CN112684724A - Intelligent board card module management method and system - Google Patents

Abstract

The invention discloses a method and a system for managing an intelligent board card module, wherein the method comprises the following steps: acquiring working state data of the functional board card through a lower intelligent core; transmitting the transmission data determined according to the working state data to the terminal through the intelligent core of the control end; the intelligent core of the control end is connected with a manual control instruction; and executing the control command through the lower intelligent core. And transmitting transmission data by using the intelligent core terminal of the control end, and feeding back the working state data of the functional board card acquired by the subordinate intelligent core to the terminal in time so as to facilitate analysis and processing of related personnel. Meanwhile, the control end intelligent core is used for receiving the manual control instruction, and the control instruction is executed through the subordinate intelligent core, so that the working state of the functional board card is changed. Compared with the existing board card management method, the intelligent board card module management method can be used for carrying out network contact with the outside through the intelligent core of the control end, and can be used for carrying out data transmission in time so as to realize network control.

Description

Intelligent board card module management method and system

Technical Field

The invention relates to the technical field of function board management, in particular to an intelligent board module management method and system.

Background

The normal operation of the equipment depends on the common support of various functional board cards, along with the richness of the functions of the equipment, the number and the types of the board cards are increased, the operating states of the various board cards are different, and how to carry out effective supervision becomes a difficult problem. In the prior art, the management of the board card cannot realize network remote control, and due to the lack of a network service module, the monitoring result of the board card cannot be transmitted to the mobile terminal through the network in time, and a manager cannot remotely issue a control instruction through the mobile terminal, so that a great space-time limitation is formed.

Disclosure of Invention

The invention mainly aims to provide an intelligent board card module management method, and aims to solve the problem that the existing board card management method cannot realize network control.

In order to achieve the purpose, the intelligent board card module management method provided by the invention is applied to an intelligent board card module management system, wherein the intelligent board card module management system comprises a subordinate intelligent core and a control terminal intelligent core which are in signal connection;

the intelligent board card module management method comprises the following steps:

acquiring working state data of the functional board card through the lower intelligent core;

transmitting the transmission data determined according to the working state data to a terminal through the intelligent core of the control end;

receiving a manual control instruction through the intelligent core of the control end;

executing a control instruction through the subordinate intelligent core; wherein the control instruction comprises a manual control instruction and an automatic control instruction.

Preferably, the subordinate intelligent core comprises a function board monitoring module and a subordinate communication management module which are in signal connection, and the function board monitoring module and the subordinate communication management module are respectively in signal connection with a sensor arranged on the function board;

the step of obtaining the working state data of the functional board card through the subordinate intelligent core comprises the following steps:

acquiring working state data of the functional board card through the sensor, and sending the working state data to the subordinate intelligent core;

after the step of obtaining the working state data of the functional board card through the subordinate intelligent core, the method further comprises the following steps:

generating a state machine through the function board card monitoring module;

marking the working state data through the state machine to form health data of the functional board card;

processing, by the subordinate communication management module, the health data into the transmission data conforming to a communication protocol format.

Preferably, the intelligent board card module management system further comprises a management-side intelligent core in signal connection with the subordinate intelligent core and the control-side intelligent core respectively;

after the step of obtaining the working state data of the functional board card through the subordinate intelligent core, the method further comprises the following steps:

acquiring the health data through the intelligent core of the management terminal, and judging whether the function board card is abnormal or not according to the health data;

if so, generating an automatic control instruction according to the health data through the intelligent management end core, and simultaneously sending an alarm signal and the health data to the intelligent control end core through the intelligent management end core;

and if not, re-executing the step of acquiring the working state data of the functional board card through the subordinate intelligent core.

Preferably, the intelligent core of the management end comprises a communication management module of the management end and an information processing module which are connected through signals;

the step of acquiring the health data through the intelligent core of the management terminal and judging whether the functional board card is abnormal according to the health data comprises the following steps:

presetting the threshold value of each functional board card through the information processing module;

acquiring the health data through the management terminal communication management module, and forwarding the health data to the information processing module;

and comparing the health data with the threshold value of the functional board card through the information processing module, and judging whether the functional board card is abnormal according to the comparison result.

