CN114140921A - Wisdom checkpoint system - Google Patents

Abstract

The invention discloses an intelligent inspection station system, and belongs to the technical field of intelligent detection. The intelligent vehicle license plate detection and control system comprises a portal frame, a bayonet snapshot unit, electronic fence detection and control equipment, an accurate shunting induction screen, a license plate recognition camera, a vehicle bottom scanner, a vehicle dome camera, a self-adaptive lifting device, a barrier gate, information supplement and recording equipment, a number taker, a server, a data processing module, a shunting module and an early warning module. According to the invention, the height of the camera is adjusted by the self-adaptive lifting device according to the vehicle type information, the optimal acquisition of the face information is ensured, the face information acquisition efficiency is improved, the personnel, the vehicle, the mobile phone code detection and the destination are acquired by the camera, the mobile phone code detection, the self-adaptive lifting and other equipment, and the binding of the personnel, the vehicle, the mobile phone code detection and the destination information is realized by adopting a multi-station cooperation mechanism. In addition, the invention can confirm the related information and the flow direction of vehicles and personnel at any time through the binding relationship, thereby avoiding potential danger and enhancing the fortress function of the inspection station.

Description

Wisdom checkpoint system

Technical Field

The invention belongs to the technical field of intelligent detection, and particularly relates to an intelligent inspection station system which can be used for detecting vehicles and personnel entering and exiting an inspection station.

Background

With the rapid development of economy in China, regional communication is more frequent, the mobility of different countries, regions, logistics, information and the like is stronger and stronger, and the inspection station plays an increasingly important role in the three-dimensional security control construction. At present, an inspection station cannot bind information such as personnel, vehicles, mobile phone detection codes and destinations, and cannot accurately acquire the flow direction of the personnel; still adopt the mode of fixed equipment to gather face information, brought certain puzzlement for face information acquisition work.

Disclosure of Invention

In order to solve the above problems, the present invention provides an intelligent checkpoint system. The invention can adjust the height of the camera by the self-adaptive lifting device, ensures the optimal acquisition of face information, can realize the binding of personnel, vehicles, mobile phone code detection and destination information, and enhances the fortress function of the inspection station.

The purpose of the invention can be realized by the following technical scheme:

an intelligent inspection station system is characterized by comprising a portal frame, a bayonet snapshot unit, electronic fence detection and control equipment, an accurate shunting induction screen, a license plate recognition camera, a vehicle bottom scanner, a vehicle roof dome camera, a self-adaptive lifting device, a barrier gate, information complementary recording equipment, a number taker, a server, a data processing module, a shunting module and an early warning module;

the portal frames are arranged in front of the inspection station, and two sets of portal frames are arranged;

the system comprises a portal snapshot unit and electronic fence detection and control equipment, wherein the portal snapshot unit and the electronic fence detection and control equipment are both arranged on a portal frame, the portal snapshot unit is used for snapshot of vehicle types, license plates, vehicle body colors and pictures of faces of drivers in the vehicle, and the electronic fence detection and control equipment is used for collecting IMSI and IMEI information of nearby mobile phones and uploading the IMSI and IMEI information to a server;

the accurate shunting induction screen is deployed behind the second set of portal frames and used for guiding the vehicle to enter an appointed lane;

the license plate recognition camera is deployed in front of the lane and is used for recognizing the license plate of the vehicle;

the vehicle bottom scanner is arranged at the bottom of the lane and is used for imaging and scanning a vehicle chassis;

the top dome camera is deployed at the top of the lane and used for displaying images of the top of the vehicle;

the barrier gate is arranged behind the lane and used for releasing normal vehicles, releasing abnormal vehicles after checking normal, and intercepting abnormal vehicles;

the self-adaptive lifting device is arranged on two sides of the lane and used for automatically adjusting the height of the human face camera through vehicle type information in the inbound database;

