CN111835584A

CN111835584A - Inspection method and device for products of Internet of things, computer equipment and storage medium

Info

Publication number: CN111835584A
Application number: CN202010566916.9A
Authority: CN
Inventors: 葛长斌; 陈琪; 傅东生; 李鹏; 马量; 彭宏飞; 陈斌
Original assignee: Miracle Intelligent Network Co ltd
Current assignee: Miracle Intelligent Network Co ltd
Priority date: 2020-06-19
Filing date: 2020-06-19
Publication date: 2020-10-27

Abstract

The application relates to a method and a device for polling products of the Internet of things, computer equipment and a storage medium. The method comprises the following steps: acquiring a polling task of an Internet of things product, wherein the polling task carries a product type; acquiring routing inspection information corresponding to the product type; issuing an instruction to corresponding inspection equipment according to the inspection information so that the inspection equipment executes corresponding action according to the inspection information; acquiring operation data reported by the inspection equipment; comparing the operation data with preset inspection configuration data to obtain an inspection result corresponding to the inspection equipment; and screening abnormal information in the inspection result, and triggering and generating alarm information according to the abnormal information. By adopting the method, automatic product inspection can be realized, the complex flow of manual operation and the consumption of a large amount of time are avoided, the inspection flow of the product of the Internet of things is greatly simplified, and the inspection efficiency of the product of the Internet of things is effectively improved.

Description

Inspection method and device for products of Internet of things, computer equipment and storage medium

Technical Field

The application relates to the technical field of computers, in particular to a method and a device for polling products of the Internet of things, computer equipment and a storage medium.

Background

With the development of computer technology and the coming of the 5G era, the appearance of the Internet of things brings great convenience to modern life, and more enterprises can intelligently sense, identify and manage various Internet of things products and use processes on line by using an Internet of things platform. Because the internet of things industry products are various in types and protocols, when the internet of things products of different enterprises need to be patrolled, managers are generally required to manually input related parameters for configuration, for example, when a certain specific internet of things product is patrolled, fixed code information needs to be configured for the patrolling content of the specific internet of things product, so that the managers can patrol the patrolling content corresponding to the internet of things product by manually inputting corresponding configuration parameters.

Meanwhile, in the field of the traditional internet of things, after all internet of things products are connected to the network, data are gathered to the central end for processing, an administrator needs to configure inspection information corresponding to manual input of different internet of things products, a large amount of manpower and energy are needed to arrange configuration, especially, the configuration process of the internet of things products related to different types is complicated, input errors are easily caused by the manual input mode, configuration operation needs to be repeated, and inspection efficiency of the internet of things products is easily low.

Disclosure of Invention

Therefore, it is necessary to provide a method, an apparatus, a computer device, and a storage medium for inspecting an internet of things product, which can improve the inspection efficiency of the internet of things product.

A method for inspecting products of the Internet of things comprises the following steps:

acquiring a polling task of an Internet of things product, wherein the polling task carries a product type;

acquiring routing inspection information corresponding to the product type;

issuing an instruction to corresponding inspection equipment according to the inspection information so that the inspection equipment executes corresponding action according to the inspection information;

acquiring operation data reported by the inspection equipment;

comparing the operation data with preset inspection configuration data to obtain an inspection result corresponding to the inspection equipment;

and screening abnormal information in the inspection result, and triggering and generating alarm information according to the abnormal information.

In one embodiment, after issuing an instruction to the inspection device according to the inspection information so that the inspection device performs a corresponding action according to the inspection information, the method further includes:

creating a corresponding message according to the issuing instruction and sending the message to a message queue;

and receiving the operation data reported by the plurality of inspection equipment in the inspection task by using a message queue, and acquiring at least one operation data corresponding to the inspection equipment from the message queue.

In one embodiment, the method further comprises:

inquiring whether the operating data reported by the inspection equipment exist in a message queue;

if the running data exists, the running data is verified, and a routing inspection result corresponding to the routing inspection equipment is generated;

otherwise, generating corresponding work order information according to the inspection item information corresponding to the inspection equipment, and issuing the work order information to inspection personnel for manual inspection.

In one embodiment, the method further comprises:

the inspection information comprises product dynamic attribute inspection and product service inspection;

when the inspection information is read to be the product dynamic attribute inspection, acquiring an attribute judgment condition corresponding to the product dynamic attribute inspection;

and judging whether the operation data reported by the inspection equipment is abnormal or not according to the attribute judgment condition.

In one embodiment, the method further comprises:

when the inspection information is read to be product service inspection, acquiring a preset input parameter corresponding to the product service inspection;

issuing an instruction to corresponding inspection equipment according to the preset input parameters so that the inspection equipment executes corresponding actions according to the preset input parameters;

and acquiring output parameters reported by the inspection equipment, and judging whether the inspection equipment is abnormal or not according to the output parameters.

In one embodiment, after the polling task of the product of the internet of things is obtained, the method further includes:

when the polling time corresponding to the polling task is inquired to be less than the current system time, executing the polling task according to the preset polling time to obtain a corresponding polling result;

and calculating the execution time of the next period according to the inspection result, and creating an inspection task corresponding to the next period according to the execution time.

