CN113365025A - Big data-based smart campus security management platform - Google Patents

Abstract

The invention relates to the field of security management platforms, in particular to a smart campus security management platform based on big data, which comprises a monitoring end, a server end, a client end and a control end, wherein the front end comprises a network camera 1, a network camera 2, a network camera 3, a network camera N and a video processing module; the invention can improve the efficiency of uploading data by the client, improve the efficiency of receiving and executing the instruction by the server and improve the safety of the server.

Description

Big data-based smart campus security management platform

Technical Field

The invention relates to the field of security management platforms, in particular to a smart campus security management platform based on big data.

Background

Big data is a new data storage mode developed in recent years to cope with a large amount of data streams which cannot be processed by a traditional mode, the mode is generally applied to the field of personnel security management, and a campus is one of occasions with high security requirements and is a preferential application place of big data technology, so developers combine big data technology to build a smart campus security management platform so as to improve the security management level in the campus.

When the existing big data-based intelligent campus security management platform executes instructions and forwards information, encryption means and verification processes are lacked, so that the security is low, the intelligent campus security management platform is easy to be invaded by the outside and is not beneficial to the execution of instructions sent by managers; secondly, the process of acquiring the client data is incomplete, so that the integrity and the speed of the data uploaded by the client are low, the efficiency of reading and sorting the data uploaded by the client by the server and the control end is influenced, and the use is not facilitated.

Disclosure of Invention

Aiming at the technical problems that the existing smart campus security management platform based on big data lacks encryption means and verification process when executing instructions and forwarding information and the flow of acquiring client data is incomplete, so that the integrity and the speed of data uploaded by a client are low, the invention provides the smart campus security management platform based on big data with high safety, high uploading speed and high integrity.

In order to solve the technical problems, the invention adopts the technical scheme that:

the utility model provides a wisdom campus safety management platform based on big data, includes monitor terminal, server end, customer end and control end, the monitor terminal is connected with the server end, the server end is connected with customer end, control end respectively, the monitor terminal includes web camera 1, web camera 2, web camera 3, web camera N and video processing module, web camera 1, web camera 2, web camera 3, web camera N all are connected with video processing module, the server end includes data filtering module, data transmission module, data storage unit, instruction processing module and information sending module, data transmission module is connected with data filtering module, data storage unit, instruction processing module respectively, instruction processing module and information sending module, the customer end includes mobile terminal software, the video monitoring system of mobile terminal, and the video processing system of mobile terminal is connected to the video processing module, the video processing module is connected with data filtering module, data storage unit, instruction processing module and information sending module, the customer end includes mobile terminal software, The mobile terminal software is connected with the data management module through the user login module, the control end comprises an instruction sending module, an equipment management module and a data cache module, and the equipment management module is respectively connected with the instruction sending module and the data cache module;

the network camera 1, the network camera 2, the network camera 3 and the network camera N are used for shooting real-time pictures at all places in the campus; the data filtering module is used for classifying, editing and deleting the data sent to the server side; the data storage unit is used for storing data sent to the server side; the data transmission module is used for transmitting the data of the server side to a data storage unit or other equipment; the information sending module is used for forwarding information sent by the client and the control terminal to the server; the mobile terminal software is used for accessing each user in the campus to the intelligent campus security management platform; the user login module is used for each user in the campus to acquire the authority of using the intelligent campus security management platform; the data caching module is used for storing data and files sent to the control end by the server end; the equipment management module is used for the control end to manage various equipment of the server end and the monitoring end; the instruction sending module is used for sending various operation instructions to the server side by the control side.

The instruction processing module comprises an instruction receiving module, an identity verification module, an instruction execution module and an execution state returning module, wherein the instruction receiving module is connected with the identity verification module, the identity verification module is connected with the instruction execution module, and the instruction execution module is connected with the execution state returning module.

The instruction processing module comprises the following specific processing steps:

the method comprises the following steps: the instruction receiving module receives an instruction sent to the server by the client and the control terminal, extracts a key field from the instruction and sends the key field to the identity verification module;

step two: the identity verification module analyzes the key field, obtains a sender of the instruction and key execution content of the instruction through analysis, and transmits the key execution content to the instruction execution module;

step three: the instruction execution module analyzes the key execution content, converts the key execution content into an assembly code, sends the assembly code to corresponding equipment, simultaneously receives a key code generated after the equipment executes the assembly code at regular time, and transmits the key code to the execution state return module;

step four: and the execution state returning module receives the key code, encrypts the key code and sends the encrypted key code to the control end.

