module is used for respectively acquiring data to be transmitted corresponding to each Internet of things device in the power Internet of things, wherein the data to be transmitted comprises current state information, historical state information and standard parameter information corresponding to the Internet of things devices, the current state information comprises at least one of current state text information, current state image information and current state audio information, the historical state information comprises at least one of historical state text information, historical state image information and historical state audio information, and the standard parameter information comprises at least one of standard parameter text information, standard parameter image information and standard parameter audio information;

the data grouping module is used for grouping a data set to be transmitted to obtain a group of text data to be transmitted, a group of image data to be transmitted and a group of audio data to be transmitted, wherein the text data to be transmitted comprises all current state text information, historical state text information and standard parameter text information in the data set to be transmitted, the image data to be transmitted comprises all current state image information, historical state image information and standard parameter image information in the data set to be transmitted, the audio data to be transmitted comprises all current state audio information, historical state audio information and standard parameter audio information in the data set to be transmitted, and the data set to be transmitted is a set formed by the data to be transmitted corresponding to all internet of things equipment in the power internet of things;

the data transmission module is used for transmitting the text data to be transmitted, the image data to be transmitted and the audio data to be transmitted to a remote control center through a text communication channel, an image communication channel and an audio communication channel respectively, and performing data division and combination on the received text data to be transmitted, the image data to be transmitted and the audio data to be transmitted through the remote control center to obtain a plurality of data to be processed, wherein one piece of data to be processed comprises current state information, historical state information and standard parameter information corresponding to the equipment of the internet of things;

the data analysis module is used for distributing computing resources to the to-be-processed data according to the data quantity and the data complexity of the to-be-processed data, and acquiring a fault analysis result corresponding to each piece of internet-of-things equipment according to the to-be-processed data based on the computing resources corresponding to the to-be-processed data;

and the remote control module is used for outputting the fault analysis result to a target object so as to trigger the target object to input an operation instruction through interactive operation, generating a control command corresponding to each piece of Internet of things equipment according to the operation instruction through the remote control center, and controlling each piece of Internet of things equipment according to each control command.

A third aspect of the present invention provides an intelligent terminal, where the intelligent terminal includes a memory, a processor, and an internet-of-things device remote control program that is stored in the memory and is executable on the processor, and the internet-of-things device remote control program is executed by the processor to implement any one of the steps of the internet-of-things device remote control method.

A fourth aspect of the present invention provides a computer-readable storage medium, where an internet of things device remote control program is stored on the computer-readable storage medium, and when executed by a processor, the computer-readable storage medium implements any one of the steps of the internet of things device remote control method.

As can be seen from the above, in the scheme of the present invention, data to be transmitted corresponding to each internet of things device in an electric power internet of things is respectively obtained, where the data to be transmitted includes current state information, historical state information and standard parameter information corresponding to the internet of things device, the current state information includes at least one of current state text information, current state image information and current state audio information, the historical state information includes at least one of historical state text information, historical state image information and historical state audio information, and the standard parameter information includes at least one of standard parameter text information, standard parameter image information and standard parameter audio information; grouping data sets to be transmitted, and obtaining a group of text data to be transmitted, a group of image data to be transmitted and a group of audio data to be transmitted, wherein the text data to be transmitted comprises all current state text information, historical state text information and standard parameter text information in the data sets to be transmitted, the image data to be transmitted comprises all current state image information, historical state image information and standard parameter image information in the data sets to be transmitted, the audio data to be transmitted comprises all current state audio information, historical state audio information and standard parameter audio information in the data sets to be transmitted, and the data sets to be transmitted are a set formed by the data to be transmitted corresponding to all internet of things equipment in the power internet of things; respectively transmitting the text data to be transmitted, the image data to be transmitted and the audio data to be transmitted to a remote control center through a text communication channel, an image communication channel and an audio communication channel, and performing data division and combination on the received text data to be transmitted, the received image data to be transmitted and the received audio data to be transmitted through the remote control center to obtain a plurality of data to be processed, wherein one piece of data to be processed comprises current state information, historical state information and standard parameter information corresponding to the internet of things equipment; distributing computing resources to the data to be processed according to the data quantity and the data complexity of the data to be processed, and acquiring fault analysis results corresponding to the Internet of things equipment according to the data to be processed based on the computing resources corresponding to the data to be processed; and outputting the fault analysis result to a target object so as to trigger the target object to input an operation instruction through interactive operation, generating a control command corresponding to each piece of Internet of things equipment according to the operation instruction through the remote control center, and controlling each piece of Internet of things equipment according to each control command.

Compared with the prior art, in the scheme of the invention, the data corresponding to the same Internet of things device is not directly packed into a data packet and is transmitted by taking the data packet as a unit, but all the data to be transmitted corresponding to the Internet of things device in the power Internet of things are grouped according to the data type, the data of the text type is divided into the same group (namely the text data to be transmitted), the data of the image type is divided into the same group (namely the image data to be transmitted), and the data of the audio type is divided into the same group (namely the audio data to be transmitted). And three different communication channels (including a text communication channel, an image communication channel and an audio communication channel) are specially established between the remote control center and used for transmitting corresponding data of various types, so that the characteristics of the communication channels can be fully utilized to realize the rapid processing and rapid transmission of the data of the corresponding types, the data transmission efficiency can be improved, and the control efficiency of the equipment of the Internet of things can be 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 remote control method for an internet of things device according to an embodiment of the present invention;

fig. 2 is a schematic structural diagram of an internet of things device remote control system according to an embodiment of the present invention;

fig. 3 is a schematic block diagram of an internal structure of an intelligent terminal 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 this specification 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 any and all possible combinations of one or more of the associated listed items and includes such combinations.

