CN115482137A - Intelligent security system for intelligent building - Google Patents
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Abstract
The invention discloses an intelligent security system for intelligent buildings, which belongs to the field of intelligent buildings and is used for solving the problem that the existing buildings are generally unified security measures.
Description
Technical Field
The invention belongs to the field of intelligent buildings, relates to an intelligent security technology, and particularly relates to an intelligent security system for the intelligent buildings.
Background
The core of the intelligent building is a 5A system, and the intelligent building organically integrates the 5 systems through a communication network system, and integrates the structure, the system, the service, the management and the optimal combination of the structure, the system, the service and the management, so that the building has the characteristics of safety, convenience, high efficiency and energy conservation. The intelligent building is a discipline of edge intercourse, relates to computer technology, automatic control, communication technology, building technology and the like, and has more and more new technologies applied to the intelligent building.
A fire-fighting box is usually arranged in a corridor or corridor of a current building, a smoke alarm and the like are arranged in the building room, the mode of the building is a unified security measure, corresponding security measures and security strength are not specifically set in combination with the actual condition of the building, and therefore the intelligent security system for the intelligent building is provided.
Disclosure of Invention
Aiming at the defects in the prior art, the invention aims to provide an intelligent security system for an intelligent building.
The technical problem to be solved by the invention is as follows:
how to combine the actual conditions to set up assorted security protection dynamics for the building to carry out intelligent security protection to the building under the adaptation security protection dynamics.
The purpose of the invention can be realized by the following technical scheme:
an intelligent security system for intelligent buildings comprises a data acquisition module, a region division module, a building construction module, a storage module, a security analysis module, a region analysis module, a security setting module and a server; the storage module is used for building information of different buildings and sending the building information to the building construction module, and the building construction module constructs the buildings by combining the building information to obtain a virtual three-dimensional building and feeds the virtual three-dimensional building back to the server; the area division module is used for carrying out area division on the virtual three-dimensional building to obtain a plurality of security monitoring areas through division and feeding the security monitoring areas back to the server; the data acquisition module is used for acquiring security measure data and security equipment data of a security monitoring area and feeding the security measure data and the security equipment data back to the server, and the server sends the security measure data and the security equipment data to the security setting module;
the storage module also stores historical security data of a security monitoring area and sends the historical security data to the area analysis module; the area analysis module is used for analyzing the area security condition of the security monitoring area, obtaining an area security value of the security monitoring area and feeding the area security value back to the server, and the server sends the area security value of the security monitoring area to the security setting module; the security setting module is used for setting the security level of the security monitoring area to obtain the security level of the security monitoring area;
the data acquisition module is used for acquiring security real-time data of a security monitoring area and feeding the security real-time data back to the server, and the server sends the security real-time data to the security analysis module; the security analysis module is used for analyzing security conditions in a security monitoring area in real time to obtain security warning signals or security safety signals and feeding the security warning signals or the security safety signals back to the server, if the server receives the security safety signals, no operation is carried out, and if the server receives the security warning signals, security measures in the security monitoring area are controlled to carry out security work.
Further, the building information is the height, floor number and floor area of the building;
the security measure data is the number of fire hydrants and water smoke nozzles in the security monitoring area;
the real-time equipment data comprises the number of personnel and equipment in the security monitoring area and the equipment value of each equipment;
the historical security data is the number of security accidents in the security monitoring area and the occurrence time and duration of each security accident;
the security real-time data are real-time monitoring images, real-time infrared images, real-time temperature values and real-time smoke values in a security monitoring area.
Further, the analysis process of the region analysis module is specifically as follows:
acquiring the number of security accidents in a security monitoring area and the occurrence time and duration of each security accident;
adding the duration of each security accident and dividing the sum by the number of the security accidents to obtain the duration average duration of the security accidents in the security monitoring area;
acquiring the occurrence time of each security accident in a security monitoring area, calculating the occurrence interval time of adjacent security accidents, and averaging the occurrence interval time of a plurality of groups of adjacent security accidents to obtain the security accident occurrence average time of the security monitoring area;
and calculating the area security value of the security monitoring area.