In one embodiment, the method further comprises:

and when an inspection task corresponding to the next period is created, inquiring similar product information of the inspection product, and performing association setting by using the inspection information corresponding to the similar product.

An inspection device for products of the internet of things, the device comprising:

the system comprises an acquisition module, a processing module and a processing module, wherein the acquisition module is used for acquiring an inspection task of the product of the Internet of things, and the inspection task carries the product type; acquiring routing inspection information corresponding to the product type; acquiring operation data reported by the inspection equipment;

the execution module is used for issuing an instruction to the corresponding inspection equipment according to the inspection information so that the inspection equipment executes corresponding action according to the inspection information;

the comparison module is used for comparing the operation data with preset inspection configuration data to obtain an inspection result corresponding to the inspection equipment;

and the screening module is used for screening the abnormal information in the inspection result and triggering and generating alarm information according to the abnormal information.

A computer device comprising a memory and a processor, the memory storing a computer program, the processor implementing the following steps when executing the computer program:

acquiring routing inspection information corresponding to the product type;

acquiring operation data reported by the inspection equipment;

A computer-readable storage medium, on which a computer program is stored which, when executed by a processor, carries out the steps of:

acquiring routing inspection information corresponding to the product type;

acquiring operation data reported by the inspection equipment;

According to the method and device for polling the products of the Internet of things, the computer equipment and the storage medium, the polling tasks of the products of the Internet of things are obtained, and the polling tasks carry the product types. Compared with the inspection mode in the field of the traditional Internet of things, the inspection device acquires the inspection information corresponding to the product type, and sends an instruction to the corresponding inspection device according to the inspection information, so that the inspection device executes corresponding actions according to the inspection information. The method comprises the steps of obtaining operation data reported by the inspection equipment, comparing the operation data with preset inspection configuration data to obtain an inspection result corresponding to the inspection equipment, screening abnormal information in the inspection result, and triggering and generating alarm information according to the abnormal information. Therefore, when a user needs to patrol and examine different types of products of the internet of things, the user only needs to log in the internet of things platform, a corresponding patrol and examine task is created through triggering operation, the internet of things platform obtains corresponding patrol and examine information according to the types of products carried in the patrol and examine task, and sends an instruction to corresponding patrol and examine equipment according to the patrol and examine information, so that the patrol and examine equipment executes corresponding action according to the patrol and examine information. The method comprises the steps of simultaneously obtaining operation data reported when inspection equipment executes corresponding actions, comparing the operation data with preset inspection configuration data to obtain inspection results corresponding to the inspection equipment, obtaining abnormal information in the inspection results through intelligent screening and analysis, and triggering and generating alarm information according to the abnormal information, so that automatic product inspection and automatic abnormal handling can be realized, the problem that targeted product inspection cannot be provided in a traditional mode is solved, meanwhile, the complicated manual operation flow and the time consumption in the traditional Internet of things field are avoided, the inspection flow of the Internet of things products is greatly simplified, and the efficiency of the Internet of things inspection of the products is effectively improved.

Drawings

Fig. 1 is an application environment diagram of a polling method of an internet of things product in one embodiment;

fig. 2 is a schematic flow chart of a method for polling products of the internet of things in one embodiment;

fig. 3 is a schematic flow chart illustrating a step of querying whether there is operation data reported by the inspection device in one embodiment;

FIG. 4 is a flowchart illustrating steps performed when inspection information is read for inspection of dynamic attributes of a product according to an embodiment;

FIG. 5 is a flowchart illustrating steps in one embodiment when reading inspection information for a product service inspection;

fig. 6 is a block diagram of the inspection device of the product of the internet of things in one embodiment;

FIG. 7 is a diagram illustrating an internal structure of a computer device according to an embodiment.

Detailed Description

In order to make the objects, technical solutions and advantages of the present application more apparent, the present application is described in further detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the present application and are not intended to limit the present application.

The inspection method for the products of the Internet of things can be applied to the application environment shown in the figure 1. Wherein the terminal 102 communicates with the server 104 via a network. When the user terminal 102 logs in the internet of things platform, the user terminal 102 can create a corresponding inspection task of the internet of things product through triggering operation. The server 104 obtains an inspection task of the internet of things product created by the user terminal 102, wherein the inspection task carries the product type. The server 104 acquires the inspection information corresponding to the product type, and the server 104 issues an instruction to the corresponding inspection equipment according to the inspection information, so that the inspection equipment executes corresponding actions according to the inspection information. The server obtains the operation data reported by the inspection equipment, and compares the operation data with preset inspection configuration data to obtain an inspection result corresponding to the inspection equipment. The server 104 filters abnormal information in the inspection result, and the server 104 triggers and generates alarm information according to the abnormal information. The terminal 102 may be, but not limited to, various personal computers, notebook computers, smart phones, tablet computers, and portable wearable devices, and the server 104 may be implemented by an independent server or a server cluster formed by a plurality of servers.

