CN113205654A - Airport enclosure security monitoring alarm system and method based on AI information technology - Google Patents

Abstract

The invention discloses an airport enclosure security monitoring and alarming system and method based on AI information technology, the system comprises a security enclosure assembly and a monitoring and alarming unit, the security enclosure assembly is formed by a plurality of security enclosure units which are sequentially constructed, the security enclosure units comprise anti-shearing enclosure modules and anti-climbing enclosure modules which are arranged at the tops of the anti-shearing enclosure modules; the anti-shearing enclosure module comprises an anti-shearing monitoring net and an anti-shearing sensor electrically connected with the anti-shearing monitoring net. The anti-shearing sensors and the anti-climbing sensors are arranged on each unit main body of the security and protection enclosure assembly, the anti-shearing sensors monitor whether a net breaking invasion behavior exists in the anti-shearing monitoring net, the anti-climbing sensors monitor whether a climbing or climbing invasion behavior exists, information such as positions of invaders, positions of invasion defense areas, video data of cameras, invasion levels, types of triggered alarms, alarm time and the like can be timely known, and accurate judgment and timely driving and catching are facilitated.

Description

Airport enclosure security monitoring alarm system and method based on AI information technology

Technical Field

The invention relates to the field of airport security monitoring, in particular to an airport enclosure security monitoring alarm system and method based on an AI information technology.

Background

Due to the special nature of airports, absolute safety in airport areas needs to be guaranteed, and physical isolation measures need to be arranged in the moving area of the aircraft. Airport guard fence nets are often required to be arranged in peripheral areas of airports, particularly in airport construction areas, so that constructors and related construction vehicles and machinery are prevented from invading the active areas of aircrafts such as runways, taxiways and airports, and the smooth construction in flight areas and the safety of airport operation are guaranteed.

The airport guardrail net is also called as a Y-shaped safety defense guardrail net, and the traditional airport guardrail net consists of a V-shaped support upright post reinforced welding sheet net, a safety anti-theft connecting piece and a hot galvanizing blade barbed wire net. However, the traditional airport guardrail net only plays a physical protection role, is not monitored by the fact that the traditional airport guardrail net is cut off, and is easily cut off by people to prevent suddenly, or cannot be repaired in time after the airport guardrail net is damaged to cause protection failure; in order to increase the anti-climbing and climbing functions of the traditional airport guardrail net, cage-shaped blade barbed wires are often added at the top of the airport guardrail net, and the airport guardrail net or the cage-shaped blade barbed wires only play a physical protection role, so that the warning or alarm cannot be timely found or given when people climb or climb; the traditional airport guardrail net has to invest manpower to carry out regular patrol monitoring in both shearing prevention and climbing prevention, which leads to the great increase of the maintenance cost of the airport.

When the security alarm is carried out in the airport enclosure, the prior art mainly adopts the following types:

the vibration technology (vibration optical fiber, vibration cable, intelligent line and the like) mainly comprises the steps of fixing the vibration optical fiber, the vibration cable and the intelligent line with certain length on an airport enclosure, and judging whether a person invades the enclosure or not by sensing the vibration amplitude and the strength of the enclosure of a wall body, a wire mesh and a prefabricated cement board.

The intrusion alarm principle of the tension type electronic fence is mainly that when the fence is tensioned or cut off or a tension wire is loosened, a tension host machine sends out an alarm signal; the most common are the tension alarm and the climbing alarm. The front end monitors the tension value of each wire in real time, and the host automatically updates the static tension value according to the environmental change.

The basic principle of the pulse electronic fence is to send out high-voltage pulses, and an intelligent perimeter system is formed by a pulse generator (a host) and a front-end fence. Has the perimeter precaution function of high safety level such as theft prevention, alarm and the like.

An infrared fence (also called as an infrared railing or an infrared grating) is one of active infrared correlation, a plurality of beams of infrared light are used for correlation, an emitter emits infrared light to a receiver in a low-frequency emission and time division detection mode, once personnel or objects block any two adjacent beams of light emitted by the emitter for more than 30ms, the receiver immediately outputs an alarm signal, and when a small animal or a small object blocks one beam of light, the alarm cannot output the alarm signal.

The technologies are that alarm facilities are added on the basis of the existing enclosure in an additional installation mode, and the airport enclosure is required to have certain basic conditions such as: the enclosure wall body, wire netting, prefabricated cement board width, height, intensity, vibration amplitude, sheltering from the condition etc.. The above technology has the problems of too high false alarm rate and the like, and the defect cannot be eliminated from the technical principle; the system is obviously interfered by external factors, the false alarm rate can be obviously improved by wind, rain, thunder, lightning, small animals and the like with certain intensity, and the defects of large external interference, high false alarm rate, non-modularization, high deployment basic conditions, unstable system and the like generally exist.

Therefore, it is urgently needed to design an airport enclosure security monitoring and alarming system and method based on the AI information technology to solve the technical problems in the prior art.

Disclosure of Invention

The invention aims to solve at least part of technical problems in the prior art to a certain extent, and provides an airport enclosure security monitoring and alarming system and method based on AI information technology, which has a reasonable structure, wherein each unit body of an enclosure assembly is provided with an anti-shearing sensor and an anti-climbing sensor, the anti-shearing sensor monitors whether a net breaking invasion behavior exists in an anti-shearing monitoring net, the anti-climbing sensor monitors whether a climbing or climbing invasion behavior exists, the two types of intrusion behaviors can be monitored in time and transmitted to an alarm processing module in real time, the alarm processing module distributes a corresponding audible and visual alarm to carry out audible and visual alarm, distributes a corresponding network camera to carry out video recording, and the security alarm execution module can carry out alarm monitoring in real time, and can know the invasion position of personnel, the invasion defense area position, the video data of the camera in time, Invasion level, triggering alarm type, alarm time and other information, and is convenient for accurate judgment and timely driving away and catching.

In order to solve the technical problem, the invention provides an airport enclosure security monitoring and alarming system based on AI information technology, which comprises an anti-shearing enclosure assembly and a monitoring and alarming unit, wherein the anti-shearing enclosure assembly is formed by sequentially constructing a plurality of anti-shearing enclosure units, and each anti-climbing enclosure unit comprises an anti-shearing enclosure module and an anti-climbing enclosure module arranged at the top of the anti-shearing enclosure module; the anti-shearing enclosure module comprises an anti-shearing monitoring net and an anti-shearing sensor electrically connected with the anti-shearing monitoring net, and the anti-shearing sensor is used for monitoring whether the anti-shearing monitoring net is sheared or not; the anti-climbing enclosure module comprises a rotating base and a rotating support frame movably mounted at the top of the rotating base, wherein an anti-climbing sensor corresponding to the bottom of the rotating support frame is arranged at the bottom of the rotating base and used for monitoring whether the rotating support frame rotates under pressure; the monitoring alarm unit comprises an anti-shearing monitoring module, an anti-climbing monitoring module and an alarm processing module, the anti-shearing monitoring module is electrically connected with each anti-shearing sensor, the anti-climbing monitoring module is electrically connected with each anti-climbing sensor, and the alarm processing module is electrically connected with the anti-shearing monitoring module and the anti-climbing monitoring module respectively.

As a preferred embodiment, the monitoring alarm unit further comprises an alarm execution module and a camera execution module, the alarm execution module is connected with the alarm processing module, and the alarm execution module comprises a plurality of audible and visual alarms; the camera shooting execution module is connected with the alarm processing module and comprises a plurality of network cameras, and the network cameras are correspondingly arranged on the security and defense enclosure unit.

As a preferred embodiment, the anti-shearing monitoring module comprises an anti-shearing monitoring position database, wherein the anti-shearing monitoring position database stores the position information of the anti-shearing sensor, and the position information of the anti-shearing sensor corresponds to the position information of the anti-shearing sensor; the anti-climbing monitoring module comprises an anti-climbing monitoring position database, anti-climbing monitoring position information is stored in the anti-climbing monitoring position database, and the anti-climbing monitoring position information corresponds to position information distributed by anti-climbing sensors; the camera shooting execution module comprises a camera position database, wherein camera position information is stored in the camera position database and corresponds to the position information of the network cameras.