the information additional recording equipment is arranged in the personnel security check channel and is used for collecting identity information, face information, destination information and vehicle information of inbound personnel;

the number taker is deployed in the personnel security check channel and used for collecting the mobile phone number of the inbound personnel;

the server is used for storing an exception library and an inbound database; the abnormal library comprises vehicle registration information, personnel information, dangerous vehicle information and dangerous personnel information, wherein the vehicle registration information comprises a motor vehicle brand, a license plate, a vehicle type and a vehicle body color, the personnel information comprises a name, a face, an identity card number and whether a driving license exists or not, the dangerous vehicle information comprises a dangerous license plate, a vehicle type and a vehicle body color, and the dangerous personnel information comprises a dangerous personnel name, a face and an identity card number; the inbound database comprises information of vehicles, personnel, destinations and mobile phone detection codes, wherein the information of the vehicles comprises license plates, vehicle types, vehicle body colors and whether the vehicles are abnormal vehicles, the information of the personnel comprises faces, identity numbers and whether the personnel are abnormal personnel, and the information of the mobile phone detection codes comprises IMSI and IMEI information;

the data processing module is used for dividing the vehicle into a key inspection vehicle and a normal vehicle by comparing the acquired vehicle and personnel information with information in the abnormal library, dividing the lane into a car, a truck, a minibus, a key inspection vehicle, a large bus and a non-motor vehicle lane according to the abnormal information and the vehicle type, and binding the information of personnel, the vehicle, the mobile phone detection code and the destination;

the shunting module shunts the inbound vehicles according to the grouping of the data processing module, abnormal vehicles are shunted to the key check lane, and other vehicles shunt according to vehicle types;

and the early warning module sends out early warning information to the staff according to the information comparison result of the data processing module.

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

1. according to the invention, information such as personnel, vehicles, mobile phone codes, destinations and the like is acquired through equipment such as a camera, mobile phone codes and self-adaptive lifting, the data processing module is used for comparing and screening the data in real time, a multi-station cooperation mechanism is adopted, binding of the personnel, the vehicles, the mobile phone codes and the destination information is finally realized, the flow direction of the vehicles and the personnel can be confirmed, potential danger is avoided, and the fortress function of an inspection station is enhanced.

2. According to the invention, the height of the camera is adjusted by the self-adaptive lifting device according to the acquired vehicle type information, the optimal acquisition of the face information is ensured, and the face information acquisition efficiency is improved.

3. According to the information comparison of the data processing module, the final results are classified into dangerous vehicles, dangerous personnel, fake-licensed vehicles, modified vehicles, driving without license and common vehicles, the priority is set according to the results, and different countermeasures are taken by working personnel to ensure the safety of the personnel.

Drawings

FIG. 1 is a schematic view of an overall checkpoint deployment;

FIG. 2 is a schematic view of a vehicle audit safety check deployment;

FIG. 3 is an adaptive lifting device;

FIG. 4 is a rear view of the adaptive lifting device;

figure 5 is a cross-arm connection view of the slider.

The reference numbers in the figures illustrate: 1-a rectangular frame; 2-a cross arm; 3-an organ-type shield; 4-a switch; 5, a motor; 6-a screw rod; 7-a slide block; 8-connecting the structural member; 9-a camera; 10-a tablet computer; 11-a ventilation heat dissipation port; 12-a motor controller; 13-a motor driver; 14-STM32 singlechip.

Detailed Description

The technical solutions in the embodiments of the present invention are clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all embodiments. All other embodiments, which can be obtained by a person skilled in the art without inventive effort based on the embodiments of the present invention, are within the scope of the present invention.

The utility model provides a wisdom checkpoint system, includes portal frame, bayonet socket snapshot unit, fence detection and control equipment, accurate reposition of redundant personnel induction screen, license plate discernment camera, vehicle bottom scanner, roof ball machine, self-adaptation elevating gear, banister, information additional recording equipment, number taker, server, data processing module, reposition of redundant personnel module, early warning module, display module.

