CN114429682A - IT equipment inspection system and method - Google Patents

Abstract

The application provides an IT equipment inspection system and method, which comprises the following steps: the mobile device is used for identifying the device identification code of the device to be tested, the device to be tested is identified through the mobile device, the slow positioning or wrong risk caused by manual inquiry is avoided, the rear-end platform is used for being connected with the mobile device, the device identification code is obtained, the identity information of the device to be tested is obtained according to the analysis of the device identification code, the running state inquiry request of the device to be tested is sent to the monitoring platform according to the identity information, the monitoring platform is used for being connected with the rear-end platform, whether the device to be tested is connected to the monitoring platform or not is judged according to the running state inquiry request of the device to be tested, and if the device to be tested is connected, the running state of the device to be tested is fed back to the mobile device. The field inspection personnel need not to make a round trip to rush, and the handheld mobile device of field inspection personnel can obtain the equipment operation state that awaits measuring in the front of the equipment that awaits measuring, realizes fault detection, and is simple quick, and the operation state of real time monitoring equipment that awaits measuring improves the efficiency of the equipment that awaits measuring fault detection.

Description

IT equipment inspection system and method

Technical Field

The application relates to the field of communication, in particular to an IT equipment inspection system and method.

Background

The field inspection of IT (Information Technology) equipment is one of important means for guaranteeing the stable operation of an Information system of a data center, and the field inspection is favorable for finding out the fault of the IT equipment in the first time.

When the on-site inspection personnel find the suspected fault of the IT equipment, the on-site inspection personnel need to leave the machine room to implement maintenance on the special terminal, the operation is inconvenient, even the on-site inspection personnel need to run back and forth between the special terminal and the machine room, the handling of the fault is delayed, and the efficiency of detecting the fault of the IT equipment is low.

Disclosure of Invention

In view of this, an object of the present application is to provide an IT device inspection system and method, which are convenient to operate and can improve efficiency.

In order to achieve the purpose, the technical scheme is as follows:

in a first aspect, an embodiment of the present application provides an IT device inspection system, including:

the mobile equipment is used for identifying the equipment identification code of the equipment to be tested;

the back-end platform is used for being connected with the mobile equipment, acquiring the equipment identification code, analyzing the equipment identification code to obtain identity information of the equipment to be tested, and sending an inquiry request of the running state of the equipment to be tested to the monitoring platform according to the identity information;

and the monitoring platform is connected with the rear-end platform and used for judging whether the equipment to be tested is connected with the monitoring platform according to the running state query request of the equipment to be tested, and if the equipment to be tested is connected with the monitoring platform, the running state of the equipment to be tested is fed back to the mobile equipment.

In a possible implementation manner, the mobile device is further configured to send a request for logging in the maintenance interface of the device to be tested to the backend platform;

the back-end platform is further used for being connected with the equipment to be tested, logging in the maintenance interface of the equipment to be tested when the request for logging in the maintenance interface of the equipment to be tested is received, and pushing the maintenance interface of the equipment to be tested to the mobile equipment.

In one possible implementation, the monitoring platform is further configured to:

when the equipment to be tested is not accessed to the monitoring platform, an unaccessed signal is sent to the back-end platform;

the back-end platform is further used for logging in the equipment to be tested according to the unaccessed signal to inquire the running state of the equipment to be tested and feeding back the running state of the equipment to be tested to the mobile equipment.

In one possible implementation, the backend platform and the mobile device are wirelessly connected.

In one possible implementation, the mobile device includes: an NFC device.

In a second aspect, an embodiment of the present application provides an IT device inspection method, including:

after the mobile equipment identifies the equipment identification code of the equipment to be tested, acquiring the equipment identification code of the equipment to be tested from the mobile equipment;

analyzing according to the equipment identification code to obtain identity information of the equipment to be tested;

sending an operation state query request of the equipment to be tested to a monitoring platform according to the identity information;

when the equipment to be tested is accessed to the monitoring platform, the running state of the equipment to be tested is obtained from the monitoring platform according to the running state query request of the equipment to be tested, and the running state of the equipment to be tested is fed back to the mobile equipment.