As a preferred embodiment, the alarm execution module comprises an audible and visual alarm position database, audible and visual alarm position information is stored in the audible and visual alarm position database, the audible and visual alarm position information corresponds to the position information of the audible and visual alarms, and the audible and visual alarms are correspondingly arranged on the security enclosure unit; the monitoring alarm unit further comprises a position information map module, and the position information map module is integrated to display the anti-shearing sensor position and alarm information, the anti-climbing monitoring position and alarm information, the camera position information and the audible and visual alarm position and alarm information.

As a preferred embodiment, the monitoring alarm unit further comprises a security alarm execution module, the security alarm execution module is connected with the alarm processing module and the position information map module, and the security alarm execution module comprises a plurality of alarm devices; and the acousto-optic alarm is respectively and electrically connected with the anti-shearing sensor and the anti-climbing sensor.

As the preferred embodiment, the anti-shearing enclosure module comprises at least two stand columns, the anti-shearing monitoring net is connected and arranged on the stand columns, and the anti-shearing monitoring net is formed by interweaving warps and wefts of a plurality of anti-shearing monitoring net wefts and a plurality of anti-shearing monitoring net warps.

As a preferred embodiment, the anti-climbing enclosure module is a single-side inclined enclosure module, the single-side inclined enclosure module includes two first enclosure support units, each first enclosure support unit includes a first rotating base and a first rotating support frame movably installed on the first rotating base in an inclined manner, a first blade barbed wire is connected between the first rotating support frames of the two first enclosure support units, the first rotating base of each first enclosure support unit is provided with a first turning groove corresponding to the first rotating support frame, and the first rotating support frame is rotatably and limitedly installed in the first turning groove; a first anti-climbing sensor is arranged at the bottom of the first rotating base, a first micro switch and a first sensor body connected with the first micro switch are arranged in the first anti-climbing sensor, and the bottom end of the first rotating support frame is correspondingly connected with the first micro switch through a first linkage mechanism; a first installation upright post is fixed at the bottom of a first anti-climbing sensor of the first enclosure support unit and is installed on an upright post of the anti-shearing enclosure module through a connecting piece.

As a preferred embodiment, the anti-climbing enclosure module is a bilateral oblique enclosure module, the bilateral oblique enclosure module includes two second enclosure support units, the second enclosure support unit includes a second rotating base, two sides of the second rotating base are respectively and movably installed with a second rotating support frame in an oblique manner, the bottom of the second rotating base is provided with a second anti-climbing sensor, the middle position inside the second anti-climbing sensor is provided with a second sensor body, two sides inside the second anti-climbing sensor are respectively provided with a second micro switch connected with the second sensor body, and the bottom ends of the two second rotating support frames correspond to the two second micro switches one by one; a second mounting upright post is fixed at the bottom of a second anti-climbing sensor of the second enclosure support unit and is mounted on an upright post of the anti-shearing enclosure module through a connecting piece; the two second rotating support frames of the second enclosure support unit jointly form a V-shaped movable support, and a second blade barbed wire is connected between the two V-shaped movable supports of the double-side inclined enclosure module; and a second rotating base of the second enclosure support unit is provided with a second rotating groove corresponding to the second rotating support frame, the second rotating support frame is correspondingly rotated and limited to be installed in the second rotating groove of the second rotating base, and the bottom end of the second rotating support frame is correspondingly connected with the second microswitch through a second linkage mechanism.

In addition, the invention also provides an airport enclosure security monitoring and alarming method based on the AI information technology, which comprises the following steps:

A. the method comprises the steps that a security and defense enclosure assembly is constructed in a security and defense area of an airport, the security and defense enclosure assembly is formed by sequentially constructing a plurality of security and defense enclosure units, each security and defense enclosure unit comprises a shearing prevention enclosure module and an anti-climbing enclosure module arranged at the top of the shearing prevention enclosure module, and a monitoring alarm unit is arranged at the same time and comprises a shearing prevention monitoring module, an anti-climbing monitoring module, an alarm processing module and a position information map module;

B. anti-shearing alarm processing: judging whether an anti-shearing monitoring net on each anti-shearing sensor corresponding monitoring anti-shearing enclosure module is sheared or not and transmitting a shearing monitoring result to an anti-shearing monitoring module, transmitting the position information of the anti-shearing sensor judged to be sheared by the anti-shearing monitoring module to an alarm processing module and a position information map module, sending an alarm command to a security alarm executing module, an alarm executing module and a camera shooting executing module respectively by the alarm processing module, calling the position information map module by the security alarm executing module for real-time monitoring, sending alarm position information to an alarm device after the security alarm executing module receives the alarm command, wherein the alarm position information corresponds to the sheared anti-shearing sensor position information, and controlling an audible and visual alarm associated with the sheared anti-shearing sensor position information to send audible and visual alarms after the alarm executing module receives the alarm command, the camera shooting execution module receives the alarm command and then controls the network camera related to the position information of the cut anti-shearing sensor to record and store the video and transmits the video data to the security alarm execution module;

C. anti-climbing alarm processing: judging whether a rotary support frame on each anti-climbing sensor corresponding to a monitoring anti-climbing enclosure module is pressed to rotate or not and transmitting a climbing monitoring result to an anti-climbing monitoring module, wherein the anti-climbing monitoring module transmits anti-shearing sensor position information which is judged to have a climbing behavior by the anti-climbing sensors to an alarm processing module and a position information map module, the alarm processing module respectively sends out alarm commands to a security alarm execution module, an alarm execution module and a camera shooting execution module, the security alarm execution module calls the position information map module to carry out real-time monitoring, the security alarm execution module receives the alarm commands and then sends out alarm position information to an alarm device, the alarm position information corresponds to the anti-climbing sensor position information having the climbing behavior, the alarm execution module receives the alarm commands and then controls an audible and visual alarm which is associated with the anti-climbing sensor position information having the climbing behavior to send out audible and visual alarm, and after receiving the alarm command, the camera execution module controls the network camera associated with the position information of the anti-climbing sensor with the overtaking behavior to record and store the video and transmits the video data to the security alarm execution module.

As a preferred embodiment, the alarm processing module is provided with an alarm database, the alarm database is used for storing anti-shearing alarm data and anti-climbing alarm data in real time, the anti-shearing alarm data comprises a shearing monitoring result for triggering alarm, anti-shearing sensor position information and anti-shearing video data, and the anti-climbing alarm data comprises a climbing monitoring result for triggering alarm, anti-climbing sensor position information and anti-climbing video data;

in step B, C, the audible and visual alarm is directly and electrically connected with the anti-shearing sensor and the anti-climbing sensor, when the anti-shearing sensor judges that the corresponding anti-shearing monitoring net is sheared or/and the anti-climbing sensor judges that the corresponding anti-climbing enclosure module has a crossing behavior, the associated audible and visual alarm immediately gives an audible and visual alarm; the security alarm execution module comprises a security monitoring computer, the security monitoring computer is internally provided with the position information map module, the alarm device is internally provided with the position information map module, and the alarm device and the security monitoring computer are in interactive communication.

The invention has the beneficial effects that:

the invention provides an airport enclosure security monitoring and alarming system and method based on AI information technology, which has reasonable structure and the following beneficial effects:

(1) the anti-shearing sensor and the anti-climbing sensor are arranged on each unit main body of the security and defense enclosure assembly, the anti-shearing sensor monitors whether a net breaking invasion action exists in an anti-shearing monitoring net or not, the anti-climbing sensor monitors whether a climbing or climbing invasion action exists or not, both the two kinds of anti-climbing invasion actions can be monitored in time and transmitted to the alarm processing module in real time, the alarm processing module distributes corresponding audible and visual alarms to carry out audible and visual alarm, and distributes corresponding network cameras to carry out video recording, the security and defense alarm execution module can carry out alarm monitoring in real time, so that information such as positions of intruders, positions of intrusion prevention areas, video recording data of the cameras, intrusion levels, triggering alarm types, alarm time and the like can be known in time, and accurate judgment and timely driving and capturing are facilitated.

