CN111650656A - Airport passenger security check system and airport passenger security check method - Google Patents

Abstract

The invention discloses an airport passenger security check system and an airport passenger security check method. The system may include: a face recognition verification subsystem, a carry-on baggage centralized image judgment and inspection subsystem, a passenger carry-on baggage automatic transmission subsystem, a security check machine and a passenger information management subsystem. According to the invention, the face recognition verification subsystem and the carry-on luggage centralized judgment map checking subsystem can improve the security check efficiency in a large scale, improve the security check accuracy, reduce the proportion of security check personnel, reduce the labor intensity of the security check personnel, reduce the equipment flat occupation ratio, increase the cost, realize green energy conservation and provide large data support for aviation security check.

Description

Airport passenger security check system and airport passenger security check method

Technical Field

The invention relates to the field of airport security check, in particular to an airport passenger security check system and an airport passenger security check method.

Background

Airport security check is a personal and baggage inspection item that passengers on civil aircraft must accept before boarding, and is also a necessary measure to ensure the safety of passengers themselves and the safety of civil aircraft in flight. In order to ensure the safety of aviation flight and the safety and security stability of airport stations, necessary security check needs to be carried out on passengers taking an airplane in an airport, so that the excellent security check system plays an important role in ensuring the safety of passengers and maintaining the security of the airport.

Traditional security installations area is big, and the inspection is incomplete, needs a large amount of security personnel cooperations, has increased the airport expense.

The information disclosed in this background section is only for enhancement of understanding of the general background of the invention and should not be taken as an acknowledgement or any form of suggestion that this information forms the prior art already known to a person skilled in the art.

Disclosure of Invention

The invention aims to provide an airport passenger security check system and an airport passenger security check method, which can realize the comprehensive check of passengers entering an airport, enhance the security effect and improve the security of the airport.

In order to achieve the above object, the present invention provides an airport passenger security system, comprising:

a face recognition verification subsystem, a carry-on baggage centralized image judgment checking subsystem, a passenger carry-on baggage automatic transmission subsystem, a security check machine and a passenger information management subsystem;

the face recognition verification subsystem recognizes the face information of the passenger, the identity information of the passenger and the boarding voucher information of the passenger, sends the recognized face information of the passenger, the identity information of the passenger and the boarding voucher information of the passenger to the passenger information management subsystem, and compares the face information of the passenger, the identity information of the passenger and the boarding voucher information of the passenger with prestored data in the passenger information management subsystem for verification;

the passenger carry-on luggage automatic transmission subsystem is used for conveying the luggage of the passenger, the passenger carry-on luggage automatic transmission subsystem is used for identifying the RFID code and the two-dimensional code of the security check frame for containing the luggage of the passenger, binding the identified RFID code and the two-dimensional code information with the face information of the passenger, the identity information of the passenger and the boarding evidence information of the passenger identified by the face identification verification subsystem, and sending the bound RFID code and the two-dimensional code, the face information of the passenger, the identity information of the passenger and the boarding evidence information of the passenger to the carry-on luggage centralized judgment map checking subsystem;

the security check machine is used for shooting the baggage on the passenger carry-on baggage automatic transmission subsystem and sending the shot baggage image information to the carry-on baggage centralized judging image checking subsystem;

the portable luggage centralized image judging and checking subsystem receives the bound RFID code and two-dimensional code information, the face information of the passenger and the identity information of the passenger of the automatic passenger luggage transmission subsystem, matches the information with the luggage image information sent by the security check machine, judges the luggage image information sent by the security check machine, and sends the judgment result of the luggage image information, the corresponding RFID code and two-dimensional code information, the face information of the passenger and the identity information of the passenger to the passenger information management subsystem;

the passenger information management subsystem is used for storing the face information of the passenger, the identity information of the passenger, the boarding voucher information of the passenger, the RFID code and two-dimensional code information of the security check frame for containing the passenger luggage, the luggage image information and the judgment result thereof.

