CN113282549A - Cloud computing management system - Google Patents

Abstract

The invention discloses a cloud computing management system, which belongs to the technical field of cloud computing management and aims to solve the problem that the existing cloud computing management system still has great improvement space in the aspects of information recommendation and file management, and comprises an acquisition module, a resource management module, an intelligent monitoring module, a disaster recovery module, a recommendation module, a server, a storage module and a retrieval module, wherein the acquisition module is used for acquiring client information and sending the acquired client information to the server, the client information comprises the company working field, the company scale, the company value view and the average age of a company management layer, the client information can help a client to plan a better plan by knowing company stage targets of similar companies, and the client information can find out which needs to be noticed and learned in the future development of the company from the development process of the similar companies, the management mode of a similar company is known, and the management mode of the company is observed to have or not to be improved.

Description

Cloud computing management system

Technical Field

The invention belongs to the technical field of cloud computing management; in particular to a cloud computing management system.

Background

Cloud computing is one of distributed computing, which means that a huge data computing processing program is decomposed into countless small programs through a network cloud, then a system consisting of a plurality of servers is used for processing and analyzing the small programs to obtain results and returning the results to a user, the cloud computing is also called grid computing, and by the technology, tens of thousands of data can be processed in a short time, so that a strong network service is achieved.

The patent with publication number CN110334157A discloses a cloud computing management system, which includes a cloud client data end, a data acquisition module, a data transmission module, and a cloud computing center, where the cloud client data end is used to collect and store relevant data of local clients, the data acquisition module is used to acquire and perform security detection on data in the cloud client data end, and transmit detected security data to the cloud computing center through the data transmission module, and the cloud computing center is used to store and process received data. The invention provides a cloud computing management system, which ensures the safety of the cloud computing management system by carrying out safety detection on acquired data; the data storage mode and the processing mode of the cloud computing center are improved, so that the reliability of data storage in the cloud computing system is effectively improved, the load balance among cloud nodes is ensured, and the application processing performance of the cloud computing system is effectively improved.

However, the existing cloud computing management system still has a great room for improvement in terms of information recommendation and file management, and the disclosed patent cannot solve the problem, and a solution is provided for solving the problem.

Disclosure of Invention

The invention aims to provide a cloud computing management system, which solves the problem that the existing cloud computing management system still has great improvement space in the aspects of information recommendation and file management.

The purpose of the invention can be realized by the following technical scheme:

a cloud computing management system comprises an acquisition module, a resource management module, an intelligent monitoring module, a disaster recovery module, a recommendation module, a server, a storage module and a retrieval module;

the acquisition module is used for acquiring client information and sending the acquired client information to the server;

the client information comprises company pursuit fields, company scales, company value views and the average age of a company management layer;

the server receives the client information sent by the acquisition module and sends the received client information to the recommendation module, the recommendation module carries out recommendation according to the received client information, and the specific recommendation steps are as follows:

s11: setting a first threshold value corresponding to all company engaged fields, wherein the value range of the first threshold value is larger than zero and smaller than one, matching the client company engaged fields with all company engaged fields to obtain a corresponding first threshold value and marking the first threshold value as Y1, setting all company scales corresponding to a second threshold value, wherein the value range of the second threshold value is larger than zero and smaller than one, matching the client company scales with all company scales to obtain a corresponding second threshold value and marking the client company scales as Y2, setting all company value views corresponding to a third threshold value, wherein the value range of the third threshold value is larger than zero and smaller than one, matching the client company value views with all company value views to obtain a corresponding third threshold value and marking the third threshold value as Y3;

s12: setting the average age of the company management layer as Y4, and performing dimension removal and numerical calculation on the first threshold, the second threshold, the third threshold and the average age of the company management layer;

s13: using formulas

Obtaining a company recommended basic value YQ; wherein b1, b2, b3 and b4 are all proportionality coefficients, lambda is a correction factor, and the value range is 0<λ≤1；

S14: marking the company recommendation value stored in the storage module as YQ_jWherein j is 1, … …, n;

s15: using the formula C ═ YQ-YQ_jAcquiring a recommended arrangement value, and pushing company information stored in the corresponding storage module to a client company from small to large in sequence according to the size of the recommended arrangement value;

the resource management module is used for managing files in the storage module, and comprises the following specific steps:

s21: retrieving files in the storage module that have not been used for more than a month, and marking the retrieved files that have not been used for more than a month;

s22: newly building a folder, naming the folder as a first folder, and transferring all marked files to the newly built first folder;

s23: compressing the newly-built first folder, and creating a quick access link of the compressed first folder on a display interface of the resource management module;

s24: and performing popup on a display desktop, clicking a quick access link to enter a compressed first folder, and performing batch selection on the files which are not needed, wherein the resource management module comprises a one-key deletion key, clicking the one-key deletion key, and deleting the files which are selected in batches.