(2) The anti-climbing enclosure unit is formed by combining the anti-shearing enclosure module and the anti-climbing enclosure module, so that the anti-climbing enclosure unit not only can play a role in monitoring the shearing and the security of the anti-shearing monitoring net, but also can monitor climbers or climbers in time, the modular assembly is realized, and the installation and combination operation is very convenient and fast; the airport security monitoring and alarming prompt can be provided in all directions, the quality and the efficiency of the airport security monitoring are improved, the informationized monitoring management of the airport security monitoring is realized, and the security patrol frequency and the security patrol difficulty are reduced.

(3) The anti-shearing graticule of the anti-shearing enclosure module is formed by interweaving the weft of the anti-shearing monitoring net and the warp of the anti-shearing monitoring net into graticule form, electric signals are introduced into the anti-shearing graticule integrally, when a certain part of the anti-shearing graticule is sheared, the anti-shearing graticule is cut off at a certain part, so that the transmission of the electric signals is interrupted, and whether the anti-shearing graticule is damaged or not can be judged quickly by sending and receiving the electric signals through the anti-shearing monitoring net monitor of the anti-shearing enclosure module. The anti-shearing monitoring net monitor can be arranged on one or more anti-shearing enclosure modules at different positions, so that after the anti-shearing monitoring net monitor at a certain position judges that the anti-shearing theodolite is damaged, the anti-shearing theodolite in the position or the area can be quickly identified in the whole safety and protection enclosure assembly, and the real-time warning, the fixed-point patrol, the alarm capture or the real-time maintenance are facilitated.

(4) The anti-climbing enclosure module is provided with a rotating base, a rotating support frame is movably hinged on the rotating base, the rotating support frame is directly contacted with a climber or a climber, and is driven by the gravity of the climber or the climber to rotate and drive a microswitch to be powered on and off, so that the anti-climbing sensor can trigger an alarm signal and trigger a peripheral audible and visual alarm to send out audible and visual alarm, or the anti-climbing sensor transmits the alarm signal to a far-end monitoring end, and the monitoring end can obtain the alarm signal in time and make response processing.

(5) The anti-climbing enclosure module has two structural forms, namely a single-side oblique enclosure module and a double-side oblique enclosure module, can be independently adopted or combined, and has the advantages of flexible use, convenience and quickness in installation, quickness and reliability in security monitoring and the like; the invention integrally adopts a modular combination mode, has very convenient arrangement and installation operation, high monitoring sensitivity, adjustability, small interference from the outside and strong stability.

(6) The invention realizes the hard detection technology through modularization, when the physical protection layer representing the perimeter main body is forcibly damaged or deformed, the physical layer information is changed, and the reliable monitoring of the perimeter safety state is realized through reliable logic judgment. The climbing monitoring net adopts a high-strength metal component, so that the purpose of integrating hard protection and hard monitoring is realized, the hard monitoring realized by the high-strength climbing monitoring net initiates the precedent of perimeter monitoring, and the technical problem of higher false alarm rate of other perimeter monitoring methods is fundamentally solved.

(7) According to the invention, the weight sensor is integrated into the anti-climbing structure, so that an alarm can be given only when climbing with a certain height and a certain weight occurs; the self-body is not influenced by natural environments such as strong wind, rain, snow, tree weeds, construction vibration and the like; the approach and the unconscious touch of the human or animal do not give an alarm; the alarm is not given when the bird falls on the plant and climbs on the plant; the intelligent alarm device transmits milliampere current by itself, does not harm human bodies, and achieves the purposes of low false alarm, zero missing alarm, no invasion, no alarm and necessary invasion alarm.

(8) The invention adopts special technology to integrate information and transmit information in a physical carrier through an information integration technology, and integrates multiple photoelectric and digital information and the like in a physical grid (such as a metal guardrail) array completely, so that each physical grid has circulating information, and when any point of any physical grid is damaged, a certain path of information is interrupted inevitably to generate alarm.

Drawings

The above advantages of the present invention will become more apparent and more readily appreciated from the detailed description set forth below when taken in conjunction with the drawings, which are intended to be illustrative, not limiting, of the invention and in which:

FIG. 1 is a schematic structural block diagram of an airport enclosure security monitoring and alarming system of the present invention;

FIG. 2 is a block diagram of the software and hardware principle structure of the airport enclosure security monitoring and alarming system of the present invention;

FIG. 3 is a schematic flow chart of the airport enclosure security monitoring and alarming method of the present invention;

FIG. 4 is a schematic structural diagram of a security enclosure unit according to the present invention;

FIG. 5 is a schematic structural diagram of the anti-shearing enclosure module shown in FIG. 4;

FIG. 6 is an enlarged partial schematic view of FIG. 5;

FIG. 7 is a schematic structural diagram illustrating a combination of two security enclosure units according to an embodiment;

FIG. 8 is a schematic side view of the single-sided diagonal bounding module of FIG. 7;

FIG. 9 is a schematic diagram of a first anti-climb sensor in the single-sided diagonal bounding module;

FIG. 10 is a schematic view of a structure in which a single-sided oblique enclosure module is mounted on a column in a fitting manner;

FIG. 11 is a schematic structural diagram of a combination of two security fence units according to the second embodiment;

FIG. 12 is a schematic side view of the dual-sided diagonal bounding module of FIG. 11;

FIG. 13 is a schematic diagram of a second anti-climb sensor in the dual-sided diagonal bounding module;

FIG. 14 is a schematic view of a structure in which two side diagonal bounding modules are mounted on a column in a mating manner;

fig. 15 is a schematic view of an installation structure of the anti-climbing enclosure module formed by combining the single-sided oblique enclosure module and the double-sided oblique enclosure module in the third embodiment.

In the drawings, the reference numerals denote the following components:

1-security enclosure unit; 2-anti-shearing enclosure module; 21-upright column; 22-anti-shearing monitoring mesh weft; 23-anti-shearing monitoring network warp threads; 3-anti-climbing enclosure module; 4-a connector; 5-single-side inclined enclosure module; 51-a first mounting post; 52-first anti-climb sensor; 521-a first microswitch; 53-a first rotating base; 54-a first rotating support; 541-first blade barbed wire; 6-bilateral oblique enclosure module; 61-a second mounting post; 62-a second anti-climb sensor; 621-a second microswitch; 63-a second rotating base; 64-a second rotating support; 641-second blade stab wire.

Detailed Description

Fig. 1 to fig. 15 are related schematic diagrams of an airport enclosure security monitoring and alarming system and method based on an AI information technology according to the present application, and the present invention is described in detail below with reference to specific embodiments and accompanying drawings.

The examples described herein are specific embodiments of the present invention, are intended to be illustrative and exemplary in nature, and are not to be construed as limiting the scope of the invention. In addition to the embodiments described herein, those skilled in the art will be able to employ other technical solutions which are obvious based on the disclosure of the claims and the specification of the present application, and these technical solutions include technical solutions which make any obvious replacement or modification for the embodiments described herein.

The drawings in the present specification are schematic views to assist in explaining the concept of the present invention, and schematically show the shapes of respective portions and their mutual relationships. It is noted that the drawings are not necessarily to the same scale so as to clearly illustrate the structures of the various elements of the embodiments of the invention. Like reference numerals are used to denote like parts.

As shown in fig. 1 to 10, an airport enclosure security monitoring and alarming system based on AI information technology comprises a security enclosure assembly and a monitoring and alarming unit, wherein the security enclosure assembly is formed by sequentially constructing a plurality of security enclosure units 1, and the security enclosure unit 1 comprises a shearing-proof enclosure module 2 and a climbing-proof enclosure module 3 arranged at the top of the shearing-proof enclosure module 2, as shown in fig. 2 and 3.