Further, the setting process of the security setting module is specifically as follows:
acquiring the number of personnel and equipment in a security monitoring area and the value of each equipment, and summing the value of each equipment to obtain the total value of the equipment in the security monitoring area;
calculating a personal security value of a security monitoring area;
similarly, acquiring the number of fire hydrants and the number of water smoke nozzles in the security monitoring area, and calculating the area protection value of the security monitoring area;
calculating to obtain a security value of the security monitoring area by combining the area security value of the security monitoring area;
and comparing the security value with the security threshold value to obtain the security level of the security monitoring area as a third security level, a second security level or a first security level.
Further, the level of the first security level is higher than that of the second security level, and the level of the second security level is higher than that of the third security level.
Further, the security setting module feeds back the security level of the security monitoring area to the server, the server stores security measures corresponding to the security level, the server obtains the security measures corresponding to the security monitoring area according to the security level, the security measures are fire plugs and water smoke nozzles, if the number of the fire plugs and the water smoke nozzles in the security monitoring area meets the corresponding installation measures, no operation is performed, and if the number of the fire plugs and the water smoke nozzles in the security monitoring area does not meet the corresponding installation measures, the installation measures in the security monitoring area are adjusted.
Furthermore, the first installation grade corresponds to a first installation measure, the third installation grade corresponds to a second installation measure, and the third installation grade corresponds to a third installation measure;
the quantity of the fire hydrant and the water smoke spray head in the first installation measure is larger than that in the second installation measure, and the quantity of the fire hydrant and the water smoke spray head in the second installation measure is larger than that in the third installation measure.
Further, the real-time analysis process of the security analysis module is specifically as follows:
acquiring a real-time infrared image in a security monitoring area, and extracting pixel points with different colors in the real-time infrared image;
acquiring the color corresponding to the fire, marking the corresponding pixel points as approximate pixel points according to the color corresponding to the fire, and marking the distribution areas of all the approximate pixel points as security warning areas;
the method comprises the steps of obtaining a real-time temperature value and a real-time smoke value in a security warning area, generating a security safety signal if the real-time temperature value does not exceed a temperature threshold value and the real-time smoke value does not exceed a smoke threshold value, further obtaining a real-time monitoring image in the security warning area if the real-time temperature value exceeds the temperature threshold value or the real-time smoke value exceeds the smoke threshold value, checking whether security hidden danger exists according to the real-time monitoring image, generating the security warning signal if the security hidden danger exists, and generating the security safety signal if the security hidden danger does not exist.
Compared with the prior art, the invention has the beneficial effects that:
the building construction module constructs the building by combining building information to obtain a virtual three-dimensional building, the virtual three-dimensional building is divided by using a region division module, then the region security condition of a security monitoring region is analyzed by using a region analysis module to obtain the region security value of the security monitoring region and sent to a security setting module, then the security setting module is used for setting the security level of the security monitoring region to obtain the security level corresponding to the security monitoring region and fed back to a server, the server obtains the security measure corresponding to the security monitoring region according to the security level, and judges whether the number of fire hydrants and water smoke spray heads in the current security monitoring region meets the corresponding installation measure and carries out corresponding operation; after adaptive security protection force and security protection measures are set in a security protection monitoring area, the security protection situation in the security protection monitoring area is analyzed in real time through a security protection analysis module to generate a security protection warning signal or a security protection safety signal, and the security protection measures in the security protection monitoring area are controlled according to the signal to carry out security protection work.
Drawings
To facilitate understanding for those skilled in the art, the present invention will be further described with reference to the accompanying drawings.
FIG. 1 is an overall system block diagram of the present invention.
Detailed Description
The technical solutions of the present invention will be described clearly and completely with reference to the following embodiments, and it should be understood that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.