As used in this specification and the appended claims, the term "if" may be interpreted contextually as "when 8230that" or "once" or "in response to a determination" or "in response to a classification". Similarly, the phrase "if it is determined" or "if it is classified to [ a described condition or event ]" may be interpreted contextually to mean "upon determining" or "in response to determining" or "upon classifying to [ a described condition or event ]" or "in response to classifying to [ a 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 obtained by a person skilled in the art without making any creative effort based on the embodiments in the present invention, belong to 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 science and technology, especially the development of the internet of things technology, the application of various internet of things devices is more and more extensive, and the calculation analysis of data of the internet of things and the management and control of the internet of things devices are more and more concerned.

In the prior art, when the internet of things equipment in the internet of things (especially the electric power internet of things) is controlled, only close-range control is usually performed, specifically, data acquisition is performed on each piece of internet of things equipment to obtain operation state data corresponding to each piece of internet of things equipment, the operation state data corresponding to the same piece of internet of things equipment is packaged into a data packet, and each data packet is directly transmitted to the control center so that the control center can perform data analysis.

The problem in the prior art is that for the same internet of things device, the corresponding operation state data may include multiple types (for example, text types and image types) of information, when all operation state data corresponding to the same internet of things device are directly packed into one data packet, the data packet may include multiple types of information, and when the data packet is directly transmitted, the transmission efficiency is relatively slow when a complex mixed type of data is transmitted, which is not beneficial to improving the control efficiency of the internet of things device. In the scene of the short-distance control of the internet of things equipment in the prior art, the scheme can meet the requirement of the real-time control of the internet of things equipment, but when the scene of the long-distance control of the internet of things equipment is faced, the distance for data transmission is increased, and the slow transmission efficiency can bring longer time delay, so that the problem of slow data transmission efficiency is further amplified, and the requirement of the control of the internet of things equipment is difficult to meet. Namely, the scheme in the prior art is difficult to use in the scene of remote control of the equipment of the internet of things.

In order to solve at least one of the problems, in the scheme of the invention, all data to be transmitted corresponding to the internet of things equipment in the power internet of things are grouped according to data types, the data of the text type is divided into the same group (namely the text data to be transmitted), the data of the image type is divided into the same group (namely the image data to be transmitted), and the data of the audio type is divided into the same group (namely the audio data to be transmitted). And three different communication channels (including a text communication channel, an image communication channel and an audio communication channel) are specially established between the remote control center and used for transmitting corresponding data of various types, so that the characteristics of the communication channels can be fully utilized to realize the rapid processing and rapid transmission of the data of the corresponding types, the data transmission efficiency can be improved, and the control efficiency of the equipment of the Internet of things can be improved.

Meanwhile, the scheme of the invention also divides communication resources according to the data volume of the text data to be transmitted, the data volume of the image data to be transmitted and the data volume of the audio data to be transmitted, and determines the required communication resources (such as network bandwidth) for each communication channel, so that the communication resources are reasonably distributed for each communication channel according to the data which needs to be processed actually, which is beneficial to ensuring that the data of each communication channel is reasonably and synchronously transmitted, thereby further improving the data transmission efficiency and reducing the waiting time of data transmission, avoiding the waiting time caused by the fact that one type of data (such as the image data to be transmitted) is transmitted and the other type of data (such as the audio data to be transmitted) is not transmitted, and further improving the control efficiency of the internet of things equipment.

Exemplary method

As shown in fig. 1, an embodiment of the present invention provides a remote control method for an internet of things device, and specifically, the method includes the following steps:

step S100, data to be transmitted corresponding to each Internet of things device in the power Internet of things are respectively obtained, wherein the data to be transmitted comprise current state information, historical state information and standard parameter information corresponding to the Internet of things devices, the current state information comprises at least one of current state text information, current state image information and current state audio information, the historical state information comprises at least one of historical state text information, historical state image information and historical state audio information, and the standard parameter information comprises at least one of standard parameter text information, standard parameter image information and standard parameter audio information.

The power internet of things is an internet of things for a power system, and each piece of internet of things equipment in the power internet of things can be each piece of power equipment in the power system, such as an electric meter, a lamp, a monitoring camera and the like, and can also be other pieces of power equipment, such as an air conditioner, an exhaust fan and the like, which are not specifically limited herein. In this embodiment, each piece of internet-of-things equipment in the power internet of things is controlled based on the internet-of-things equipment remote control method, so as to meet the use requirements of users.

