CN113344965A

CN113344965A - Safety management system based on image acquisition

Info

Publication number: CN113344965A
Application number: CN202110895502.5A
Authority: CN
Inventors: 孔庆端; 杨耀党; 穆仕芳; 田雷; 贾志闯; 郑远攀; 王秋溢; 纪学峰; 郑朝晖; 李思敏; 赵夏冰; 李孟阳; 段晓婷
Original assignee: Xin'anlizhong Beijing Technology Co ltd
Current assignee: Xin'anlizhong Beijing Technology Co ltd
Priority date: 2021-08-05
Filing date: 2021-08-05
Publication date: 2021-09-03

Abstract

A safety management system based on image acquisition comprises a detection end, a data end and a terminal; the detection end comprises an image acquisition module, an image detection module, a motion tracking module and detection equipment; the terminal comprises a storage module, a display terminal and a cloud server; the invention has the beneficial effects that: according to the technology, after the collected image information is analyzed and processed, a dynamic object in the image can be captured and tracked, and meanwhile, the collected signal is analyzed according to preset data, so that the processing, tracking and recording of related signals in a detection range are completed; the safety level of the using scene of the equipment is judged by combining the acquisition of the image detection module and the image analysis processing module with the comparison of related parameters in the safety database; meanwhile, the change of the safety level in the scene can be judged according to the working action of the equipment in the scene, and reminding and early warning are carried out, so that the safety control of the working scene is ensured.

Description

Safety management system based on image acquisition

Technical Field

The invention relates to the technical field of artificial intelligence, in particular to a safety management system based on image acquisition.

Background

With the aging of image acquisition and processing technology, the technology is gradually applied to human daily life and production, particularly, the technology is most widely applied to industrial safety production scenes, because certain production risks often exist in the industrial production process, certain limitations exist only in manual safety management, recording and the like, and in terms of risks, the risks in industrial production are increased by human safety management.

The picture collecting and processing system mainly has the functions of controlling an ISP-PLD device by a singlechip to realize high-speed collection and storage of images of a camera, realizing transmission of image data by singlechip image compression and serial communication of a PC (personal computer), realizing image processing and display at the PC end and the like; in an image acquisition processing system, system design generally follows three design modes: the hardware acquisition-software processing mode, the separated hardware acquisition and processing mode and the integrated hardware acquisition and processing mode have respective characteristics and are suitable for different occasions

The image acquisition means that the image is converted into a digital image after sampling and quantization and is input and stored into a frame memory; image processing refers to the processing of analyzing an image with a computer to achieve a desired result, which is also called image processing, generally referred to as digital image processing; the main functions of the picture collecting and processing system comprise that the singlechip controls an ISP-PLD device to realize high-speed collection and storage of images of the camera, the singlechip compresses images and serially communicates with the PC to realize transmission of image data, and image processing, display and the like are realized at the PC end.

Most of the existing image acquisition and processing technologies are that after image acquisition, the acquired image is analyzed and processed, then subsequent analysis and output are carried out, and the image is processed by professional personnel; in brief, most of the current image acquisition technologies only realize the function of monitoring in the field of industrial production, and cannot realize the functions of directly performing risk early warning and safety management through acquired data, so that the safety management in production cannot be fed back in a targeted manner.

Disclosure of Invention

The invention aims to overcome the defects in the prior art and provide an image acquisition-based safety management system which has the functions of data processing and analysis and can be used for comparing with normalized original data so as to realize high-efficiency feedback and has risk early warning and safety management.

The invention is realized by the following technical scheme: a safety management system based on image acquisition comprises a detection end, a data end and a terminal; the detection end comprises an image acquisition module, an image detection module, a motion tracking module and detection equipment; the data end receives the data collected by the detection end; the data end comprises a transmission center and a processing center; the terminal receives the data which are sorted and analyzed by the data terminal, and stores and displays the data; the terminal comprises a storage module, a display terminal and a cloud server; the image acquisition module is configured to: the image acquisition is carried out by matching with the static image function of the detection equipment; the motion tracking module is configured to: matching with the motion function of the detection equipment, recording the distance between the moving object and the standard point of the detection equipment in the image range by an infrared distance measurement technology, assigning the value of the moving object by a device arranged in the motion tracking module, and recording the distance between the moving object and the standard point of the detection equipment continuously; the image detection module is configured to: matching with the image detection function of the detection equipment; the transmission center is configured to: integrating and compressing data sent by the detection end, and sending the processed data to a processing center; the processing center is configured to: processing data sent by a transmission center, directly transmitting data of an image acquisition module, calculating data of a motion tracking module, drawing a moving track of an object in an image and displaying the distance between the moving object and a standard point of a detection device; the storage module is configured to: compressing and storing the data sent by the processing center; the cloud server is configured to: compressing, uploading and storing data sent by a processing center; the display terminal is configured to: and decoding the data sent by the processing center and displaying the data on the human-computer interaction equipment.