In an embodiment, please refer to fig. 1, an intelligent security system for an intelligent building includes a data acquisition module, a region division module, a building structure module, a storage module, a security analysis module, a region analysis module, a security setting module, and a server;
in this embodiment, the storage module is used for building information of different buildings and sending the building information to the building construction module, wherein the building information includes the height, the number of floors, the floor area and the like of the building;
the building construction module constructs a building by combining building information to obtain a virtual three-dimensional building, and feeds the virtual three-dimensional building back to the server, and during specific implementation, the building information of the building construction module can obtain the virtual three-dimensional building by using a BIM technology and building drawings;
the area division module is used for carrying out area division on the virtual three-dimensional building to obtain a plurality of security monitoring areas through division and feeding the security monitoring areas back to the server, and a specific division method can be according to an area formed by surrounding functional areas, floors or wall surfaces;
the data acquisition module is used for acquiring security measure data and security equipment data of a security monitoring area and feeding the security measure data and the security equipment data back to the server, and the server sends the security measure data and the security equipment data to the security setting module;
specifically explained, the security measure data is the number of fire hydrants, water smoke nozzles and the like in the security monitoring area; the real-time equipment data comprise the number of personnel and equipment in a security monitoring area, the equipment value of each piece of equipment and the like, the equipment can be computers, printers and the like in buildings, the equipment value is obtained by adding the market prices of the corresponding equipment every day in the previous month and then averaging, and the data acquired by the data acquisition module can be imported in advance by workers and stored in a server;
the storage module also stores historical security data of a security monitoring area and sends the historical security data to the area analysis module; specifically, the historical security data includes the number of security accidents in a security monitoring area, the occurrence time and duration of each security accident, and the like, wherein the security accidents can be fires, power line faults, and the like;
the area analysis module is used for analyzing the area security condition of the security monitoring area, and the analysis process specifically comprises the following steps:
step S201, acquiring security accident frequency SC of a security monitoring area and occurrence time and duration of each security accident;
step S202, adding the duration of each security accident, and dividing the sum by the number of the security accidents to obtain the security accident duration average duration JCT of the security monitoring area;
step S203, acquiring the occurrence time of each security accident in the security monitoring area, calculating the occurrence interval duration of adjacent security accidents, and averaging the occurrence interval durations of a plurality of groups of adjacent security accidents to obtain the average occurrence duration JFT of the security accidents in the security monitoring area;
step S204, calculating an area security value QF of the security monitoring area through a formula QF = (SC × a1+ JCT × a 2)/JFT; in the formula, a1 and a2 are proportionality coefficients with fixed numerical values, and the values of a1 and a2 are both greater than zero;
the region analysis module feeds back a region security value QF of the security monitoring region to the server, and the server sends the region security value QF of the security monitoring region to the security setting module;
the security setting module is used for setting security levels of security monitoring areas, and the setting process is as follows:
step S301, acquiring the number RS of personnel in a security monitoring area, the number SS of equipment and the equipment value of each piece of equipment, and summing the equipment values of each piece of equipment to obtain the total equipment value ZSJ of the security monitoring area;
step S302, calculating to obtain a personal security value RSF (short for the security value of the personnel equipment, and subsequently replacing the security value of the personnel equipment with the personal security value) of a security monitoring area through a formula RSF = RS × b1+ SS × b2+ ZSJ × b 3; in the formula, b1, b2 and b3 are all weight coefficients with fixed numerical values, and the values of b1, b2 and b3 are all larger than zero;
step S303, similarly, acquiring the number SFS of fire hydrants and the number PTS of water smoke nozzles in the security monitoring area, and calculating to obtain an area protection value FH of the security monitoring area through a formula FH = SFS × b4+ PTS × b 5; in the formula, b4 and b5 are both weight coefficients with fixed values, and the values of b4 and b5 are both larger than zero;
step S304, obtaining the area security value QF of the security monitoring area obtained by the calculation, and substituting the human security value RSF, the area protection value FH and the area security value QF into a calculation formulaCalculating to obtain security protectionMonitoring a security protection value AF of the area; in the formula, c1 and c2 are proportionality coefficients of fixed numerical values, the values of c1 and c2 are both greater than zero, and e is a natural constant;
step S305, if AF is less than X1, the security level of the security monitoring area is a third security level;
if the X1 is not less than AF and less than X2, the security level of the security monitoring area is a second security level;
if the X2 is less than or equal to AF, the security level of the security monitoring area is a first security level; wherein X1 and X2 are security thresholds with fixed numerical values, and X1 is less than X2;
the level of the first security level is higher than that of the second security level, and the level of the second security level is higher than that of the third security level;