Furthermore, the anti-shearing enclosure module 2 comprises an anti-shearing monitoring net and an anti-shearing sensor electrically connected with the anti-shearing monitoring net, when the anti-shearing monitoring net is installed, the anti-shearing monitoring net is provided with a signal access end and a signal connection and output end, the signal output end of the anti-shearing sensor is connected with the signal access end of the anti-shearing monitoring net, the signal return end of the anti-shearing sensor is connected with the signal connection and output end of the anti-shearing monitoring net, the anti-shearing sensor is connected into a loop, and the anti-shearing sensor is connected with the power circuit.

The anti-shearing sensor is used for monitoring whether the anti-shearing monitoring net is sheared or not (the anti-shearing sensor inputs an electric signal to the anti-shearing monitoring net, the electric signal sequentially traverses the anti-shearing monitoring net and is transmitted to the anti-shearing sensor, if a certain part of the anti-shearing monitoring net is sheared, the anti-shearing sensor cannot receive the input electric signal, the anti-shearing sensor can obtain that the anti-shearing monitoring net is sheared or damaged, if the anti-shearing sensor monitors that the anti-shearing monitoring net is sheared, the anti-shearing sensor sends a shearing monitoring signal),

anti-climbing enclosure module 3 includes rotating base and the runing rest of movable mounting on rotating base, and the rotating base bottom is provided with the anti-climbing sensor corresponding with the runing rest bottom, and the anti-climbing sensor is used for monitoring the runing rest and whether the pressurized emergence is rotated. Specifically, anti-climb sensor is provided with the micro-gap switch with rotatory support frame bottom looks linkage, and micro-gap switch normally opens, and micro-gap switch is in the off-state when rotatory support frame is not stressed promptly, if when rotatory support frame received climber or climber pressure, rotatory support frame will rotate and drive the micro-gap switch-on rotating base, then anti-climb sensor will monitor and obtain to have the climbing or the action of climbing. And if the anti-climbing sensor monitors that climbing or climbing behaviors exist, the anti-climbing sensor sends a climbing monitoring signal.

The monitoring alarm unit comprises an anti-shearing monitoring module, an anti-climbing monitoring module and an alarm processing module, as shown in fig. 1, the anti-shearing monitoring module is electrically connected with each anti-shearing sensor, the anti-shearing monitoring module is connected with each anti-shearing sensor through a circuit, the anti-shearing monitoring module provides required power for each anti-shearing sensor and obtains the shearing monitoring signals of each anti-shearing sensor in a centralized mode, each anti-shearing sensor can be numbered, the anti-shearing monitoring module can identify which anti-shearing sensor at which position sends out a shearing monitoring alarm, and the anti-shearing monitoring network at the position can be judged to be damaged or sheared immediately.

The anti-climbing monitoring module is electrically connected with each anti-climbing sensor, provides required power for each anti-climbing sensor, obtains the climbing monitoring signal of each anti-climbing sensor in a centralized manner, can number the position of each anti-climbing sensor, can identify which anti-climbing sensor of the position sends out the climbing monitoring alarm, and can judge that the anti-climbing border module 3 of the position has the climbing behavior, as shown in fig. 3. The alarm processing module is respectively and electrically connected with the anti-shearing monitoring module and the anti-climbing monitoring module, and the alarm processing module processes data and sends an alarm command.

The monitoring alarm unit of the embodiment further comprises an alarm execution module, a camera shooting execution module and a security alarm execution module, as shown in fig. 2, the alarm execution module is connected with the alarm processing module, and the alarm execution module comprises a plurality of audible and visual alarms. The shooting execution module is connected with the alarm processing module and comprises a plurality of network cameras, and the network cameras are correspondingly arranged on the security and defense enclosure unit 1.

The anti-shearing monitoring module comprises an anti-shearing monitoring position database, wherein the anti-shearing monitoring position database stores the position information of the anti-shearing sensors, and the position information of the anti-shearing sensors corresponds to the position information of the anti-shearing sensors. The anti-climbing monitoring module comprises an anti-climbing monitoring position database, anti-climbing monitoring position information is stored in the anti-climbing monitoring position database, and the anti-climbing monitoring position information corresponds to position information laid by the anti-climbing sensors. The camera shooting execution module comprises a camera position database, wherein camera position information is stored in the camera position database and corresponds to the position information of the network cameras. The alarm execution module comprises an audible and visual alarm position database, audible and visual alarm position information is stored in the audible and visual alarm position database, the audible and visual alarm position information corresponds to the position information of the audible and visual alarms, and the audible and visual alarms are correspondingly arranged on the defense enclosure unit 1.

The monitoring alarm unit further comprises a position information map module which is integrated to display the position of the anti-shearing sensor and alarm information, the anti-climbing monitoring position and alarm information, the position information of the camera and the position of the audible and visual alarm and the alarm information. The security alarm execution module is connected with the alarm processing module and the position information map module, the security alarm execution module comprises a plurality of alarm devices, the alarm devices can be used as monitoring mobile terminals to be distributed to airport public security personnel, and the alarm devices can respond in time after receiving alarm signals and alarm positions sent by the security alarm execution module.

The security alarm execution module of the embodiment can comprise a security monitoring computer, a position information map module is arranged in the security monitoring computer, on-duty airport public security personnel can observe alarm conditions and alarm positions of all security areas of an airport in real time through the position information map module of the security monitoring computer, a network camera of the image pickup execution module records the alarm positions and can transmit the recorded images to the security monitoring computer, the on-duty airport public security personnel can conveniently and accurately judge, the on-duty airport public security personnel can also perform interactive communication control with the image pickup execution module through the security monitoring computer, a plurality of network cameras corresponding to the image pickup execution module are distributed to perform key image recording, and all the network cameras of the image pickup execution module can be normally opened and realize all-weather image pickup monitoring.

The alarm device is internally provided with a position information map module and is in interactive communication with the security monitoring computer. The acousto-optic alarm is respectively and electrically connected with the anti-shearing sensor and the anti-climbing sensor; when the anti-shearing sensor judges that the corresponding anti-shearing monitoring net is sheared or/and the anti-climbing sensor judges that the corresponding anti-climbing enclosure module has a climbing behavior, the associated audible and visual alarm immediately sends out audible and visual alarm, namely the anti-shearing sensor can trigger the audible and visual alarm to directly send out audible and visual alarm, the anti-climbing sensor can trigger the audible and visual alarm to directly send out audible and visual alarm, alarm intensity or alarm level can be set in the audible and visual alarm, for example, one of the anti-shearing sensor or the anti-climbing sensor triggers the alarm, the alarm intensity of the audible and visual alarm is relatively low, and if the anti-shearing sensor and the anti-climbing sensor trigger the alarm simultaneously, the alarm intensity of the audible and visual alarm is relatively high.

As shown in fig. 4 to 6, the anti-shearing enclosure module 2 includes two columns 21, the anti-shearing monitoring net is connected to the columns 21, the anti-shearing monitoring net is installed between the two columns 21 of the anti-shearing enclosure module 2, and the anti-shearing monitoring net is formed by interweaving a plurality of anti-shearing monitoring net wefts 22 and a plurality of anti-shearing monitoring net warps 23 in a longitude and latitude manner, as shown in fig. 5 and 6. The anti-shearing monitoring net of the embodiment can be formed by interweaving an anti-shearing monitoring wire in a warp-weft net shape, wherein the anti-shearing monitoring net is formed by arranging anti-shearing monitoring wires in the weft direction, namely anti-shearing monitoring net weft 21, and the anti-shearing monitoring net warp 23 is arranged in the warp direction.