The portal frame is arranged in front of the inspection station, two sets of portal frames are arranged, the bayonet snapping units and the electronic fence detection and control equipment are mounted on the portal frame, the bayonet snapping units snap the automobile type, the license plate, the automobile body color and the face picture of a driver in the automobile, and the electronic fence detection and control equipment acquires the IMSI and IMEI information of nearby mobile phones and uploads the IMSI and IMEI information to the server. The accurate shunting induction screen is deployed behind the second set of portal frames and used for guiding the vehicle to enter an appointed lane.

The license plate recognition camera is arranged in front of the lane to recognize the license plate of the vehicle. The vehicle bottom scanner is arranged at the bottom of the lane and used for imaging and scanning the vehicle chassis. The dome camera is arranged at the top of the lane and displays images of the top of the vehicle. The barrier gate is arranged behind the lane, and is used for releasing normal vehicles, releasing abnormal vehicles after checking normal, and intercepting abnormal vehicles.

The self-adaptive lifting device is arranged on two sides of the lane, and the height of the human face camera is automatically adjusted through vehicle type information.

The information additional recording equipment is arranged in a personnel security check channel and can acquire identity information, face information, destination information and vehicle information of inbound personnel. The number taking device is arranged in a personnel security check channel and can collect the mobile phone number of the inbound personnel.

The server is used for storing an exception library and an inbound database, wherein the exception library comprises vehicle registration information, personnel information, dangerous vehicle information and dangerous personnel information. The vehicle registration information comprises the brand, the license plate, the vehicle type and the vehicle body color of the motor vehicle; the personnel information comprises a name, a face, an identity card number and whether a driving license exists or not; the dangerous vehicle information comprises dangerous license plates, vehicle types and vehicle body colors; the dangerous personnel information comprises dangerous personnel names, human faces and identification numbers. The inbound database comprises information such as vehicles, personnel, destinations, mobile phone detection codes and the like, wherein the vehicle information comprises license plates, vehicle types, vehicle body colors and whether the vehicles are abnormal vehicles, the personnel information comprises faces, identification numbers and whether the personnel are abnormal personnel, and the mobile phone detection code information comprises IMSI and IMEI information.

The data processing module compares and judges the collected information of the vehicle, personnel, mobile phone detection codes and the like with the information in the abnormal library, and divides the vehicle into a key inspection vehicle and a normal vehicle. Dividing lanes into lanes such as cars, trucks, minibuses, key checking, buses and non-motor vehicles according to the abnormal information and the vehicle types, and binding information such as personnel, vehicles, mobile phone detection codes and destinations.

The shunting module shunts the inbound vehicles according to the grouping of the data processing module, abnormal vehicles are shunted to the key check lane, and other vehicles are shunted according to vehicle types.

And the early warning module sends out early warning information to the staff according to the information comparison result of the data processing module.

The display module carries out real-time monitoring to the inspection station according to the high definition camera of deployment, and including high definition bayonet socket snapshot unit on the portal frame carries out real-time monitoring to the vehicle of inbound, and vehicle type identification camera, vehicle bottom scanner, roof ball machine, people's face camera etc. in the lane carry out real-time monitoring to the vehicle condition.

The following is a more specific example:

as shown in the figures 1 and 2, the intelligent inspection station system comprises a portal frame, a bayonet snapshot unit, electronic fence detection and control equipment, an accurate shunting induction screen, a license plate recognition camera, a vehicle bottom scanner, a vehicle roof dome camera, a self-adaptive lifting device, a barrier gate, information additional recording equipment, a number taker, a server, a data processing module, a shunting module, an early warning module and a display module.

