CN112118308A - Intelligent security monitoring platform based on internet technology - Google Patents
Intelligent security monitoring platform based on internet technology Download PDFInfo
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- CN112118308A CN112118308A CN202010963264.2A CN202010963264A CN112118308A CN 112118308 A CN112118308 A CN 112118308A CN 202010963264 A CN202010963264 A CN 202010963264A CN 112118308 A CN112118308 A CN 112118308A
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- H—ELECTRICITY
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- H04L67/00—Network arrangements or protocols for supporting network services or applications
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- G—PHYSICS
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- G01D—MEASURING NOT SPECIALLY ADAPTED FOR A SPECIFIC VARIABLE; ARRANGEMENTS FOR MEASURING TWO OR MORE VARIABLES NOT COVERED IN A SINGLE OTHER SUBCLASS; TARIFF METERING APPARATUS; MEASURING OR TESTING NOT OTHERWISE PROVIDED FOR
- G01D21/00—Measuring or testing not otherwise provided for
- G01D21/02—Measuring two or more variables by means not covered by a single other subclass
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- G—PHYSICS
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- G08B—SIGNALLING OR CALLING SYSTEMS; ORDER TELEGRAPHS; ALARM SYSTEMS
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- G08B7/06—Signalling systems according to more than one of groups G08B3/00 - G08B6/00; Personal calling systems according to more than one of groups G08B3/00 - G08B6/00 using electric transmission, e.g. involving audible and visible signalling through the use of sound and light sources
Abstract
The invention discloses an intelligent safety monitoring platform based on an internet technology, which comprises a monitoring control center, a monitoring center, a data center and a back-end network center. The monitoring control center is used for monitoring and managing the operation of each monitoring module of the microorganism living environment; the monitoring center is used for monitoring safety in the laboratory; the data center is used for user request and feedback processing, remote access communication and data storage; each module of the monitoring control center is connected to the LAN through an RS485 serial port, and is transmitted to a monitoring device server of the data center and a rear-end network center through the switch, the monitoring device server analyzes and stores data, and the rear-end network center regulates and controls the transmitted data. Above-mentioned platform not only can carry out real-time supervision to each laboratory target microorganism, can also monitor the inside safety of laboratory, makes microorganism monitoring data have the reliability more moreover.
Description
Technical Field
The invention belongs to the technical field of microorganism monitoring, and particularly relates to an intelligent safety monitoring platform based on an internet technology.
Background
The microbial culture refers to the rapid growth and propagation of some (kinds of) microorganisms by means of artificially prepared culture media and artificially created culture conditions (such as culture temperature, and the like), and is called microbial culture. The culture medium is required for culturing the microorganisms, and the specific culture medium is prepared according to different types and living habits of the microorganisms. The key to the success of the microbial culture is the requirement of the growth environment, which is easy to cause the failure of the microbial culture if the growth environment is not suitable in the culture process.
Major environmental factors affecting microbial growth: temperature, oxygen, redox potential, moisture, radiation, chemical, pH. The survival temperature of microorganisms is divided into three types: the lowest growth temperature, the highest growth temperature and the optimal growth temperature; the growth temperature of the microorganism is classified into three categories: low temperature type (10-15 deg.C), medium temperature type (25-37 deg.C), and high temperature type (45-55 deg.C); and (3) overhigh temperature: can lead to the inactivation of protein denaturing enzyme and the disintegration of ribosome, and has low temperature: the enzyme activity is reduced and the metabolism is slow. There are five microorganisms distinguished by oxygen: the oxygen concentration Eh of the obligate aerobic bacteria in the living environment is required to be more than 0.1V, preferably 0.3-0.4V, and oxygen is required; the facultative anaerobe living environment requires that the oxygen concentration Eh is less than 0.1V, anaerobic respiration is performed, oxygen can be performed or not, aerobic growth is better, and when Eh is more than 0.1V, aerobic respiration is performed well; the oxygen concentration EH required by the living environment of the anaerobic bacteria is less than 0.1V, and molecular oxygen is harmful to the anaerobic bacteria; aerotolerant bacteria, which live anaerobically in the presence of oxygen and are harmless to them by molecular oxygen; micro aerobic bacteria can grow normally only under the condition of lower oxygen content. The microorganisms also have certain requirements for the optimal water activity value of the bacteria: 0.93-0.99, activity value of optimum water of yeast: 0.88-0.91, activity value of optimum water of mould: 0.8, when the water activity is less than 0.6-0.7: dormancy, partial cell dehydration, protein denaturation (most microorganisms). The influence of radiation on microorganisms is also great, and visible light (400nm-800nm) can cause energy, stimulate the formation of basidiomycetes and cause photooxidation (death); ultraviolet light can cause microbial death. Meanwhile, the microorganism has higher requirements on the pH value of the aqueous solution, for example, the pH value of azotobacter chroococcum is required to be about 7.4-7.6, and the highest pH value is 9.0; rhizobium japonicum requires a pH of about 6.8 to 7.0, up to 11.0.