Preferably, the data of the image detection module is processed and analyzed by the image analysis processing module and sent to the detection device to control the detection device, and the image analysis processing module comprises an analog-digital converter and a signal processing device.

Further, the analog-to-digital converter is configured to: and carrying out plane two-position modeling on the image information acquired by the image detection module, carrying out two-dimensional coordinate point assignment on moving objects appearing in the image and generating the two-dimensional coordinate point assignment to the signal processing device.

Further, the signal processing apparatus is configured to: and analyzing the two-dimensional coordinate points of one or more moving objects of the analog-digital converter to obtain the sites or mean sites of the two-dimensional coordinate points of the moving objects, controlling the detection equipment to act, and moving the detection picture of the image detection module to the sites or mean sites obtained after the calculation and analysis of the signal processing device.

Preferably, the terminal is provided with a secure encryption module, and the secure encryption module is configured to: analyzing and encrypting the signal sent by the processing center, and uploading the signal to a cloud server; the data in the extraction storage module and the cloud server are processed by the security encryption module, sent to the display terminal and displayed by the human-computer interaction device.

Furthermore, the security encryption module comprises a standard value and transmission data comparison module and an analysis rating module; the standard value and transmission data comparison module is configured to: analyzing and collecting the data sent by the processing center; the analysis rating module is configured to: and comparing the standard value with the data of the transmission data, carrying out risk rating and analysis on the data of the module, and sending the data to the terminal.

Furthermore, the standard value and transmission data comparison module sends a signal to an alarm device; the alarm device is configured to: and performing action according to the standard value and the signal of the transmission data comparison module.

Furthermore, the safety threshold value preset by the quasi-numerical value and transmission data comparison module has a maximum value and a minimum value, the safety interval range is smaller than the maximum value of the safety threshold value or larger than the minimum value of the safety threshold value, and the alarm device sends out three times of alarm signals.

The device of the safety management system based on image acquisition comprises an image acquisition device, a driving device and a fixing plate, wherein the image acquisition device comprises an infrared radar, a high-definition camera and a motion capture camera; the driving device comprises a rotating rod, a supporting rod, a horizontal servo motor, a rotating head, a vertical servo motor and a connecting plate; the collection system be fixed in the connecting plate top, the connecting plate be connected to the dwang and have perpendicular servo motor control through rotating the head, the dwang run through the bracing piece front end perpendicularly and have horizontal servo motor control, horizontal servo motor and dwang fixed connection and be fixed in the bracing piece below, the bracing piece be fixed in on the fixed plate.

Preferably, the collecting device is fixed with the connecting plate through a bolt.

The invention has the beneficial effects that:

according to the technology, after the collected image information is analyzed and processed, dynamic objects in the image can be captured and tracked, meanwhile, the collected signals are analyzed according to preset data, and dynamic changes in the technical use scene are timely and accurately fed back and recorded.

The signal is fed back to the detection equipment through the acquisition of the image detection module and the analysis and calculation of the image analysis processing module, and the action signal is transmitted to the detection equipment, so that the tracking and recording of the dynamic object in the detection range are realized, and meanwhile, the distance of the dynamic object is recorded through the motion tracking module, and the speed and the action track are calculated, so that the processing, tracking and recording of the related signal in the detection range are realized.

The safety level of the using scene of the equipment is judged by combining the acquisition of the image detection module and the image analysis processing module with the comparison of related parameters in the safety database; meanwhile, the change of the safety level in the scene can be judged according to the working action of the equipment in the scene, and reminding and early warning are carried out, so that the safety control of the working scene is ensured.

The safety encryption module can effectively guarantee data safety, the storage module and the cloud server can guarantee data storage safety, and when the data are called, the safety of the data is further guaranteed through the safety encryption module.

Drawings

Fig. 1 is a flow chart of a security management system based on image acquisition.

Fig. 2 is a flow chart of a security encryption module of the image acquisition-based security management system.

Fig. 3 is a flow chart of an image analysis processing module of the image acquisition-based security management system.