In an embodiment, as shown in fig. 2, a method for polling products of the internet of things is provided, which is described by taking the method as an example applied to the server in fig. 1, and includes the following steps:

step 202, a polling task of the product of the internet of things is obtained, and the product type is carried in the polling task.

The terminal may communicate with the server over a network and remain online over a network communication connection. For example, different types of terminal devices may be transmitted using the operator-stable network after connecting to the wireless network or the local area network. The user can use different types of terminal equipment to log in the Internet of things platform, and when different users log in the Internet of things platform, the user can log in the corresponding Internet of things application interface through triggering operation, and Internet of things products and Internet of things equipment in the Internet of things application interface are managed. The internet of things is an information bearing body such as the internet and a traditional telecommunication network, and all common objects capable of performing independent functions are enabled to realize an interconnected network. The Internet of things platform can provide real-time panoramic monitoring for all Internet of things products on the platform, including panoramic monitoring of equipment temperature, humidity, on-off state and the like, and can also perform issuing operation of application for a certain classification, grouping or single equipment in batches, and enterprise tenants can perform intelligent sensing, identification and management on various Internet of things products and using processes on line by using the Internet of things platform. Different enterprise tenants can perform real-time statistical analysis on the monitoring conditions of the Internet of things products under different scenes through the Internet of things platform, visually display analysis results and intuitively and comprehensively control the operation conditions of all the accessed products on the platform. For example, enterprise tenants of different types can log in a main page of the intelligent internet of things platform in an account password mode, the tenants can display information of products of the internet of things through established applications of the internet of things, and the tenants can check the running state of any currently accessed products of the internet of things. The Internet of things product refers to an Internet of things product model, namely a universal model abstracted according to the same type of Internet of things equipment, and the Internet of things equipment is equivalent to a specific example of each product model. For example, the internet of things product model is a camera, and the server can query that the corresponding internet of things device is the camera 01 or the camera 02 in the internet of things product. Namely, the camera 01 and the camera 02 are specific examples under the product model. The types of devices in different internet of things products may include direct connection devices, gateway devices, and gateway sub-devices. Different tenants can create the Internet of things custom application corresponding to various scenes according to different business requirements of enterprises, and the Internet of things custom application can comprise scenic spot Internet of things application, station monitoring Internet of things application and the like. Specifically, the server can simultaneously acquire polling tasks of internet of things products created by a plurality of different users, wherein the polling tasks carry product types. Wherein, the task of patrolling and examining can include product information of patrolling and examining, patrol and examine time information, patrol and examine personnel's information and patrol and examine rule etc.. The polling task can also comprise dynamic attribute information of the product to be polled, service information of the product to be polled, corresponding polling rule information and the like. For example, an administrator can newly add an inspection task of an internet of things product by logging in an intelligent inspection interface, and the newly added inspection task can include an inspection period and corresponding inspection equipment information. The product types carried in the inspection product information can be divided according to the functions of different Internet of things devices, for example, the product types can comprise cameras, display screens, refrigeration equipment and the like. For example, when an administrator of an enterprise tenant logs in a home page of the internet of things platform, the administrator of the enterprise tenant can log in an application of a specific scene based on the internet of things platform, and the patrol information of the internet of things product is configured in the application interface. The administrator can create the corresponding inspection task of the internet of things by triggering operation, for example, clicking a button for creating the inspection task.

And step 204, acquiring the inspection information corresponding to the product type.

After the server acquires the polling task of the product of the Internet of things, the server acquires polling information corresponding to the type of the product carried in the polling task. The inspection information can comprise inspection equipment, dynamic attributes of products to be inspected, services of the products to be inspected, inspection rules, abnormal handling information and the like. For example, the server acquires that the type of a product carried in the inspection task is a camera, then the server acquires inspection information corresponding to the product camera, the corresponding inspection equipment is obtained to designate the inspection equipment camera 01, the inspection item content to be inspected is a product service for rotating the camera, and the corresponding inspection rule is that the camera rotates by 25 degrees as an input parameter. In addition, the server can automatically generate corresponding inspection rules according to the inspection information corresponding to the product types. The server can also set corresponding inspection rules according to the inspection information and the inspection product information selected by the administrator and recorded in the database.

And step 206, issuing an instruction to the corresponding inspection equipment according to the inspection information so that the inspection equipment executes corresponding action according to the inspection information.

After the server acquires the inspection information corresponding to the product type carried in the inspection task, the server sends an instruction to the corresponding inspection equipment according to the inspection information so that the inspection equipment executes corresponding action according to the inspection information. Specifically, the server can read the inspection mode in the inspection information, and the inspection mode can include inspecting all the equipment in the product model, inspecting part of the equipment in the product model, or inspecting appointed equipment in the product model. The server can also read the polling time in the polling information, such as a fixed period or a non-fixed period. And the server patrols the product service or the dynamic attribute of the product according to the polling time trigger in the polling information. Meanwhile, the server can also generate a routing inspection rule corresponding to the product model according to historical product routing inspection data recorded in the database, the server automatically selects corresponding routing inspection equipment according to the routing inspection rule, and the server sends an instruction to the corresponding routing inspection equipment according to the routing inspection information so that the routing inspection equipment executes corresponding actions according to the routing inspection information.