Optionally, the system further comprises a personal examination module and a handheld examination module;

the personal checking module and the handheld checking module check the personal carried articles of the passenger and send the checking result to the passenger information management subsystem;

the personal check module comprises safety door personal check equipment, millimeter wave door personal check equipment and surface rechecking equipment, and the handheld check module comprises manual check personal check equipment and a millimeter wave workstation.

Optionally, the passenger carry-on baggage automatic transmission subsystem includes a front conveyor line section and a rear conveyor line section, and the security inspection machine is located at a joint of the front conveyor line section and the rear conveyor line section.

Optionally, the face recognition and verification subsystem comprises an identity recognition device and an airplane boarding voucher recognition device, wherein the identity recognition device comprises a passenger face primary verification module, a passenger face recognition module located at the passenger carry-on luggage automatic transmission subsystem and a passenger face secondary verification module located at the personal check module;

the passenger face primary verification module identifies the face of a passenger to obtain the face information of the passenger, and compares the face information of the passenger with the face information corresponding to the certificate information of the passenger prestored in the passenger information management subsystem for verification;

the passenger face recognition module is used for recognizing the face of a passenger to obtain the face information of the passenger and comparing the face information of the passenger with the face information corresponding to the certificate information of the passenger prestored in the passenger information management subsystem;

the passenger face secondary verification module identifies the face of a passenger to obtain the face information of the passenger, and compares the face information of the passenger with the face information corresponding to the certificate information of the passenger pre-stored in the passenger information management subsystem for verification;

the boarding pass identification device identifies a boarding pass of a traveler to obtain boarding pass information of the traveler.

Optionally, the automatic passenger carry-on baggage conveying subsystem further comprises an elastic passenger basket throwing position module, a security check frame RFID reading module, a pair of RFID and two-dimensional code reading modules, wherein the elastic passenger basket throwing position module and the security check frame RFID reading module are located at the front section of the conveying line, and the pair of RFID and two-dimensional code reading modules are respectively located at the front section of the conveying line and the rear section of the conveying line;

the elastic passenger basket throwing position module is used for throwing security check frames used for containing passenger luggage, the security check frame RFID reading module is used for reading RFID codes on each security check frame, the RFID and two-dimensional code reading module is used for reading the RFID codes and the two-dimensional code information of the security check frames used for containing the passenger luggage, and the RFID codes and the two-dimensional code information are bound with face information of passengers, identity information of the passengers and boarding voucher information of the passengers, which are identified by the face identification verification subsystem.

Optionally, the security check machine includes AT least one of an X-ray carry-on baggage check device, an AT carry-on baggage check device, and a CT carry-on baggage check device, and the X-ray carry-on baggage check device, the AT carry-on baggage check device, and the CT carry-on baggage check device detect the baggage of the passenger and send detection data in the form of an image to the carry-on baggage centralized image judgment check subsystem.

Optionally, the carry-on baggage centralized image judgment and inspection subsystem includes a data caching module, an image distribution module, an image judgment result interaction module, an emergency processing module and a centralized storage module, and the data caching module receives baggage image information transmitted from the security inspection machine;

the system comprises a data cache module, an image distribution module, an emergency event processing module and a centralized storage module, wherein the data cache module receives and temporarily caches baggage image information transmitted from a security check machine, the image distribution module acquires the baggage image information from the data cache module and displays the baggage image information on a plurality of displays, the graph judgment result interaction module performs data exchange on judgment results of the baggage image information, the emergency event processing module is used for responding to emergency situations occurring during graph judgment work, and the centralized storage module stores the baggage image information in the data cache module and judgment results of the baggage image information.

Optionally, the system further comprises a passenger flight data exchange subsystem and a data exchange subsystem, wherein the passenger flight data exchange subsystem is used for storing the data of the number of the flight taken by the passenger, the data of the departure time of the passenger flight, the data of the ID (identity) of the passenger booking, the data of the seat number of the passenger and the data of the boarding serial number of the passenger, and transmitting the data of the number of the flight taken by the passenger, the data of the departure time of the passenger flight, the data of the ID of the passenger booking, the data of the seat number of the passenger and the data of the boarding serial number of the passenger to;

the data exchange subsystem is used for exchanging the face information, the identity information and the boarding voucher information of the passengers in the face recognition verification subsystem with the RFID codes and the two-dimensional code information of the security check frames for containing the passengers' luggage in the passenger carry-on luggage automatic transmission subsystem.