the security setting module feeds back the security level of the security monitoring area to the server, the server obtains the security measures corresponding to the security monitoring area according to the security level, if the number of fire hydrants and water smoke sprayers in the security monitoring area meets the corresponding installation measures, no operation is carried out, and if the number of fire hydrants and water smoke sprayers in the security monitoring area does not meet the corresponding installation measures, the installation measures in the security monitoring area are adjusted;
in specific implementation, security measures corresponding to security levels are stored in the server, the security measures are fire plugs and water smoke sprayers in the embodiment, the fire plugs and the water smoke sprayers are only preferred targets of the embodiment, no specific limitation is made on actual setting, a first installation level corresponds to a first installation measure, a third installation level corresponds to a second installation measure, and the third installation level corresponds to a third installation measure, the number of the fire plugs and the water smoke sprayers in the first installation measure is larger than that of the fire plugs and the water smoke sprayers in the second installation measure, and the number of the fire plugs and the water smoke sprayers in the second installation measure is larger than that of the fire plugs and the water smoke sprayers in the third installation measure;
the data acquisition module is used for acquiring security real-time data of a security monitoring area and feeding the security real-time data back to the server, and the server sends the security real-time data to the security analysis module; the security real-time data comprises real-time monitoring images, real-time infrared images, real-time temperature values, real-time smoke values and the like in a security monitoring area, and the data acquisition module comprises a monitoring camera, an infrared camera, a temperature sensor, a smoke sensor and the like in the security monitoring area;
in this embodiment, the security analysis module is configured to perform real-time analysis on a security condition in a security monitoring area, and is mainly configured to perform real-time analysis on a fire in the monitoring area, where the real-time analysis process specifically includes:
step S401, acquiring a real-time infrared image in a security monitoring area, and extracting pixel points with different colors in the real-time infrared image;
s402, acquiring a color corresponding to a fire, marking corresponding pixel points as approximate pixel points according to the color corresponding to the fire, and marking distribution areas of all the approximate pixel points as security warning areas;
step S403, acquiring a real-time temperature value and a real-time smoke value in a security alarm area, generating a security safety signal if the real-time temperature value does not exceed a temperature threshold value and the real-time smoke value does not exceed a smoke threshold value, further acquiring a real-time monitoring image in the security alarm area if the real-time temperature value exceeds the temperature threshold value or the real-time smoke value exceeds the smoke threshold value, checking whether security hidden danger exists according to the real-time monitoring image, generating the security alarm signal if the security hidden danger exists, and generating the security safety signal if the security hidden danger does not exist;
the security analysis module feeds back security warning signals or security safety signals to the server, if the server receives the security safety signals, no operation is carried out, and if the server receives the security warning signals, security measures in a security monitoring area are controlled to carry out security work.
In another embodiment, a working method of the intelligent security system for the intelligent building is provided, which specifically includes:
step S101, storing building information of different buildings of a module, sending the building information to a building construction module, constructing the buildings by the building construction module in combination with the building information to obtain a virtual three-dimensional building, and feeding back the virtual three-dimensional building to a server;
step S102, a region division module divides a virtual three-dimensional building into a plurality of security monitoring regions and feeds the security monitoring regions back to a server, a data acquisition module acquires security measure data and security equipment data of the security monitoring regions and feeds the security measure data and the security equipment data back to the server, and the server sends the security measure data and the security equipment data to a security setting module;
step S103, meanwhile, the storage module stores historical security data of a security monitoring area and sends the historical security data to an area analysis module, the area analysis module analyzes the area security condition of the security monitoring area, the times SC of security accidents of the security monitoring area and the occurrence time and duration of each security accident are obtained, the duration of each security accident is added and divided by the times JCT of the security accidents to obtain the security accident duration average time JCT of the security monitoring area, the occurrence time of each security accident in the security monitoring area is obtained, the occurrence interval time of adjacent security accidents is calculated, the occurrence interval time of a plurality of groups of adjacent security accidents is averaged to obtain the security accident occurrence average time QFT of the security monitoring area, the area security value QF of the security monitoring area is calculated through the formula QF = (SC × a1+ JCT × a 2)/JFT to obtain the area security value QF of the security monitoring area, the area analysis module feeds the area security value QF of the security monitoring area back to a server, and the server sends the area value of the security monitoring area to a security setting module;