Further, the company information includes a company management model, a company development history, a company strategy goal, and a company stage goal.

Furthermore, the retrieval module is used for a client to quickly retrieve required information and comprises a local data information retrieval unit, a cloud data retrieval unit and a sequencing unit;

the local data information retrieval unit is used for quickly retrieving data information in the system, retrieving according to keywords input by a client and sending retrieved data to the sequencing unit;

the sorting unit receives the retrieval data sent by the local data information retrieval unit, sorts the received retrieval data, sorts the retrieval data according to the creation time of the retrieved data, sorts the retrieval data from near to far in sequence according to the creation time, and displays the sorted data to the client.

Further, the cloud data retrieval unit is used for a client to perform quick retrieval at a cloud, and the specific steps are as follows:

s31: acquiring client retrieval keywords, client company engaged fields and recent browsing information;

s32: searching according to the client searching keyword;

s33: dividing the retrieved data information into related field data information and non-related field data information according to the working field of the client company;

s34: sorting the related field data information and the non-related field data information according to the relevance of the retrieved data information and the latest browsing information;

s35: and sorting according to the retrieved data uploading time, sorting in sequence from near to far according to the uploading time, and displaying the sorted data to the client.

Further, the disaster recovery module comprises a cloud storage unit, a backup unit and a recovery unit;

the backup unit is used for generating a backup file from the file in the storage module and sending the backup file to the cloud storage unit;

the cloud storage unit is independent of the management system, receives the backup file sent by the backup unit and stores the received backup file;

the recovery unit is used for copying all data stored in the cloud storage unit into the formatted storage module.

Furthermore, the intelligent monitoring module is used for protecting the operation safety of the system, and comprises a real-time monitoring unit, an interception unit, an alarm unit and an attack unit;

the real-time monitoring unit is used for monitoring the operation state of the system in real time, generating an interception signal, an alarm signal and a counterattack signal when the intrusion condition is monitored, transmitting the interception signal to the interception unit, transmitting the alarm signal to the alarm unit and transmitting the counterattack signal to the counterattack unit;

the alarm unit receives the alarm signal sent by the real-time monitoring unit, generates an alarm sound, records the intrusion, and sends intrusion record data to the cloud storage unit;

the cloud storage unit receives intrusion record data sent by the alarm unit and stores the received intrusion record data;

the counterattack unit receives the counterattack signal sent by the real-time monitoring unit and counterattacks the intrusion source;

the intercepting unit receives the intercepting signal sent by the real-time monitoring unit and intercepts the intrusion behavior, and when the intercepting unit cannot intercept the intrusion behavior, the intercepting unit generates a backup signal and sends the backup signal to the backup unit;

the backup unit receives the backup signal sent by the intercepting unit, generates a backup file for data in the storage module and sends the backup file to the storage cloud unit;

the storage cloud unit receives the backup file sent by the backup unit, stores the received backup file, generates a deletion signal after the storage is finished, and sends the deletion signal to the server;

and the server receives the deleting signal sent by the storage cloud unit, controls the storage module to format the data in the storage module, and disconnects the connection with the disaster recovery module.

The invention has the beneficial effects that: the method comprises the steps that client information is collected through a collection module and sent to a server, the server receives the client information sent by the collection module and sends the received client information to a recommendation module, the recommendation module carries out recommendation according to the received client information, the client company is helped to plan the next step better by knowing company stage targets of similar companies, and in the development process of the similar companies, the fact that the company needs to pay attention and learn in the future development is found, the management mode of the similar companies is known, and the fact that the management mode of the company has places which need to be improved is observed;

managing the files in the storage module through the resource management module, retrieving the files in the storage module which are not used for more than a month, marking the retrieved files which are not used for more than a month, creating a new folder, and naming the folder as the first folder, and also can be other names, such as: naming the current date, naming the time of a newly-built first folder, transferring all marked files into the newly-built first folder, compressing the newly-built first folder, creating a quick access link of the compressed first folder on a display interface of a resource management module, popup on a display desktop, reminding a client of deleting unnecessary files in the first folder, clicking the quick access link to enter the compressed first folder, and selecting the unnecessary files in batches, wherein the resource management module comprises a one-click deleting key, clicking the one-click deleting key to delete the files selected in batches, so that the client is simply and conveniently helped to manage the files and quickly delete the unnecessary files, and the client can conveniently enter the folder to delete the files at any time by creating the quick access link of the compressed first folder on the display interface of the resource management module, the client is prevented from not finding the folder in a plurality of files.