The video processing module comprises a video information processing module, a network access unit and a video file uploading module, the video information processing module is connected with the network access unit, the network access unit is connected with the video file uploading module, the video information processing module is used for carrying out operations such as picture optimization, video segmentation and key video marking on videos collected by the network camera 1, the network camera 2, the network camera 3 and the network camera N, the network access unit is used for accessing each network camera into the server side, and the video file uploading module is used for sending the edited videos to the server side.

The information sending module comprises an information classification module, an information verification module and an information transcoding module, the information classification module is used for distinguishing information sent to different users, the information verification module is used for sending verification information required when a client is connected to the server, and the information transcoding module is used for converting an instruction sent by the instruction processing module into fixed information.

The data transmission module comprises an instruction identification module, a state code sending module, a data compression module and a data forwarding module, wherein the instruction identification module is used for identifying an instruction sent by the instruction processing module so as to confirm the transmission direction of data, the state code sending module is used for sending the state codes of the data storage unit and the monitoring end to the instruction processing module, the data compression module is used for compressing the video processed by the data filtering module, and the data forwarding module is used for forwarding the data received by the server end to the client or the control end.

The server is connected with the monitoring end and the control end through a network private line, and the server is connected with the client through a wireless local area network.

The data management module comprises a user information storage module, a user information uploading module, a user video uploading module and a data receiving module, the user information storage module is connected with the user information uploading module, the user information uploading module is connected with the user video uploading module, the user information storage module is connected with the data receiving module, the user information storage module is used for storing specific information filled by each user in a campus, the user information uploading module is used for uploading the specific information filled by each user to a server, the user video uploading module is used for uploading videos shot by the users to the server, and the data receiving module is used for receiving various data information sent to a client by the server.

The data management module comprises the following specific processing steps:

s1: the user information storage module acquires specific information input by a user and transmitted by the user login module, and transmits data of the specific information to the next module;

s2: the user information uploading module receives the information of the user information storage module, packs, compresses and encrypts a plurality of similar user information, and sends the encrypted user information to the server;

s3: the user video uploading module copies the user video with the copy authority on the client, compresses the copied video and marks key information, and sends the compressed user video and the key information to the client together;

s4: the data receiving module decodes and identifies the data and the information sent to the client by the server, verifies the information and the data from small to large and transmits the information and the data to the user information storage module, and prompts a user to check the information.

Compared with the prior art, the invention has the following beneficial effects:

the invention receives different instructions sent by a client and a control end by arranging an instruction receiving module, sends key sections in the instructions to an identity verification module, prevents other people from reading the instructions, the identity verification module identifies the sender of the instructions by analyzing key codes, confirms that the level of the instructions is matched with the grade of the sender, improves the safety of instruction execution, the instructions sent by the control end can read and modify data and information of a server end and a monitoring end, the client can only read and store the data and the information of the server end, an instruction execution module executes different instructions according to the authority of the instruction sender, sends the instructions to the server end and the monitoring end and executes the instructions, improves the execution efficiency of the instructions, an execution state returning module converts the state of instruction execution into a mark code and sends the mark code to the control end, and the control end can know the execution condition of the instructions in real time, the instruction processing module is arranged, so that the control end can manage data of the server end and the monitoring end conveniently, the efficiency of sending information and forwarding information by the control end is improved, and the monitoring capability of the control end is improved;

the invention acquires the information input by the user and backups the information and stores the information in the client by arranging the user information storage module, the user information uploading module sends the information input by the user to the server, the information communication between the user of the server and the control end and a plurality of clients is convenient, the user video uploading module reads and compresses the video shot by the user in the client, simultaneously binds the user information and the video, sends the user video to the server and confirms the integrity of the data sent by the client to the server, the data receiving module receives and backups the information and the data sent by the server, the data acquisition and information sending efficiency of the client can be facilitated by arranging the data management module, and the integrity of the data uploaded by the client is improved.

Drawings

FIG. 1 is a system block diagram of the present invention;

FIG. 2 is a system diagram of an instruction processing module of the present invention;

FIG. 3 is a system diagram of a data management module of the present invention;

fig. 4 is a system diagram of a video processing module of the present invention.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious 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.