Although a large number of microorganism monitoring devices are endlessly established in recent years, no attention is generally paid to establishing a reasonable monitoring platform by using the internet technology to automatically monitor the living environment of microorganisms, so that the microorganism culture often fails and wastes manpower and material resources, the subsequent analysis and active control are lacked, the information utilization rate is low, the response is slow, the data is isolated and not shared, and the information is static and unidirectional and does not interact. Aiming at the situations, the real-time monitoring platform for the living environment of the microorganisms based on the Internet technology at the present stage in China is shown to be in the trial stage, and a large technical blank is left, particularly on the detection, integration and communication of various influencing factors of the living environment of the microorganisms.
In order to solve the defects of the prior art, the invention provides an intelligent safety monitoring platform based on the internet technology, which utilizes the fusion of the internet technology and the microorganism living environment detection technology, uses a scheme of combining the monitoring technology and the monitoring technology, has a modular design, integrates peripheral related system information, depends on the internet analysis technology to carry out refinement, quantification, standardization and intelligent management, effectively controls the behaviors and the states of people and objects in the whole time period and the whole process, can well monitor the unsafe behaviors and the unsafe states of people and objects in a laboratory by means of the linkage of the microorganism living environment detection technology and the laboratory monitoring technology, eliminates the direct reason of hidden dangers, and really realizes the intelligent safety management of microorganisms.
Disclosure of Invention
Technical problem to be solved
In order to solve the defects of the prior art, the invention provides an intelligent safety monitoring platform based on the internet technology, which utilizes the fusion of the internet technology and the microorganism living environment detection technology, uses a scheme of combining the monitoring technology and the monitoring technology, has a modular design, integrates peripheral related system information, depends on the internet analysis technology to carry out refinement, quantification, standardization and intelligent management, effectively controls the behaviors and the states of people and objects in the whole time period and the whole process, can well monitor the unsafe behaviors and the unsafe states of people and objects in a laboratory by means of the linkage of the microorganism living environment detection technology and the laboratory monitoring technology, eliminates the direct reason of hidden dangers, and really realizes the intelligent safety management of microorganisms.
(II) technical scheme
The invention is realized by the following technical scheme: the utility model provides an intelligent security monitoring platform based on internet technique, including at least one set of monitoring control center, at least one set of surveillance center, at least one set of data center, at least one set of rear end network center: the monitoring control center, the monitoring center, the data center and the back-end network center are connected through a LAN (local area network), and the back-end network center establishes a LAN (local area network) to perform data transmission and interaction with each module;
the monitoring control center comprises:
a pH value monitoring module: the device is used for monitoring the pH value of water in the culture dish;
a radiation monitoring module: monitoring the intensity and illuminance of ultraviolet radiation in the environment where the microorganisms are present;
a temperature detection module: the temperature monitoring device is used for monitoring the temperature of the environment where the microorganisms are located;
an oxygen monitoring module: for monitoring the oxygen concentration of the microbial environment;
an oxidation-reduction potential monitoring module: potential differences for monitoring microbial environments;
a water activity value monitoring module: for detecting water activity;
the monitoring center comprises:
fire alarm host computer: the system is used for alarming and processing fire disaster when an emergency occurs;
an alarm module: the alarm is used for alarming and buzzing alarm for emergency;
high-speed ball machine, monitoring device: used for monitoring visual and acoustic sound in laboratory
The main intercom unit: the system is used for communicating with external personnel;
entrance guard controller: used for controlling the opening and closing of the door;
the data center comprises:
warning, entrance guard, fire control, server of talkbacking: the system is used for processing user requests and feedback processing of alarming, entrance guard, fire fighting and talkback;
a monitoring device server: used for controlling and regulating each monitoring device;
the remote management server: user request and feedback processing for remote control adjustments;
the communication server: for remote access communication;
data storage hard disk: for data storage;
the backend network center comprises:
management terminal, remote management terminal, network control keyboard, intercom host computer, switch.