In one possible implementation, the method further includes:

and when a request for logging in the maintenance interface of the equipment to be tested sent by the mobile equipment is received, logging in the maintenance interface of the equipment to be tested, and pushing the maintenance interface of the equipment to be tested to the mobile equipment.

In one possible implementation, the method further includes:

and logging in the equipment to be tested to inquire the running state of the equipment to be tested when the equipment to be tested is not accessed to the monitoring platform, and feeding back the running state of the equipment to be tested to the mobile equipment.

In one possible implementation manner, the obtaining the device identification code of the device under test from the mobile device includes:

and acquiring the equipment identification code of the equipment to be tested from the mobile equipment in a wireless connection mode.

In one possible implementation, the method further includes:

and storing the running state of the equipment to be tested.

The embodiment of the application provides an IT equipment inspection system and method, and the system comprises: the mobile device is used for identifying the device identification code of the device to be tested, the device to be tested is identified through the mobile device, the risk of slow positioning or errors caused by manual inquiry is avoided, the device identification code is simple and convenient to manufacture and low in cost, the rear-end platform is used for being connected with the mobile device, the device identification code is obtained, the identity information of the device to be tested is obtained through analysis according to the device identification code, the running state inquiry request of the device to be tested is sent to the monitoring platform according to the identity information, the monitoring platform is used for being connected with the rear-end platform, whether the device to be tested is connected to the monitoring platform or not is judged according to the running state inquiry request of the device to be tested, and if the device to be tested is connected, the running state of the device to be tested is fed back to the mobile device. The field inspection personnel need not to make a round trip to rush, and the field inspection personnel handheld mobile device can obtain the running state of the equipment to be tested in the front of the equipment to be tested, realizes fault detection, and is simple quick, and utilizes the running state of monitoring real-time monitoring equipment to be tested, has increased the timeliness and the efficiency of equipment to be tested fault detection.

Drawings

In order to more clearly illustrate the embodiments of the present application or the technical solutions in the prior art, the drawings needed to be used in the description of the embodiments or the prior art will be briefly introduced below, and it is obvious that the drawings in the following description are some embodiments of the present application, and it is obvious for those skilled in the art to obtain other drawings based on these drawings without creative efforts.

Fig. 1 is a schematic diagram illustrating an IT equipment inspection system according to an embodiment of the present disclosure;

FIG. 2 is a schematic diagram illustrating yet another IT equipment inspection system provided in an embodiment of the present application;

fig. 3 shows a schematic diagram of an IT equipment inspection method provided by the embodiment of the application.

Detailed Description

In order to make the aforementioned objects, features and advantages of the present application more comprehensible, embodiments accompanying the present application are described in detail below with reference to the accompanying drawings.

In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present application, but the present application may be practiced in other ways than those described herein, and it will be apparent to those of ordinary skill in the art that the present application is not limited by the specific embodiments disclosed below.

As described in the background, in-situ inspection of IT (Information Technology) equipment is one of the important means for a data center to ensure stable operation of an Information system, and is beneficial to find out a fault of the IT equipment in the first time.

When the on-site inspection personnel find the suspected fault of the IT equipment, the on-site inspection personnel need to leave the machine room to implement maintenance on the special terminal, the operation is inconvenient, even the on-site inspection personnel need to run back and forth between the special terminal and the machine room, the handling of the fault is delayed, and the efficiency of detecting the fault of the IT equipment is low.

In addition, the applicant finds that on-site inspection often only can roughly judge whether the equipment is abnormal or not by checking an equipment indicator light, listening to running sound and the like, and is difficult to accurately locate the fault reason, and although part of IT equipment provides a liquid crystal screen capable of displaying equipment running state information, the displayed content is very limited, and is still insufficient to locate the fault reason.