In the description of the present invention, it is to be noted that, unless otherwise explicitly specified or limited, the terms "connected" and "connected" are to be interpreted broadly, e.g., as being fixed or detachable or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

A big data-based smart campus security management platform is shown in figure 1 and comprises a monitoring end, a server end, a client end and a control end, wherein the monitoring end is connected with the server end, the server end is respectively connected with the client end and the control end, the monitoring end comprises a network camera 1, a network camera 2, a network camera 3, a network camera N and a video processing module, the network camera 1, the network camera 2, the network camera 3 and the network camera N are all connected with the video processing module, the server end comprises a data filtering module, a data transmission module, a data storage unit, an instruction processing module and an information sending module, the data transmission module is respectively connected with the data filtering module, the data storage unit and the instruction processing module, the instruction processing module and the information sending module, the client end comprises mobile terminal software, a user login module and a data management module, the mobile terminal software is connected with the data management module through the user login module, the control end comprises an instruction sending module, an equipment management module and a data cache module, and the equipment management module is respectively connected with the instruction sending module and the data cache module;

the network camera 1, the network camera 2, the network camera 3 and the network camera N are used for shooting real-time pictures at each position in the campus; the data filtering module is used for classifying, editing and deleting the data sent to the server side; the data storage unit is used for storing data sent to the server side; the data transmission module is used for transmitting the data of the server side to the data storage unit or other equipment; the information sending module is used for forwarding information sent by the client and the control terminal to the server; the mobile terminal software is used for accessing each user in the campus to the intelligent campus security management platform; the user login module is used for acquiring the authority of using the intelligent campus security management platform by each user in the campus; the data caching module is used for storing data and files sent to the control end by the server end; the equipment management module is used for the control end to manage various equipment of the server end and the monitoring end; the instruction sending module is used for sending various operation instructions to the server side by the control side.

Further, as shown in fig. 2, the instruction processing module includes an instruction receiving module, an identity verification module, an instruction execution module, and an execution state return module, where the instruction receiving module is connected to the identity verification module, the identity verification module is connected to the instruction execution module, and the instruction execution module is connected to the execution state return module.

Further, the instruction processing module specifically comprises the following processing steps:

the method comprises the following steps: the instruction receiving module receives an instruction sent to the server by the client and the control terminal, extracts a key field from the instruction and sends the key field to the identity verification module;

step two: the identity verification module analyzes the key field, obtains a sender of the instruction and key execution content of the instruction through analysis, and transmits the key execution content to the instruction execution module;

step three: the instruction execution module analyzes the key execution content, converts the key execution content into an assembly code, sends the assembly code to corresponding equipment, simultaneously receives a key code generated after the equipment executes the assembly code at regular time, and transmits the key code to the execution state return module;

step four: and the execution state returning module receives the key code, encrypts the key code and sends the encrypted key code to the control end.

Further, as shown in fig. 4, the video processing module includes a video information processing module, a network access unit, and a video file uploading module, the video information processing module is connected to the network access unit, the network access unit is connected to the video file uploading module, the video information processing module is configured to perform operations such as picture optimization, video segmentation, key video marking, and the like on videos collected by the network camera 1, the network camera 2, the network camera 3, and the network camera N, the network access unit is configured to access each network camera to the server, and the video file uploading module is configured to send an edited video to the server.

Further, the information sending module comprises an information classification module, an information verification module and an information transcoding module, the information classification module is used for distinguishing information sent to different users, the information verification module is used for sending verification information required when a client is connected to the server, and the information transcoding module is used for converting an instruction sent by the instruction processing module into fixed information.

Further, the data transmission module comprises an instruction identification module, a state code sending module, a data compression module and a data forwarding module, wherein the instruction identification module is used for identifying the instruction sent by the instruction processing module so as to confirm the transmission direction of the data, the state code sending module is used for sending the state codes of the data storage unit and the monitoring end to the instruction processing module, the data compression module is used for compressing the video processed by the data filtering module, and the data forwarding module is used for forwarding the data received by the server end to the client or the control end.

Furthermore, the server is connected with the monitoring end and the control end through a network private line, and the server is connected with the client through a wireless local area network.

Further, as shown in fig. 3, the data management module includes a user information storage module, a user information uploading module, a user video uploading module and a data receiving module, the user information storage module is connected with the user information uploading module, the user information uploading module is connected with the user video uploading module, the user information storage module is connected with the data receiving module, the user information storage module is used for storing specific information filled by each user in the campus, the user information uploading module is used for uploading the specific information filled by each user to the server, the user video uploading module is used for uploading videos shot by the users to the server, and the data receiving module is used for receiving various data information sent by the server to the client.