Preferably, the control end intelligent core comprises a communication module and a network service module which are in signal connection;

the step of sending the alarm signal and the health data to the control end intelligent core through the management end intelligent core comprises the following steps:

receiving the alarm signal and the health data through the communication module, and forwarding the alarm signal and the health data to the network service module;

and sending the alarm signal and the health data to the terminal through the network service module.

Preferably, the received control instruction is a manual control instruction through the network service module;

after the step of receiving the manual control instruction through the intelligent core of the control end, the method further comprises the following steps:

the received manual control instruction is forwarded to the communication module through the network service module and is issued to the management terminal communication management module through the communication module;

and the management terminal communication management module suspends sending an alarm signal to the control terminal intelligent core according to the received manual control instruction and forwards the manual control instruction to the subordinate intelligent core.

Preferably, the step of executing a control command by the subordinate smart core includes:

and the lower-level communication management module receives the manual control instruction and switches the power supply of the functional board card load or the service of the functional board card load core according to the manual control instruction.

Preferably, after the step of executing the control command by the subordinate smart core, the method further includes:

the step of acquiring the working state data of the functional board card through the subordinate intelligent core, the step of marking the working state data through the state machine to form the health data of the functional board card and the step of acquiring the health data through the intelligent core of the management end and judging whether the functional board card is abnormal or not according to the health data are sequentially executed again;

and if so, sending a secondary alarm signal and the health data to the intelligent core of the control end through the intelligent core of the management end.

In addition, in order to achieve the above object, the present invention also provides an intelligent board module management system, wherein the intelligent board module management system applies any one of the steps of the above methods; the intelligent board card module management system comprises a subordinate intelligent core and a control end intelligent core which are connected through signals.

Preferably, the subordinate intelligent core comprises a function board monitoring module and a subordinate communication management module which are connected through signals, and the function board monitoring module and the subordinate communication management module are respectively connected with sensors arranged on the function board through signals.

In the technical scheme of the invention, the control end intelligent core is used for sending the transmission data by the terminal, and the working state data of the function board card acquired by the subordinate intelligent core is fed back to the terminal in time so as to be convenient for relevant personnel to analyze and process. Meanwhile, the control end intelligent core is used for receiving the manual control instruction, and the control instruction is executed through the subordinate intelligent core so as to change the working state of the functional board card. Compared with the existing board card management method, the intelligent board card module management method can be used for carrying out network contact with the outside through the intelligent core of the control end, and can be used for carrying out data transmission in time so as to realize network control.

Drawings

Fig. 1 is a schematic flow chart of the intelligent board card module management method of the present invention.

The objects, features and advantages of the present invention will be further explained with reference to the accompanying drawings.

Detailed Description

It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

Referring to fig. 1, in a first embodiment of the present invention, an intelligent board module management method is applied to an intelligent board module management system, where the intelligent board module management system includes a subordinate intelligent core and a control-end intelligent core that are connected by signals;

the intelligent board card module management method comprises the following steps:

step S10, acquiring the working state data of the functional board card through the subordinate intelligent core;

step S20, transmitting the transmission data determined according to the working state data to a terminal through the intelligent core of the control end;

step S30, receiving a manual control instruction through the control end intelligent core;

step S40, executing a control command by the subordinate intelligent core; wherein the control instruction comprises a manual control instruction and an automatic control instruction.

In the technical scheme of the invention, the control end intelligent core is used for sending the transmission data by the terminal, and the working state data of the function board card acquired by the subordinate intelligent core is fed back to the terminal in time so as to be convenient for relevant personnel to analyze and process. Meanwhile, the control end intelligent core is used for receiving the manual control instruction, and the control instruction is executed through the subordinate intelligent core so as to change the working state of the functional board card. Compared with the existing board card management method, the intelligent board card module management method can be used for carrying out network contact with the outside through the intelligent core of the control end, and can be used for carrying out data transmission in time so as to realize network control.