Through the arrangement of the retrieval module, a client can conveniently and quickly retrieve required information, and the working efficiency is improved; through the arrangement of the disaster recovery module, when files in the storage module are prevented from being lost and invaded due to the failure of the management system and cannot be effectively intercepted, the data in the storage module can be transferred urgently, the data loss is prevented, and the data in the storage module can be quickly recovered; through the setting of intelligent monitoring module, protection system operation safety when receiving the invasion and can not effectively intercept, can delete the data in the storage module fast, avoids data to reveal, brings the heavy loss for the company.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the drawings without creative efforts.

Fig. 1 is a schematic block diagram of the present invention.

Detailed Description

The technical solutions of the present invention will be described clearly and completely with reference to the following embodiments, and it should be understood that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be 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 invention.

As shown in fig. 1, a cloud computing management system includes an acquisition module, a resource management module, an intelligent monitoring module, a disaster recovery module, a recommendation module, a server, a storage module, and a retrieval module;

the acquisition module is used for acquiring client information and sending the acquired client information to the server;

the client information comprises the company pursuing field, the company scale, the company value view and the average age of the company management layer;

the server receives the client information sent by the acquisition module and sends the received client information to the recommendation module, and the recommendation module carries out recommendation according to the received client information, wherein the specific recommendation steps are as follows:

s11: setting a first threshold value corresponding to all company engaged fields, wherein the value range of the first threshold value is larger than zero and smaller than one, matching the client company engaged fields with all company engaged fields to obtain a corresponding first threshold value and marking the first threshold value as Y1, setting all company scales corresponding to a second threshold value, wherein the value range of the second threshold value is larger than zero and smaller than one, matching the client company scales with all company scales to obtain a corresponding second threshold value and marking the client company scales as Y2, setting all company value views corresponding to a third threshold value, wherein the value range of the third threshold value is larger than zero and smaller than one, matching the client company value views with all company value views to obtain a corresponding third threshold value and marking the third threshold value as Y3;

s12: setting the average age of the company management layer as Y4, and performing dimension removal and numerical calculation on the first threshold, the second threshold, the third threshold and the average age of the company management layer;

s13: using formulas

Obtaining a company recommended basic value YQ; wherein b1, b2, b3 and b4 are all proportionality coefficients, lambda is a correction factor, and the value range is 0<λ≤1；

S14: marking other company recommended values stored in the storage module as YQ_jWherein j is 1, … …, n;

s15: using the formula C ═ YQ-YQ_jAcquiring a recommended arrangement value, and pushing other company information stored in the corresponding storage module to the client company from small to large in sequence according to the size of the recommended arrangement value;

other company information comprises a company management mode, a company development process, a company strategic objective and a company stage objective, the company management mode, the company development process, the company strategic objective and the company stage objective are learned to help client companies to plan next step better, and from the development process of similar companies, the company is found which needs to be noticed and learned in future development, the company management mode is learned, and whether the company management mode needs to be improved or not is observed;

the resource management module is used for managing files in the storage module, and comprises the following specific steps:

s21: retrieving files in the storage module that have not been used for more than a month, and marking the retrieved files that have not been used for more than a month;

s22: a folder is newly created and named as the first folder, but also other names are possible, such as: naming by date of the day, naming by time of the newly-built first folder, and the like, and transferring all marked files to the newly-built first folder;

s23: compressing the newly-built first folder, and creating a quick access link of the compressed first folder on a display interface of the resource management module;

s24: performing popup on a display desktop, reminding a client to delete unnecessary files in a first folder, clicking a quick access link to enter the compressed first folder, and performing batch selection on the unnecessary files, wherein the resource management module comprises a one-click deletion key, clicking the one-click deletion key, and deleting the files after batch selection;

the retrieval module is used for quickly retrieving required information by a client and comprises a local data information retrieval unit, a cloud data retrieval unit and a sorting unit;