Although most of the computer rooms are installed with a KVM (Keyboard, Video or Mouse) switch device for logging in a hardware maintenance interface of the device, not all the devices support KVM, and since the KVM is generally deployed in an intensive manner, only 1 to 2 sets of KVM in a row of cabinets need to be switched back and forth between multiple devices during use, and even the KVM needs to be flushed back and forth between the devices, the operation is inconvenient. The field inspection personnel can only contact other operation and maintenance personnel outside the machine room for assistance due to the fact that the field inspection personnel cannot conveniently log in the hardware maintenance interface of the equipment, and repeatedly communicate the fault phenomenon and the operation content through the telephone, and therefore the handling efficiency of the hardware fault is greatly influenced.

In addition, for small and medium-sized enterprises, due to limited hands, hardware and software maintenance personnel are often not distinguished, when a suspected hardware fault occurs in a server during field routing inspection, it is difficult to confirm the state of a host machine or a virtual machine operating system and the like running on the server in a machine room at the first time, and the server can only leave the machine room to implement maintenance and verification operations on a software layer on a special terminal, so that the handling of the fault is further delayed.

In order to solve the above technical problem, an embodiment of the present application provides an IT device inspection system and a method, where the system includes: the mobile device is used for identifying the device identification code of the device to be tested, the device to be tested is identified through the mobile device, the risk of slow positioning or errors caused by manual inquiry is avoided, the device identification code is simple and convenient to manufacture and low in cost, the rear-end platform is used for being connected with the mobile device, the device identification code is obtained, identity information of the device to be tested is obtained through analysis according to the device identification code, a running state inquiry request of the device to be tested is sent to the monitoring platform according to the identity information, the monitoring platform is used for being connected with the rear-end platform, whether the device to be tested is connected to the monitoring platform or not is judged according to the running state inquiry request of the device to be tested, and if the device to be tested is connected, the running state of the device to be tested is fed back to the mobile device. The field inspection personnel need not to make a round trip to rush, and the field inspection personnel handheld mobile device can obtain the running state of the equipment to be tested in the front of the equipment to be tested, realizes fault detection, and is simple quick, and utilizes the running state of monitoring real-time monitoring equipment to be tested, has increased the timeliness and the efficiency of equipment to be tested fault detection.

Exemplary System

Referring to fig. 1, a schematic diagram of an exemplary system provided for an embodiment of the present application includes:

the mobile equipment 1 is used for identifying an equipment identification code of equipment to be tested; the rear-end platform 2 is used for being connected with the mobile equipment 1, acquiring an equipment identification code, analyzing the equipment identification code to obtain identity information of the equipment to be tested, and sending an inquiry request of the running state of the equipment to be tested to the monitoring platform 3 according to the identity information; and the monitoring platform 3 is connected with the rear-end platform 2 and used for judging whether the equipment to be tested is accessed to the monitoring platform 3 according to the running state query request of the equipment to be tested, and if the equipment to be tested is accessed, the running state of the equipment to be tested is fed back to the mobile equipment 1.

In this application embodiment, the device to be tested may include server equipment, network equipment, security equipment, storage equipment, computer lab infrastructure (such as UPS (Uninterruptible Power Supply), Power distribution cabinet, air conditioner, etc.), and the device to be tested may be the equipment that is located the computer lab and sets up promptly, and the device identification code of the device to be tested may be shown in the form of two-dimensional code or label, etc. so that mobile device 1 identifies the device identification code of the device to be tested.

In a possible implementation manner, the mobile device 1 may be an NFC (Near Field Communication) device, and at this time, the device identification code of the device to be tested may be an NFC tag, which is made by a dedicated device, stores a device identification code corresponding to the device to be tested, and may be encrypted by using a one-way HASH function to prevent malicious reading; the NFC label is pasted at a conspicuous position of the shell of the device to be detected, so that the mobile device 1 can be touched (read) conveniently.