Two sets of portal frames are deployed in the front of an inspection station within 800-plus-1500 meters, a bayonet snapshot unit and electronic fence detection and control equipment are installed on the portal frames, wherein the bayonet snapshot unit acquires information such as a license plate, a vehicle type, a vehicle body color and a driver face of an inbound vehicle, the electronic fence detection and control equipment acquires information such as IMSI and IMEI of nearby mobile phones, uploads the vehicle information, personnel information and mobile phone detection code information to an inbound database, and a data processing module binds the information. An accurate shunting induction screen is arranged behind the portal frame, and shunting information, polite words and the like sent by the shunting module are displayed on a screen on one side facing a vehicle driver.

A license plate recognition camera is arranged in front of a lane, a vehicle bottom scanner is arranged at the bottom of the lane, a dome camera is arranged at the top of the lane, self-adaptive lifting devices are arranged on two sides of the lane, and a barrier gate is arranged behind the lane. The license plate recognition camera recognizes the license plate of the vehicle, and the data processing module compares the license plate with the vehicle information in the data base to obtain the vehicle type and the vehicle body color of the vehicle; the vehicle bottom scanner performs imaging scanning on a vehicle chassis; the car dome camera displays images of the top of the car; and the barrier gate releases the normal vehicles, releases the abnormal vehicles after checking the normal vehicles, and intercepts the abnormal vehicles when the abnormal vehicles are abnormal.

As shown in fig. 3 to 5, adaptive lifting devices are disposed on both sides of the lane, and each adaptive lifting device includes a main body frame, a module, a control unit, a camera, and a tablet computer. The main body frame consists of a hollow rectangular frame 1 and a cross arm 2, the module and the control unit are fixed inside the rectangular frame, the camera 9 and the tablet computer 10 are fixed on the cross arm 2, and the cross arm 2 is hung outside the rectangular frame 1. The module comprises a screw rod 6, a motor 5, a sliding block 7 and a connecting structural member 8, wherein the cross arm 2 is fixed on the sliding block 7 through the connecting structural member 8, the motor 5 rotates to drive the sliding block 7 to move up and down, and the sliding block 7 moves up and down to drive the cross arm 2 to lift. The control unit comprises an STM32 single chip microcomputer 14, a motor controller 12 and a motor driver 13. After the STM32 single-chip microcomputer 14 receives the vehicle type information, the vehicle type information is analyzed, the analysis result is sent to the motor controller 12, the motor controller 12 receives the analysis result, the motor driver 13 is controlled to drive the motor 5 to rotate, the motor 5 controls the cross arm 2 to ascend and descend to the designated height, the camera 9 collects the face information of drivers and passengers, the driver selects the destination according to the indication of the tablet computer 10, and the tablet computer 10 displays the face snapshot picture.

The staff can command part of passengers to enter a personnel security check channel at random for security check, the information supplement and recording equipment collects face information, vehicle information and destination information of the checked personnel, the number taker captures and analyzes mobile equipment mobile phone numbers carried by the checked personnel, interception of real numbers is achieved under the condition that operators are not relied on, the fact that the corresponding relation between part of the personnel and the mobile phone detection codes is 'one person for one code' is achieved, information is uploaded to an inbound database, and the data processing module binds the personnel, the vehicles, the mobile phone detection codes and the destination information.

The server is used for storing an exception library and an inbound database, wherein the exception library comprises vehicle registration information, personnel information, dangerous vehicle information and dangerous personnel information. The vehicle registration information comprises the brand, the license plate, the vehicle type and the vehicle body color of the motor vehicle; the personnel information comprises a name, a face, an identity card number and whether a driving license exists or not; the dangerous vehicle information comprises dangerous license plates, vehicle types and vehicle body colors; the dangerous personnel information comprises dangerous personnel names, human faces and identification numbers. The inbound database comprises information such as vehicles, personnel, destinations, mobile phone detection codes and the like, wherein the vehicle information comprises license plates, vehicle types, vehicle body colors and whether the vehicles are abnormal vehicles, the personnel information comprises faces, identification numbers and whether the personnel are abnormal personnel, and the mobile phone detection code information comprises IMSI and IMEI information.