Furthermore, each module of the monitoring control center is connected to the LAN through an RS485 serial port, and is transmitted to a monitoring device server and a rear-end network center of the data center through the switch, the monitoring device server analyzes and stores data, and the rear-end network center regulates and controls the transmitted data.
Further, the pH value monitoring module measures the pH value within a range of 0-14; radiation monitoring module for monitor ultraviolet intensity and illumination intensity, ultraviolet intensity monitoring range: 0-2000.0mW/cm3The illumination intensity monitoring range is as follows: 0-200000 Lux; the monitoring range of the temperature detection module is as follows: 0-100 ℃; the monitoring range of the oxygen monitoring module is as follows: 0 to 100 percent; the monitoring range of the oxidation-reduction potential monitoring module is as follows: 0-2000 mV; the monitoring range of the water activity value monitoring module is as follows: 0-1.0 AW.
Furthermore, the monitoring center is connected with a local area network control fire-fighting alarm host, an alarm module, an access controller and an intercom host through a switch; the high-speed dome camera and the monitoring device are connected to a local area network through a switch to perform data interaction with the monitoring center; the fire-fighting alarm host comprises an extension set and a spray head, and is used for emergency contact and fire fighting with the outside when a fire disaster or other conditions occur inside the laboratory; the alarm module comprises an alarm lamp and a buzzer; the access controller comprises a bolt and a card reader; the main intercom system includes an inner extension set and an outer extension set.
Furthermore, the rear-end network center management terminal and the remote management terminal control the monitoring device module through the monitoring device server.
Furthermore, the intelligent security monitoring platform system framework is provided with five layers, including a presentation layer, an application layer, a platform layer, a transmission layer and a perception layer.
Furthermore, the intelligent safety monitoring platform Network based on the internet technology has the beneficial effects of using the WLAN, the LAN, the 5G Network, the 4G Network and the VPN communication technology (III)
Compared with the prior art, the invention has the following beneficial effects:
in order to solve the defects of the prior art, the invention provides an intelligent safety monitoring platform based on the internet technology, which utilizes the fusion of the internet technology and the microorganism living environment detection technology, uses a scheme of combining the monitoring technology and the monitoring technology, has a modular design, integrates peripheral related system information, depends on the internet analysis technology to carry out refinement, quantification, standardization and intelligent management, effectively controls the behaviors and the states of people and objects in the whole time period and the whole process, can well monitor the unsafe behaviors and the unsafe states of people and objects in a laboratory by means of the linkage of the microorganism living environment detection technology and the laboratory monitoring technology, eliminates the direct reason of hidden dangers, and really realizes the intelligent safety management of microorganisms.
Drawings
Other features, objects and advantages of the invention will become more apparent upon reading of the detailed description of non-limiting embodiments with reference to the following drawings:
FIG. 1 is a schematic diagram of the overall network topology of the present invention;
FIG. 2 is a schematic diagram of a network topology of a supervisory control center according to the present invention;
FIG. 3 is a schematic diagram of a data center network topology of the present invention;
FIG. 4 is a schematic diagram of a monitoring center network topology of the present invention;
FIG. 5 is a schematic diagram of a backend network centric network topology of the present invention;
FIG. 6 is a system architecture diagram of the present invention
Detailed Description
Referring to fig. 1, 2, 3 and 4, in order to solve the above-mentioned problems of the prior art, in order to solve the defects of the prior art, the invention provides an intelligent safety monitoring platform based on the internet technology, which utilizes the fusion of the internet technology and the microorganism living environment detection technology, uses a scheme of combining the monitoring technology and the monitoring technology, has a modular design, integrates peripheral related system information, depends on the internet analysis technology to carry out refinement, quantification, standardization and intelligent management, effectively controls the behaviors and the states of people and objects in the whole time period and the whole process, can well monitor the unsafe behaviors and the unsafe states of people and objects in a laboratory by means of the linkage of the microorganism living environment detection technology and the laboratory monitoring technology, eliminates the direct reason of hidden dangers, and really realizes the intelligent safety management of microorganisms.