Fig. 4 is a schematic diagram of the overall device structure of the device of the security management system based on image acquisition.

Fig. 5 is a schematic structural diagram of a de-acquisition device of the security management system based on image acquisition.

Fig. 6 is a schematic view of a driving device connection structure of a device of the security management system based on image acquisition.

Wherein: 1. a collection device; 11. an infrared radar; 12. a high-definition camera; 13. a motion capture camera; 2. a drive device; 21. rotating the rod; 22. a support bar; 23. a horizontal servo motor; 24. rotating the head; 25. a vertical servo motor; 26. a connecting plate; 3. and (7) fixing the plate.

Detailed Description

In the description of the present invention, it should also be noted that, unless otherwise explicitly specified or limited, the terms "disposed," "mounted," "connected," and "connected" are to be construed broadly and may, for example, be fixedly connected, detachably connected, 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.

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.

As shown in fig. 1-3, a security management system based on image acquisition includes a detection end, a data end, and a terminal; the detection end comprises an image acquisition module, an image detection module, a motion tracking module and detection equipment and is used for acquiring basic data; the data end receives the data collected by the detection end; the data end comprises a transmission center and a processing center and is used for sorting, analyzing and transmitting data to the terminal; the terminal receives the data which are sorted and analyzed by the data terminal, stores and displays the data, and is a storage and display terminal of final data; the terminal comprises a storage module, a display terminal and a cloud server; the image acquisition module is configured to: the image acquisition is carried out by matching with the static image function of the detection equipment, and high-definition image acquisition is carried out; the motion tracking module is configured to: matching with the motion function of the detection equipment, recording the distance between the moving object and the standard point of the detection equipment in the image range by an infrared distance measurement technology, assigning the value of the moving object by a device arranged in the motion tracking module, and recording the distance between the moving object and the standard point of the detection equipment continuously; the image detection module is configured to: matching with the image detection function of the detection equipment; the transmission center is configured to: the data sent by the detection end is integrated and compressed, and the processed data is sent to the processing center, so that the transmission speed of signals can be effectively improved, and the processing pressure of hardware equipment can be reduced; the processing center is configured to: processing data sent by a transmission center, directly transmitting data of an image acquisition module, calculating data of a motion tracking module, drawing a moving track of an object in an image and displaying the distance between the moving object and a standard point of a detection device; the storage module is configured to: the data sent by the processing center is compressed and stored for backup, so that later-period data calling is facilitated, data storage safety is improved, and data traceability is improved; the cloud server is configured to: data sent by the processing center are compressed, uploaded and stored, and used for cloud data backup, so that later data calling is facilitated, data storage safety is improved, and data traceability is improved; the display terminal is configured to: the data sent by the processing center is decoded and displayed on the human-computer interaction equipment, and the related data can be sent to a computer end, a mobile end and the like, so that the real-time monitoring and management of operators are facilitated.

The data of the image detection module is processed and analyzed through the image analysis processing module and sent to the detection device to control the detection device, and the image analysis processing module comprises an analog-digital converter and a signal processing device and is used for processing the image analog signal of the image detection module and carrying out two-dimensional digital processing on the signal.

The analog-to-digital converter is configured to: and carrying out plane two-position modeling on the image information acquired by the image detection module, carrying out two-dimensional coordinate point assignment on moving objects appearing in the image and generating the two-dimensional coordinate point assignment to the signal processing device.

The signal processing apparatus is configured to: and analyzing the two-dimensional coordinate points of one or more moving objects of the analog-digital converter to obtain the sites or mean sites of the two-dimensional coordinate points of the moving objects, controlling the detection equipment to act, and moving the detection picture of the image detection module to the sites or mean sites obtained after the calculation and analysis of the signal processing device.

The terminal is provided with a security encryption module, and the security encryption module is configured to: analyzing and encrypting the signal sent by the processing center, and uploading the signal to a cloud server; the data in the extraction storage module and the cloud server are processed by the security encryption module, sent to the display terminal and displayed by the human-computer interaction device.

The security encryption module comprises a standard numerical value and transmission data comparison module and an analysis rating module; the standard value and transmission data comparison module is configured to: analyzing and collecting the data sent by the processing center; the analysis rating module is configured to: and comparing the standard value with the data of the transmission data, carrying out risk rating and analysis on the data of the module, and sending the data to the terminal.

The standard value and transmission data comparison module sends a signal to an alarm device; the alarm device is configured to: and performing action according to the standard value and the signal of the transmission data comparison module.