And step 208, acquiring the operation data reported by the inspection equipment.

And the server sends an instruction to the corresponding inspection equipment according to the inspection information so that the server acquires the operation data reported by the inspection equipment after the inspection equipment executes corresponding actions according to the inspection information. Wherein, the patrol inspection information can comprise patrol inspection item information, patrol inspection product types, patrol inspection task states and the like. Specifically, the server may read the polling configuration information in the polling information, where the polling configuration information may include information such as a polling mode, polling content, and polling rules. Furthermore, the server sends an instruction to corresponding inspection equipment under the product according to the inspection configuration information. The server can keep a long connection state with a plurality of different types of internet of things devices by utilizing a message queue, and data transmission is carried out in a mode of subscribing and publishing messages. The server can obtain the operation data reported by the inspection equipment according to the issued instruction from the message queue. The operation data of the inspection equipment can comprise the service time of the equipment, the online state of the equipment, the output data returned by the equipment and the like. In addition, the user can wash and filter the current device data acquired through the device access layer by clicking the data washing button in the device management interface, because sometimes the device generates some data (namely dirty data) which do not conform to normal rules, which may be caused by the device itself, the purpose of washing the data is to filter out the dirty data quickly and provide accurate and effective device operation data.

And step 210, comparing the operation data with preset inspection configuration data to obtain an inspection result corresponding to the inspection equipment.

And after the server acquires the operation data reported by the inspection equipment, the server compares the operation data with preset inspection configuration data to obtain an inspection result corresponding to the inspection equipment. The server can set a parameter range of normal operation of the product in advance according to different product models, namely that the operation data or output data of the equipment is in the preset parameter range, the equipment is indicated to be operated normally, otherwise, the equipment is indicated to be operated abnormally. The abnormal data is data that does not conform to the preset device data check rule, and the abnormal data may include device attribute abnormal data and device service state abnormal data. And the server compares the operation data reported by the inspection equipment with preset inspection configuration data, and when the operation data reported by the inspection equipment is within the range of the preset inspection configuration data, the server indicates that the inspection equipment is normally operated, and generates corresponding inspection normal report information. When the operation data reported by the inspection equipment is not in the preset inspection configuration data range, the server marks the operation data corresponding to the inspection equipment as abnormal data and generates corresponding inspection abnormal report information.

And step 212, screening abnormal information in the inspection result, and triggering and generating alarm information according to the abnormal information.

And the server compares the operating data with preset inspection configuration data to obtain an inspection result corresponding to the inspection equipment, screens abnormal information in the inspection result and generates alarm information according to the triggering of the abnormal information. Specifically, in the tenant device creation phase, the server sets a corresponding device data check rule according to the attribute information of the created device and the normal value range information of the attribute of the created device. After the system finishes each inspection task, the server calls the calculation module to count the information of the abnormal sending times of the attributes of the inspection equipment, and the abnormal information and the corresponding equipment are set in an associated mode. When the next cycle of polling device configuration is performed, the server may poll the polling device using the abnormal information or polling information associated with the polling device as the key polling item information. The server can extract the corresponding preset inspection configuration template according to the abnormal information of the inspection equipment, for example, after the inspection task is completed each time, the server can extract the corresponding preset inspection configuration template by counting the number of times of abnormal transmission of the attributes of the inspection equipment. The server can screen abnormal data from the operation data reported by the inspection equipment, and the server can match the abnormal data with historical data in a preset inspection configuration template by using a pre-trained classification recognition model to obtain an inspection result corresponding to the inspection equipment. The inspection result can be displayed by the inspection result corresponding to each inspection device in a list form. Furthermore, the server screens abnormal information in the inspection results and generates corresponding alarm information according to the abnormal information, so that an administrator can select corresponding execution operation according to the inspection result corresponding to each inspection device, for example, the administrator can start a manual inspection task according to the alarm information and assign a professional inspection worker to inspect the fault problem of the equipment corresponding to the abnormal information. The product service inspection rule also comprises an exception handling rule, namely, an administrator can select an exception handling mode during configuration, so that a corresponding product service inspection rule is generated. When the inspection report shows abnormality, the server may be triggered to generate warning information, a work order, or notification information indicating manual treatment. In addition, the server can also generate a corresponding manual inspection rule according to inspection information and inspection equipment information selected by an administrator and recorded in the database. When the user starts the intelligent inspection task next time, and when the triggering condition of the inspection task is met, the server can automatically generate corresponding work order data according to the pre-generated manual inspection rule and distribute the work order data to the corresponding inspection personnel.