Therefore, the field inspection personnel can use the mobile device 1 to touch the NFC label of the equipment to be tested, can quickly master the basic information of the equipment to be tested, and avoids the risk of slow positioning or error caused by manual inquiry. And the NFC near field communication protocol is free of physical contact and a data interface, and only the NFC label is required to be manufactured and the NFC mobile terminal is required to be purchased, so that the NFC label is simple to manufacture and convenient to purchase, and the NFC near field communication protocol is used as a field operation and maintenance tool and has the characteristics of rapidness in deployment, low cost and convenience in use compared with KVM.

In a possible implementation manner, the mobile device 1 may include a mobile phone or a tablet computer supporting an NFC communication function, the software running on the mobile device 1 may include a lightweight foreground program of a B/S architecture (Browser/Server, Browser/Server mode) system, for example, the software may be an APP nested H5 page or a wechat H5 applet, so as to facilitate operation of a field inspection worker, and the operation is simple and easy to operate, and when the field inspection worker inspects the field, if the device to be detected is found to be abnormal, the handheld mobile device 1 may identify the device identification code of the device to be detected.

Specifically, the mobile device 1 may include an identification module, a communication module, and a display module, and optionally, the identification module may include an NFC identification module, and the NFC identification module may be configured to read a device identification code stored in an NFC tag. The communication module can be used for connecting and communicating with the back-end platform, and comprises receiving and sending identity authentication information, user instructions, back-end feedback data and the like. The display module is used for providing a good human-computer interface and is convenient for a user to use.

The back-end platform 2 may be configured to perform data exchange with the mobile device 1, receive the device identification code, obtain identity information of the device to be tested through analysis according to the device identification code, and send a query request of an operation state of the device to be tested to the monitoring platform according to the identity information.

Specifically, the back-end platform 2 may include a communication master control module, an equipment information management module, and an equipment status query module, and is composed of a set of servers, and may be deployed in a cluster if necessary.

The communication master control module is used for exchanging data with the mobile device 1, and comprises a receiving device identification code, identity authentication information, pushing device state information, an operation and maintenance interface and the like.

The equipment information management module is used for obtaining the identity information of the equipment to be tested according to the equipment identification code analysis, the identity information of the equipment to be tested can comprise a brand, a category, a model, a physical position, an IP address, an associated monitoring system and the like, and the identity information of the equipment to be tested can be updated and maintained at regular time.

The equipment state query module can send a query request of the running state of the equipment to be tested to the monitoring platform 3 according to the identity information, receive the running state of the equipment to be tested and feed back the running state to the mobile equipment 1 through the communication master control module, so that the mobile equipment 1 can obtain the running state of the equipment to be tested in real time.

And the monitoring platform 3 can be used for being connected with the rear-end platform 2 and judging whether the equipment to be tested is accessed to the monitoring platform 3 according to the running state query request of the equipment to be tested, and if the equipment to be tested is accessed, the running state of the equipment to be tested is fed back to the mobile equipment 1.

That is, in this embodiment of the present Application, the monitoring platform 3 may be composed of various existing monitoring systems, the monitoring system provides an API (Application Programming Interface) for the back-end integration platform to access, and after receiving an equipment status query request, feeds back the queried equipment operating status information, and for an IT equipment that has been accessed to a certain monitoring system, the equipment status query module of the back-end platform 2 sends a request for querying an operating status of the IT equipment to the relevant monitoring system and receives the feedback information.

In the embodiment of the application, the existing mature monitoring systems are fully utilized, the detailed running state information of the equipment to be tested is displayed on the mobile equipment 1 through the rear-end platform 2, the problem that the equipment indicator lamp or the simple display screen cannot accurately reflect the fault point and the reason is solved, the troubleshooting work during the routing inspection of the machine room is greatly facilitated, and the inconvenience of specially logging in a KVM or seeking help for operation and maintenance personnel outside the machine room is reduced.

After receiving the query request of the running state of the device to be tested, the monitoring platform 3 judges whether the device to be tested is accessed to the monitoring platform 3, and if the device to be tested is accessed, the running state of the device to be tested is fed back to the mobile device 1, so that the field patrol personnel can know the running state.