The safety threshold value preset by the quasi-numerical value and transmission data comparison module has a maximum value and a minimum value, the safety interval range is smaller than the maximum value of the safety threshold value or larger than the minimum value of the safety threshold value, and the alarm device sends out a three-time alarm signal.

The device of the safety management system based on image acquisition comprises an image acquisition device 1, a driving device 2 and a fixing plate 3, wherein the image acquisition device 1 comprises an infrared radar 11, a high-definition camera 12 and a motion capture camera 13, the infrared radar 11 is used for acquiring dynamic data and sending the dynamic data to a motion tracking module, the high-definition camera 12 is used for acquiring high-definition image information and sending the high-definition image information to an image detection module, and the dynamic capture camera 13 is used for acquiring information of a dynamic object and sending the information to the image detection module; the driving device 2 comprises a rotating rod 21, a supporting rod 22, a horizontal servo motor 23, a rotating head 24, a vertical servo motor 25 and a connecting plate 26; the acquisition device 1 is fixed above a connecting plate 26, the connecting plate 26 is connected to a rotating rod 21 through a rotating head 24 and is controlled by a vertical servo motor 25, the rotating rod 21 vertically penetrates through the front end of a supporting rod 22 and is controlled by a horizontal servo motor 23, the horizontal servo motor 23 is fixedly connected with the rotating rod 21 and is fixed below the supporting rod 22, signals acquired by an image detection module are sent to the horizontal servo motor 23 and the vertical servo motor 25 through an image analysis processing module to control the acquisition device 1 to act, and tracking acquisition of dynamic objects in an image range is realized; the support rod 22 is fixed on the fixing plate 3.

The collecting device 1 is fixed with the connecting plate 26 through bolts, so that the collecting device 1 is convenient to replace and maintain.

Example one

The detection device collects image information, the image collection module controls the high-definition camera 12 to work to collect image information in a detection range, the motion tracking module controls the infrared radar 11 to work to detect the distance of a dynamic object in the image range, the image detection module controls the motion capture camera 13 to work to detect the dynamic object in the image range and send a signal to the image analysis processing module, the image analysis processing module sends the signal to the detection device through the analog-digital converter and the signal processing device, and controls the horizontal servo motor 23 and the vertical servo motor 25 to realize the angle control of the collection device 1, so that the detection device can embody the dynamic object in the detection range in the detected image range to the maximum extent.

Signals of the detection end are integrated and compressed by real data processed by the data end, then the signals of the motion tracking module, the image detection module and the image acquisition module are classified to be subjected to terminal recognizable signal processing, and finally the signals are sent to the terminal and respectively sent to the storage module, the cloud server and the display terminal.

Example two

When an abnormality (an object is lower than a preset threshold or exceeds the preset threshold) occurs in the detection range of the detection device, the image detection module controls the motion capture camera 13 to work to detect a dynamic object in the image range and sends a signal to the image analysis processing module, the image analysis processing module sends the signal to the detection device through the analog-digital converter and the signal processing device, and controls the horizontal servo motor 23 and the vertical servo motor 25 to realize the control of the angle of the acquisition device 1, so that the detection device can embody the dynamic object in the detection range in the detected image range to the maximum extent; and meanwhile, the motion tracking module collects the motion signals of the dynamic object.

The related acquisition signals are sent to a standard value and transmission data comparison module, abnormal data are analyzed by the standard value and transmission data comparison module, an alarm device is triggered, and an alarm signal is sent out; meanwhile, after passing through the analysis rating module, the abnormal signals are sent to the cloud server and the display terminal together.

EXAMPLE III

When the data is required to be called, the data is called from the storage module, and after the data passes through the analysis rating module, the required data is called from the storage module through inputting a secret key by an operator and is displayed on the display terminal or is backed up again by the cloud server.

Example four

When the stored data needs to be dispatched and transported (the storage module is in fault or damaged), the data is dispatched from the cloud server, passes through the analysis rating module, is input by an operator, is dispatched from the storage module, and is displayed on the display terminal.

EXAMPLE five

When the technical scheme is used between industrial production vehicles, the number of the motion equipment in a scene and the motion speed of the detectable equipment are mainly detected, firstly, a standard numerical value in a safety encryption module and a safety interval and a safety threshold value in a transmission data comparison module are adjusted in a system, the safety interval is set to be a-b according to the normal operation speed of the equipment, the minimum threshold value is a, the maximum threshold value is b, and meanwhile, the safety grade numerical value is set to be N₁、N₂、N₃。

In a scene, the number of the devices capable of detecting the movement is sent to a standard number and transmission data comparison module to compare the security level number value with the security level number value smaller than N₁The security level is a class level scene; a security level quantity value of greater than N₁And is less than N₂If so, the security level is a second class level scene; a security level quantity value of greater than N₂And is less than N₃If so, the security level is a three-class level scene; a security level quantity value of greater than N₃If so, the security level is a four-class level scene; and the determined scene security level classification is encrypted by the analysis rating module and then is sent to the display terminal and the cloud server.