step S104, setting the security level of the security monitoring area by using a security setting module, obtaining the number of personnel RS, the number of equipment SS and the equipment value of each equipment in the security monitoring area, adding the equipment values of each equipment together to obtain the total equipment value ZSJ of the security monitoring area, calculating by a formula RSF = RS × b1+ SS × b2+ ZSJ × b3 to obtain the personnel security value RSF of the security monitoring area, then obtaining the number of fire hydrants SFS and the number of water smoke nozzles PTS of the security monitoring area, calculating by a formula FH = SFS × b4+ PTS × b5 to obtain an area protection value FH of the security monitoring area, and obtaining the security monitoring area protection value FHCalculating to obtain a region security value QF of the security monitoring region, and substituting the human-set security value RSF, the region protection value FH and the region security value QF into a calculation formulaCalculating to obtain a security value AF of a security monitoring area, if AF is less than X1, the security level of the security monitoring area is a third security level, if X1 is less than or equal to AF and less than X2, the security level of the security monitoring area is a second security level, if X2 is less than or equal to AF, the security level of the security monitoring area is a first security level, a security setting module feeds the security level of the security monitoring area back to a server, the server obtains security measures corresponding to the security monitoring area according to the security level, if the number of fire hydrants and water smoke nozzles in the security monitoring area meets the corresponding installation measures, no operation is carried out, and if the number of the fire hydrants and the water smoke nozzles in the security monitoring area does not meet the corresponding installation measures, the installation measures in the security monitoring area are adjusted;
step S105, a data acquisition module acquires security real-time data of a security monitoring area and feeds the security real-time data back to a server, the server sends the security real-time data to a security analysis module, the security analysis module analyzes security conditions in the security monitoring area in real time to obtain real-time infrared images in the security monitoring area, pixel points with different colors in the real-time infrared images are extracted, then colors corresponding to fire hazards are obtained, corresponding pixel points are marked as approximate pixel points according to the colors corresponding to the fire hazards, distribution areas of all the approximate pixel points are marked as security warning areas, finally real-time temperature values and real-time smoke values in the security warning areas are obtained, if the real-time temperature values do not exceed a temperature threshold value and the real-time smoke values do not exceed a smoke threshold value, security safety signals are generated, if the real-time temperature values exceed the temperature threshold value or the real-time smoke values exceed the smoke threshold value, then the real-time monitoring images in the security warning areas are further obtained, if hidden dangers exist according to the real-time monitoring images, if security working conditions exist, security signals are generated, if hidden dangers do not exist, the security analysis module feeds the security warning signals back to the security server, and if the security working control is not performed.
The above formulas are all dimensionless values and calculated, the formula is a formula for obtaining the latest real situation by collecting a large amount of data and performing software simulation, the preset parameters in the formula are set by the technical personnel in the field according to the actual situation, the weight coefficient and the scale coefficient are specific values obtained by quantifying each parameter, so that the subsequent comparison is convenient, and the proportional relation between the parameters and the quantified values can be obtained as long as the proportional relation between the parameters and the quantified values is not influenced.
The preferred embodiments of the invention disclosed above are intended to be illustrative only. The preferred embodiments are not intended to be exhaustive or to limit the invention to the precise forms disclosed. Obviously, many modifications and variations are possible in light of the above teaching. The embodiments were chosen and described in order to best explain the principles of the invention and the practical application, to thereby enable others skilled in the art to best utilize the invention. The invention is limited only by the claims and their full scope and equivalents.
Claims (8)
1. An intelligent security system for an intelligent building is characterized by comprising a data acquisition module, a region division module, a building structure module, a storage module, a security analysis module, a region analysis module, a security setting module and a server; the storage module is used for building information of different buildings and sending the building information to the building construction module, and the building construction module constructs the buildings by combining the building information to obtain a virtual three-dimensional building and feeds the virtual three-dimensional building back to the server; the area division module is used for carrying out area division on the virtual three-dimensional building to obtain a plurality of security monitoring areas through division and feeding the security monitoring areas back to the server;
the data acquisition module is used for acquiring security measure data and security equipment data of a security monitoring area and feeding the security measure data and the security equipment data back to the server, and the server sends the security measure data and the security equipment data to the security setting module;
the storage module also stores historical security data of a security monitoring area and sends the historical security data to the area analysis module; the area analysis module is used for analyzing the area security condition of the security monitoring area to obtain an area security value of the security monitoring area and feeding the area security value back to the server, and the server sends the area security value of the security monitoring area to the security setting module; the security setting module is used for setting the security level of the security monitoring area to obtain the security level of the security monitoring area;
the data acquisition module is used for acquiring security real-time data of a security monitoring area and feeding the security real-time data back to the server, and the server sends the security real-time data to the security analysis module; the security analysis module is used for analyzing security conditions in a security monitoring area in real time to obtain security warning signals or security safety signals and feeding the security warning signals or the security safety signals back to the server, if the server receives the security safety signals, no operation is performed, and if the server receives the security warning signals, security measures in the security monitoring area are controlled to perform security work.