Optionally, the system further comprises a background query service subsystem, wherein the background storage query service subsystem acquires flight number data taken by a passenger, flight departure time data of the passenger, ticket booking ID data of the passenger, seat number data of the passenger, boarding sequence number data of the passenger, face information of the passenger, identity information of the passenger, boarding voucher information of the passenger, RFID code and two-dimensional code information of a security check box for containing passenger luggage, and judgment results of luggage image information in the passenger information management subsystem and the passenger flight data exchange subsystem.

In another aspect, the present invention provides a security inspection method for airport passengers, comprising:

acquiring passenger face information, passenger identity information and passenger boarding voucher information of passengers which are prestored at the background;

identifying face information of a passenger, identity information of the passenger and boarding voucher information of the passenger, and comparing the face information of the passenger, the identity information of the passenger and the boarding voucher information of the passenger which are prestored at the background;

the passenger luggage which is obtained by identification and is consistent with the comparison result of the passenger face information, the passenger identity information and the passenger boarding voucher information of the passenger, the passenger face information, the passenger identity information and the passenger boarding voucher information of the passenger which are prestored at the background is placed in a security check frame and then is conveyed, and the RFID code and the two-dimensional code of the security check frame for containing the passenger luggage are identified;

the personal check is carried out on the passengers with the comparison results of the face information, the identity information and the boarding voucher information of the passengers, which are obtained by identification, of the passengers, and the face information, the identity information and the boarding voucher information of the passengers, which are prestored at the background, of the passengers;

binding the RFID code and the two-dimensional code of the security check frame for containing the passenger luggage of the same passenger with the identified face information of the passenger, the identity information of the passenger and the boarding voucher information of the passenger;

shooting the luggage of the passenger in the conveying process through a security check machine;

judging the baggage image information shot by the security check machine, and binding and storing the judged result with the recognized face information of the passenger, the identity information of the passenger and the boarding voucher information of the passenger;

the baggage of the passenger whose judgment result is abnormal is checked for opening the bag.

The invention has the beneficial effects that: the face recognition verification subsystem and the carry-on luggage centralized judgment image checking subsystem can improve the safety check efficiency on a large scale, improve the safety check accuracy, reduce the proportion of safety check personnel, reduce the labor intensity of the safety check personnel, reduce the equipment occupation ratio, increase the cost, realize green energy conservation and provide big data support for aviation safety check.

The apparatus and methods of the present invention have other features and advantages which will be apparent from or are set forth in detail in the accompanying drawings and the following detailed description, which are incorporated herein, and which together serve to explain certain principles of the invention.

Drawings

The above and other objects, features and advantages of the present invention will become more apparent by describing in more detail exemplary embodiments thereof with reference to the attached drawings, in which like reference numerals generally represent like parts.

Fig. 1 shows a block diagram of an airport passenger security system according to one embodiment of the present invention.

Fig. 2 shows a block diagram of the passenger carry-on baggage automatic transmission subsystem, security check machine and carry-on baggage centralized judgment and inspection subsystem of an airport passenger security check system according to an embodiment of the invention.

Fig. 3 shows a flow chart of an airport passenger security method according to one embodiment of the present invention.

In the figure: the system comprises a face recognition verification subsystem, a 2-passenger carry-on luggage automatic transmission subsystem, a 3-security check machine, a 4-carry-on luggage centralized judgment drawing inspection subsystem, a 5-passenger information management subsystem, a 6-passenger flight data exchange subsystem, a 7-background storage query service subsystem, an 8-data exchange subsystem, a 9-conveying line front section, a 10-conveying line rear section, an 11-RFID and two-dimensional code reading module and a 12-unpacking processing module.

Detailed Description

The invention will be described in more detail below with reference to the accompanying drawings. While the preferred embodiments of the present invention are shown in the drawings, it should be understood that the present invention may be embodied in various forms and should not be limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete, and will fully convey the scope of the invention to those skilled in the art.