(II) technical scheme
The utility model provides an intelligent security monitoring platform based on internet technique, including at least one set of monitoring control center, at least one set of surveillance center, at least one set of data center, at least one set of rear end network center: the monitoring control center, the monitoring center, the data center and the back-end network center are connected through a LAN (local area network), and the back-end network center establishes a LAN (local area network) to perform data transmission and interaction with each module;
the monitoring control center comprises:
a pH value monitoring module: the device is used for monitoring the pH value of water in the culture dish;
a radiation monitoring module: monitoring the intensity and illuminance of ultraviolet radiation in the environment where the microorganisms are present;
a temperature detection module: the temperature monitoring device is used for monitoring the temperature of the environment where the microorganisms are located;
an oxygen monitoring module: for monitoring the oxygen concentration of the microbial environment;
an oxidation-reduction potential monitoring module: potential differences for monitoring microbial environments;
a water activity value monitoring module: for detecting water activity;
the monitoring center comprises:
fire alarm host computer: the system is used for alarming and processing fire disaster when an emergency occurs;
an alarm module: the alarm is used for alarming and buzzing alarm for emergency;
high-speed ball machine, monitoring device: used for monitoring visual and acoustic sound in laboratory
The main intercom unit: the system is used for communicating with external personnel;
entrance guard controller: used for controlling the opening and closing of the door;
the data center comprises:
warning, entrance guard, fire control, server of talkbacking: the system is used for processing user requests and feedback processing of alarming, entrance guard, fire fighting and talkback;
a monitoring device server: used for controlling and regulating each monitoring device;
the remote management server: user request and feedback processing for remote control adjustments;
the communication server: for remote access communication;
data storage hard disk: for data storage;
the backend network center comprises:
management terminal, remote management terminal, network control keyboard, intercom host computer, switch.
Each module of the monitoring control center is connected to the LAN through an RS485 serial port, and is transmitted to a monitoring device server and a rear-end network center of the data center through the switch, the monitoring device server analyzes and stores data, and the rear-end network center regulates and controls the transmitted data.
The pH value monitoring module is used for measuring the pH value within the range of 0-14; radiation monitoring module for monitor ultraviolet intensity and illumination intensity, ultraviolet intensity monitoring range: 0-2000.0mW/cm3The illumination intensity monitoring range is as follows: 0-200000 Lux; the monitoring range of the temperature detection module is as follows: 0-100 ℃; the monitoring range of the oxygen monitoring module is as follows: 0 to 100 percent; oxidation reduction potential monitoringModule monitoring range: 0-2000 mV; the monitoring range of the water activity value monitoring module is as follows: 0-1.0 AW.
The monitoring center is connected with the local area network control fire-fighting alarm host, the alarm module, the access controller and the talkback host through the switch; the high-speed dome camera and the monitoring device are connected to a local area network through a switch to perform data interaction with the monitoring center; the fire-fighting alarm host comprises an extension set and a spray head, and is used for emergency contact and fire fighting with the outside when a fire disaster or other conditions occur inside the laboratory; the alarm module comprises an alarm lamp and a buzzer; the access controller comprises a bolt and a card reader; the main intercom system includes an inner extension set and an outer extension set.
The back-end network center management terminal and the remote management terminal control the monitoring device module through the monitoring device server.
The intelligent security monitoring platform system framework is provided with five layers, including a display layer, an application layer, a platform layer, a transmission layer and a perception layer.
The intelligent safety monitoring platform Network based on the internet technology uses WLAN, LAN, 5G Network, 4G Network and VPN communication technology.