the local data information retrieval unit is used for quickly retrieving data information in the system, retrieving according to keywords input by a client and sending retrieved data to the sequencing unit;

the sorting unit receives the retrieval data sent by the local data information retrieval unit, sorts the received retrieval data, sorts the retrieval data according to the creation time of the retrieved data, sorts the retrieval data from near to far in sequence according to the creation time, and displays the sorted data to the client;

the cloud data retrieval unit is used for a client to perform quick retrieval at the cloud, and the method comprises the following specific steps:

s31: acquiring client retrieval keywords, client company engaged fields and recent browsing information;

s32: searching according to the client searching keyword;

s33: dividing the retrieved data information into related field data information and non-related field data information according to the working field of the client company;

s34: sorting the related field data information and the non-related field data information according to the relevance of the retrieved data information and the latest browsing information; the correlation degree between the retrieved data information and the latest browsing information is the prior art and can be obtained according to the patent with the publication number of CN 106649423A;

s35: sorting according to the retrieved data uploading time, sequentially sorting from near to far according to the uploading time, and displaying the sorted data to the client;

the disaster recovery module comprises a cloud storage unit, a backup unit and a recovery unit;

the backup unit is used for generating a backup file from the file in the storage module and sending the backup file to the cloud storage unit;

the cloud storage unit is independent of the management system, receives the backup files sent by the backup unit and stores the received backup files, so that the files in the storage module are prevented from being lost due to the failure of the management system;

the recovery unit is used for copying all data stored in the cloud storage unit into the formatted storage module;

the intelligent monitoring module is used for protecting the operation safety of the system and comprises a real-time monitoring unit, an interception unit, an alarm unit and a counterattack unit;

the real-time monitoring unit is used for monitoring the operation state of the system in real time, generating an interception signal, an alarm signal and a counterattack signal when the intrusion condition is monitored, transmitting the interception signal to the interception unit, transmitting the alarm signal to the alarm unit and transmitting the counterattack signal to the counterattack unit;

the alarm unit receives the alarm signal sent by the real-time monitoring unit, generates an alarm sound, records the intrusion, and sends intrusion record data to the cloud storage unit;

the cloud storage unit receives intrusion record data sent by the alarm unit and stores the received intrusion record data;

the counterattack unit receives the counterattack signal sent by the real-time monitoring unit and counterattacks the intrusion source;

the interception unit receives the interception signal sent by the real-time monitoring unit and intercepts the intrusion behavior, and when the interception unit cannot intercept the intrusion behavior, the interception unit generates a backup signal and sends the backup signal to the backup unit;

the backup unit receives the backup signal sent by the interception unit, generates a backup file for the data in the storage module and sends the backup file to the storage cloud unit;

the storage cloud unit receives the backup file sent by the backup unit, stores the received backup file, generates a deletion signal after the storage is finished, and sends the deletion signal to the server;

the server receives the deleting signal sent by the storage cloud unit, controls the storage module to format the data in the storage module, and disconnects the connection with the disaster recovery module.

The above formulas are all calculated by removing dimensions and taking values thereof, the formula is one closest to the real situation obtained by collecting a large amount of data and performing software simulation, and the preset parameters in the formula are set by the technical personnel in the field according to the actual situation.

When the invention is used, the acquisition module is used for acquiring client information and sending the acquired client information to the server, the server receives the client information sent by the acquisition module and sends the received client information to the recommendation module, the recommendation module recommends according to the received client information, according to the obtained recommended arrangement value, other company information stored in the corresponding storage module is pushed to a client company from small to large in sequence according to the size of the recommended arrangement value, files in the storage module are managed through the resource management module, files which are not used for more than one month in the storage module are retrieved, the retrieved files which are not used for more than one month are marked, a folder is newly built, the folder is named as a first folder, and also can be other names, and all the marked files are transferred to the newly built first folder, compressing the newly-built first folder, creating a quick access link of the compressed first folder on a display interface of a resource management module, popping a window on a display desktop, reminding a client of deleting unnecessary files in the first folder, clicking the quick access link to enter the compressed first folder, and performing batch selection on the unnecessary files, wherein the resource management module comprises a one-key deletion key, clicking the one-key deletion key, and deleting the files after batch selection;