The airport passenger security inspection system comprises:

a face recognition verification subsystem, a carry-on baggage centralized image judgment checking subsystem, a passenger carry-on baggage automatic transmission subsystem, a security check machine and a passenger information management subsystem;

the face recognition verification subsystem recognizes the face information of the passenger, the identity information of the passenger and the boarding voucher information of the passenger, sends the recognized face information of the passenger, the identity information of the passenger and the boarding voucher information of the passenger to the passenger information management subsystem, and compares the face information of the passenger, the identity information of the passenger and the boarding voucher information of the passenger with prestored data in the passenger information management subsystem for verification;

the passenger carry-on luggage automatic transmission subsystem is used for conveying the luggage of the passenger, the passenger carry-on luggage automatic transmission subsystem identifies the RFID code and the two-dimensional code of the security check frame used for identifying the luggage of the passenger, binds the identified RFID code and the two-dimensional code information with the face information of the passenger, the identity information of the passenger and the boarding evidence information of the passenger identified by the face identification verification subsystem, and sends the bound RFID code and the two-dimensional code, the face information of the passenger, the identity information of the passenger and the boarding evidence information of the passenger to the carry-on luggage centralized judgment map checking subsystem;

the security check machine is used for shooting the luggage on the automatic passenger luggage transmission subsystem and sending the shot luggage image information to the personal luggage centralized image judgment check subsystem;

the portable luggage centralized image judging and checking subsystem receives the bound RFID code and two-dimensional code information, the face information of the passenger and the identity information of the passenger of the automatic passenger luggage transmission subsystem, matches the luggage image information sent by the security check machine, judges the luggage image information sent by the security check machine, and sends the judgment result of the luggage image information, the corresponding RFID code and two-dimensional code information, the face information of the passenger and the identity information of the passenger to the passenger information management subsystem;

the passenger information management subsystem is used for storing face information of passengers, identity information of the passengers, boarding voucher information of the passengers, RFID (radio frequency identification) code and two-dimensional code information of security check frames for containing passenger luggage, luggage image information and judgment results thereof.

The face information of the passenger, the identity information of the passenger and the boarding voucher information of the passenger can be identified through the face identification and verification subsystem, and compared with the face information of the passenger, the identity information of the passenger and the boarding voucher information of the passenger which are prestored in the passenger information management subsystem for verification, the luggage of the passenger is conveyed through the automatic luggage conveying subsystem of the passenger, the RFID code and the two-dimensional code of a security check frame for containing the luggage of the passenger are identified, the luggage in the security check frame is shot through the security check machine, the image shot by the security check machine is judged through the centralized personal luggage judgment image checking subsystem, the judgment result is bound with the RFID code and the two-dimensional code of the security check frame for containing the luggage of the passenger, the face information of the passenger, the identity information of the passenger and the boarding voucher information of the passenger, so that each security check program is bound with the identity of the passenger, therefore, the security inspection is more thorough, omission does not occur, and the safety of the airport is improved.

Fig. 1 shows a block diagram of an airport passenger security system according to an embodiment of the invention, and fig. 2 shows a block diagram of passenger carry-on baggage automatic transmission subsystem, security check machine and carry-on baggage centralized interpretation subsystem of an airport passenger security system according to an embodiment of the invention.

Examples

Referring to fig. 1 and 2, an airport passenger security system includes:

the system comprises a face recognition verification subsystem 1, a security check machine 3 carry-on baggage centralized judging image checking subsystem 4, a passenger carry-on baggage automatic transmission subsystem 2, a security check machine 3 and a passenger information management subsystem 5;

the face recognition verification subsystem 1 recognizes the face information of the passenger, the identity information of the passenger and the boarding voucher information of the passenger, sends the recognized face information of the passenger, the identity information of the passenger and the boarding voucher information of the passenger to the passenger information management subsystem 5, and compares the face information of the passenger, the identity information of the passenger and the boarding voucher information of the passenger with prestored data in the passenger information management subsystem 5 to verify, so that the aim of assistant verification of the testimony is fulfilled;