Specifically, the control end intelligent core comprises a timing unit; the terminal comprises a main terminal and an auxiliary terminal;

the step S20 includes:

step S21, the control end intelligent core sends the transmission data determined according to the working state data to the main terminal, and meanwhile, the timing unit starts timing;

step S22, when the duration counted by the timing unit reaches a preset duration and the control-end smart core does not receive the manual control instruction, the control-end smart core sends the transmission data to the primary terminal and the secondary terminal at the same time.

Based on the first embodiment of the intelligent board module management method, the second embodiment of the intelligent board module management method of the present invention includes that the subordinate intelligent core includes a function board monitoring module and a subordinate communication management module which are in signal connection, and the function board monitoring module and the subordinate communication management module are respectively in signal connection with a sensor arranged on the function board;

the step S10 includes:

step S11, acquiring the working state data of the functional board card through the sensor, and sending the working state data to the subordinate intelligent core;

after the step S10, the method further includes:

step S50, generating a state machine through the function board card monitoring module;

step S60, marking the working state data through the state machine to form the health data of the functional board card;

step S70, processing the health data into the transmission data conforming to the communication protocol format by the lower communication management module.

Further, the step S60 includes:

step S61, presetting thresholds of various monitoring items through the state machine;

step S62, acquiring the working state data through the state machine, and comparing the working state data with the threshold values of the monitoring items of the same category;

and step S63, according to the comparison result, the state machine generates the health data of the functional board card.

Based on the second embodiment of the intelligent board card module management method of the present invention, in the third embodiment of the intelligent board card module management method of the present invention, the intelligent board card module management system further includes a management-side intelligent core in signal connection with the subordinate intelligent core and the control-side intelligent core, respectively;

after the step S10, the method further includes:

step S12, acquiring the health data through the intelligent core of the management terminal, and judging whether the function board card is abnormal according to the health data;

step S13, if yes, generating an automatic control instruction according to the health data through the intelligent management end core, and simultaneously sending an alarm signal and the health data to the intelligent control end core through the intelligent management end core;

step S14, if not, the step S10 is executed again.

Preferably, the step of generating an automatic control instruction according to the health data by the management-side smart core in step S13 includes:

step S13a, switching the power supply of the functional board card load according to the health data through the intelligent core of the management terminal, and sequentially re-executing the step S10, the step S60 and the step S12;

step S13b, if yes, switching the service of the functional board load core through the management-side smart core according to the health data, and sequentially re-executing the step S10, the step S60, and the step S12;

step S13c, if yes, re-executing the step of sending the alarm signal and the health data to the control end smart core through the management end smart core in step S13.

Based on the third embodiment of the intelligent board card module management method of the present invention, in the fourth embodiment of the intelligent board card module management method of the present invention, the management-side intelligent core includes a management-side communication management module and an information processing module that are in signal connection;

the step S12 includes:

step S12a, presetting the threshold value of each functional board card through the information processing module;

step S12b, acquiring the health data through the management terminal communication management module, and forwarding the health data to the information processing module;

step S12c, comparing the health data with the threshold of the functional board through the information processing module, and determining whether the functional board is abnormal according to the comparison result.

The information processing module is preset with thresholds of all function board cards, the health data are compared with the thresholds of the function board cards, and when the value of the health data exceeds the threshold range of the function board cards, the function board cards can be judged to be in an abnormal state; and when the value of the health data is within the threshold range of the functional board card, the functional board card can be judged to be in a normal state. Through the data comparison processing, the health condition of the functional board card can be clearly reflected so as to facilitate the subsequent operation.

Based on the fourth embodiment of the intelligent board card module management method, in the fifth embodiment of the intelligent board card module management method, the control end intelligent core comprises a communication module and a network service module which are in signal connection;

the step of sending the alarm signal and the health data to the control-side smart core through the management-side smart core in step S13 includes:

step S13d, the alarm signal and the health data are received by the communication module and forwarded to the network service module;

step S13e, sending the warning signal and the health data to the terminal through the network service module.

Specifically, the management-side intelligent core further comprises a storage module;

after the step S13e, the method further includes:

step S13f, the data of the alarm signal and the health data sent to the terminal by the network service module is obtained through the communication module, and a sending log is formed;

and step S13g, sending the sending log to the storage module for storage through the communication module.