In a possible implementation manner, the mobile device 1 is further configured to send a request for logging in a maintenance interface of the device to be tested to the back-end platform 2, and the back-end platform 2 is further configured to connect with the device to be tested, and when the request for logging in the maintenance interface of the device to be tested is received, log in the maintenance interface of the device to be tested, and push the maintenance interface of the device to be tested to the mobile device 1.

That is, in the embodiment of the present application, when a user wants to log in a maintenance interface of a device to be tested, the mobile device 1 may be used to send a request for logging in the maintenance interface of the device to be tested to the backend platform 2, and the mobile device 1 and the backend platform 2 may be wirelessly connected to send the request in time, perform various types of data transmission, and the like.

Optionally, the back-end platform 2 is further configured to be connected to the device to be tested, and the back-end platform 2 further includes a device login module, where the device login module is configured to log in the device to be tested maintenance interface or an operating system (including a virtual machine) running on the device to be tested when receiving a request for logging in the device to be tested maintenance interface, that is, in this embodiment, the device to be tested maintenance interface may be a hardware maintenance interface of the device to be tested, or may be a software maintenance interface of the device to be tested.

Optionally, the request for logging in the maintenance interface of the device to be tested may include a hardware maintenance interface of the IT device, and may also include a request for logging in an operating system. In addition, the request for logging in the maintenance interface of the device to be tested may be sent by the mobile device 1, or may be sent by a device status query module of the backend platform 2.

In a possible implementation manner, the device login module can perform login verification by calling the identity authentication module, the identity authentication module is used for processing identity authentication and authorization of a user of the mobile device 1, the identity authentication module can be called by the device login module, the verification is performed by being replaced by logging in a hardware maintenance interface or an operating system, and an actual user name and a password of the hardware maintenance interface and the operating system are transparent to the user of the mobile device 1, so that illegal acquisition is prevented. That is, the identity authentication module may determine whether the person logged in using the mobile device 1 is a person meeting the requirement, so as to enhance the security of the system provided in the embodiment of the present application.

For example, the mobile device 1 may send a user name and a password to the backend platform 2, the identity authentication module of the backend platform 2 may verify the identity and judge the authority, and call the device login module to log in the hardware maintenance interface of the device to be tested or the operating system (including the virtual machine) running thereon as required, where the login interface is displayed on the mobile device 1 in the form of an H5 page and provides the function of interactive operation.

In a possible implementation manner, the monitoring platform 3 provided in this embodiment is further configured to send an unaccessed signal to the backend platform 2 when the device to be tested is not accessed to the monitoring platform 3.

The back-end platform 2 is further configured to log in the device to be tested according to the unaccessed signal to query the running state of the device to be tested, and feed back the running state of the device to be tested to the mobile device 1. That is, in this embodiment of the application, when the backend platform 2 receives the unaccessed signal, it indicates that the relevant device to be tested is not included in the monitoring range of any monitoring system of the monitoring platform 3, and then the device login module of the backend platform 2 can be directly called to directly log in to the device to be tested and automatically execute the query instruction of the running state of the device to be tested.

Namely, a back-end platform 2 generation is used for logging in a hardware maintenance interface of equipment and an operating system (including a virtual machine) on the hardware maintenance interface, a one-stop operation and maintenance interface is provided for all-purpose operation and maintenance personnel of small and medium-sized enterprises, and the operation and maintenance personnel can handle hardware faults and carry out verification on a software level without leaving a machine room.

In this application embodiment, the running state information of the device to be tested can be displayed by pushing the running state information to the display module of the mobile device 1 through the communication master control module of the back-end platform 2, so that the subsequent operation of the user is facilitated.

In a possible implementation manner, the backend platform 2 may include an audit module, and the audit module is configured to record various operation behaviors of the user and provide post playback, so that other workers can check the operation behaviors according to the record, and the detection efficiency is improved.