the passenger carry-on luggage automatic transmission subsystem 2 is used for conveying the luggage of the passenger, the passenger carry-on luggage automatic transmission subsystem 2 is used for identifying the RFID code and the two-dimensional code of the security check frame for containing the luggage of the passenger, binding the identified RFID code and the two-dimensional code information with the face information of the passenger, the identity information of the passenger and the boarding voucher information of the passenger, which are identified by the face identification verification subsystem 1, and sending the bound RFID code and the two-dimensional code, the face information of the passenger, the identity information of the passenger and the boarding voucher information of the passenger to the security check machine 3 carry-on luggage centralized judgment map checking subsystem 4;

the security check machine 3 is used for shooting the baggage on the passenger carry-on baggage automatic transmission subsystem 2 and sending the shot baggage image information to the security check machine 3 carry-on baggage centralized judgment map checking subsystem 4;

the security check machine 3 carries on the centralized judgment picture of the luggage and checks the subsystem 4 and receives RFID code and two-dimensional code information, passenger's face information and passenger's identity information after binding of the automatic transport subsystem 2 of the passenger's carry-on luggage, and with the baggage image information that the security check machine 3 sends, the security check machine 3 carries on the judgment to the baggage image information that the security check machine 3 sends with the centralized judgment picture of the luggage 4, and send the judgment result of the baggage image information and corresponding RFID code and two-dimensional code information, passenger's face information and passenger's identity information to the passenger information management subsystem 5; the security inspection machine 3 carries on luggage and concentrates and judges the picture inspection subsystem 4 through long-range and scene mixture and concentrate and judge the picture, can realize promoting personnel team and group utilization ratio, reduces personnel intensity of labour, reduces the personnel's of starting machine safety risk, stops the hazardous articles single-point and breaks through, promotes the start efficiency, reduces the apparent effect of personnel's use amount.

The passenger information management subsystem 5 is used for storing the face information of the passenger, the identity information of the passenger, the boarding voucher information of the passenger, the RFID code and two-dimensional code information of the security check frame for containing the passenger luggage, the luggage image information and the judgment result thereof.

The airport passenger security inspection system can also comprise a passenger carry-on luggage unpacking verification subsystem, which realizes automatic transmission of suspicious luggage, utilizes an RFID identification system to realize automatic calling of original X-RAY image data to assist analysis unpacking and can carry out professional operations such as marking, color inversion, deepening, amplification and the like on the original X-RAY image, can realize unpacking accuracy to the maximum extent and avoid missing and missing judgment.

Specifically, the airport passenger security inspection system also comprises a personal inspection module and a handheld inspection module;

the personal inspection module and the handheld inspection module inspect the personal articles of the passenger and send the inspection result to the passenger information management subsystem 5;

the personal check module comprises safety door personal check equipment, millimeter wave door personal check equipment and surface rechecking equipment, and the handheld check module comprises manual check personal check equipment and a millimeter wave workstation.

Specifically, the automatic passenger carry-on baggage conveying subsystem 2 comprises a front conveyor line section 9 and a rear conveyor line section 10, and the security inspection machine 3 is located at the joint of the front conveyor line section 9 and the rear conveyor line section 10.

Specifically, the face recognition and verification subsystem 1 comprises identity recognition equipment and boarding voucher recognition equipment, wherein the identity recognition equipment comprises a passenger face primary verification module, a passenger face recognition module positioned at the passenger carry-on luggage automatic transmission subsystem 2 and a passenger face secondary verification module positioned at a personal check module;

the passenger face primary verification module identifies the face of the passenger to obtain the face information of the passenger, and compares the face information of the passenger with the face information corresponding to the certificate information of the passenger pre-stored in the passenger information management subsystem 5 for verification;

the passenger face recognition module recognizes the face of the passenger to obtain the face information of the passenger, and compares the face information of the passenger with the face information corresponding to the certificate information of the passenger pre-stored in the passenger information management subsystem 5;

the passenger face secondary verification module identifies the face of the passenger to obtain the face information of the passenger, and compares the face information of the passenger with the face information corresponding to the certificate information of the passenger pre-stored in the passenger information management subsystem 5 for verification;

the boarding pass identification device identifies the boarding pass of the passenger, thereby obtaining boarding pass information of the passenger.