Specifically, in the process of remotely controlling the internet of things equipment, data to be transmitted corresponding to the internet of things equipment is acquired first, the data to be transmitted is data representing the working operation condition of the internet of things equipment, and after the data to be transmitted is remotely transmitted, a remote target object (an operator or operating equipment) can know the operation condition of the internet of things equipment, so that how to control the internet of things equipment is determined according to the operation condition of the internet of things equipment.

The current state information is information which is acquired in real time and is used for representing the specific running state of the equipment of the internet of things at the current moment, the historical state information is information which is acquired and stored in advance and is used for representing the running state of the equipment of the internet of things in a past period of time, and the standard parameter information is a parameter which is set in advance and is used for representing the normal running of the equipment of the internet of things. It should be noted that the various information (including the current status information, the historical status information, and the standard parameter information) specifically includes one or more of text type information, image type information, and audio type information. Further, for different pieces of internet of things equipment, the information types specifically included in the various pieces of information are different, for example, when the piece of internet of things equipment is a monitoring camera, image type information and audio type information can be correspondingly included; when the Internet of things equipment is an ammeter, the Internet of things equipment can correspond to text type information and image type information; the specific information types corresponding to different internet of things devices can be preset or adjusted in real time according to actual requirements, and are not specifically limited herein.

Specifically, in this embodiment, the above-mentioned data to be transmitted that respectively acquires each internet of things device correspondence in the electric power internet of things includes: respectively carrying out synchronous data acquisition on the Internet of things equipment to obtain state acquisition information corresponding to the Internet of things equipment; respectively transmitting state acquisition information corresponding to each piece of Internet of things equipment to a target database corresponding to each piece of Internet of things equipment, processing each piece of state acquisition information according to a preset data processing step in the target database and storing the state acquisition information as current state information corresponding to each piece of Internet of things equipment, wherein the target database corresponding to one piece of Internet of things equipment is one of a plurality of preset databases, the plurality of preset databases comprise a Mysql database, a MongoDB database and an Hbase database, and the preset data processing step comprises data cleaning and data fusion; respectively extracting standard parameter information corresponding to the Internet of things equipment from each target database; and according to a preset historical data time length value and the acquisition time corresponding to each piece of current state information, extracting and obtaining the historical state information corresponding to each piece of Internet of things equipment from each target database respectively.

The synchronous data acquisition refers to data acquisition of all the Internet of things devices at the current moment. In an application scenario, in order to ensure that corresponding data are acquired simultaneously, time calibration can be performed on each piece of internet of things equipment in advance, then the data acquisition time is preset, and data acquisition is performed at the same time. Furthermore, time calibration can be performed on each piece of internet-of-things equipment again at intervals or after data acquisition is performed once, so that synchronous data acquisition is guaranteed.

In this embodiment, when data acquisition is performed on the internet of things device, specific data to be acquired is predetermined according to the specific internet of things device, and a corresponding sensor auxiliary data acquisition process can be preset, for example, when the internet of things device is an air conditioner or an exhaust fan, a temperature sensor can be preset, and data corresponding to the temperature sensor is also used as data to be transmitted corresponding to the internet of things device, which is not specifically limited herein.

It should be noted that, in this embodiment, data is uniformly calculated, analyzed, processed, and controlled based on a Cyber-Physical system (CPS), and communication is performed based on a Message Queue Telemetry Transport (MQTT) protocol to implement data acquisition and issue of a control instruction, so as to implement data acquisition and decision instruction receiving tasks of the CPS information system.

Further, adopt preset database to wash, fuse and the storage to thing networking data in this embodiment, be favorable to carrying out unified processing, storage and use with the polymorphic type data of multisource, and wash and be favorable to improving the efficiency of follow-up data transmission and processing after fusing.

It should be noted that, the target database also stores standard parameter information corresponding to each piece of internet of things equipment in advance. The preset historical data time length value is a preset time threshold used for limiting the range of the historical state information to be extracted, that is, the state information of the internet of things equipment, which is stored in the target database and has a difference value between all the previous acquisition times and the current time (that is, the acquisition time corresponding to the current state information) not exceeding the historical data time length value, can be used as the historical state information to be extracted. Further, other specific databases may be provided, and are not limited in this respect.

Step S200, grouping is carried out on a data set to be transmitted, and a group of text data to be transmitted, a group of image data to be transmitted and a group of audio data to be transmitted are obtained, wherein the text data to be transmitted comprise all current state text information, historical state text information and standard parameter text information in the data set to be transmitted, the image data to be transmitted comprise all current state image information, historical state image information and standard parameter image information in the data set to be transmitted, the audio data to be transmitted comprise all current state audio information, historical state audio information and standard parameter audio information in the data set to be transmitted, and the data set to be transmitted is a set formed by the data to be transmitted corresponding to all Internet of things equipment in the power Internet of things.

In this embodiment, each piece of information in the data to be transmitted is grouped according to the information type, so that a dedicated communication channel is used to transmit corresponding information, for example, a text communication channel is only used to transmit text data, and each communication channel does not need to transmit complex mixed type data, which is beneficial to improving the efficiency and accuracy of data transmission.