It should be noted that the device to be tested, the mobile device 1, the backend platform 2, and the monitoring platform 3 provided in the embodiment of the present application may be connected to each other by wireless or wired connection at will, so as to perform interaction and data transmission better, and specifically, the setting may be performed by a person skilled in the art according to an actual situation, and the embodiment of the present application is not limited specifically herein.

Fig. 2 is a schematic diagram of another IT equipment inspection system according to an embodiment of the present disclosure.

The embodiment of the application provides an IT equipment system of patrolling and examining, and this system includes: the mobile device is used for identifying the device identification code of the device to be tested, the device to be tested is identified through the mobile device, the risk of slow positioning or errors caused by manual inquiry is avoided, the device identification code is simple and convenient to manufacture and low in cost, the rear-end platform is used for being connected with the mobile device, the device identification code is obtained, the identity information of the device to be tested is obtained through analysis according to the device identification code, the running state inquiry request of the device to be tested is sent to the monitoring platform according to the identity information, the monitoring platform is used for being connected with the rear-end platform, whether the device to be tested is connected to the monitoring platform or not is judged according to the running state inquiry request of the device to be tested, and if the device to be tested is connected, the running state of the device to be tested is fed back to the mobile device. The field inspection personnel need not to make a round trip to rush, and the field inspection personnel handheld mobile device can obtain the running state of the equipment to be tested in the front of the equipment to be tested, realizes fault detection, and is simple quick, and utilizes the running state of monitoring real-time monitoring equipment to be tested, has increased the timeliness and the efficiency of equipment to be tested fault detection.

Exemplary method

Referring to fig. 3, a flowchart of an IT device inspection method provided in an embodiment of the present application includes:

s101: after the mobile equipment identifies the equipment identification code of the equipment to be tested, acquiring the equipment identification code of the equipment to be tested from the mobile equipment;

s102: analyzing according to the equipment identification code to obtain identity information of the equipment to be tested;

s103: sending an operation state query request of the equipment to be tested to a monitoring platform according to the identity information;

s104: when the equipment to be tested is accessed to the monitoring platform, the running state of the equipment to be tested is obtained from the monitoring platform according to the running state query request of the equipment to be tested, and the running state of the equipment to be tested is fed back to the mobile equipment.

In one possible implementation, the method further includes:

and when a request for logging in the maintenance interface of the equipment to be tested sent by the mobile equipment is received, logging in the maintenance interface of the equipment to be tested, and pushing the maintenance interface of the equipment to be tested to the mobile equipment.

In one possible implementation, the method further includes:

and logging in the equipment to be tested to inquire the running state of the equipment to be tested when the equipment to be tested is not accessed to the monitoring platform, and feeding back the running state of the equipment to be tested to the mobile equipment.

In one possible implementation manner, the obtaining the device identification code of the device under test from the mobile device includes:

and acquiring the equipment identification code of the equipment to be tested from the mobile equipment in a wireless connection mode.

In one possible implementation, the method further includes:

and storing the running state of the equipment to be tested.

The embodiment of the application provides an IT equipment inspection method, and a system using the method comprises the following steps: the mobile device is used for identifying the device identification code of the device to be tested, the device to be tested is identified through the mobile device, the risk of slow positioning or errors caused by manual inquiry is avoided, the device identification code is simple and convenient to manufacture and low in cost, the rear-end platform is used for being connected with the mobile device, the device identification code is obtained, the identity information of the device to be tested is obtained through analysis according to the device identification code, the running state inquiry request of the device to be tested is sent to the monitoring platform according to the identity information, the monitoring platform is used for being connected with the rear-end platform, whether the device to be tested is connected to the monitoring platform or not is judged according to the running state inquiry request of the device to be tested, and if the device to be tested is connected, the running state of the device to be tested is fed back to the mobile device. The field inspection personnel need not to make a round trip to rush, and the field inspection personnel handheld mobile device can obtain the running state of the equipment to be tested in the front of the equipment to be tested, realizes fault detection, and is simple quick, and utilizes the running state of monitoring real-time monitoring equipment to be tested, has increased the timeliness and the efficiency of equipment to be tested fault detection.