2. The intelligent security system for buildings according to claim 1, wherein the building information is the height, floor number and floor area of the building;
the security measure data is the number of fire hydrants and water smoke nozzles in the security monitoring area;
the real-time equipment data comprises the number of personnel and equipment in the security monitoring area and the equipment value of each equipment;
the historical security data is the number of security accidents in the security monitoring area and the occurrence time and duration of each security accident;
the security real-time data are real-time monitoring images, real-time infrared images, real-time temperature values and real-time smoke values in a security monitoring area.
3. The intelligent security system for buildings according to claim 1, wherein the analysis process of the area analysis module is as follows:
acquiring the times of security accidents in a security monitoring area and the occurrence time and duration of each security accident;
adding the duration of each security accident and dividing the sum by the number of the security accidents to obtain the duration average duration of the security accidents in the security monitoring area;
acquiring the occurrence time of each security accident in a security monitoring area, calculating the occurrence interval time of adjacent security accidents, and averaging the occurrence interval time of a plurality of groups of adjacent security accidents to obtain the security accident occurrence average time of the security monitoring area;
and calculating the area security value of the security monitoring area.
4. The intelligent security system for buildings according to claim 1, wherein the security setting module is configured as follows:
acquiring the number of personnel and equipment in a security monitoring area and the value of each equipment, and summing the value of each equipment to obtain the total value of the equipment in the security monitoring area;
calculating a personal security value of a security monitoring area;
similarly, acquiring the number of fire hydrants and the number of water smoke nozzles in the security monitoring area, and calculating the area protection value of the security monitoring area;
calculating to obtain a security value of the security monitoring area by combining the area security value of the security monitoring area;
and comparing the security value with the security threshold value to obtain the security level of the security monitoring area, wherein the security level of the security monitoring area is a third security level, a second security level or a first security level.
5. The intelligent security system for buildings according to claim 4, wherein the first security level is higher than the second security level, and the second security level is higher than the third security level.
6. The intelligent security system for the intelligent building as claimed in claim 4, wherein the security setting module feeds back the security level of the security monitoring area to the server, the server stores the security measures corresponding to the security level, the server obtains the security measures corresponding to the security monitoring area according to the security level, the security measures are fire hydrants and water smoke nozzles, if the number of the fire hydrants and the water smoke nozzles in the security monitoring area meets the corresponding installation measures, no operation is performed, and if the number of the fire hydrants and the water smoke nozzles in the security monitoring area does not meet the corresponding installation measures, the installation measures in the security monitoring area are adjusted.
7. The intelligent security system for buildings according to claim 6, wherein the first installation level corresponds to the first installation measure, the third installation level corresponds to the second installation measure, and the third installation level corresponds to the third installation measure;
the number of the fire hydrant and the water smoke sprayer in the first installation measure is larger than that of the fire hydrant and the water smoke sprayer in the second installation measure, and the number of the fire hydrant and the water smoke sprayer in the second installation measure is larger than that of the fire hydrant and the water smoke sprayer in the third installation measure.
8. The intelligent security system for the intelligent buildings according to claim 1, wherein the real-time analysis process of the security analysis module is as follows:
acquiring a real-time infrared image in a security monitoring area, and extracting pixel points with different colors in the real-time infrared image;
acquiring the color corresponding to the fire, marking the corresponding pixel points as approximate pixel points according to the color corresponding to the fire, and marking the distribution areas of all the approximate pixel points as security warning areas;
the method comprises the steps of obtaining a real-time temperature value and a real-time smoke value in a security warning area, generating a security safety signal if the real-time temperature value does not exceed a temperature threshold value and the real-time smoke value does not exceed a smoke threshold value, further obtaining a real-time monitoring image in the security warning area if the real-time temperature value exceeds the temperature threshold value or the real-time smoke value exceeds the smoke threshold value, checking whether security hidden danger exists according to the real-time monitoring image, generating the security warning signal if the security hidden danger exists, and generating the security safety signal if the security hidden danger does not exist.
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CN115866210A (en) * | 2023-02-16 | 2023-03-28 | 肯特智能技术(深圳)股份有限公司 | Security protection analytic control system for supervisory equipment based on thing networking |
CN115877115A (en) * | 2023-02-27 | 2023-03-31 | 山东欧通信息科技有限公司 | Safety detection system for weak current equipment installation based on big data |
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