In a scene, when the existing working equipment works abnormally, the detection equipment receives image information, and the image acquisition module, the motion tracking module and the image detection module work together, the motion tracking module captures the abnormally-working equipment in real time, and meanwhile, the image detection module controls the detection device to position and capture the abnormally-working equipment through the image analysis processing module; the data of the image acquisition module, the motion tracking module and the image detection module are sent to the security encryption module through the transmission center and the processing center, and whether external alarm equipment is activated or not is judged through comparison of a standard numerical value and a preset numerical value in the transmission data comparison module; when the movement speed is smaller than a minimum threshold value a or larger than a maximum threshold value b in the detected range, activating an alarm device to work; and meanwhile, the data are sent to an analysis rating module for numerical analysis and are encrypted for storage.

EXAMPLE six

When the technical scheme is used between industrial production vehicles, the quantity and the type of the motion equipment in a scene are mainly detected, the judgment and the output of the scene safety level are completed, firstly, a matched database (comprising the styles and specific parameters of various common equipment in factories and the safety rating standard formed according to the type and the quantity of the equipment is uploaded together) is uploaded by a standard numerical value and transmission data comparison module in a safety encryption module, the type and the quantity of the equipment appearing in the scene are estimated, the quantity interval is set to be a-b, b-c, c-d, d-e, e-f and a plurality of levels greater than f, the equipment type is divided into X types₁、X₂、X₃、X₄、X₅Five levels, and setting the security level quantity value to N₁、N₂、N₃、N₄、N₅。

X₁The apparatus comprises: stationary equipment such as supports, platforms, etc.;

X₂the apparatus comprises: fixed directional conveying devices such as conveying belts and conveying pipelines;

X₃the apparatus comprises: directional manual control equipment such as track hoisting equipment, track conveying equipment, a punching machine, a numerical control lathe and the like;

X₄the apparatus comprises: non-directional manual control equipment such as a forklift and a flat plate transport vehicle;

X₅the apparatus comprises: high-risk equipment with high temperature and high pressure exists in boilers, steam generating devices, furnaces and the like.

In a scene, according to the fact that the device can be detected to send standard numerical values to be compared with the transmission data comparison module, the determined scene security level classification is sent to the display terminal and the cloud server after being encrypted through the analysis rating module.

In a scene, the detection equipment receives image information, and the image acquisition module, the motion tracking module and the image detection module work together to connect the image acquisition module and the motion tracking module,The data of the motion tracking module and the image detection module are sent to the security encryption module through the transmission center and the processing center, and the type and the number of the equipment in the scene are judged and compared with the preset value in the transmission data comparison module through the standard value; classified as X by the detected device class₁、X₂、X₃、X₄、X₅And the number of corresponding equipment is set as a-b, b-c, c-d, d-e, e-f and a plurality of grades greater than f according to the number interval, and the safety grade number value is judged to be N by combining the database project and the safety rating manual₁、N₂、N₃、N₄、N₅And sending the data to an analysis rating module for numerical analysis, and encrypting and storing the data.

EXAMPLE seven

According to the technical scheme, in an industrial production scene, equipment facilities, operation activities and operation places related to a detection range are analyzed, equipment types and equipment operation actions are identified, so that the safety level is judged, enterprise managers are output, early warning prompts are carried out, and safety management of daily production is assisted.

Firstly, a matching database (including the safety levels of various types of production equipment and the safety levels of different equipment actions) is uploaded by a standard numerical value and transmission data comparison module in a safety encryption module, and judgment is carried out according to the equipment types appearing in a scene and the working actions of corresponding equipment, so that the safety level of the detection scene is analyzed.

And when the equipment in the scene is in a static state, the detection equipment acquires image information of structures and shapes of different equipment in the image, and sends the image information to the standard numerical value and transmission data comparison module to compare the image information with the information in the database, so that the security rating of the scene is carried out, and the scene is sent to the terminal.