Step S300, the text data to be transmitted, the image data to be transmitted and the audio data to be transmitted are transmitted to a remote control center through a text communication channel, an image communication channel and an audio communication channel respectively, and data division and combination are carried out on the received text data to be transmitted, the received image data to be transmitted and the received audio data to be transmitted through the remote control center to obtain a plurality of data to be processed, wherein one piece of data to be processed comprises current state information, historical state information and standard parameter information corresponding to the equipment of the Internet of things.

In this embodiment, three different types of communication channels are preset, that is, a preset text transmission channel dedicated to transmitting text type data, a preset image transmission channel dedicated to transmitting image type data, and a preset audio transmission channel dedicated to transmitting audio type data. And the communication resources corresponding to the three communication channels can be adjusted according to actual requirements, so that the data transmission efficiency is further improved, the data of the three channels can be transmitted as simultaneously as possible, and the waiting time is reduced.

Specifically, the transmitting the text data to be transmitted, the image data to be transmitted, and the audio data to be transmitted to a remote control center through a text communication channel, an image communication channel, and an audio communication channel respectively includes: counting to obtain the data volume of the text data to be transmitted, the data volume of the image data to be transmitted and the data volume of the audio data to be transmitted; dividing communication resources of a preset text transmission channel, a preset image transmission channel and a preset audio transmission channel according to the data volume of the text data to be transmitted, the data volume of the image data to be transmitted and the data volume of the audio data to be transmitted so as to obtain the divided text communication channel, the divided image communication channel and the divided audio communication channel, wherein the communication resources comprise network bandwidth; and transmitting the text data to be transmitted to the remote control center through the text communication channel, transmitting the image data to be transmitted to the remote control center through the image communication channel, and transmitting the audio data to be transmitted to the remote control center through the audio communication channel.

It should be noted that the communication resources may be divided according to a ratio among the data amount of the text data to be transmitted, the data amount of the image data to be transmitted, and the data amount of the audio data to be transmitted, and a communication channel with a larger data amount is divided to obtain more communication resources (for example, obtain a higher bandwidth).

Further, the transmitting the text data to be transmitted to the remote control center through the text communication channel, transmitting the image data to be transmitted to the remote control center through the image communication channel, and transmitting the audio data to be transmitted to the remote control center through the audio communication channel includes:

respectively encrypting the text data to be transmitted, the image data to be transmitted and the audio data to be transmitted to obtain encrypted text data to be transmitted, encrypted image data to be transmitted and encrypted audio data to be transmitted, wherein the text data to be transmitted, the image data to be transmitted and the audio data to be transmitted have different corresponding encryption modes; and transmitting the encrypted text data to be transmitted to the remote control center through the text communication channel, transmitting the encrypted image data to be transmitted to the remote control center through the image communication channel, and transmitting the encrypted audio data to be transmitted to the remote control center through the audio communication channel.

Therefore, data are encrypted and transmitted, and the security in the data transmission process is improved, so that the security of the control of the Internet of things equipment is improved. It should be noted that the text data to be transmitted, the image data to be transmitted, and the audio data to be transmitted may be encrypted according to a preset encryption algorithm, and decrypted at a receiving end (i.e., a remote control center) according to a corresponding preset decryption algorithm.

Further, can also set up the privacy grade for each different thing networking device in advance, for example the privacy grade of surveillance camera head is 2 grades, and the privacy grade of electric light is 5 grades, and 2 grades of privacy nature is higher than 5 grades, and the privacy grade of surveillance camera head is higher promptly. Different encryption algorithms are preset for different privacy levels, and the higher the privacy level is, the more complicated the corresponding encryption algorithm is. When the text data to be transmitted, the image data to be transmitted and the audio data to be transmitted are encrypted, a corresponding encryption algorithm is selected for encryption according to the privacy level of the internet of things equipment corresponding to specific information (for example, current state text information included in the text data to be transmitted), and a corresponding decryption algorithm is selected in the same way during decryption. Furthermore, for information with higher privacy level, multiple nested encryption can be performed by combining multiple addition algorithms, so that the security of data transmission is further improved, and the privacy of a user is prevented from being revealed due to information disclosure in remote data transmission.

In this embodiment, each piece of information in the data to be transmitted includes a target device number, where the target device number is a number of the internet of things device corresponding to the data to be transmitted, and numbers corresponding to different internet of things devices are different.

Specifically, the target device number is a unique device number corresponding to the internet of things device to which the data to be transmitted belongs. In an application scenario, a corresponding number may be set in advance for each piece of internet of things device, and an information header (for example, the first 8 bits, and specific bits may be set and adjusted according to actual needs) of information (for example, current state information and historical state information) acquired by the piece of internet of things device or preset information (for example, standard parameter information) is used to store the corresponding target device number, so as to distinguish sources of each piece of information. Further, the above-mentioned obtaining a plurality of data to be processed by performing data division and combination on the received text data to be transmitted, the image data to be transmitted and the audio data to be transmitted through the remote control center includes: and according to the target equipment number corresponding to each piece of information in the text data to be transmitted, the image data to be transmitted and the audio data to be transmitted, performing data division and combination on the received text data to be transmitted, the image data to be transmitted and the audio data to be transmitted through the remote control center to obtain a plurality of pieces of data to be processed, wherein the remote control center is a control module in an information physical system.