The data processing module compares and judges the collected information of the vehicle, personnel, mobile phone detection codes and the like with the information in the abnormal library, and divides the vehicle into a key inspection vehicle and a normal vehicle. Dividing lanes into lanes such as cars, trucks, minibuses, key checking, buses and non-motor vehicles according to the abnormal information and the vehicle types, and binding information such as personnel, vehicles, mobile phone detection codes and destinations.

The shunting module shunts the inbound vehicles according to the grouping of the data processing module, abnormal vehicles are shunted to the key check lane, and other vehicles are shunted according to vehicle types. And sending different early warning information according to the priority of the vehicle. .

The display module carries out real-time monitoring to the inspection station according to the high definition camera of deployment, and including high definition bayonet socket snapshot unit on the portal frame carries out real-time monitoring to the vehicle of inbound, and vehicle type identification camera, vehicle bottom scanner, roof ball machine, people's face camera etc. in the lane carry out real-time monitoring to the vehicle condition.

The data processing module compares and judges the information, and the specific steps are as follows:

s1, a bayonet snapshot unit on the portal frame collects information such as a license plate, a vehicle type, a vehicle body color and a driver face of an inbound vehicle and uploads the information to an inbound database, and electronic fence detection and control equipment collects information of IMSI and IMEI collected nearby and uploads the information to the inbound database. And the data processing module binds the personnel information, the vehicle information and the mobile phone detection code information.

S2, according to the acquired license plate number, dangerous information is inquired in the abnormal library, whether the vehicle is a dangerous vehicle or not and whether a driver in the vehicle is a dangerous person or not are judged at first, and if the vehicle meets one of the conditions, the vehicle is shunted to a key lane to be intercepted.

S3, if the vehicle and the personnel are not dangerous, according to the license plate information, inquiring vehicle registration information in an abnormal library, comparing the matching conditions of brands, vehicle types and vehicle body colors, and judging whether the vehicle is a fake plate vehicle or a modified vehicle; and inquiring the driver license information in the abnormal library according to the face information of the driver, and judging whether the driver is driving without license.

S4, setting early warning priority, setting the vehicle with dangerous information as the highest priority, and setting secondary priority according to whether the fake-licensed vehicle, the modified vehicle and the driving without license exist.

The information binding steps of the data processing module are as follows:

s1, when an inbound vehicle passes through the portal frame, the vehicle is photographed by the bayonet snapshot unit, and information such as a license plate, a vehicle type, a vehicle body color and a driver face is acquired through algorithms such as license plate recognition, vehicle type recognition, color recognition, face recognition and the like and uploaded to an inbound database; the electronic fence detection and control equipment detects the IMSI and IMEI information of nearby mobile phones and uploads the IMSI and IMEI information to the inbound database; the data processing module binds the personnel information, the vehicle information and the mobile phone detection code information, and the corresponding relations at the moment are one person and one vehicle and one person and multiple codes.

And S2, when the inbound vehicle enters the lane, the camera on the self-adaptive lifting device takes pictures of people in the vehicle to obtain all face information in the vehicle, and the driver selects a destination on the tablet personal computer. At this time, the corresponding relations are one person for one car, one person for one land and one person for multiple codes.

S3, a worker can randomly direct part of passengers to enter a personnel security inspection channel for security inspection, an information supplement and recording device collects face information, vehicle information and destination information of the inspected personnel, a number taker captures and analyzes mobile equipment mobile phone numbers carried by the inspected personnel, real number interception is achieved without depending on operators, and the corresponding relation between part of the personnel and the mobile phone detection codes is 'one person and one code'.

