CN115941439A - Equipment health management device and method based on 5G communication - Google Patents

Abstract

The invention relates to the field of server equipment management, and particularly discloses a device and a method for equipment health management based on 5G communication, wherein the device comprises a BMC chip, a 5G module and a patch panel, wherein the 5G module is connected with an RS485 interface of the BMC chip through the patch panel; when the BMC chip monitors equipment failure, the failure information is sent to corresponding operation and maintenance personnel through the 5G module; meanwhile, the device adopts FRP service to start the public network mapping of the 5G module, so that operation and maintenance personnel remotely access the 5G module through a public network address and enter a BMC chip background to carry out equipment maintenance. According to the invention, the 5G technology enables the server to carry out real-time health management, operation and maintenance personnel are reminded in time when equipment fails, and enter the BMC background through the public network address to carry out maintenance, so that the operation and maintenance personnel are not limited to factors such as regions and time to remotely maintain the health of the server in real time, and the timeliness of sudden failure of the server is ensured.

Description

Equipment health management device and method based on 5G communication

Technical Field

The invention relates to the field of server equipment management, in particular to a device health management device and method based on 5G communication.

Background

In the server field, due to frequent use and complexity of the equipment, the equipment occasionally fails in the execution process of the task, and normal operation of the task is affected. With the improvement of the integration, integration and intelligence of the equipment, higher requirements are also put forward on the detection of the running state of the equipment and the maintenance means. The current equipment maintenance mode of existing adopts regular maintenance, schedule maintenance, maintenance of changing seasons, after the events maintenance and trade a repair etc. more, and the timeliness is poor and waste a large amount of manpower and material resources.

Disclosure of Invention

In order to solve the problems, the invention provides a device health management device and a method based on 5G communication, faults are sent to operation and maintenance personnel in time through a 5G module, and the operation and maintenance personnel enter a BMC background through a public network address to overhaul, so that the operation and maintenance personnel are not limited to factors such as regions, time and the like to remotely maintain the health of a server in real time, and the timeliness of sudden faults of the server is ensured.

In a first aspect, the technical scheme of the invention provides a device health management device based on 5G communication, which comprises a BMC chip, a 5G module and a patch panel, wherein the 5G module is connected with an RS485 interface of the BMC chip through the patch panel; when the BMC chip monitors equipment failure, the failure information is sent to corresponding operation and maintenance personnel through the 5G module; meanwhile, the device adopts FRP service to start the public network mapping of the 5G module, so that operation and maintenance personnel remotely access the 5G module through a public network address and enter a BMC chip background to carry out equipment maintenance.

Further, the 5G module and the RS485 interface are in data communication through a Modbus protocol.

Furthermore, the device also comprises a database, wherein the operation and maintenance personnel information is stored in the database;

when the BMC chip monitors equipment failure, send fault information to corresponding operation and maintenance personnel through the 5G module, specifically include:

when the BMC chip detects equipment failure, calling corresponding operation and maintenance personnel information from the database according to the failure code;

the fault code and the operation and maintenance personnel information are sent to the 5G module through the RS485 interface;

and the 5G module sends the fault code to corresponding operation and maintenance personnel.

Further, the 5G module sends the fault code to corresponding operation and maintenance personnel in a short message mode, wherein the operation and maintenance personnel information is used as recipient information, and the fault code is used as short message content.

Further, the BMC chip is an AST2400 chip.

In a second aspect, a technical solution of the present invention provides a device health management method based on 5G communication, including the following steps:

opening the mapping of the 5G module public network by adopting FRP service;

the BMC chip monitors whether equipment fails or not;

when the BMC chip monitors that equipment fails, fault information is sent to corresponding operation and maintenance personnel through the 5G module;

and remotely accessing the 5G module through the public network address by the operation and maintenance personnel, and entering the BMC chip background to overhaul the equipment.

Further, when the BMC chip monitors that the equipment breaks down, send the fault information to corresponding operation and maintenance personnel through the 5G module, specifically include:

the BMC chip receives a fault code;

calling corresponding operation and maintenance personnel information from a database according to the fault codes;

the fault code and the corresponding operation and maintenance personnel information are sent to the 5G module through an RS485 interface;

and the 5G module sends the fault code to corresponding operation and maintenance personnel.

Further, the 5G module sends the fault code to corresponding operation and maintenance personnel, specifically is:

and the 5G module sends the fault code to corresponding operation and maintenance personnel in a short message form, wherein the operation and maintenance personnel information is used as recipient information, and the fault code is used as short message content.

Compared with the prior art, the device and the method for managing the equipment health based on the 5G communication have the following beneficial effects: the 5G technology enabling server is used for real-time health management, operation and maintenance personnel are reminded in time when equipment fails, and the operation and maintenance personnel enter the BMC background through the public network address to overhaul, so that the operation and maintenance personnel are not limited to regions, time and other factors to remotely maintain the health of the server in real time, and the timeliness of sudden failures of the server is guaranteed.

Drawings

For a clearer explanation of the embodiments or technical solutions of the prior art of the present application, the drawings needed for the description of the embodiments or prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present application, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.