When the division is performed, the information with the same target device number is divided into the same group and used as the data to be processed. Specifically, one piece of data to be processed includes all information corresponding to one piece of internet-of-things equipment.

Step S400, allocating computing resources to each piece of to-be-processed data according to the data amount and the data complexity of each piece of to-be-processed data, and acquiring a fault analysis result corresponding to each piece of internet-of-things equipment according to each piece of to-be-processed data based on the computing resources corresponding to each piece of to-be-processed data.

In this embodiment, synchronous analysis is performed on multi-source data based on a control module (i.e., a remote control center) in the cyber-physical system, so as to implement synchronous control on the internet-of-things equipment. The data amount of one piece of data to be processed is determined according to the number of bytes occupied by the data amount, and the data complexity is determined according to the data type (that is, the composition ratio of the data type) corresponding to the data amount, for example, the data complexity corresponding to the information only including the text type is the lowest (for example, may be set to 1), the data complexity corresponding to the information only including the image type is higher than the data complexity corresponding to the information only including the text type, for example, the data complexity may be 2, the complexity corresponding to the information only including the audio type is higher, for example, may be set to 3, and the complexity corresponding to the information including the multiple types of data is higher, for example, the square of the sum of the complexity of a single type of the multiple types of data, for example, the complexity corresponding to the information including the text type and the information including the image type is the square of the sum of 1 and 2, that is 9. The above data complexity may also be calculated by other methods, and is not limited herein. In an application scenario, when the calculation resource is divided, the complexity of the neural network model that needs to be used for each group of data to be processed is also considered, and the complexity of the model may be determined according to the model structure (the more complex the structure, the higher the model complexity corresponding to the model), or the complexity values corresponding to different models may be preset, which is not specifically limited herein.

The allocating computing resources to the to-be-processed data according to the data volume and the data complexity of the to-be-processed data, and acquiring the fault analysis result corresponding to each piece of internet-of-things equipment according to the to-be-processed data based on the computing resources corresponding to the to-be-processed data includes: acquiring a fault identification model corresponding to each piece of to-be-processed data according to a target device number in each piece of to-be-processed data, and acquiring model complexity of each fault identification model; calculating and acquiring comprehensive processing complexity corresponding to each piece of data to be processed according to the data quantity and the data complexity of each piece of data to be processed and the model complexity corresponding to each piece of data to be processed; distributing computing resources to the to-be-processed data according to the comprehensive processing complexity corresponding to the to-be-processed data, wherein more computing resources correspond to the to-be-processed data with higher comprehensive processing complexity; and respectively processing the data to be processed through the fault identification model corresponding to the data to be processed based on the computing resources corresponding to the data to be processed, and obtaining the fault analysis result corresponding to the internet of things equipment.

It should be noted that, in this embodiment, a corresponding trained fault recognition model is set for each piece of internet of things equipment in advance, and is used to determine whether the corresponding piece of internet of things equipment has a fault according to input data, and output a fault analysis result. Further, the comprehensive processing complexity is a weighted sum of the data size of the to-be-processed data, the data complexity and the model complexity corresponding to each of the to-be-processed data, and weights corresponding to the three may be preset or adjusted according to actual requirements, which is not specifically limited herein. For the data to be processed with higher comprehensive processing complexity, the difficulty in the data analysis, calculation and processing process is higher, so that more calculation resources are allocated to the data to be processed, the waiting time in the data analysis and processing process can be reduced, and the processing efficiency and the control efficiency of the equipment of the internet of things are further improved.

In an application scenario, the fault identification model may further output a control operation suggestion corresponding to the fault analysis result, which is not limited in this respect.

Step S500, outputting the fault analysis result to a target object to trigger the target object to input an operation instruction through an interactive operation, generating a control command corresponding to each piece of internet-of-things equipment according to the operation instruction through the remote control center, and controlling each piece of internet-of-things equipment according to each control command.

In this embodiment, the target object is an operator (or an operating device) that needs to remotely control the internet of things device. The interactive operation may include operations such as touch clicking, key clicking, text inputting, and the like, and the user may input a corresponding operation instruction according to an actual requirement, and a specific interactive operation manner is not specifically limited herein. Specifically, in this embodiment, the micro service architecture based on Docker implements power element and service management services and platform resource management services, and has service management and configuration functions. Meanwhile, based on a WEB visualization technology, the interactive functions of monitoring, management, analysis, diagnosis, early warning, configuration, scheduling and control of the power Internet of things system are provided.

Specifically, the fault analysis result is output to the target object based on a WEB visualization technology to trigger the target object to input an operation instruction to the remote control center according to the fault analysis result, so that a corresponding control command is generated by the remote control center and sent to each piece of internet of things equipment.

In an application scenario, an operation instruction input by a target object is directly used as a corresponding control command through a remote control center. In another application scenario, a remote control center is combined with an operation instruction input by a target object and a fault analysis result corresponding to the internet of things equipment to generate a corresponding control command.

In this embodiment, additionally set up a control command communication channel for thing networking equipment and remote control center, control command communication channel and text communication channel, image communication channel and audio communication channel are independent each other, so, when thing networking equipment transmits data to the remote control center, can not influence the remote control center and to thing networking equipment transmission control command, are favorable to improving control efficiency and real-time.