As shown in fig. 7 to 10, the anti-climbing enclosure module 3 of the present embodiment is preferably an unilateral oblique enclosure module 5, the unilateral oblique enclosure module 5 includes two first enclosure support units, each first enclosure support unit includes a first rotating base 53 and a first rotating support 54 obliquely and movably mounted on the first rotating base 53, as shown in fig. 8, an included angle formed between the first rotating support 54 of the first enclosure support unit and the first rotating base 53 is preferably 20 to 70 °, a first blade barbed wire 541 shown in fig. 15 is connected between the first rotating support 54 of the two first enclosure support units, the first rotating base 53 of the first enclosure support unit is provided with a first turning groove corresponding to the first rotating support 54, and the first rotating support 54 is rotatably and limitedly mounted in the first turning groove.

The bottom of the first rotating base 54 is provided with a first anti-climbing sensor 52, the first anti-climbing sensor 52 is internally provided with a first micro switch 521 and a first sensor body connected with the first micro switch 521, as shown in fig. 9, the bottom end of the first rotating support 54 is correspondingly connected with the first micro switch 521 through a first linkage mechanism. A first installation upright post 51 is fixed at the bottom of a first anti-climbing sensor 52 of the first enclosure bracket unit, the first installation upright post 51 is installed on an upright post 21 of the anti-shearing enclosure module 2 through a connecting piece 4, and a pressed body weight response threshold of a first rotary supporting frame 54 set by the first anti-climbing sensor 52 is 5-50 kilograms.

Fig. 7 shows a combination and installation structure of two security enclosure units using the single-side inclined enclosure modules 5, and the columns 21 between two adjacent single-side inclined enclosure modules 5 can be combined into one. The top of the security enclosure unit is also provided with an extension rod. In the embodiment, the audible and visual alarm connected with the first anti-climbing sensor 52 and the anti-shearing monitoring net monitor is arranged at the top of the security and protection enclosure unit, when a person climbs the security and protection enclosure unit, the first anti-climbing sensor 52 can trigger the audible and visual alarm to send out audible and visual alarm, so that a climber is warned, and security personnel around an airport are reminded; when someone cuts the anti-cutting monitoring net, the anti-cutting monitoring net monitor can trigger the audible and visual alarm to give out audible and visual alarm, so that the anti-cutting monitoring net can warn the climber and remind security personnel around the airport. As shown in fig. 10, the single-sided oblique enclosure module a5 of the embodiment has a first rotating support 54, and when the single-sided oblique enclosure module a5 is arranged, the first rotating support 54 is arranged outside the airport installation boundary, and when a person climbs the airport security enclosure unit, the first rotating support 54 is rotated by the gravity of the climber and drives the first micro switch 521 to be turned on, and then the first anti-climbing sensor 52 is turned on to trigger an alarm.

According to the invention, a trigger threshold for monitoring a climber can be comprehensively set according to actual conditions, for example, the threshold is set to be 5-50 kg, for example, the threshold is set to be 5 kg, when a person or animal or heavy object larger than or equal to 5 kg presses on the first rotating support frame 54, the first rotating support frame 54 triggers the first microswitch 521 to be closed and electrified, and then the first anti-climbing sensor 52 is electrified to trigger alarm, so that the monitoring sensitivity of the first anti-climbing sensor 52 is higher; and may be adjusted, although other threshold ranges may be set.

The invention realizes the hard detection technology through modularization, when the physical protection layer representing the perimeter main body is forcibly damaged or deformed, the physical layer information is changed, and the reliable monitoring of the perimeter safety state is realized through reliable logic judgment. The climbing monitoring net adopts a high-strength metal component, so that the purpose of integrating hard protection and hard monitoring is realized, the hard monitoring realized by the high-strength climbing monitoring net initiates the precedent of perimeter monitoring, and the technical problem of higher false alarm rate of other perimeter monitoring methods is fundamentally solved.

The anti-climbing enclosure module only sends out an alarm when climbing with a certain height and a certain weight occurs; the self-body is not influenced by natural environments such as strong wind, rain, snow, tree weeds, construction vibration and the like; the approach and the unconscious touch of the human or animal do not give an alarm; the alarm is not given when the bird falls on the plant and climbs on the plant; the intelligent alarm device transmits milliampere current by itself, does not harm human bodies, and achieves the purposes of low false alarm, zero missing alarm, no invasion, no alarm and necessary invasion alarm.

The invention adopts special technology to integrate information and transmit information in a physical carrier through an information integration technology, and integrates multiple photoelectric and digital information and the like in a physical grid (such as a metal guardrail) array completely, so that each physical grid has circulating information, and when any point of any physical grid is damaged, a certain path of information is interrupted inevitably to generate alarm. According to the invention, the weight sensor is integrated into the anti-climbing structure, so that an alarm can be given only when climbing with a certain height and a certain weight occurs; the self-body is not influenced by natural environments such as strong wind, rain, snow, tree weeds, construction vibration and the like; the approach and the unconscious touch of the human or animal do not give an alarm; the alarm is not given when the bird falls on the plant and climbs on the plant; the intelligent alarm device transmits milliampere current by itself, does not harm human bodies, and achieves the purposes of low false alarm, zero missing alarm, no invasion, no alarm and necessary invasion alarm.

An airport enclosure security monitoring and alarming method based on AI information technology comprises the following steps:

A. a security and protection enclosure assembly is constructed in an airport security and protection area, the security and protection enclosure assembly is formed by sequentially constructing a plurality of security and protection enclosure units 1, each security and protection enclosure unit 1 comprises a shearing prevention enclosure module 2 and an anti-climbing enclosure module 3 installed at the top of the shearing prevention enclosure module 2, and meanwhile, a monitoring alarm unit is arranged and comprises a shearing prevention monitoring module, an anti-climbing monitoring module, an alarm processing module and a position information map module.

B. The anti-shearing alarm processing method comprises the following steps: each anti-shearing sensor correspondingly monitors whether the anti-shearing monitoring net on the anti-shearing enclosure module 2 is sheared or not, the anti-shearing sensor inputs an electric signal to the anti-shearing monitoring net, the electric signal sequentially traverses the anti-shearing monitoring net and is transmitted to the anti-shearing sensor, if a certain part of the anti-shearing monitoring net is sheared, the anti-shearing sensor cannot receive the input electric signal, and then the anti-shearing sensor can obtain that the anti-shearing monitoring net is sheared or damaged. If the anti-shearing sensor monitors that the anti-shearing monitoring net is sheared, the anti-shearing sensor sends a shearing monitoring signal.

Transmitting the shearing monitoring result to a shearing prevention monitoring module, transmitting the position information of the shearing prevention sensor judged to be sheared by the shearing prevention monitoring module to an alarm processing module and a position information map module, respectively sending the alarm processing module to a security alarm execution module, the alarm execution module and the camera shooting execution module send out alarm commands, the security alarm execution module calls the position information map module to perform real-time monitoring, the security alarm execution module receives the alarm commands and then sends out alarm position information to the alarm device, the alarm position information corresponds to the position information of the sheared anti-shearing sensor, the alarm execution module receives the alarm commands and then controls the audible and visual alarm related to the position information of the sheared anti-shearing sensor to send out audible and visual alarm, and the camera shooting execution module receives the alarm commands and then controls the network camera related to the position information of the sheared anti-shearing sensor to record. The associated network cameras are one or more network cameras corresponding to the positions of the cut anti-shearing sensors; generally, one security and defense enclosure unit 1 is provided with one network camera, and a plurality of security and defense enclosure units 1 can correspond to one network camera or one security and defense enclosure unit 1 corresponds to a plurality of network cameras; the associated webcam may be one or more webcams in the vicinity of the location of the cut anti-shear sensor. And storing and transmitting the video data to a security alarm execution module.