Fig. 1 is a block diagram illustrating a structure of a device health management apparatus based on 5G communication according to an embodiment of the present invention.

Fig. 2 is a schematic flowchart of a method for managing device health based on 5G communication according to an embodiment of the present invention.

Fig. 3 is a flowchart illustrating an embodiment of a method for managing device health based on 5G communication according to the present invention.

Detailed Description

In order that those skilled in the art will better understand the disclosure, the following detailed description will be given with reference to the accompanying drawings. It is to be understood that the embodiments described are only a few embodiments of the present application and not all embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present application.

Fig. 1 is a schematic block diagram of a structure of a device health management apparatus based on 5G communication according to an embodiment of the present invention, and as shown in fig. 1, the apparatus includes a BMC chip, a 5G module, and a patch panel.

The BMC chip generally has an RS485 interface, for example, the BMC chip employs an AST2400 chip, and the 5G module is generally an m.2 interface chip, so that the connection between the BMC chip and the 5G module is achieved by setting the adapter plate, specifically, the 5G module is connected with the RS485 interface of the BMC chip through the adapter plate, so that the BMC chip communicates with the 5G module through the RS485 interface, and then the 5G module sends out information. It should be noted that an antenna port may be reserved on the adapter plate.

In the running process of the equipment, the BMC chip can monitor the health state of the equipment in real time, when the BMC chip monitors that the equipment breaks down, the BMC chip is communicated with the 5G module through the RS485 interface, and the 5G module is triggered to send fault information to corresponding operation and maintenance personnel.

Meanwhile, the device of the embodiment adopts FRP service to start public network mapping of the 5G module, so that operation and maintenance personnel remotely access the 5G module through a public network address and enter a BMC chip background to perform equipment maintenance, such as code modification and equipment restarting and other control functions.

In this embodiment, data transmission is performed between the 5G module and the RS485 interface, and data communication can be performed between the two modules through a Modbus protocol. Aiming AT the control of the BMC chip on the 5G module, the RS485 communication can be used for sending an AT command to the 5G module to control the 5G module according to the 5G module use manual.

When monitoring the equipment fault, the BMC chip triggers the 5G module to send the fault information to corresponding operation and maintenance personnel, in some specific embodiments, a database is built in advance, and the operation and maintenance personnel information is stored in the database and comprises the contact way of the operation and maintenance personnel and fault codes which can be repaired by the operation and maintenance personnel. When the BMC chip monitors equipment failure, corresponding operation and maintenance personnel information is called from a database according to a failure code, the failure code and the operation and maintenance personnel information are sent to the 5G module through the RS485 interface, and then the 5G module sends the failure code to the corresponding operation and maintenance personnel. Certainly, it can be understood that the BMC chip may also determine whether the current fault needs to be maintained by operation and maintenance personnel, and if so, call the information of the operation and maintenance personnel and notify the operation and maintenance personnel through the 5G module; if not, the operation and maintenance personnel information does not need to be called to inform the operation and maintenance personnel, and for example, the alarm can be only carried out locally.

In some specific embodiments, the fault notification can be performed by using a short message function of the 5G module, namely, the fault code is sent to the corresponding operation and maintenance personnel in a short message form, wherein the operation and maintenance personnel information is used as recipient information, and the fault code is used as short message content. And the operation and maintenance personnel can timely acquire the fault information, remotely access the 5G module through the public network address, enter the BMC chip, perform control functions such as code modification and equipment restarting, and achieve the timeliness of fault repair.

The embodiment achieves a method for monitoring the state of the server in real time by using a 5G mature technology and applying the technology to equipment health management based on BMC. In the running process of the machine, when the fault causes alarm, after the health management function of the BMC detects the fault, the fault code and the telephone number of the operation and maintenance personnel requesting to acquire the MySQL database are sent to the 5G module through the RS485 signal, and the 5G module short message function is triggered. And then sending a reminding short message to the operation and maintenance personnel through a 5G network and attaching a fault code. And solving the fault at the first time after the operation and maintenance personnel receive the fault code. And secondly, the 5G module technology is adopted to replace the traditional network cable, so that the BMC board card is free from the constraint of the network cable and can be accessed to the public network. The remote operation control is 'what you see is what you get' by utilizing the 5G technology with low time delay and high reliability.

In the foregoing, a detailed description is given to an embodiment of a device health management apparatus based on 5G communication, and based on the device health management apparatus based on 5G communication described in the foregoing embodiment, an embodiment of the present invention further provides a device health management method based on 5G communication corresponding to the apparatus.

Fig. 2 is a schematic flowchart of a method for managing device health based on 5G communication according to an embodiment of the present invention, and as shown in fig. 2, the method includes the following steps.

S1, opening 5G module public network mapping by adopting FRP service.

And S2, monitoring whether the equipment has a fault by the BMC chip.

And S3, when the BMC chip monitors that the equipment fails, sending failure information to corresponding operation and maintenance personnel through the 5G module.