S4, adopting a multi-station matching mechanism, when a vehicle drives into a first inspection station, the collected mobile phone detection codes are the mobile phone detection codes of all people in the area, when the vehicle drives into a second inspection station, the collected mobile phone detection codes are the mobile phone detection codes of all people in another area, the mobile phone detection codes of the people in the vehicle exist in the intersection of the mobile phone detection codes in the two areas, and by analogy, the mobile phone detection codes are screened, and finally the corresponding relation between the people and the mobile phone detection codes is 'one person multi-code', wherein 'multi-code' is the mobile phone detection codes of all people in the vehicle.

S5, through the above process, the correspondence relationship among the personnel, the vehicle, the destination and the mobile phone detection code is 'one person and one vehicle' or 'one person and one place', the correspondence relationship between some personnel and the mobile phone detection code is 'one person and one code', and the correspondence relationship between other personnel and the mobile phone detection code is 'one person and multiple codes'.

The working flow steps of the self-adaptive lifting device are as follows:

and S1, recognizing the vehicle license plate information by the license plate recognition camera in front of the lane, comparing the vehicle license plate information with the vehicle information in the inbound database, and determining the vehicle type information of the vehicle.

And S2 and an STM32 singlechip analyzes the vehicle type information and sends an analysis result to the motor controller, the motor controller controls the motor driver to drive the motor to rotate according to the analysis result, and the motor drives the cross arm to move up and down, so that the height of the camera in the cross arm is basically consistent with the height of the faces of drivers and passengers.

S3, the camera in the cross arm collects face information of drivers and passengers, the driver selects a destination according to the indication of the tablet personal computer, and the tablet personal computer displays the face information.

The specific working process of this example is as follows:

the inbound vehicle passes through the portal frame, the bayonet snapshot unit collects vehicle types, license plates, vehicle body colors and driver face information and uploads the vehicle types, the electronic fence detection and control equipment collects mobile phone detection and control information and uploads the mobile phone detection and control information to the inbound database, the data processing module binds personnel information, vehicle information and mobile phone detection and control information and compares the personnel information with information in an abnormal database to judge whether the vehicle and the personnel are abnormal, if the vehicle and the personnel are abnormal, the shunting module indicates that the vehicle enters a key check lane, and if the vehicle is not abnormal, the shunting module indicates that the vehicle enters an appointed lane according to the vehicle types.

A license plate recognition camera is arranged in front of the lane, the recognized license plate is compared with vehicle information in an inbound database to obtain vehicle type information, after a control unit of the self-adaptive lifting device receives the vehicle type information, the control unit drives the cross arm to lift to a specified height, and height adjustment is completed before the vehicle enters the lane. After the vehicle enters the lane, the scanning machine at the bottom of the vehicle carries out imaging scanning on the bottom of the vehicle, the dome camera at the top of the vehicle carries out image display on the top of the vehicle, the face recognition camera collects face information of drivers and passengers, and if the driver and passenger does not have abnormal opening, the brake is released.

The staff can command part of drivers and conductors to enter a personnel security check channel at random for security check, the information supplement and recording equipment collects face information, vehicle information and destination information of the personnel who pass the check, the number taker captures and analyzes the mobile equipment mobile phone number carried by the personnel who pass the check, and the real number is intercepted without depending on operators.

By adopting a multi-occupation matching mechanism, the corresponding relations of the personnel, the vehicle, the destination and the mobile phone detection code are 'one person and one vehicle' and 'one person and one place', the corresponding relations of part of the personnel and the mobile phone detection code are 'one person and one code', and the corresponding relations of other personnel and the mobile phone detection code are 'one person and multiple codes'.

According to the corresponding relation of the personnel, the vehicle, the destination and the mobile phone detection code, once a special condition occurs, such as a problem occurs in the vehicle, the related information can be checked at any time through the binding relation of the vehicle, the personnel, the destination and the mobile phone detection code, the vehicle flow direction range is determined, and the condition is processed in time.