C. The anti-climbing alarm processing method comprises the following steps: each anti-climbing sensor correspondingly monitors whether the rotating support frame on the anti-climbing enclosure module 3 is pressed to rotate. The anti-climbing sensor is provided with the micro-gap switch with the linkage of rotating support frame bottom looks, and micro-gap switch normally opens, and micro-gap switch is in the off-state when rotating support frame is not stressed promptly, if rotating support frame receives climber or when turning over person's pressure, rotating support frame will rotate and drive the micro-gap switch-on rotating base, then the anti-climbing sensor will monitor and obtain to have the climbing or turn over the action more. And if the anti-climbing sensor monitors that climbing or climbing behaviors exist, the anti-climbing sensor sends a climbing monitoring signal. And transmitting the climbing monitoring result to an anti-climbing monitoring module, transmitting the position information of an anti-shearing sensor which is judged to have the climbing behavior by the anti-climbing monitoring module to an alarm processing module and a position information map module, sending an alarm command to a security alarm execution module, an alarm execution module and a camera shooting execution module by the alarm processing module respectively, calling the position information map module by the security alarm execution module for real-time monitoring, sending alarm position information to an alarm device after the security alarm execution module receives the alarm command, wherein the alarm position information corresponds to the position information of the anti-climbing sensor having the climbing behavior, controlling an audible and visual alarm associated with the position information of the anti-climbing sensor having the climbing behavior to send an audible and visual alarm after the alarm command is received by the alarm execution module, and controlling a network camera associated with the position information of the anti-climbing sensor having the climbing behavior to record images after the alarm command is received by the camera shooting execution module, And storing and transmitting the video data to a security alarm execution module.

After the airport enclosure security monitoring alarm system starts to work, the intrusion behavior is continuously detected for 24 hours all day through an anti-climbing monitoring network system and an anti-shearing monitoring network system which belong to the alarm system. If an intruder intrudes by climbing, crossing and the like, the weight of the intruder is transmitted to the rotary support frame, the rotary support frame drives the microswitch and triggers the anti-climbing sensor to send out a climbing alarm signal, the system alarms when the strength value (namely the weight) of the intruder exceeds a threshold value, and the alarm does not alarm when the strength value does not exceed the threshold value (the threshold value is 5-50 kilograms adjustable). If an intruder intrudes through the forms of breaking, cutting and the like and cuts the anti-cutting monitoring net, the detection signal in the anti-cutting monitoring net is interrupted and the anti-cutting sensor with heavy system is triggered to alarm.

The alarm signal of the airport enclosure security monitoring alarm system is sent to the alarm processing module, and the operation record is sent to the database in the alarm processing module to store the operation state of the equipment when no alarm exists. After receiving the alarm signal, the alarm processing module triggers an alarm platform (a security alarm execution module, an alarm execution module and a camera shooting execution module corresponding to the alarm processing module) to send the position of an intruder, an intrusion prevention area, a driving camera, an intrusion level, a triggering alarm type, alarm time and the like to an airport public security attendant, then performs capture work, and simultaneously stores records in a database. Meanwhile, the alarm processing module drives the corresponding alarm driver, and the audible and visual alarm corresponding to the alarm driver generates audible and visual alarm signals to warn and drive away intruders and remind surrounding security and protection personnel. The alarm processing module calls and drives the corresponding camera driver, the Network camera near the defense area corresponding to the camera driver starts to record Video, and returns a Video signal to a person on duty to check the condition of the alarm defense area, and the Video is stored in the Network camera (namely NVR, Network Video Recorder), so that the evidence can be checked and fixed afterwards.

Example two

The main difference between the present embodiment and the first embodiment lies in the structure of the anti-climbing enclosure module 3, as shown in fig. 11 to 14, the anti-climbing enclosure module 3 of the present embodiment is preferably a double-sided oblique enclosure module 6, the double-sided oblique enclosure module 6 includes two second enclosure bracket units, the second enclosure bracket unit includes a second rotating base 63, two sides of the second rotating base 63 are respectively and obliquely movably installed with a second rotating support frame 64, the bottom of the second rotating base 63 is provided with a second anti-climbing sensor 62, the middle position inside the second anti-climbing sensor 62 is provided with a second sensor body, two sides inside the second anti-climbing sensor 62 are respectively provided with a second microswitch 621 connected with the second sensor body, as shown in fig. 13, the bottom ends of the two second rotating support frames 64 correspond to the two second micro switches 621 one by one, and the bottom ends of the second rotating support frames 64 are correspondingly connected to the second micro switches 621 through the second linkage mechanism.

A second mounting column 61 is fixed at the bottom of the second anti-climbing sensor 62 of the second enclosure support unit, and as shown in fig. 14, the second mounting column 61 is mounted on the column 21 of the anti-shearing enclosure module 2 through a connecting piece 4. The two second rotating support frames 64 of the second enclosure support unit jointly form a V-shaped movable support, and a second blade barbed wire 641 is connected between the two V-shaped movable supports of the bilateral oblique enclosure module 6. The second rotating base 63 of the second enclosure support unit is provided with a second rotating groove corresponding to the second rotating support frame 64, and the second rotating support frame 64 is correspondingly and limitedly installed in the second rotating groove of the second rotating base 63. An included angle formed between the two second rotating support frames 64 of the second enclosure support unit is 45-100 degrees, and a pressed body weight response threshold value of the second rotating support frames 64 set by the second anti-climbing sensor 62 is 5-50 kilograms.

In the embodiment, the audible and visual alarm connected with the second anti-climbing sensor 62 and the anti-shearing monitoring net monitor is arranged at the top of the security and protection enclosure unit, when a person climbs the security and protection enclosure unit, the second anti-climbing sensor 62 can trigger the audible and visual alarm to send out audible and visual alarm to warn the climber and remind security personnel around an airport; when someone cuts the anti-cutting monitoring net, the anti-cutting monitoring net monitor can trigger the audible and visual alarm to give out audible and visual alarm, so that the anti-cutting monitoring net can warn the climber and remind security personnel around the airport.

As shown in fig. 14, the bilateral slant enclosure module 6 of the present embodiment has a second rotating support frame 64, when the bilateral slant enclosure module 6 is disposed, the second rotating support frame 64 is disposed outside the airport installation boundary, when someone climbs the airport security enclosure unit, the second rotating support frame 64 will rotate under the gravity of the climber and drive the second micro switch 621 to close and energize, and further the second anti-climb sensor 62 energizes to trigger an alarm, the present invention may comprehensively set a trigger threshold for monitoring the climber according to an actual situation, for example, the set threshold is 5-50 kg. For example, if the threshold is set to be 5 kg, when a person or animal or a heavy object larger than or equal to 5 kg presses on the second rotating support frame 64, the second rotating support frame 64 will trigger the second microswitch 621 to be powered on in a closed manner, and then the second anti-climbing sensor 62 is powered on to trigger an alarm, so that the monitoring sensitivity of the second anti-climbing sensor 62 is higher; and may be adjusted, although other threshold ranges may be set.

An airport enclosure security monitoring and alarming method based on AI information technology comprises the following steps:

A. a security and protection enclosure assembly is constructed in an airport security and protection area, the security and protection enclosure assembly is formed by sequentially constructing a plurality of security and protection enclosure units 1, each security and protection enclosure unit 1 comprises a shearing prevention enclosure module 2 and an anti-climbing enclosure module 3 installed at the top of the shearing prevention enclosure module 2, and meanwhile, a monitoring alarm unit is arranged and comprises a shearing prevention monitoring module, an anti-climbing monitoring module, an alarm processing module and a position information map module.

B. The anti-shearing alarm processing method comprises the following steps: each anti-shearing sensor correspondingly monitors whether an anti-shearing monitoring net on the anti-shearing enclosure module 2 is sheared and transmits a shearing monitoring result to the anti-shearing monitoring module, the anti-shearing monitoring module transmits position information of the anti-shearing sensor judged to be sheared to an alarm processing module and a position information map module, the alarm processing module respectively sends out an alarm command to a security alarm execution module, an alarm execution module and a camera shooting execution module, the security alarm execution module calls the position information map module for real-time monitoring, the security alarm execution module receives the alarm command and then sends out alarm position information to an alarm device, the alarm position information corresponds to the sheared anti-shearing sensor position information, the alarm execution module receives the alarm command and then controls an audible and visual alarm related to the sheared anti-shearing sensor position information to send out audible and visual alarms, and after receiving the alarm command, the camera shooting execution module controls the network camera associated with the position information of the cut anti-shearing sensor to record and store the video and transmits the video data to the security alarm execution module.