In an application scenario, after all the control commands are obtained, the distances between the internet of things equipment and the remote control center are obtained, the control commands are sorted according to the distances, and the control commands with the long distances are arranged in front. And setting a uniform execution time for each control command, wherein the execution time can be determined according to the time required for completely transmitting and completing the control command obtained by calculation, so as to ensure that all the internet of things devices execute the corresponding control command at the same time, namely, ensure that all the internet of things devices are synchronously controlled, and further maintain the stability of the electric power internet of things system.

Meanwhile, in the embodiment, the CPS system and the power Internet of things system are combined to perform synchronous analysis and calculation on a large amount of multi-source and multi-type data, so that the reasonable configuration of system resources and the efficient optimization of system performance are improved.

As can be seen from the above, in the scheme of the present invention, instead of directly packaging data corresponding to the same internet of things device into one data packet and performing data transmission by using the data packet as a unit, all data to be transmitted corresponding to the internet of things device in the power internet of things are grouped according to data types, the data of text types are divided into the same group (i.e., text data to be transmitted), the data of image types are divided into the same group (i.e., image data to be transmitted), and the data of audio types are divided into the same group (i.e., audio data to be transmitted). And three different communication channels (including a text communication channel, an image communication channel and an audio communication channel) are specially established between the remote control center and used for transmitting corresponding data of various types, so that the characteristics of the communication channels can be fully utilized to realize the rapid processing and rapid transmission of the data of the corresponding types, the data transmission efficiency can be improved, and the control efficiency of the Internet of things equipment can be improved.

Exemplary device

As shown in fig. 2, an embodiment of the present invention further provides an internet of things device remote control system corresponding to the internet of things device remote control method, where the internet of things device remote control system includes:

the data acquisition module 610 is configured to acquire to-be-transmitted data corresponding to each internet of things device in an electric power internet of things, respectively, where the to-be-transmitted data includes current state information, historical state information, and standard parameter information corresponding to the internet of things device, the current state information includes at least one of current state text information, current state image information, and current state audio information, the historical state information includes at least one of historical state text information, historical state image information, and historical state audio information, and the standard parameter information includes at least one of standard parameter text information, standard parameter image information, and standard parameter audio information;

the data grouping module 620 is configured to group data sets to be transmitted to obtain a group of text data to be transmitted, a group of image data to be transmitted, and a group of audio data to be transmitted, where the text data to be transmitted includes all current state text information, historical state text information, and standard parameter text information in the data sets to be transmitted, the image data to be transmitted includes all current state image information, historical state image information, and standard parameter image information in the data sets to be transmitted, the audio data to be transmitted includes all current state audio information, historical state audio information, and standard parameter audio information in the data sets to be transmitted, and the data sets to be transmitted are sets formed by data to be transmitted corresponding to all internet of things devices in the power internet of things;

a data transmission module 630, configured to transmit the text data to be transmitted, the image data to be transmitted, and the audio data to be transmitted to a remote control center through a text communication channel, an image communication channel, and an audio communication channel, respectively, and perform data division and combination on the received text data to be transmitted, the received image data to be transmitted, and the received audio data to be transmitted through the remote control center to obtain multiple pieces of data to be processed, where one piece of the data to be processed includes current state information, historical state information, and standard parameter information corresponding to one piece of internet-of-things equipment;

the data analysis module 640 is configured to allocate a computing resource to each piece of to-be-processed data according to the data amount and the data complexity of each piece of to-be-processed data, and obtain a fault analysis result corresponding to each piece of internet-of-things equipment according to each piece of to-be-processed data based on the computing resource corresponding to each piece of to-be-processed data;

and the remote control module 650 is configured to output the fault analysis result to a target object, so as to trigger the target object to input an operation instruction through an interactive operation, generate, by the remote control center, a control command corresponding to each piece of internet-of-things equipment according to the operation instruction, and control each piece of internet-of-things equipment according to each control command.

Specifically, in this embodiment, the specific functions of the internet of things device remote control system and the modules thereof may refer to the corresponding descriptions in the internet of things device remote control method, which are not described herein again.

It should be noted that, the dividing manner of each module of the internet of things device remote control system is not unique, and is not specifically limited herein.

Based on the above embodiment, the present invention further provides an intelligent terminal, and a schematic block diagram thereof may be as shown in fig. 3. The intelligent terminal comprises a processor and a memory. The memory of the intelligent terminal comprises an Internet of things equipment remote control program, and the memory provides an environment for the operation of the Internet of things equipment remote control program. When being executed by the processor, the remote control program of the equipment of the Internet of things realizes the steps of any one of the remote control methods of the equipment of the Internet of things. It should be noted that the above-mentioned intelligent terminal may further include other functional modules or units, which are not specifically limited herein.

It will be understood by those skilled in the art that the block diagram shown in fig. 3 is only a block diagram of a part of the structure related to the solution of the present invention, and does not constitute a limitation of the intelligent terminal to which the solution of the present invention is applied, and in particular, the intelligent terminal may include more or less components than those shown in the figure, or combine some components, or have a different arrangement of components.