In this embodiment, through the task of patrolling and examining of obtaining thing networking product, carry the product type in the task of patrolling and examining. Compared with the inspection mode in the field of the traditional Internet of things, the inspection device acquires the inspection information corresponding to the product type, and sends an instruction to the corresponding inspection device according to the inspection information, so that the inspection device executes corresponding actions according to the inspection information. The method comprises the steps of obtaining operation data reported by the inspection equipment, comparing the operation data with preset inspection configuration data to obtain an inspection result corresponding to the inspection equipment, screening abnormal information in the inspection result, and triggering and generating alarm information according to the abnormal information. Therefore, when a user needs to patrol and examine different types of products of the internet of things, the user only needs to log in the internet of things platform, a corresponding patrol and examine task is created through triggering operation, the internet of things platform obtains corresponding patrol and examine information according to the types of products carried in the patrol and examine task, and sends an instruction to corresponding patrol and examine equipment according to the patrol and examine information, so that the patrol and examine equipment executes corresponding action according to the patrol and examine information. The method comprises the steps of simultaneously obtaining operation data reported when inspection equipment executes corresponding actions, comparing the operation data with preset inspection configuration data to obtain inspection results corresponding to the inspection equipment, obtaining abnormal information in the inspection results through intelligent screening and analysis, and triggering and generating alarm information according to the abnormal information, so that automatic product inspection and automatic abnormal handling can be realized, the problem that targeted product inspection cannot be provided in a traditional mode is solved, meanwhile, the complicated manual operation flow and the time consumption in the traditional Internet of things field are avoided, the inspection flow of the Internet of things products is greatly simplified, and the efficiency of the Internet of things inspection of the products is effectively improved.

In one embodiment, after issuing an instruction to the corresponding inspection device according to the inspection information so that the inspection device executes a corresponding action according to the inspection information, the method further includes:

and creating a corresponding message according to the issued instruction and sending the message to a message queue.

And receiving the operation data reported by the plurality of inspection equipment in the inspection task by using the message queue, and acquiring at least one operation data corresponding to the inspection equipment from the message queue.

When the server issues an instruction to the corresponding inspection equipment according to the inspection information so that the inspection equipment executes corresponding action according to the inspection information, the server creates a corresponding message according to the issued instruction and sends the message to a message queue, the server receives the operation data reported by the inspection equipment in the inspection task by using the message queue, and at least one operation data corresponding to the inspection equipment is obtained from the message queue. Specifically, the server can maintain a long connection state with a plurality of different types of internet of things products by using message queues, and perform data transmission through a mode of subscribing and publishing messages. The message queue is deployed on an Internet of things platform and mainly provides receiving and sending of messages, and when a large amount of task information is faced, the message queue can carry out peak clipping and valley leveling on the messages. The server can create corresponding messages according to the issued commands and send the messages to the message queue, different inspection equipment obtains the corresponding command messages from the message queue, and the inspection equipment reports the running data of the current equipment to the message queue according to the obtained command messages. The server obtains at least one piece of operation data corresponding to the current inspection equipment from the message queue. The server can also obtain the operation data of a plurality of current inspection devices at the same time. Therefore, all equipment modules of the Internet of things platform are mutually interacted in an information form, data are automatically analyzed, the operation is independent, the decoupling is high, a plurality of concurrent tasks of the inspection equipment can be simultaneously executed, the complex flow of manual configuration operation is avoided, and the inspection efficiency of the Internet of things product is effectively improved.

In one embodiment, as shown in fig. 3, the method further includes a step of querying whether there is operation data reported by the inspection device, and specifically includes:

step 302, inquiring whether the running data reported by the inspection equipment exists in the message queue.

And 304, if the operation data exists, verifying the operation data to generate a routing inspection result corresponding to the routing inspection equipment.

And 306, otherwise, generating corresponding work order information according to the inspection item information corresponding to the inspection equipment, and issuing the work order information to the inspection personnel for manual inspection.

And when the server issues an instruction to the corresponding inspection equipment according to the inspection information so that the inspection equipment executes corresponding action according to the inspection information, the server creates a corresponding message according to the issued instruction and sends the message to the message queue, and the message queue is used for receiving the operation data reported by the inspection equipment according to the issued instruction. And the server inquires whether the operation data reported by the inspection equipment exists or not from the message queue, and if so, the server verifies the operation data to generate an inspection result corresponding to the inspection equipment. Otherwise, the server generates corresponding work order information according to the inspection item information corresponding to the inspection equipment, and sends the work order information to the inspection personnel for manual inspection. The operation data of the inspection equipment can comprise the service time of the equipment, the online state of the equipment, the output parameters of the inspection equipment and the like. When the server inquires the running data reported by the current inspection equipment from the message queue, the server can verify the obtained running data according to the inspection rule in the inspection information to generate an inspection result corresponding to the inspection equipment. For example, after the server acquires the running data reported by the current inspection equipment according to the issued instruction from the message queue, the server screens abnormal data in the running data, and compares the running data with preset inspection configuration data to obtain an inspection result corresponding to the inspection equipment. When the user starts the intelligent patrol task next time and meets the triggering condition of the patrol task, the server can automatically carry out intelligent patrol according to the preset patrol rule without starting manual patrol. When the server does not inquire the operation data reported by the current inspection equipment from the message queue, the server indicates that the inspection equipment is disconnected with the server and needs to carry out manual inspection to troubleshoot the fault, the server generates corresponding work order information according to the inspection item information corresponding to the inspection equipment and sends the work order information to the inspection personnel for manual inspection. Therefore, the Internet of things platform can provide professional routing inspection with pertinence according to different conditions of the Internet of things products, so that the pain points of the routing inspection products can be aimed at during routing inspection, and the accuracy of routing inspection of the Internet of things products is effectively improved.