In a word, the height of the camera is adjusted by the self-adaptive lifting device according to the vehicle type information, the optimal acquisition of the face information is guaranteed, the face information acquisition efficiency is improved, the personnel, the vehicle, the mobile phone code detection and the destination are acquired by the camera, the mobile phone code detection, the self-adaptive lifting device and other equipment, and the binding of the personnel, the vehicle, the mobile phone code detection and the destination information is realized by adopting a multi-station cooperation mechanism. In addition, the invention can confirm the related information and the flow direction of vehicles and personnel at any time through the binding relationship, thereby avoiding potential danger and enhancing the fortress function of the inspection station.

Claims (1)

1. An intelligent inspection station system is characterized by comprising a portal frame, a bayonet snapshot unit, electronic fence detection and control equipment, an accurate shunting induction screen, a license plate recognition camera, a vehicle bottom scanner, a vehicle roof dome camera, a self-adaptive lifting device, a barrier gate, information complementary recording equipment, a number taker, a server, a data processing module, a shunting module and an early warning module;

the portal frames are arranged in front of the inspection station, and two sets of portal frames are arranged;

the system comprises a portal snapshot unit and electronic fence detection and control equipment, wherein the portal snapshot unit and the electronic fence detection and control equipment are both arranged on a portal frame, the portal snapshot unit is used for snapshot of vehicle types, license plates, vehicle body colors and pictures of faces of drivers in the vehicle, and the electronic fence detection and control equipment is used for collecting IMSI and IMEI information of nearby mobile phones and uploading the IMSI and IMEI information to a server;

the accurate shunting induction screen is deployed behind the second set of portal frames and used for guiding the vehicle to enter an appointed lane;

the license plate recognition camera is deployed in front of the lane and is used for recognizing the license plate of the vehicle;

the vehicle bottom scanner is arranged at the bottom of the lane and is used for imaging and scanning a vehicle chassis;

the top dome camera is deployed at the top of the lane and used for displaying images of the top of the vehicle;

the barrier gate is arranged behind the lane and used for releasing normal vehicles, releasing abnormal vehicles after checking normal, and intercepting abnormal vehicles;

the self-adaptive lifting device is arranged on two sides of the lane and used for automatically adjusting the height of the human face camera through vehicle type information in the inbound database;

the information additional recording equipment is arranged in the personnel security check channel and is used for collecting identity information, face information, destination information and vehicle information of inbound personnel;

the number taker is deployed in the personnel security check channel and used for collecting the mobile phone number of the inbound personnel;

the server is used for storing an exception library and an inbound database; the abnormal library comprises vehicle registration information, personnel information, dangerous vehicle information and dangerous personnel information, wherein the vehicle registration information comprises a motor vehicle brand, a license plate, a vehicle type and a vehicle body color, the personnel information comprises a name, a face, an identity card number and whether a driving license exists or not, the dangerous vehicle information comprises a dangerous license plate, a vehicle type and a vehicle body color, and the dangerous personnel information comprises a dangerous personnel name, a face and an identity card number; the inbound database comprises information of vehicles, personnel, destinations and mobile phone detection codes, wherein the information of the vehicles comprises license plates, vehicle types, vehicle body colors and whether the vehicles are abnormal vehicles, the information of the personnel comprises faces, identity numbers and whether the personnel are abnormal personnel, and the information of the mobile phone detection codes comprises IMSI and IMEI information;

the data processing module is used for dividing the vehicle into a key inspection vehicle and a normal vehicle by comparing the acquired vehicle and personnel information with information in the abnormal library, dividing the lane into a car, a truck, a minibus, a key inspection vehicle, a large bus and a non-motor vehicle lane according to the abnormal information and the vehicle type, and binding the information of personnel, the vehicle, the mobile phone detection code and the destination;

the shunting module shunts the inbound vehicles according to the grouping of the data processing module, abnormal vehicles are shunted to the key check lane, and other vehicles shunt according to vehicle types;

and the early warning module sends out early warning information to the staff according to the information comparison result of the data processing module.

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