The embodiment of the invention also provides a computer-readable storage medium, wherein the computer-readable storage medium is stored with an internet of things device remote control program, and the steps of any internet of things device remote control method provided by the embodiment of the invention are realized when the internet of things device remote control program is executed by a processor.

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 should be clear to those skilled in the art that, for convenience and simplicity of description, the foregoing division of the functional units and modules is only used for illustration, and in practical applications, the above 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 described 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 technical solution. 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 may be implemented in other ways. For example, the above-described system/intelligent terminal embodiments are merely illustrative, and for example, the division of the modules or units is only one logical function division, and may be implemented by another division manner in practice, for example, multiple 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 in 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 when the computer program is executed by a processor, the steps of the method embodiments described above may be implemented. 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 (10)

1. A remote control method for equipment of the Internet of things is characterized by comprising the following steps:

respectively acquiring data to be transmitted corresponding to each piece of internet of things equipment in an electric power internet of things, wherein the data to be transmitted comprises current state information, historical state information and standard parameter information corresponding to the internet of things equipment, the current state information comprises at least one of current state text information, current state image information and current state audio information, the historical state information comprises at least one of historical state text information, historical state image information and historical state audio information, and the standard parameter information comprises at least one of standard parameter text information, standard parameter image information and standard parameter audio information;

grouping data sets to be transmitted, and obtaining a group of text data to be transmitted, a group of image data to be transmitted and a group of audio data to be transmitted, wherein the text data to be transmitted comprises all current state text information, historical state text information and standard parameter text information in the data sets to be transmitted, the image data to be transmitted comprises all current state image information, historical state image information and standard parameter image information in the data sets to be transmitted, the audio data to be transmitted comprises all current state audio information, historical state audio information and standard parameter audio information in the data sets to be transmitted, and the data sets to be transmitted are a set formed by the data to be transmitted corresponding to all internet of things equipment in the power internet of things;

transmitting the text data to be transmitted, the image data to be transmitted and the audio data to be transmitted to a remote control center through a text communication channel, an image communication channel and an audio communication channel respectively, and performing data division and combination on the received text data to be transmitted, the image data to be transmitted and the audio data to be transmitted through the remote control center to obtain a plurality of data to be processed, wherein one piece of data to be processed comprises current state information, historical state information and standard parameter information corresponding to the Internet of things equipment;

distributing computing resources to the data to be processed according to the data quantity and the data complexity of the data to be processed, and acquiring fault analysis results corresponding to the Internet of things equipment according to the data to be processed based on the computing resources corresponding to the data to be processed;

and outputting the fault analysis result to a target object to trigger the target object to input an operation instruction through interactive operation, generating a control command corresponding to each piece of Internet of things equipment according to the operation instruction through the remote control center, and controlling each piece of Internet of things equipment according to each control command.

2. The remote control method for the internet of things equipment according to claim 1, wherein the step of respectively acquiring the to-be-transmitted data corresponding to each piece of internet of things equipment in the power internet of things comprises the following steps:

synchronous data acquisition is respectively carried out on each piece of Internet of things equipment to obtain state acquisition information corresponding to each piece of Internet of things equipment;

respectively transmitting state acquisition information corresponding to each piece of Internet of things equipment to a target database corresponding to each piece of Internet of things equipment, processing each piece of state acquisition information according to a preset data processing step in the target database and storing the state acquisition information as current state information corresponding to each piece of Internet of things equipment, wherein the target database corresponding to one piece of Internet of things equipment is one of a plurality of preset databases, the plurality of preset databases comprise a Mysql database, a MongoDB database and an Hbase database, and the preset data processing step comprises data cleaning and data fusion;

extracting and obtaining standard parameter information corresponding to each Internet of things device from each target database respectively;

and according to a preset historical data time length value and the acquisition time corresponding to each piece of current state information, extracting and obtaining the historical state information corresponding to each piece of Internet of things equipment from each target database respectively.

3. The remote control method of the internet of things equipment according to claim 1, wherein the transmitting the text data to be transmitted, the image data to be transmitted and the audio data to be transmitted to a remote control center through a text communication channel, an image communication channel and an audio communication channel respectively comprises:

counting to obtain the data volume of the text data to be transmitted, the data volume of the image data to be transmitted and the data volume of the audio data to be transmitted;

dividing communication resources of a preset text transmission channel, a preset image transmission channel and a preset audio transmission channel according to the data volume of the text data to be transmitted, the data volume of the image data to be transmitted and the data volume of the audio data to be transmitted so as to obtain the divided text communication channel, image communication channel and audio communication channel, wherein the communication resources comprise network bandwidth;

and transmitting the text data to be transmitted to the remote control center through the text communication channel, transmitting the image data to be transmitted to the remote control center through the image communication channel, and transmitting the audio data to be transmitted to the remote control center through the audio communication channel.