Based on the fifth embodiment of the intelligent board card module management method of the present invention, in the sixth embodiment of the intelligent board card module management method of the present invention, the received control instruction is a manual control instruction through the network service module;

after the step S30, the method further includes:

step S80, the network service module forwards the received manual control command to the communication module, and the manual control command is sent to the management terminal communication management module through the communication module;

step S90, the management-side communication management module suspends sending an alarm signal to the control-side intelligent core according to the received manual control instruction, and forwards the manual control instruction to the subordinate intelligent core.

Furthermore, the intelligent core of the management terminal also comprises a learning module;

after the step S30, the method further includes:

step S100, reading the manual control instruction through the learning module, and comparing the manual control instruction with the automatic control instruction;

step S110, sending a correction instruction to the intelligent core of the management terminal through the learning module according to a comparison result;

and step S120, the intelligent core of the management terminal adjusts the generation strategy of the automatic control instruction according to the correction instruction.

Based on the sixth embodiment of the intelligent board module management method of the present invention, in the seventh embodiment of the intelligent board module management method of the present invention, the step S40 includes:

step S41, the lower communication management module receives the manual control instruction, and switches the power supply of the functional board load or the service of the functional board load core according to the manual control instruction.

The manual control instruction comprises two modes of switching power supply of the functional board card load or service of the functional board card load core, and the corresponding manual control instruction is sent to the control end intelligent core through the terminal according to analysis of relevant personnel on the health condition of the functional board card. And the lower communication management module is responsible for specific execution after receiving the manual control instruction so as to change the running state of the functional board card.

Based on any one of the first embodiment to the seventh embodiment of the intelligent board module management method according to the present invention, in an eighth embodiment of the intelligent board module management method according to the present invention, after step S40, the method further includes:

a step S42 of re-executing the step S10, the step S60 and the step S12 in this order;

and step S43, if yes, sending a secondary alarm signal and the health data to the control end intelligent core through the management end intelligent core.

Preferably, after the step of sending the secondary alarm signal and the health data to the control-side smart core through the management-side smart core in step S43, the method further includes:

step S44, sending a control command to the intelligent core of the management terminal through the intelligent core of the control terminal;

step S45, regenerating an automatic control instruction according to the control command through the intelligent core of the management terminal;

step S46, re-executing the step S40.

In order to achieve the above object, the present invention further provides an intelligent board module management system, which applies the steps of any one of the above methods; the intelligent board card module management system comprises a subordinate intelligent core and a control end intelligent core which are connected through signals.

Preferably, the subordinate intelligent core comprises a function board monitoring module and a subordinate communication management module which are connected through signals, and the function board monitoring module and the subordinate communication management module are respectively connected with sensors arranged on the function board through signals.

Specifically, the intelligent board card module management system comprises a lower-level intelligent core, a management-side intelligent core and a control-side intelligent core; the lower intelligent core comprises a function board monitoring module and a lower communication management module which are connected through signals, the management-side intelligent core comprises a management-side communication management module and an information processing module which are connected through signals, and the control-side intelligent core comprises a communication module and a network service module which are connected through signals; the function board card monitoring module and the subordinate communication management module are respectively in signal connection with the function board card, the subordinate communication management module is in signal connection with the management terminal communication management module, the management terminal communication management module is in signal connection with the communication module, and the network service module is in signal connection with the terminal.

The above description is only a preferred embodiment of the present invention, and not intended to limit the scope of the present invention, and all modifications of equivalent structures and equivalent processes, which are made by using the contents of the present specification and the accompanying drawings, or directly or indirectly applied to other related technical fields, are included in the scope of the present invention.

Claims (10)

1. The intelligent board card module management method is characterized by being applied to an intelligent board card module management system, wherein the intelligent board card module management system comprises a subordinate intelligent core and a control terminal intelligent core which are in signal connection;

the intelligent board card module management method comprises the following steps:

acquiring working state data of the functional board card through the lower intelligent core;

transmitting the transmission data determined according to the working state data to a terminal through the intelligent core of the control end;

receiving a manual control instruction through the intelligent core of the control end;

executing a control instruction through the subordinate intelligent core; wherein the control instruction comprises a manual control instruction and an automatic control instruction.