Specifically, the automatic passenger carry-on luggage conveying subsystem 2 further comprises an elastic passenger basket throwing position module, a security check frame RFID reading module and a pair of RFID and two-dimensional code reading modules 11, wherein the elastic passenger basket throwing position module and the security check frame RFID reading module are positioned at the front section 9 of the conveying line, and the pair of RFID and two-dimensional code reading modules 11 are respectively positioned at the front section 9 and the rear section 10 of the conveying line;

the elastic passenger basket throwing position module is used for throwing security check frames used for containing passenger luggage, the security check frame RFID reading module is used for reading RFID codes on each security check frame, the RFID and two-dimensional code reading module 11 is used for reading the RFID codes and the two-dimensional code information of the security check frames containing the passenger luggage, the RFID codes and the two-dimensional code information are bound with face information of passengers identified by the face identification verification subsystem 1, identity information of the passengers and boarding voucher information of the passengers, and therefore the RFID codes and the two-dimensional code information of the security check frames containing the passenger luggage are in one-to-one correspondence with the face information of the passengers identified by the face identification verification subsystem 1, the identity information of the passengers and the boarding voucher information of the passengers.

Specifically, the security check machine 3 comprises AT least one of an X-ray carry-on baggage inspection device, an AT carry-on baggage inspection device and a CT carry-on baggage inspection device, and the X-ray carry-on baggage inspection device, the AT carry-on baggage inspection device and the CT carry-on baggage inspection device detect the passenger baggage and transmit the detection data in the form of images to the security check machine 3 carry-on baggage centralized interpretation map inspection subsystem 4.

Specifically, the security check machine 3 carries on the baggage centralized image judgment checking subsystem 4 and includes the data buffer module, the image distribution module, the image judgment result interaction module, the emergency processing module and the centralized storage module, the data buffer module receives the baggage image information transmitted from the security check machine 3;

the data caching module receives and temporarily caches the baggage image information transmitted from the security inspection machine 3, the image distribution module acquires the baggage image information from the data caching module and displays the baggage image information on a plurality of displays, the graph judgment result interaction module exchanges data with a judgment result of the baggage image information, the emergency event processing module is used for responding to emergency situations occurring during graph judgment work, and the centralized storage module stores the baggage image information and the judgment result of the baggage image information in the data caching module.

Specifically, the airport passenger security inspection system further comprises a passenger flight data exchange subsystem 86 and a data exchange subsystem 8, wherein the passenger flight data exchange subsystem 86 is used for storing passenger taking flight number data, passenger flight taking time data, passenger booking ID data, passenger seat number data and passenger boarding sequence number data, and transmitting the passenger taking flight number data, the passenger flight taking time data, the passenger booking ID data, the passenger seat number data and the passenger boarding sequence number data to the passenger information management subsystem 5;

the data exchange subsystem 8 is used for exchanging the face information, the identity information and the boarding evidence information of the passengers in the face recognition and verification subsystem 1 with the RFID codes and the two-dimensional code information of the security check frame of the passenger baggage automatic transmission subsystem 2.

Specifically, the airport passenger security check system further comprises a background query service subsystem, wherein the background storage query service subsystem 7 acquires flight number data taken by a passenger, flight departure time data of the passenger, ticket booking ID data of the passenger, seat number data of the passenger, boarding sequence number data of the passenger, face information of the passenger, identity information of the passenger, boarding certificate information of the passenger, RFID code and two-dimensional code information of a security check frame for containing passenger luggage and judgment results of luggage image information in the passenger information management subsystem 5 and the passenger flight data exchange subsystem 86. The passenger flight data exchange subsystem 86 is composed of three parts, namely data synchronization, data interaction and data storage, can realize real-time synchronization, updating, deletion and storage of passenger flight data, can provide basic metadata for other systems and modules, can support big data query of time periods, flights, passengers and security inspection channels, can analyze and query required data in a very short time, and can issue reports, charts and the like.