C. The anti-climbing alarm processing method comprises the following steps: each anti-climbing sensor correspondingly monitors whether a rotary support frame on the anti-climbing enclosure module 3 is pressed to rotate or not and transmits a climbing monitoring result to the anti-climbing monitoring module, the anti-climbing monitoring module transmits anti-shearing sensor position information which is judged to have climbing behavior by the anti-climbing sensor to the alarm processing module and the position information map module, the alarm processing module respectively sends out alarm commands to the security alarm execution module, the alarm execution module and the camera execution module, the security alarm execution module calls the position information map module to carry out real-time monitoring, the security alarm execution module receives the alarm commands and then sends out alarm position information to the alarm device, the alarm position information corresponds to the anti-climbing sensor position information having climbing behavior, the alarm execution module receives the alarm commands and controls an audible and visual alarm which is associated with the anti-climbing sensor position information having climbing behavior to send out audible and visual alarm, and after receiving the alarm command, the camera execution module controls the network camera associated with the position information of the anti-climbing sensor with the overtaking behavior to record and store the video and transmits the video data to the security alarm execution module.

The alarm processing module of the embodiment is provided with an alarm database, wherein the alarm database stores anti-shearing alarm data and anti-climbing alarm data in real time, the anti-shearing alarm data comprise a shearing monitoring result, anti-shearing sensor position information and anti-shearing video data for triggering alarm, and the anti-climbing alarm data comprise a climbing monitoring result, anti-climbing sensor position information and anti-climbing video data for triggering alarm. The alarm database saves the records to form an alarm record account, so that the on-duty personnel can conveniently save the files. The security alarm execution module of the embodiment comprises a security monitoring computer, a position information map module is arranged in the alarm device, and the alarm device is in interactive communication with the security monitoring computer.

In step B, C, the audible and visual alarm is directly electrically connected to the anti-shearing sensor and the anti-climbing sensor, and when the anti-shearing sensor determines that the corresponding anti-shearing monitoring net is sheared or/and the anti-climbing sensor determines that the corresponding anti-climbing enclosure module has a crossing behavior, the associated audible and visual alarm immediately gives an audible and visual alarm.

EXAMPLE III

As shown in fig. 15, the difference between this embodiment and the first and second embodiments is that the anti-climbing enclosure module of the security enclosure unit adopts a combined structure form of the single-side oblique enclosure module 5 and the double-side oblique enclosure module 6, and its specific structure is as follows: the anti-climbing enclosure unit comprises a shearing-proof enclosure module 2 and an anti-climbing enclosure module 3, wherein the anti-climbing enclosure module 3 comprises a single-side inclined enclosure module 5 and a double-side inclined enclosure module 6. As shown in fig. 15, in this embodiment, a double-side oblique enclosure module 6 is fixedly disposed right above the top of the shear-proof enclosure module 2, and a single-side oblique enclosure module 5 is connected and mounted to the top of the shear-proof enclosure module 2 through a fixing member in a direction close to the outside; the unilateral oblique bounding module 5 of this embodiment is identical in structure to the unilateral oblique bounding module 5 of the first embodiment, and the bilateral oblique bounding module 6 of this embodiment is identical in structure to the bilateral oblique bounding module 6 of the second embodiment, that is, the climbing-prevention bounding module 3 is formed in this embodiment by combining the unilateral oblique bounding module 5 of the first embodiment with the bilateral oblique bounding module 6 of the second embodiment, and thus, an security bounding unit is formed.

This embodiment can set up an anti-climbing sensor on same anti-climbing enclosure module 3, also can set up an anti-climbing sensor corresponding to first rotation support frame 52 on same anti-climbing enclosure module 3, and correspond second rotation support frame 62 and set up an anti-climbing sensor on same anti-climbing enclosure module 3. Thus, the security and protection enclosure unit is mainly formed by sequentially connecting a plurality of security and protection enclosure units, and comprises a shearing prevention enclosure module 2 and an anti-climbing enclosure module 3 arranged at the top of the shearing prevention enclosure module 2; the anti-shearing enclosure module 2 comprises two upright posts 21, and an anti-shearing monitoring net is arranged between the two upright posts 21 of the anti-shearing enclosure module 2; the anti-climbing enclosure module 3 comprises two enclosure support units and a blade barbed wire installed between the two enclosure support units, the enclosure support units comprise rotating bases and rotating support frames movably installed on the rotating bases, and anti-climbing sensors corresponding to the bottom ends of the rotating support frames are arranged at the bottoms of the rotating bases. The working principle of the airport enclosure security monitoring and alarming system and the airport enclosure security monitoring and alarming method in the embodiment are the same as those in the first embodiment and the second embodiment, and the description is not repeated here.

Compared with the defects and shortcomings of the prior art, the airport enclosure security monitoring and alarming system and method based on AI information technology provided by the invention have reasonable structure, each unit body of the security enclosure assembly is provided with an anti-shearing sensor and an anti-climbing sensor, the anti-shearing sensor monitors whether a net breaking invasion behavior exists in an anti-shearing monitoring net or not, the anti-climbing sensor monitors whether a climbing or climbing invasion behavior exists or not, the two kinds of intrusion behaviors can be monitored in time and transmitted to the alarm processing module in real time, the alarm processing module distributes corresponding audible and visual alarms to carry out audible and visual alarms, distributes corresponding network cameras to carry out video recording, the security alarm execution module can carry out alarm monitoring in real time, and can timely know information such as intruder positions, intrusion defense area positions, camera video data, invasion levels, triggering alarm types, alarm time and the like, is convenient for accurate judgment and timely driving and catching.

The present invention is not limited to the above embodiments, and any other products in various forms can be obtained by the teaching of the present invention, but any changes in the shape or structure thereof, which are the same as or similar to the technical solutions of the present invention, fall within the protection scope of the present invention.

Claims (10)

1. The utility model provides an airport enclosure security protection monitoring alarm system based on AI information technology which characterized in that: the anti-climbing safety fence comprises a safety fence assembly and a monitoring alarm unit, wherein the safety fence assembly is formed by sequentially constructing a plurality of safety fence units, and each safety fence unit comprises a shearing prevention fence module and an anti-climbing fence module arranged at the top of the shearing prevention fence module; the anti-shearing enclosure module comprises an anti-shearing monitoring net and an anti-shearing sensor electrically connected with the anti-shearing monitoring net, and the anti-shearing sensor is used for monitoring whether the anti-shearing monitoring net is sheared or not; the anti-climbing enclosure module comprises a rotating base and a rotating support frame movably mounted at the top of the rotating base, wherein an anti-climbing sensor corresponding to the bottom of the rotating support frame is arranged at the bottom of the rotating base and used for monitoring whether the rotating support frame rotates under pressure; the monitoring alarm unit comprises an anti-shearing monitoring module, an anti-climbing monitoring module and an alarm processing module, the anti-shearing monitoring module is electrically connected with each anti-shearing sensor, the anti-climbing monitoring module is electrically connected with each anti-climbing sensor, and the alarm processing module is electrically connected with the anti-shearing monitoring module and the anti-climbing monitoring module respectively.

2. The airport enclosure security monitoring and warning system of claim 1, wherein: the monitoring alarm unit also comprises an alarm execution module and a camera shooting execution module, the alarm execution module is connected with the alarm processing module, and the alarm execution module comprises a plurality of audible and visual alarms; the camera shooting execution module is connected with the alarm processing module and comprises a plurality of network cameras, and the network cameras are correspondingly arranged on the security and defense enclosure unit.