Further, the specific processing steps of the data management module are as follows:

s1: the user information storage module acquires specific information input by a user and transmitted by the user login module, and transmits data of the specific information to the next module;

s2: the user information uploading module receives the information of the user information storage module, packs, compresses and encrypts a plurality of similar user information, and sends the encrypted user information to the server;

s3: the user video uploading module copies the user video with the copy authority on the client, compresses the copied video and marks key information, and sends the compressed user video and the key information to the client together;

s4: the data receiving module decodes and identifies the data and the information sent to the client by the server, verifies the information and the data from small to large and transmits the information and the data to the user information storage module, and prompts a user to check the information.

The working process of the invention is as follows: when the invention is used, firstly, a user of a client in a campus is accessed into an intelligent campus safety management platform through mobile terminal software and a user login module, user information is sequenced and classified and is transmitted to a data management module, the data management module acquires information input by the user through a user information storage module and backups and stores the information in the client, a user information uploading module sends the information input by the user to a server so as to facilitate information exchange between the user of the server and a control end and a plurality of clients, a user video uploading module reads and compresses videos shot by the user in the client, binds the user information and the videos at the same time, sends the user videos to the server, confirms the integrity of data sent by the client to the server, and a data receiving module receives and backups the information and the data sent by the server, the network camera 1, the network camera 2, the network camera 3 and the network camera N in the monitoring terminal acquire real-time pictures of all places in a campus and send the real-time pictures to the video processing module, the video information processing module performs picture optimization, video segmentation and other operations on the received video data, the network access unit is used for accessing all the network cameras to the server terminal, the video file uploading module is used for sending the edited video to the server terminal through a network private line, the equipment management module in the control terminal is used for recording the operation conditions of all equipment in the server terminal and the monitoring terminal, the instruction sending module sends instructions to be executed to the server terminal, the data caching module is used for storing the video data and information sent by the server terminal, the data filtering module in the server terminal receives the data and information sent by the control terminal, the client terminal and the monitoring terminal through a wireless local area network, filtering and classifying data and information, eliminating invalid data and information, transmitting the valid data and information to a data transmission module, receiving instructions sent by a client and a server through a network dedicated line by an instruction processing module, receiving different instructions sent by the client and a control end by the instruction receiving module, sending key sections in the instructions to an identity verification module to prevent a third party from reading the instructions, identifying an issuer of the instructions by analyzing a key code by the identity verification module, confirming that the instructions are matched with the level of the issuer, reading and modifying the data and information of the server and a monitoring end by the instructions sent by the control end, reading and storing the data and information of the server only by the client, executing different instructions according to the authority of the issuer of the instructions by an instruction execution module, sending the instructions to the server and the monitoring end and executing the instructions, the execution state returning module converts the state of the instruction during execution into a mark code and sends the mark code to the control terminal, the data transmission module determines to send effective data to the data storage unit, the equipment management module in the control terminal or the data receiving module in the client terminal according to the instruction sent by the instruction execution module, and finally the information sending module forwards the information sent by the instruction sending module in the control terminal to the client terminal.

Although only the preferred embodiments of the present invention have been described in detail, the present invention is not limited to the above embodiments, and various changes can be made without departing from the spirit of the present invention within the knowledge of those skilled in the art, and all changes are encompassed in the scope of the present invention.

Claims (9)

1. The utility model provides a wisdom campus safety management platform based on big data which characterized in that: the monitoring terminal is connected with the server terminal, the server terminal is respectively connected with the client terminal and the control terminal, the monitoring terminal comprises a network camera 1, a network camera 2, a network camera 3, a network camera N and a video processing module, the network camera 1, the network camera 2, the network camera 3 and the network camera N are all connected with the video processing module, the server terminal comprises a data filtering module, a data transmission module, a data storage unit, an instruction processing module and an information sending module, the data transmission module is respectively connected with the data filtering module, the data storage unit and the instruction processing module, the instruction processing module is connected with the information sending module, the client terminal comprises mobile terminal software, a user login module and a data management module, and the mobile terminal software is connected with the data management module through the user login module, the control end comprises an instruction sending module, an equipment management module and a data caching module, wherein the equipment management module is respectively connected with the instruction sending module and the data caching module;

the network camera 1, the network camera 2, the network camera 3 and the network camera N are used for shooting real-time pictures at all places in the campus; the data filtering module is used for classifying, editing and deleting the data sent to the server side; the data storage unit is used for storing data sent to the server side; the data transmission module is used for transmitting the data of the server side to a data storage unit or other equipment; the information sending module is used for forwarding information sent by the client and the control terminal to the server; the mobile terminal software is used for accessing each user in the campus to the intelligent campus security management platform; the user login module is used for each user in the campus to acquire the authority of using the intelligent campus security management platform; the data caching module is used for storing data and files sent to the control end by the server end; the equipment management module is used for the control end to manage various equipment of the server end and the monitoring end; the instruction sending module is used for sending various operation instructions to the server side by the control side.