The working principle is as follows:
an intelligent security monitoring platform based on internet technology, the system implementation method is as follows:
each module of the monitoring control center is connected to the LAN through an RS485 serial port, and is transmitted to a monitoring device server of the data center and a rear-end network center through the switch, the monitoring device server analyzes and stores data, and the rear-end network center regulates and controls the transmitted data. The monitoring center is connected with the local area network control fire-fighting alarm host, the alarm module, the access controller and the talkback host through the switch; the high-speed dome camera and the monitoring device are connected to a local area network through a switch to perform data interaction with the monitoring center; the fire-fighting alarm host comprises an extension set and a spray head, and is used for emergency contact and fire fighting with the outside when a fire disaster or other conditions occur inside the laboratory; the alarm module comprises an alarm lamp and a buzzer; the access controller comprises a bolt and a card reader; the main intercom system includes an inner extension set and an outer extension set. And the rear-end network center management terminal and the remote management terminal control the monitoring device module through the monitoring device server. The intelligent security monitoring platform system framework is provided with five layers, including a display layer, an application layer, a platform layer, a transmission layer and a perception layer. The Network is built based on WLAN, LAN, 5G Network, 4G Network and VPN communication technology.
The invention utilizes the fusion of the internet technology and the microorganism living environment detection technology, uses the scheme of combining the monitoring technology and the monitoring technology, has modular design, integrates peripheral related system information, depends on the internet analysis technology to carry out refined, quantitative, normalized and intelligent management, effectively controls the behaviors of people and the states of objects in the whole time period and the whole process, can well monitor the unsafe behaviors of people and the unsafe states of objects in a laboratory by means of the linkage of the microorganism living environment detection technology and the laboratory monitoring technology, eliminates the direct reasons of hidden dangers and really realizes the intelligent safety management of microorganisms.
Assuming that a certain laboratory needs to culture bacillus subtilis, the survival conditions of the bacillus subtilis are known as follows according to the past experience: temperature: 30 ℃ to 37 ℃, oxygen concentration eh: 0.3-0.4v, activity value of water: 0.3-0.4v, pH: 5.0-8.0, oxidation-reduction potential: 0.3-0.4V. According to known conditions, a pH value monitoring module, a radiation monitoring module, a temperature detection module, an oxygen monitoring module, an oxidation-reduction potential monitoring module and a moisture activity value monitoring module are started to monitor the microbial environment in real time, each module is transmitted to a monitoring device server and a rear-end network center of a data center through a local area network through a switch, the monitoring device server analyzes and stores data, and the rear-end network center regulates and controls the transmitted data. When the monitoring environment is abnormal, the monitoring center controls the fire-fighting alarm host, the alarm module, the entrance guard controller and the talkback host to start alarm prompt; the high-speed dome camera and the monitoring device monitor the field environment of the laboratory in real time; when a fire occurs, the fire-fighting alarm host is automatically triggered to open the spray head to eliminate the fire, and the interphone emergently contacts with the outside and carries out fire fighting when a fire or other conditions occur inside the laboratory; when an accident occurs, the alarm module starts the alarm lamp and the buzzer, the safety of the laboratory is greatly improved, the unsafe behaviors of people and the unsafe states of objects in the laboratory can be well monitored by means of the linkage of the microbial living environment detection technology and the laboratory monitoring technology, the direct reason of hidden danger is eliminated, and the intelligent safety management of the microbes is really realized.
The control mode of the invention is controlled by manually starting and closing the switch, the wiring diagram of the power element and the supply of the power source belong to the common knowledge in the field, and the invention is mainly used for protecting mechanical devices, so the control mode and the wiring arrangement are not explained in detail in the invention.
The control mode of the invention is automatically controlled by the controller, the control circuit of the controller can be realized by simple programming of technicians in the field, the supply of the power supply also belongs to the common knowledge in the field, and the invention is mainly used for protecting mechanical devices, so the control mode and the circuit connection are not explained in detail in the invention
While there have been shown and described what are at present considered the fundamental principles and essential features of the invention and its advantages, it will be apparent to those skilled in the art that the invention is not limited to the details of the foregoing exemplary embodiments, but is capable of other specific forms without departing from the spirit or essential characteristics thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.
Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.
Claims (7)
1. The utility model provides an intelligent security monitoring platform based on internet technique which characterized in that: including at least one set of monitoring control center, at least one set of surveillance center, at least one set of data center, at least one set of rear end network center: the monitoring control center, the monitoring center, the data center and the back-end network center are connected through a LAN (local area network), and the back-end network center establishes a LAN (local area network) to perform data transmission and interaction with each module;
the monitoring control center comprises:
a pH value monitoring module: the device is used for monitoring the pH value of water in the culture dish;
a radiation monitoring module: monitoring the intensity and illuminance of ultraviolet radiation in the environment where the microorganisms are present;
a temperature detection module: the temperature monitoring device is used for monitoring the temperature of the environment where the microorganisms are located;
an oxygen monitoring module: for monitoring the oxygen concentration of the microbial environment;
an oxidation-reduction potential monitoring module: potential differences for monitoring microbial environments;
a water activity value monitoring module: for detecting water activity;
the monitoring center comprises:
fire alarm host computer: the system is used for alarming and processing fire disaster when an emergency occurs;
an alarm module: the alarm is used for alarming and buzzing alarm for emergency;
high-speed ball machine, monitoring device: used for monitoring visual and acoustic sound in laboratory
The main intercom unit: the system is used for communicating with external personnel;
entrance guard controller: used for controlling the opening and closing of the door;
the data center comprises:
warning, entrance guard, fire control, server of talkbacking: the system is used for processing user requests and feedback processing of alarming, entrance guard, fire fighting and talkback;
a monitoring device server: used for controlling and regulating each monitoring device;
the remote management server: user request and feedback processing for remote control adjustments;
the communication server: for remote access communication;
data storage hard disk: for data storage;
the backend network center comprises:
management terminal, remote management terminal, network control keyboard, intercom host computer, switch.
2. The intelligent security monitoring platform based on internet technology as claimed in claim 1, wherein: each module of the monitoring control center is connected to the LAN through an RS485 serial port, and is transmitted to a monitoring device server of the data center and a rear-end network center through the switch, the monitoring device server analyzes and stores data, and the rear-end network center regulates and controls the transmitted data.
3. The intelligent security monitoring platform based on internet technology as claimed in claim 1, wherein: the pH value monitoring module is used for measuring the pH value within the range of 0-14; radiation monitoring module for monitor ultraviolet intensity and illumination intensity, ultraviolet intensity monitoring range: 0-2000.0mW/cm3The illumination intensity monitoring range is as follows: 0-200000 Lux; the monitoring range of the temperature detection module is as follows: 0-100 ℃; the monitoring range of the oxygen monitoring module is as follows: 0 to 100 percent; the monitoring range of the oxidation-reduction potential monitoring module is as follows: 0-2000 mV; the monitoring range of the water activity value monitoring module is as follows: 0-1.0 AW.
4. The intelligent security monitoring platform based on internet technology as claimed in claim 1, wherein: the monitoring center is connected with the local area network control fire-fighting alarm host, the alarm module, the access controller and the talkback host through the switch; the high-speed dome camera and the monitoring device are connected to a local area network through a switch to perform data interaction with the monitoring center; the fire-fighting alarm host comprises an extension set and a spray head, and is used for emergency contact and fire fighting with the outside when a fire disaster or other conditions occur inside the laboratory; the alarm module comprises an alarm lamp and a buzzer; the access controller comprises a bolt and a card reader; the main intercom system includes an inner extension set and an outer extension set.
5. The intelligent security monitoring platform based on internet technology as claimed in claim 1, wherein: and the rear-end network center management terminal and the remote management terminal control the monitoring device module through the monitoring device server.
6. The intelligent security monitoring platform based on internet technology as claimed in claim 1, wherein: the intelligent security monitoring platform system framework is provided with five layers, including a display layer, an application layer, a platform layer, a transmission layer and a perception layer.
7. The intelligent security monitoring platform based on internet technology as claimed in claim 1, wherein: the intelligent safety monitoring platform Network based on the internet technology uses WLAN, LAN, 5G Network, 4G Network and VPN communication technology.
Priority Applications (1)
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