When equipment in a scene acts (for example, a forklift moves and carries objects, a conveying belt conveys, a high-temperature boiler works, a punching machine works and the like), the equipment receives image information, an image acquisition module, a motion tracking module and an image detection module work together, the motion tracking module captures the equipment which acts in real time, meanwhile, the image detection module controls a detection device to position and capture the equipment which works through an image analysis processing module, identifies the working state of the equipment, compares the standard numerical value with a database in a transmission data comparison module, judges the safety level of the working state and judges whether an alarm device is started or not; and meanwhile, the data are sent to an analysis rating module for numerical analysis, and are sent to a terminal for display, encryption and storage.

And (3) monitoring equipment statically and dynamically by combining with a technology implementation scene, comparing with parameters in a preset safety level database, and finally judging the real-time safety level of the scene to achieve the real-time monitoring of the safety level of the construction scene by enterprise managers, and carrying out early warning prompt to assist the safety management of daily production.

Finally, it should be noted that: although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the embodiments or portions thereof without departing from the spirit and scope of the invention.

Claims

1. Safety management system based on image acquisition, its characterized in that: the system comprises a detection end, a data end and a terminal; the detection end comprises an image acquisition module, an image detection module, a motion tracking module and detection equipment; the data end receives the data collected by the detection end; the data end comprises a transmission center and a processing center; the terminal receives the data which are sorted and analyzed by the data terminal, and stores and displays the data; the terminal comprises a storage module, a display terminal and a cloud server;

the image acquisition module is used for acquiring the static image of the detection equipment;

the motion tracking module receives the motion information of the detection equipment, records the distance between the moving object and the standard point of the detection equipment in the image range by an infrared distance measurement technology, assigns values to the moving object by a device arranged in the motion tracking module and continuously records the distance between the moving object and the standard point of the detection equipment;

the image detection module receives information of image detection of the detection equipment;

the transmission center integrates and compresses the data sent by the detection end and sends the processed data to the processing center;

the processing center processes the data sent by the transmission center, directly transmits the data of the image acquisition module, calculates the data of the motion tracking module, draws the moving track of the object in the image and simultaneously displays the distance between the moving object and the standard point of the detection device;

the storage module compresses and stores the data sent by the processing center;

the cloud server compresses, uploads and stores data sent by the processing center;

and the display terminal decodes the data sent by the processing center and displays the decoded data on the human-computer interaction equipment.

2. The image-capture-based security management system of claim 1, wherein: the data of the image detection module is processed and analyzed through the image analysis processing module and is sent to the detection device to control the detection device, and the image analysis processing module comprises an analog-digital converter and a signal processing device.

3. The image-capture-based security management system of claim 2, wherein: the analog-to-digital converter is configured to: and carrying out plane two-position modeling on the image information acquired by the image detection module, carrying out two-dimensional coordinate point assignment on moving objects appearing in the image and generating the two-dimensional coordinate point assignment to the signal processing device.

4. The image-capture-based security management system of claim 3, wherein: the signal processing apparatus is configured to: and analyzing the two-dimensional coordinate points of one or more moving objects of the analog-digital converter to obtain the sites or mean sites of the two-dimensional coordinate points of the moving objects, controlling the detection equipment to act, and moving the detection picture of the image detection module to the sites or mean sites obtained after the calculation and analysis of the signal processing device.

5. The image-capture-based security management system of claim 1, wherein: the terminal is provided with a security encryption module, and the security encryption module is configured to: analyzing and encrypting the signal sent by the processing center, and uploading the signal to a cloud server; the data in the extraction storage module and the cloud server are processed by the security encryption module, sent to the display terminal and displayed by the human-computer interaction device.

6. The image-capture-based security management system of claim 5, wherein: the security encryption module comprises a standard numerical value and transmission data comparison module and an analysis rating module; the standard value and transmission data comparison module is configured to: analyzing and collecting the data sent by the processing center; the analysis rating module is configured to: and comparing the standard value with the data of the transmission data, carrying out risk rating and analysis on the data of the module, and sending the data to the terminal.

7. The image-capture-based security management system of claim 6, wherein: the standard value and transmission data comparison module sends a signal to an alarm device; the alarm device is configured to: and performing action according to the standard value and the signal of the transmission data comparison module.

8. The image-capture-based security management system of claim 6, wherein: the safety threshold value preset by the quasi-numerical value and transmission data comparison module has a maximum value and a minimum value, the safety interval range is smaller than the maximum value of the safety threshold value or larger than the minimum value of the safety threshold value, and the alarm device sends out a three-time alarm signal.