2. The big data-based smart campus security management platform of claim 1, wherein: the instruction processing module comprises an instruction receiving module, an identity verification module, an instruction execution module and an execution state returning module, wherein the instruction receiving module is connected with the identity verification module, the identity verification module is connected with the instruction execution module, and the instruction execution module is connected with the execution state returning module.

3. The big-data-based smart campus security management platform of claim 2, wherein: the instruction processing module comprises the following specific processing steps:

the method comprises the following steps: the instruction receiving module receives an instruction sent to the server by the client and the control terminal, extracts a key field from the instruction and sends the key field to the identity verification module;

step two: the identity verification module analyzes the key field, obtains a sender of the instruction and key execution content of the instruction through analysis, and transmits the key execution content to the instruction execution module;

step three: the instruction execution module analyzes the key execution content, converts the key execution content into an assembly code, sends the assembly code to corresponding equipment, simultaneously receives a key code generated after the equipment executes the assembly code at regular time, and transmits the key code to the execution state return module;

step four: and the execution state returning module receives the key code, encrypts the key code and sends the encrypted key code to the control end.

4. The big data-based smart campus security management platform of claim 1, wherein: the video processing module comprises a video information processing module, a network access unit and a video file uploading module, the video information processing module is connected with the network access unit, the network access unit is connected with the video file uploading module, the video information processing module is used for carrying out operations such as picture optimization, video segmentation and key video marking on videos collected by the network camera 1, the network camera 2, the network camera 3 and the network camera N, the network access unit is used for accessing each network camera into the server side, and the video file uploading module is used for sending the edited videos to the server side.

5. The big data-based smart campus security management platform of claim 1, wherein: the information sending module comprises an information classification module, an information verification module and an information transcoding module, the information classification module is used for distinguishing information sent to different users, the information verification module is used for sending verification information required when a client is connected to the server, and the information transcoding module is used for converting an instruction sent by the instruction processing module into fixed information.

6. The big data-based smart campus security management platform of claim 1, wherein: the data transmission module comprises an instruction identification module, a state code sending module, a data compression module and a data forwarding module, wherein the instruction identification module is used for identifying an instruction sent by the instruction processing module so as to confirm the transmission direction of data, the state code sending module is used for sending the state codes of the data storage unit and the monitoring end to the instruction processing module, the data compression module is used for compressing the video processed by the data filtering module, and the data forwarding module is used for forwarding the data received by the server end to the client or the control end.

7. The big data-based smart campus security management platform of claim 1, wherein: the server is connected with the monitoring end and the control end through a network private line, and the server is connected with the client through a wireless local area network.

8. The big data-based smart campus security management platform of claim 1, wherein: the data management module comprises a user information storage module, a user information uploading module, a user video uploading module and a data receiving module, the user information storage module is connected with the user information uploading module, the user information uploading module is connected with the user video uploading module, the user information storage module is connected with the data receiving module, the user information storage module is used for storing specific information filled by each user in a campus, the user information uploading module is used for uploading the specific information filled by each user to a server, the user video uploading module is used for uploading videos shot by the users to the server, and the data receiving module is used for receiving various data information sent to a client by the server.

9. The big-data-based smart campus security management platform of claim 8, wherein: the data management module comprises the following specific processing steps:

s1: the user information storage module acquires specific information input by a user and transmitted by the user login module, and transmits data of the specific information to the next module;

s2: the user information uploading module receives the information of the user information storage module, packs, compresses and encrypts a plurality of similar user information, and sends the encrypted user information to the server;

s3: the user video uploading module copies the user video with the copy authority on the client, compresses the copied video and marks key information, and sends the compressed user video and the key information to the client together;

s4: the data receiving module decodes and identifies the data and the information sent to the client by the server, verifies the information and the data from small to large and transmits the information and the data to the user information storage module, and prompts a user to check the information.

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