the local data information retrieval unit is used for quickly retrieving data information in the system, retrieving according to keywords input by a client and sending retrieved data to the sorting unit, the sorting unit receives the retrieved data sent by the local data information retrieval unit, sorts the received retrieved data, sorts according to the creation time of the retrieved data, sorts the data in sequence from near to far according to the creation time and displays the sorted data to the client; the method comprises the steps that a cloud data retrieval unit is used for helping a client to carry out quick retrieval at a cloud, obtaining a client retrieval keyword, a client company engaged field and latest browsing information, carrying out retrieval according to the client retrieval keyword, dividing retrieved data information into related field data information and non-related field data information according to the client company engaged field, sorting the related field data information and the non-related field data information according to the correlation degree of the retrieved data information and the latest browsing information, sorting according to the retrieved data uploading time, sorting in sequence from near to far according to the uploading time, and displaying the sorted data to the client;

the method comprises the steps that a backup file is generated from files in a storage module through a backup unit and is sent to a cloud storage unit, the cloud storage unit receives the backup file sent by the backup unit and stores the received backup file, file loss in the storage module caused by a management system fault is prevented, and data stored in the cloud storage unit are all copied into the formatted storage module through a recovery unit;

the intelligent monitoring module is used for protecting the operation safety of the system, the real-time monitoring unit is used for monitoring the operation state of the system in real time, when the invasion condition is monitored, an interception signal, an alarm signal and a counterattack signal are generated, the interception signal is sent to the interception unit, the alarm signal is sent to the alarm unit, the counterattack signal is sent to the counterattack unit, the alarm unit receives the alarm signal sent by the real-time monitoring unit and generates an alarm sound, the invasion is recorded, the invasion record data is sent to the cloud storage unit, the cloud storage unit receives the invasion record data sent by the alarm unit and stores the received invasion record data, the counterattack unit receives the counterattack signal sent by the real-time monitoring unit, the counterattack unit counterattacks the invasion source, the interception unit receives the interception signal sent by the real-time monitoring unit and intercepts the invasion behavior, when the interception unit cannot intercept the data, the interception unit generates a backup signal and sends the backup signal to the backup unit, the backup unit receives the backup signal sent by the interception unit, generates a backup file for the data in the storage module, sends the backup file to the storage cloud unit, the storage cloud unit receives the backup file sent by the backup unit and stores the received backup file, a deletion signal is generated after the storage is completed, the deletion signal is sent to the server, the server receives the deletion signal sent by the storage cloud unit, controls the storage module to format the data in the storage module, and disconnects the connection with the disaster recovery module.

In the description herein, references to the description of "one embodiment," "an example," "a specific example" or the like are intended to mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the invention. In this specification, the schematic representations of the terms used above do not necessarily refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

Furthermore, the terms "first", "second" and "first" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include one or more of that feature. In the description of the present invention, "a plurality" means two or more unless specifically defined otherwise.

The foregoing is merely exemplary and illustrative of the present invention and various modifications, additions and substitutions may be made by those skilled in the art to the specific embodiments described without departing from the scope of the invention as defined in the following claims.

Claims (6)

1. A cloud computing management system is characterized by comprising an acquisition module, a resource management module, an intelligent monitoring module, a disaster recovery module, a recommendation module, a server, a storage module and a retrieval module;

the acquisition module is used for acquiring client information and sending the acquired client information to the server;

the client information comprises company pursuit fields, company scales, company value views and the average age of a company management layer;

the server receives the client information sent by the acquisition module and sends the received client information to the recommendation module, the recommendation module carries out recommendation according to the received client information, and the specific recommendation steps are as follows:

s11: setting a first threshold value corresponding to all company engaged fields, wherein the value range of the first threshold value is larger than zero and smaller than one, matching the client company engaged fields with all company engaged fields to obtain a corresponding first threshold value and marking the first threshold value as Y1, setting all company scales corresponding to a second threshold value, wherein the value range of the second threshold value is larger than zero and smaller than one, matching the client company scales with all company scales to obtain a corresponding second threshold value and marking the client company scales as Y2, setting all company value views corresponding to a third threshold value, wherein the value range of the third threshold value is larger than zero and smaller than one, matching the client company value views with all company value views to obtain a corresponding third threshold value and marking the third threshold value as Y3;

s12: setting the average age of the company management layer as Y4, and performing dimension removal and numerical calculation on the first threshold, the second threshold, the third threshold and the average age of the company management layer;

s13: using formulas

Obtaining a company recommended basic value YQ; wherein b1, b2, b3 and b4 are all proportionality coefficients of lambdaFor correction factor, the value range is 0<λ≤1；