3. The airport enclosure security monitoring and warning system of claim 2, wherein: the anti-shearing monitoring module comprises an anti-shearing monitoring position database, wherein the anti-shearing monitoring position database stores the position information of the anti-shearing sensor, and the position information of the anti-shearing sensor corresponds to the position information of the anti-shearing sensor; the anti-climbing monitoring module comprises an anti-climbing monitoring position database, anti-climbing monitoring position information is stored in the anti-climbing monitoring position database, and the anti-climbing monitoring position information corresponds to position information distributed by anti-climbing sensors; the camera shooting execution module comprises a camera position database, wherein camera position information is stored in the camera position database and corresponds to the position information of the network cameras.

4. The airport enclosure security monitoring and warning system of claim 3, wherein: the alarm execution module comprises an audible and visual alarm position database, audible and visual alarm position information is stored in the audible and visual alarm position database, the audible and visual alarm position information corresponds to the position information of the audible and visual alarms, and the audible and visual alarms are correspondingly arranged on the security enclosure unit; the monitoring alarm unit further comprises a position information map module, and the position information map module is integrated to display the anti-shearing sensor position and alarm information, the anti-climbing monitoring position and alarm information, the camera position information and the audible and visual alarm position and alarm information.

5. The airport enclosure security monitoring and warning system of claim 4, wherein: the monitoring alarm unit also comprises a security alarm execution module, the security alarm execution module is connected with the alarm processing module and the position information map module, and the security alarm execution module comprises a plurality of alarm devices; and the acousto-optic alarm is respectively and electrically connected with the anti-shearing sensor and the anti-climbing sensor.

6. The airport enclosure security monitoring and warning system of claim 1, wherein: the anti-shearing enclosure module comprises at least two stand columns, the anti-shearing monitoring net is connected and arranged on the stand columns, and the anti-shearing monitoring net is formed by interweaving warps and wefts of a plurality of anti-shearing monitoring net wefts and a plurality of anti-shearing monitoring net warps.

7. The airport enclosure security monitoring and warning system of claim 6, wherein: the anti-climbing enclosure module is an unilateral oblique enclosure module, the unilateral oblique enclosure module comprises two first enclosure support units, each first enclosure support unit comprises a first rotating base and a first rotating support frame which is obliquely and movably mounted on the first rotating base, a first blade barbed wire is connected between the first rotating support frames of the two first enclosure support units, the first rotating base of each first enclosure support unit is provided with a first steering groove corresponding to the first rotating support frame, and the first rotating support frames are rotatably and limitedly mounted in the first steering grooves; a first anti-climbing sensor is arranged at the bottom of the first rotating base, a first micro switch and a first sensor body connected with the first micro switch are arranged in the first anti-climbing sensor, and the bottom end of the first rotating support frame is correspondingly connected with the first micro switch through a first linkage mechanism; a first installation upright post is fixed at the bottom of a first anti-climbing sensor of the first enclosure support unit and is installed on an upright post of the anti-shearing enclosure module through a connecting piece.

8. The airport enclosure security monitoring and warning system of claim 6, wherein: the anti-climbing enclosure module is a bilateral oblique enclosure module, the bilateral oblique enclosure module comprises two second enclosure support units, each second enclosure support unit comprises a second rotating base, two sides of each second rotating base are respectively and movably provided with a second rotating support frame in an oblique manner, a second anti-climbing sensor is arranged at the bottom of each second rotating base, a second sensor body is arranged in the middle of the inside of each second anti-climbing sensor, two sides of the inside of each second anti-climbing sensor are respectively provided with a second microswitch connected with the second sensor body, and the bottom ends of the two second rotating support frames correspond to the two second microswitches one by one; a second mounting upright post is fixed at the bottom of a second anti-climbing sensor of the second enclosure support unit and is mounted on an upright post of the anti-shearing enclosure module through a connecting piece; the two second rotating support frames of the second enclosure support unit jointly form a V-shaped movable support, and a second blade barbed wire is connected between the two V-shaped movable supports of the double-side inclined enclosure module; and a second rotating base of the second enclosure support unit is provided with a second rotating groove corresponding to the second rotating support frame, the second rotating support frame is correspondingly rotated and limited to be installed in the second rotating groove of the second rotating base, and the bottom end of the second rotating support frame is correspondingly connected with the second microswitch through a second linkage mechanism.

9. An airport enclosure security monitoring and alarming method based on AI information technology is characterized in that: the method comprises the following steps:

A. the method comprises the steps that a security and defense enclosure assembly is constructed in a security and defense area of an airport, the security and defense enclosure assembly is formed by sequentially constructing a plurality of security and defense enclosure units, each security and defense enclosure unit comprises a shearing prevention enclosure module and an anti-climbing enclosure module arranged at the top of the shearing prevention enclosure module, and a monitoring alarm unit is arranged at the same time and comprises a shearing prevention monitoring module, an anti-climbing monitoring module, an alarm processing module and a position information map module;

B. anti-shearing alarm processing: judging whether an anti-shearing monitoring net on each anti-shearing sensor corresponding monitoring anti-shearing enclosure module is sheared or not and transmitting a shearing monitoring result to an anti-shearing monitoring module, transmitting the position information of the anti-shearing sensor judged to be sheared by the anti-shearing monitoring module to an alarm processing module and a position information map module, sending an alarm command to a security alarm executing module, an alarm executing module and a camera shooting executing module respectively by the alarm processing module, calling the position information map module by the security alarm executing module for real-time monitoring, sending alarm position information to an alarm device after the security alarm executing module receives the alarm command, wherein the alarm position information corresponds to the sheared anti-shearing sensor position information, and controlling an audible and visual alarm associated with the sheared anti-shearing sensor position information to send audible and visual alarms after the alarm executing module receives the alarm command, the camera shooting execution module receives the alarm command and then controls the network camera related to the position information of the cut anti-shearing sensor to record and store the video and transmits the video data to the security alarm execution module;

C. anti-climbing alarm processing: judging whether a rotary support frame on each anti-climbing sensor corresponding to a monitoring anti-climbing enclosure module is pressed to rotate or not and transmitting a climbing monitoring result to an anti-climbing monitoring module, wherein the anti-climbing monitoring module transmits anti-shearing sensor position information which is judged to have a climbing behavior by the anti-climbing sensors to an alarm processing module and a position information map module, the alarm processing module respectively sends out alarm commands to a security alarm execution module, an alarm execution module and a camera shooting execution module, the security alarm execution module calls the position information map module to carry out real-time monitoring, the security alarm execution module receives the alarm commands and then sends out alarm position information to an alarm device, the alarm position information corresponds to the anti-climbing sensor position information having the climbing behavior, the alarm execution module receives the alarm commands and then controls an audible and visual alarm which is associated with the anti-climbing sensor position information having the climbing behavior to send out audible and visual alarm, and after receiving the alarm command, the camera execution module controls the network camera associated with the position information of the anti-climbing sensor with the overtaking behavior to record and store the video and transmits the video data to the security alarm execution module.

10. The airport enclosure security monitoring alarm method of claim 9, wherein:

the alarm processing module is provided with an alarm database, the alarm database is used for storing anti-shearing alarm data and anti-climbing alarm data in real time, the anti-shearing alarm data comprise a shearing monitoring result for triggering alarm, anti-shearing sensor position information and anti-shearing video data, and the anti-climbing alarm data comprise a climbing monitoring result for triggering alarm, anti-climbing sensor position information and anti-climbing video data;

in step B, C, the audible and visual alarm is directly and electrically connected with the anti-shearing sensor and the anti-climbing sensor, when the anti-shearing sensor judges that the corresponding anti-shearing monitoring net is sheared or/and the anti-climbing sensor judges that the corresponding anti-climbing enclosure module has a crossing behavior, the associated audible and visual alarm immediately gives an audible and visual alarm; the security alarm execution module comprises a security monitoring computer, the security monitoring computer is internally provided with the position information map module, the alarm device is internally provided with the position information map module, and the alarm device and the security monitoring computer are in interactive communication.

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