The BMC chip receives the fault code, calls corresponding operation and maintenance personnel information from the database according to the fault code, sends the fault code and the corresponding operation and maintenance personnel information to the 5G module through the RS485 interface, and the 5G module sends the fault code to the corresponding operation and maintenance personnel.

And the 5G module sends the fault code to corresponding operation and maintenance personnel in a short message form, wherein the operation and maintenance personnel information is used as recipient information, and the fault code is used as short message content.

And S4, remotely accessing the 5G module by the operation and maintenance personnel through the public network address, entering the BMC chip background, and overhauling the equipment.

To further understand the present invention, a specific embodiment is provided below to further explain the present invention in detail, fig. 3 is a schematic flow chart of the specific embodiment, and the specific embodiment includes the following processes:

(1) When the machine runs and fails, the BMC detects the failure and triggers an alarm.

(2) The BMC receives the fault code, judges whether operation and maintenance are needed to be solved, and ends the process if the operation and maintenance are not needed; and if necessary, searching and extracting the information of the operation and maintenance personnel in the database according to the fault code.

(3) The BMC triggers a 5G module short message function by utilizing RS485 communication, the operation and maintenance personnel information is used as the receiver information, and the fault code is the short message content.

(4) And the 5G module sends the information to the receiver according to the received information sent by the BMC through the RS 485.

(5) The operation and maintenance personnel can know the number and the type of the fault equipment according to the fault code and solve the fault in time. And remotely entering the BMC background by the operation and maintenance personnel through the public network address to modify and restart the code and the like.

(6) And detecting whether the alarm is released or not, if so, ending the process, and otherwise, continuously monitoring by the BMC.

The device health management method based on 5G communication of this embodiment is implemented based on the aforementioned device health management apparatus based on 5G communication, so that the specific implementation of this method can be seen in the foregoing part of the embodiment of the device health management apparatus based on 5G communication, and therefore, the specific implementation thereof can refer to the description of the corresponding part of the embodiment, and will not be further described herein.

In addition, since the device health management method based on 5G communication of this embodiment is implemented based on the device health management apparatus based on 5G communication, the role thereof corresponds to that of the above apparatus, and is not described herein again.

The above disclosure is only for the preferred embodiments of the present invention, but the present invention is not limited thereto, and any non-inventive changes that can be made by those skilled in the art and several modifications and amendments made without departing from the principle of the present invention shall fall within the protection scope of the present invention.

Claims (8)

1. A device health management device based on 5G communication is characterized by comprising a BMC chip, a 5G module and a patch panel, wherein the 5G module is connected with an RS485 interface of the BMC chip through the patch panel; when the BMC chip monitors equipment failure, the failure information is sent to corresponding operation and maintenance personnel through the 5G module; meanwhile, the device adopts FRP service to start the public network mapping of the 5G module, so that operation and maintenance personnel remotely access the 5G module through a public network address and enter a BMC chip background to carry out equipment maintenance.

2. The device health management apparatus based on 5G communication according to claim 1, wherein the 5G module and the RS485 interface are previously in data communication through Modbus protocol.

3. The device health management apparatus based on 5G communication according to claim 2, further comprising a database, wherein the database stores therein the information of the operation and maintenance personnel;

when the BMC chip monitors equipment failure, send fault information to corresponding operation and maintenance personnel through the 5G module, specifically include:

when the BMC chip detects equipment failure, calling corresponding operation and maintenance personnel information from the database according to the failure code;

the fault code and the operation and maintenance personnel information are sent to the 5G module through the RS485 interface;

and the 5G module sends the fault code to corresponding operation and maintenance personnel.

4. The equipment health management device based on 5G communication of claim 3, wherein the 5G module sends the fault code to the corresponding operation and maintenance personnel in a form of short message, wherein the operation and maintenance personnel information is used as the recipient information, and the fault code is used as the short message content.

5. The device health management apparatus based on 5G communication of any of claims 1-4, wherein the BMC chip is AST2400 chip.

6. A device health management method based on 5G communication is characterized by comprising the following steps:

opening the mapping of the 5G module public network by adopting FRP service;

the BMC chip monitors whether equipment fails or not;

when the BMC chip monitors that equipment fails, fault information is sent to corresponding operation and maintenance personnel through the 5G module;

and remotely accessing the 5G module through the public network address by the operation and maintenance personnel, and entering the BMC chip background to overhaul the equipment.

7. The device health management method based on 5G communication according to claim 6, wherein when the BMC chip monitors that the device is faulty, the fault information is sent to the corresponding operation and maintenance personnel through the 5G module, specifically comprising:

the BMC chip receives a fault code;

calling corresponding operation and maintenance personnel information from a database according to the fault codes;

the fault code and the corresponding operation and maintenance personnel information are sent to the 5G module through an RS485 interface;

and the 5G module sends the fault code to corresponding operation and maintenance personnel.

8. The equipment health management method based on 5G communication according to claim 7, wherein the 5G module sends the fault code to corresponding operation and maintenance personnel, specifically:

and the 5G module sends the fault code to corresponding operation and maintenance personnel in a short message form, wherein the operation and maintenance personnel information is used as recipient information, and the fault code is used as short message content.

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