2. The method according to claim 1, wherein the subordinate intelligent core includes a function board monitoring module and a subordinate communication management module that are in signal connection, and the function board monitoring module and the subordinate communication management module are in signal connection with sensors disposed on the function board, respectively;

the step of obtaining the working state data of the functional board card through the subordinate intelligent core comprises the following steps:

acquiring working state data of the functional board card through the sensor, and sending the working state data to the subordinate intelligent core;

after the step of obtaining the working state data of the functional board card through the subordinate intelligent core, the method further comprises the following steps:

generating a state machine through the function board card monitoring module;

marking the working state data through the state machine to form health data of the functional board card;

processing, by the subordinate communication management module, the health data into the transmission data conforming to a communication protocol format.

3. The intelligent board module management method according to claim 2, wherein the intelligent board module management system further comprises a management-side intelligent core in signal connection with the subordinate intelligent core and the control-side intelligent core, respectively;

after the step of obtaining the working state data of the functional board card through the subordinate intelligent core, the method further comprises the following steps:

acquiring the health data through the intelligent core of the management terminal, and judging whether the function board card is abnormal or not according to the health data;

if so, generating an automatic control instruction according to the health data through the intelligent management end core, and simultaneously sending an alarm signal and the health data to the intelligent control end core through the intelligent management end core;

and if not, re-executing the step of acquiring the working state data of the functional board card through the subordinate intelligent core.

4. The intelligent board module management method according to claim 3, wherein the management-side intelligent core comprises a management-side communication management module and an information processing module which are in signal connection;

the step of acquiring the health data through the intelligent core of the management terminal and judging whether the functional board card is abnormal according to the health data comprises the following steps:

presetting the threshold value of each functional board card through the information processing module;

acquiring the health data through the management terminal communication management module, and forwarding the health data to the information processing module;

and comparing the health data with the threshold value of the functional board card through the information processing module, and judging whether the functional board card is abnormal according to the comparison result.

5. The intelligent board module management method according to claim 4, wherein the control-side intelligent core comprises a communication module and a network service module which are in signal connection;

the step of sending the alarm signal and the health data to the control end intelligent core through the management end intelligent core comprises the following steps:

receiving the alarm signal and the health data through the communication module, and forwarding the alarm signal and the health data to the network service module;

and sending the alarm signal and the health data to the terminal through the network service module.

6. The intelligent board card module management method according to claim 5, wherein the received control instruction is a manual control instruction through the network service module;

after the step of receiving the manual control instruction through the intelligent core of the control end, the method further comprises the following steps:

the received manual control instruction is forwarded to the communication module through the network service module and is issued to the management terminal communication management module through the communication module;

and the management terminal communication management module suspends sending an alarm signal to the control terminal intelligent core according to the received manual control instruction and forwards the manual control instruction to the subordinate intelligent core.

7. The method according to claim 6, wherein the step of executing the control command via the subordinate intelligent core comprises:

and the lower-level communication management module receives the manual control instruction and switches the power supply of the functional board card load or the service of the functional board card load core according to the manual control instruction.

8. The intelligent board module management method according to any one of claims 1 to 7, wherein the step of executing the control command by the subordinate intelligent core is followed by further comprising:

the step of acquiring the working state data of the functional board card through the subordinate intelligent core, the step of marking the working state data through the state machine to form the health data of the functional board card and the step of acquiring the health data through the intelligent core of the management end and judging whether the functional board card is abnormal or not according to the health data are sequentially executed again;

and if so, sending a secondary alarm signal and the health data to the intelligent core of the control end through the intelligent core of the management end.

9. An intelligent board module management system, characterized in that the intelligent board module management system applies the steps of the method of any one of claims 1-8; the intelligent board card module management system comprises a subordinate intelligent core and a control end intelligent core which are connected through signals.

10. The system according to claim 9, wherein the subordinate intelligent core includes a function board monitoring module and a subordinate communication management module, which are in signal connection, and the function board monitoring module and the subordinate communication management module are in signal connection with sensors disposed on the function board, respectively.

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