4. The remote control method of the internet of things equipment according to claim 3, wherein the transmitting the text data to be transmitted to the remote control center through the text communication channel, transmitting the image data to be transmitted to the remote control center through the image communication channel, and transmitting the audio data to be transmitted to the remote control center through the audio communication channel comprises:

respectively encrypting the text data to be transmitted, the image data to be transmitted and the audio data to be transmitted to obtain encrypted text data to be transmitted, encrypted image data to be transmitted and encrypted audio data to be transmitted, wherein the text data to be transmitted, the image data to be transmitted and the audio data to be transmitted have different corresponding encryption modes;

the encrypted text data to be transmitted is transmitted to the remote control center through the text communication channel, the encrypted image data to be transmitted is transmitted to the remote control center through the image communication channel, and the encrypted audio data to be transmitted is transmitted to the remote control center through the audio communication channel.

5. The remote control method of the internet of things equipment according to claim 1, wherein each piece of information in the data to be transmitted comprises a target equipment number, wherein the target equipment number is the number of the internet of things equipment corresponding to the data to be transmitted, and the numbers corresponding to different pieces of internet of things equipment are different.

6. The remote control method for the internet of things equipment according to claim 5, wherein the step of performing data division and combination on the received text data to be transmitted, the image data to be transmitted and the audio data to be transmitted through the remote control center to obtain a plurality of data to be processed comprises the steps of:

and according to the number of target equipment corresponding to each piece of information in the text data to be transmitted, the image data to be transmitted and the audio data to be transmitted, carrying out data division and combination on the received text data to be transmitted, the image data to be transmitted and the audio data to be transmitted through the remote control center to obtain a plurality of data to be processed, wherein the remote control center is a control module in an information physical system.

7. The method for remotely controlling internet of things equipment according to claim 5, wherein the allocating computing resources to each piece of to-be-processed data according to the data amount and the data complexity of each piece of to-be-processed data, and acquiring the fault analysis result corresponding to each piece of internet of things equipment according to each piece of to-be-processed data based on the computing resources corresponding to each piece of to-be-processed data comprises:

acquiring a fault identification model corresponding to each piece of data to be processed according to a target device number in each piece of data to be processed, and acquiring the model complexity of each fault identification model;

calculating and acquiring comprehensive processing complexity corresponding to each piece of data to be processed according to the data quantity and the data complexity of each piece of data to be processed and the model complexity corresponding to each piece of data to be processed;

distributing computing resources to the to-be-processed data according to the comprehensive processing complexity corresponding to the to-be-processed data, wherein more computing resources correspond to the to-be-processed data with higher comprehensive processing complexity;

and respectively processing the data to be processed through a fault identification model corresponding to the data to be processed based on the computing resources corresponding to the data to be processed, and obtaining a fault analysis result corresponding to the equipment of the Internet of things.

8. An internet of things device remote control system, the system comprising:

the data acquisition module is used for respectively acquiring data to be transmitted corresponding to each Internet of things device in the power Internet of things, wherein the data to be transmitted comprises current state information, historical state information and standard parameter information corresponding to the Internet of things devices, the current state information comprises at least one of current state text information, current state image information and current state audio information, the historical state information comprises at least one of historical state text information, historical state image information and historical state audio information, and the standard parameter information comprises at least one of standard parameter text information, standard parameter image information and standard parameter audio information;

the data grouping module is used for grouping a data set to be transmitted to obtain a group of text data to be transmitted, a group of image data to be transmitted and a group of audio data to be transmitted, wherein the text data to be transmitted comprises all current state text information, historical state text information and standard parameter text information in the data set to be transmitted, the image data to be transmitted comprises all current state image information, historical state image information and standard parameter image information in the data set to be transmitted, the audio data to be transmitted comprises all current state audio information, historical state audio information and standard parameter audio information in the data set to be transmitted, and the data set to be transmitted is a set formed by the data to be transmitted corresponding to all internet of things equipment in the power internet of things;

the data transmission module is used for transmitting the text data to be transmitted, the image data to be transmitted and the audio data to be transmitted to a remote control center through a text communication channel, an image communication channel and an audio communication channel respectively, and performing data division and combination on the received text data to be transmitted, the image data to be transmitted and the audio data to be transmitted through the remote control center to obtain a plurality of data to be processed, wherein one piece of data to be processed comprises current state information, historical state information and standard parameter information corresponding to the equipment of the internet of things;

the data analysis module is used for distributing computing resources to the data to be processed according to the data quantity and the data complexity of the data to be processed, and acquiring fault analysis results corresponding to the Internet of things equipment according to the data to be processed based on the computing resources corresponding to the data to be processed;

and the remote control module is used for outputting the fault analysis result to a target object so as to trigger the target object to input an operation instruction through interactive operation, generating a control command corresponding to each piece of Internet of things equipment through the remote control center according to the operation instruction, and controlling each piece of Internet of things equipment according to each control command.

9. An intelligent terminal, comprising a memory, a processor and an internet of things device remote control program stored on the memory and executable on the processor, wherein the internet of things device remote control program, when executed by the processor, implements the steps of the internet of things device remote control method according to any one of claims 1 to 7.

10. A computer-readable storage medium, wherein the computer-readable storage medium has stored thereon a device remote control program for internet of things, which when executed by a processor, implements the steps of the method for remote control of a device for internet of things according to any one of claims 1 to 7.

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