In an embodiment, as shown in fig. 4, the method further includes a step of reading the inspection information as the dynamic attribute inspection of the product, specifically including:

step 402, the inspection information comprises a product dynamic attribute inspection and a product service inspection.

And 404, when the read inspection information is the product dynamic attribute inspection, acquiring an attribute judgment condition corresponding to the product dynamic attribute inspection.

And step 406, judging whether the operation data reported by the inspection equipment is abnormal according to the attribute judgment condition.

After the server acquires the polling task of the product of the Internet of things, the server acquires polling information corresponding to the type of the product carried in the polling task. The inspection information may include product dynamic attribute inspection and product service inspection. When the server reads the inspection information and inspects the dynamic attribute of the product, the server acquires an attribute judgment condition corresponding to the dynamic attribute inspection of the product, and the server judges whether the operation data reported by the inspection equipment is abnormal or not according to the attribute judgment condition. The product dynamic attributes may include functional attributes corresponding to the product and an online status. For example, the server acquires that the type of a product carried in the polling task is a camera, that is, the product model is a camera, when the server reads polling information and polls for the dynamic attribute of the product, for example, the dynamic attribute polling corresponding to the product model is preset as the number of people, that is, the number of people recognized by the current camera is polled, the server acquires an attribute judgment condition corresponding to the dynamic attribute of the camera, that is, the parameter range of people recognized by the camera is preset, and the server polls all camera devices configured under the application, that is, the dynamic attribute of the product of the number of people recognized by the camera, according to the attribute judgment condition, so as to analyze the camera which cannot normally recognize the face. The Internet of things platform can acquire the output parameters reported by the camera equipment, namely the feedback information of the current number of people recognized reported by the camera equipment, so that the camera equipment which cannot normally recognize the human face is automatically analyzed. Therefore, the dynamic attribute corresponding to the automatic inspection product model can be realized, manual configuration is not needed, the inspection flow of the product of the Internet of things is greatly simplified, and the inspection efficiency of the product of the Internet of things is effectively improved.

In one embodiment, as shown in fig. 5, the method further includes a step of reading inspection information to inspect the product service, specifically including:

and 502, when the inspection information is read as the product service inspection, acquiring a preset input parameter corresponding to the product service inspection.

And 504, issuing an instruction to the corresponding inspection equipment according to the preset input parameters so that the inspection equipment executes corresponding actions according to the preset input parameters.

And step 506, acquiring output parameters reported by the inspection equipment, and judging whether the inspection equipment is abnormal or not according to the output parameters.

After the server acquires the polling task of the product of the Internet of things, the server acquires polling information corresponding to the type of the product carried in the polling task. The inspection information may include product dynamic attribute inspection and product service inspection. And when the server reads the inspection information to inspect the product service, the server acquires the preset input parameters corresponding to the inspection of the product service. The server sends an instruction to the corresponding inspection equipment according to the preset input parameters, so that the inspection equipment executes corresponding actions according to the preset input parameters. Further, the server obtains output parameters reported by the inspection equipment, and judges whether the inspection equipment is abnormal or not according to the output parameters. For example, the server obtains that the product type carried in the task of patrolling and examining is the camera, and the product model is the camera promptly, and when the server reads to patrol and examine information and patrol and examine for product service, for example preset the product that this product model corresponds patrol and examine for camera pivoted service, and whether all cameras that the server patrolled and examined and disposed in the current application can rotate promptly, patrol and examine this product service item of "camera rotation" promptly to analyze out the camera that can not normally rotate. The server obtains preset input parameters corresponding to the camera rotation service patrol inspection, for example, the input parameters are rotation of 25 degrees. The server rotates 25 degrees according to the input parameters and issues instructions to all the camera devices configured in the application, so that all the camera devices in the application rotate 25 degrees according to the input parameters and execute corresponding 25-degree rotation actions. The server can obtain the output parameters reported by the camera equipment, namely whether the camera successfully rotates 25 degrees or not, and judge whether the camera is abnormal or not according to the output parameters, so that the camera which cannot normally rotate is automatically analyzed. Therefore, the product service corresponding to the automatic inspection product model can be realized, manual configuration is not needed, the inspection flow of the product of the Internet of things is greatly simplified, and the inspection efficiency of the product of the Internet of things is effectively improved.

In one embodiment, after the inspection task of the product of the internet of things is obtained, the method further includes the step of calculating the execution time of the next period according to the inspection result, and the method specifically includes:

and when the polling time corresponding to the polling task is less than the current system time, executing the polling task according to the preset polling time to obtain a corresponding polling result.