S14: marking the company recommendation value stored in the storage module as YQ_jWherein j is 1, … …, n;

s15: using the formula C ═ YQ-YQ_jAcquiring a recommended arrangement value, and pushing company information stored in the corresponding storage module to a client company from small to large in sequence according to the size of the recommended arrangement value;

the resource management module is used for managing files in the storage module, and comprises the following specific steps:

s21: retrieving files in the storage module that have not been used for more than a month, and marking the retrieved files that have not been used for more than a month;

s22: newly building a folder, naming the folder as a first folder, and transferring all marked files to the newly built first folder;

s23: compressing the newly-built first folder, and creating a quick access link of the compressed first folder on a display interface of the resource management module;

s24: and performing popup on a display desktop, clicking a quick access link to enter a compressed first folder, and performing batch selection on the files which are not needed, wherein the resource management module comprises a one-key deletion key, clicking the one-key deletion key, and deleting the files which are selected in batches.

2. The cloud computing management system of claim 1, wherein said company information comprises company management patterns, company development histories, company strategic objectives, and company stage objectives.

3. The cloud computing management system according to claim 1, wherein the retrieval module is used for a client to quickly retrieve required information, and the retrieval module includes a local data information retrieval unit, a cloud data retrieval unit and a sorting unit;

the local data information retrieval unit is used for quickly retrieving data information in the system, retrieving according to keywords input by a client and sending retrieved data to the sequencing unit;

the sorting unit receives the retrieval data sent by the local data information retrieval unit, sorts the received retrieval data, sorts the retrieval data according to the creation time of the retrieved data, sorts the retrieval data from near to far in sequence according to the creation time, and displays the sorted data to the client.

4. The cloud computing management system of claim 3, wherein the cloud data retrieval unit is configured to enable a client to perform quick retrieval at a cloud, and includes the specific steps of:

s31: acquiring client retrieval keywords, client company engaged fields and recent browsing information;

s32: searching according to the client searching keyword;

s33: dividing the retrieved data information into related field data information and non-related field data information according to the working field of the client company;

s34: sorting the related field data information and the non-related field data information according to the relevance of the retrieved data information and the latest browsing information;

s35: and sorting according to the retrieved data uploading time, sorting in sequence from near to far according to the uploading time, and displaying the sorted data to the client.

5. The cloud computing management system according to claim 1, wherein the disaster recovery module includes a cloud storage unit, a backup unit, and a recovery unit;

the backup unit is used for generating a backup file from the file in the storage module and sending the backup file to the cloud storage unit;

the cloud storage unit is independent of the management system, receives the backup file sent by the backup unit and stores the received backup file;

the recovery unit is used for copying all data stored in the cloud storage unit into the formatted storage module.

6. The cloud computing management system according to claim 1, wherein the intelligent monitoring module is used for protecting the operation safety of the system, and comprises a real-time monitoring unit, an interception unit, an alarm unit and an attack unit;

the real-time monitoring unit is used for monitoring the operation state of the system in real time, generating an interception signal, an alarm signal and a counterattack signal when the intrusion condition is monitored, transmitting the interception signal to the interception unit, transmitting the alarm signal to the alarm unit and transmitting the counterattack signal to the counterattack unit;

the alarm unit receives the alarm signal sent by the real-time monitoring unit, generates an alarm sound, records the intrusion, and sends intrusion record data to the cloud storage unit;

the cloud storage unit receives intrusion record data sent by the alarm unit and stores the received intrusion record data;

the counterattack unit receives the counterattack signal sent by the real-time monitoring unit and counterattacks the intrusion source;

the intercepting unit receives the intercepting signal sent by the real-time monitoring unit and intercepts the intrusion behavior, and when the intercepting unit cannot intercept the intrusion behavior, the intercepting unit generates a backup signal and sends the backup signal to the backup unit;

the backup unit receives the backup signal sent by the intercepting unit, generates a backup file for data in the storage module and sends the backup file to the storage cloud unit;

the storage cloud unit receives the backup file sent by the backup unit, stores the received backup file, generates a deletion signal after the storage is finished, and sends the deletion signal to the server;

and the server receives the deleting signal sent by the storage cloud unit, controls the storage module to format the data in the storage module, and disconnects the connection with the disaster recovery module.

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