The embodiments in the present specification are described in a progressive manner, and the same and similar parts among the embodiments are referred to each other, and each embodiment focuses on the differences from the other embodiments. In particular, the method embodiments are substantially similar to the system embodiments, so that the description is simple, and reference may be made to some descriptions of the method embodiments for relevant points.

The foregoing is merely a preferred embodiment of the present application and, although the present application discloses the foregoing preferred embodiments, the present application is not limited thereto. Those skilled in the art can now make numerous possible variations and modifications to the disclosed embodiments, or modify equivalent embodiments, using the methods and techniques disclosed above, without departing from the scope of the claimed embodiments. Therefore, any simple modification, equivalent change and modification made to the above embodiments according to the technical essence of the present application still fall within the protection scope of the technical solution of the present application without departing from the content of the technical solution of the present application.

Claims (10)

1. The utility model provides a IT equipment system of patrolling and examining which characterized in that includes:

the mobile equipment is used for identifying the equipment identification code of the equipment to be tested;

the back-end platform is used for being connected with the mobile equipment, acquiring the equipment identification code, analyzing the equipment identification code to obtain identity information of the equipment to be tested, and sending an inquiry request of the running state of the equipment to be tested to the monitoring platform according to the identity information;

and the monitoring platform is connected with the rear-end platform and used for judging whether the equipment to be tested is connected with the monitoring platform according to the running state query request of the equipment to be tested, and if the equipment to be tested is connected with the monitoring platform, the running state of the equipment to be tested is fed back to the mobile equipment.

2. The system of claim 1, wherein the mobile device is further configured to send a request to the backend platform to log in to the device under test maintenance interface;

the back-end platform is further used for being connected with the equipment to be tested, logging in the maintenance interface of the equipment to be tested when the request for logging in the maintenance interface of the equipment to be tested is received, and pushing the maintenance interface of the equipment to be tested to the mobile equipment.

3. The system of claim 1, wherein the monitoring platform is further configured to:

when the equipment to be tested is not accessed to the monitoring platform, an unaccessed signal is sent to the back-end platform;

the back-end platform is further used for logging in the equipment to be tested according to the unaccessed signal to inquire the running state of the equipment to be tested and feeding back the running state of the equipment to be tested to the mobile equipment.

4. The system of claim 1, wherein the backend platform is wirelessly connected to the mobile device.

5. The system according to any one of claims 1-4, wherein the mobile device comprises: an NFC device.

6. An IT equipment inspection method is characterized by comprising the following steps:

after the mobile equipment identifies the equipment identification code of the equipment to be tested, acquiring the equipment identification code of the equipment to be tested from the mobile equipment;

analyzing according to the equipment identification code to obtain identity information of the equipment to be tested;

sending an operation state query request of the equipment to be tested to a monitoring platform according to the identity information;

when the equipment to be tested is accessed to the monitoring platform, the running state of the equipment to be tested is obtained from the monitoring platform according to the running state query request of the equipment to be tested, and the running state of the equipment to be tested is fed back to the mobile equipment.

7. The method of claim 6, further comprising:

and when a request for logging in the maintenance interface of the equipment to be tested sent by the mobile equipment is received, logging in the maintenance interface of the equipment to be tested, and pushing the maintenance interface of the equipment to be tested to the mobile equipment.

8. The method of claim 6, further comprising:

and logging in the equipment to be tested to inquire the running state of the equipment to be tested when the equipment to be tested is not accessed to the monitoring platform, and feeding back the running state of the equipment to be tested to the mobile equipment.

9. The method of claim 6, wherein obtaining the device identification code of the device under test from the mobile device comprises:

and acquiring the equipment identification code of the equipment to be tested from the mobile equipment in a wireless connection mode.

10. The method of claim 6, further comprising:

and storing the running state of the equipment to be tested.

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