When a user logs in a main page of the Internet of things platform, the user can log in an application interface of a specific scene through trigger operation, and in the application interface, after the user creates an inspection task of the Internet of things product through trigger operation, the server can inquire whether a corresponding inspection cycle is a fixed value or not according to the inspection task. When the server inquires that the polling period corresponding to the current polling task is a fixed value, the server further inquires whether the polling personnel corresponding to the polling task is a fixed value. And if the server does not inquire that the polling period corresponding to the current polling task is a fixed value, the server waits for the corresponding polling time issued by the administrator to the current polling task. When the server does not inquire that the patrol personnel corresponding to the patrol task is a fixed value, the server can automatically match the corresponding patrol personnel through a preset manual patrol rule to execute manual patrol operation. And when the server inquires that the polling personnel corresponding to the polling task is a fixed value, the server inquires whether the polling time corresponding to the polling task is greater than the current system time. And when the server inquires that the polling time corresponding to the polling task is less than the current system time, the server executes the polling task according to the preset polling time and generates a corresponding polling result. And the server calculates the execution time of the next period according to the inspection result, and establishes an inspection task corresponding to the next period according to the execution time. And when the server inquires that the inspection time corresponding to the inspection task is longer than the current system time, the server performs warehousing operation on the inspection task and waits for task scheduling of the next period. Therefore, inspection information corresponding to automatic dynamic configuration of different types of Internet of things products can be achieved, the operation flow of inspection of the Internet of things products is greatly simplified, professional inspection with pertinence can be provided, and therefore inspection efficiency of the Internet of things products is effectively improved.

In one embodiment, the method further includes a step of querying information about a product similar to the inspection product, and specifically includes:

and when the routing inspection task corresponding to the next period is created, inquiring the similar product information of the routing inspection product, and performing association setting by using the routing inspection information corresponding to the similar product.

In a specific application of the internet of things, when the server establishes a routing inspection task corresponding to the product of the internet of things in the application in the next period, the server can inquire information of similar products of the routing inspection product, and if the information of the similar products is inquired, the server performs correlation setting by using the routing inspection information corresponding to the similar products. For example, when the server inquires that the similar device information of the camera of the product of the internet of things in the current application is the device infrared monitor in the organization. The server obtains polling configuration information corresponding to the infrared monitor of the similar product, for example, the polling configuration information corresponding to the infrared monitor product is a product service polling item for polling whether the monitor rotates. And the server performs associated setting on the inspection configuration information corresponding to the similar product infrared monitor and the inspection information of the Internet of things product camera in the current application. Therefore, matching is performed through intelligent analysis, the similar products are used for association setting, the inspection information matched with the product attributes and the product service label information can be quickly and accurately recommended for the internet of things product, and compared with selection from a stack of unordered inspection information, the quick configuration of the inspection information of the internet of things product can be realized, so that the inspection efficiency of the internet of things product is effectively improved.

It should be understood that although the various steps in the flow charts of fig. 1-5 are shown in order as indicated by the arrows, the steps are not necessarily performed in order as indicated by the arrows. The steps are not performed in the exact order shown and described, and may be performed in other orders, unless explicitly stated otherwise. Moreover, at least some of the steps in fig. 1-5 may include multiple steps or multiple stages, which are not necessarily performed at the same time, but may be performed at different times, which are not necessarily performed in sequence, but may be performed in turn or alternately with other steps or at least some of the other steps.

In one embodiment, as shown in fig. 6, there is provided an inspection device for products of the internet of things, including: an obtaining module 602, an executing module 604, a comparing module 606, and a screening module 608, wherein:

the obtaining module 602 is configured to obtain an inspection task of an internet of things product, where the inspection task carries a product type; acquiring routing inspection information corresponding to the product type; and acquiring the operation data reported by the inspection equipment.

The executing module 604 is configured to issue an instruction to the corresponding inspection device according to the inspection information, so that the inspection device executes a corresponding action according to the inspection information.

And the comparison module 606 is configured to compare the operation data with preset inspection configuration data to obtain an inspection result corresponding to the inspection equipment.

And the screening module 608 is configured to screen abnormal information in the inspection result, and generate alarm information according to the triggering of the abnormal information.

In one embodiment, the apparatus further comprises: a module is created.

The creating module is used for creating a corresponding message according to the issuing instruction, sending the message to the message queue, receiving the operation data reported by the plurality of inspection devices in the inspection task by using the message queue, and acquiring at least one operation data corresponding to the inspection device from the message queue.

In one embodiment, the apparatus further comprises: and (5) a query module.

The query module is used for querying whether the running data reported by the inspection equipment exists in the message queue; if the operation data exists, the operation data is verified, and a routing inspection result corresponding to the routing inspection equipment is generated; otherwise, generating corresponding work order information according to the inspection item information corresponding to the inspection equipment, and issuing the work order information to the inspection personnel for manual inspection.

In one embodiment, the apparatus further comprises: and a judging module.

The judging module is used for polling information including product dynamic attribute polling and product service polling; when the inspection information is read to be the product dynamic attribute inspection, acquiring an attribute judgment condition corresponding to the product dynamic attribute inspection; and judging whether the operation data reported by the inspection equipment is abnormal or not according to the attribute judgment condition.

In one embodiment, the judging module is further configured to obtain a preset input parameter corresponding to the product service inspection when the inspection information is read as the product service inspection; issuing an instruction to the corresponding inspection equipment according to the preset input parameters so that the inspection equipment executes corresponding actions according to the preset input parameters; and acquiring output parameters reported by the inspection equipment, and judging whether the inspection equipment is abnormal or not according to the output parameters.

In one embodiment, the creating module is further configured to execute the inspection task according to preset inspection time when the inspection time corresponding to the inspection task is less than the current system time, so as to obtain a corresponding inspection result; and calculating the execution time of the next period according to the inspection result, and creating an inspection task corresponding to the next period according to the execution time.

In one embodiment, the query module is further configured to query similar product information of the inspection product when the inspection task corresponding to the next period is created, and perform association setting by using the inspection information corresponding to the similar product.

For specific limitations of the inspection device for the products of the internet of things, reference may be made to the above limitations of the inspection method for the products of the internet of things, and details are not repeated here. All modules in the inspection device of the product of the Internet of things can be completely or partially realized through software, hardware and a combination of the software and the hardware. The modules can be embedded in a hardware form or independent from a processor in the computer device, and can also be stored in a memory in the computer device in a software form, so that the processor can call and execute operations corresponding to the modules.

In one embodiment, a computer device is provided, which may be a server, the internal structure of which may be as shown in fig. 7. The computer device includes a processor, a memory, and a network interface connected by a system bus. Wherein the processor of the computer device is configured to provide computing and control capabilities. The memory of the computer device comprises a nonvolatile storage medium and an internal memory. The non-volatile storage medium stores an operating system, a computer program, and a database. The internal memory provides an environment for the operation of an operating system and computer programs in the non-volatile storage medium. The database of the computer device is used for storing the routing inspection data of the internet of things product. The network interface of the computer device is used for communicating with an external terminal through a network connection. The computer program is executed by the processor to realize the inspection method of the product of the Internet of things.

Those skilled in the art will appreciate that the architecture shown in fig. 7 is merely a block diagram of some of the structures associated with the disclosed aspects and is not intended to limit the computing devices to which the disclosed aspects apply, as particular computing devices may include more or less components than those shown, or may combine certain components, or have a different arrangement of components.

In one embodiment, a computer device is provided, comprising a memory, a processor and a computer program stored on the memory and executable on the processor, the steps of the above-described method embodiments being implemented when the computer program is executed by the processor.

It will be understood by those skilled in the art that all or part of the processes of the methods of the embodiments described above can be implemented by hardware instructions of a computer program, which can be stored in a non-volatile computer-readable storage medium, and when executed, can include the processes of the embodiments of the methods described above. Any reference to memory, storage, database or other medium used in the embodiments provided herein can include at least one of non-volatile and volatile memory. Non-volatile Memory may include Read-Only Memory (ROM), magnetic tape, floppy disk, flash Memory, optical storage, or the like. Volatile Memory can include Random Access Memory (RAM) or external cache Memory. By way of illustration and not limitation, RAM can take many forms, such as Static Random Access Memory (SRAM) or Dynamic Random Access Memory (DRAM), among others.

The technical features of the above embodiments can be arbitrarily combined, and for the sake of brevity, all possible combinations of the technical features in the above embodiments are not described, but should be considered as the scope of the present specification as long as there is no contradiction between the combinations of the technical features.

The above-mentioned embodiments only express several embodiments of the present application, and the description thereof is more specific and detailed, but not construed as limiting the scope of the invention. It should be noted that, for a person skilled in the art, several variations and modifications can be made without departing from the concept of the present application, which falls within the scope of protection of the present application. Therefore, the protection scope of the present patent shall be subject to the appended claims.

Claims

1. A method for inspecting products of the Internet of things comprises the following steps:

acquiring routing inspection information corresponding to the product type;

acquiring operation data reported by the inspection equipment;

2. The method according to claim 1, wherein after issuing an instruction to the corresponding inspection equipment according to the inspection information so that the inspection equipment performs a corresponding action according to the inspection information, the method further comprises:

3. The method of claim 2, further comprising:

4. The method of claim 1, further comprising:

5. The method of claim 4, further comprising:

6. The method according to claim 1, wherein after the inspection task of the product of the internet of things is obtained, the method further comprises:

7. The method of claim 6, further comprising:

8. The utility model provides an inspection device of thing networking product, a serial communication port, the device includes:

9. A computer device comprising a memory and a processor, the memory storing a computer program, wherein the processor implements the steps of the method of any one of claims 1 to 7 when executing the computer program.

10. A computer-readable storage medium, on which a computer program is stored, which, when being executed by a processor, carries out the steps of the method of any one of claims 1 to 7.