In the working state of the invention, after a passenger enters an airport, the data exchange subsystem 8 is used for exchanging the prestored passenger flight data at the background, and acquiring the necessary information such as the identity ID, the number of the passenger flight, the flight departure time, the ticket booking ID, the seat number, the boarding sequence number and the like; the passenger uses the face recognition verification subsystem 1 to match the face information of the passenger with the identity card, passport, Gangao pass, Taiwan cell and other certificate information at the verification station; then, a retrieval background storage query service subsystem 7 is used for comparing information, and if the comparison and retrieval information meet the passing conditions, the passing passenger enters a security inspection region to be checked;

passengers queue and arrange the personal baggage at the position of the passenger personal baggage automatic transmission subsystem 2, place the personal baggage into a security check basket according to a mode conforming to the security check specification, and push the personal baggage into the passenger personal baggage automatic transmission subsystem 2;

after the passengers finish the baggage pushing, the passengers are queued in front of the automatic baggage transmission subsystem 2 and the security check machine 3 to wait for personal safety check, if the equipment reports the problem, the passengers also need to perform manual safety check through the unpacking processing module 12, after the check is passed, the passengers go to the safety baggage extraction area to extract the baggage or go to the unpacking processing area to perform unpacking check of the baggage, and take back the baggage or wait for secondary or multiple check of the baggage according to the situation, and after the check judges that the baggage is safe, the passengers go to the safety baggage extraction area to extract the baggage; wherein, the prohibited articles detected need to be processed according to the safety inspection regulation of the aviation luggage;

the carry-on luggage of the passenger is automatically transmitted and operated on the carry-on luggage automatic transmission subsystem 2 of the passenger, automatic identification is carried out through the built-in RFID and two-dimensional code codes of the security check basket, data binding is carried out through face identification of the passenger, and the security check basket can be correspondingly bound with face information, boarding information and identity information of the passenger. The passenger carry-on luggage automatic transmission subsystem 2 informs the security check machine 3 of the currently interpreted X-RAY image binding information of the security check machine 3 carry-on luggage centralized interpretation map checking subsystem 4 through the RFID and two-dimensional code information (mutual information verification) for identifying the security check basket at the entrance of the security check machine 3, the security check machine 3 carry-on luggage centralized interpretation map checking subsystem 4 binds the X-RAY original image and the interpretation result in the RFID label information, and generates unique retrieval data by combining the generated time and the node information of the passenger carry-on luggage automatic transmission subsystem 2, wherein the data comprises: RFID encoding; encoding the two-dimensional code; automatically transmitting a system number; X-RAY numbering; reading time points of the RFID and the two-dimensional code; an X-RAY image generation time point; X-RAY image ID, X-RAY image storage path, X-RAY image judging personnel information, passenger face identification data, passenger ID data and passenger boarding data. The data is integrated and stored as the passenger carry-on luggage pass check data and is stored in the background storage query service subsystem 7. If the passenger luggage is judged to be safe through the security check machine 3 carry-on luggage centralized judging map checking subsystem 4, the passenger luggage is released to a safe luggage extraction place through identifying the RFID and the two-dimensional code data of the security check basket at a luggage basket shunting point, if the security check machine 3 carries out the judgment of the security check basket on the basis of the RFID and the two-dimensional code data of the security check basket 4, the passenger luggage is subjected to unpacking processing, and whether the luggage is released or not is determined after unpacking verification;

at this point, the passenger finishes checking the personal baggage and the passenger can go to the boarding gate to board with the qualified personal baggage. If the passenger finds that the luggage is missing or missing, the passenger can go to a security check service, the background storage service inquiry subsystem is used for inquiring the security check full-range video and the X-RAY original data of the passenger, and after comparison, whether the missing or missing articles exist or whether the missing articles on site belong to the passenger himself or herself is confirmed.

Referring to fig. 3, a security inspection method for airport passengers includes:

acquiring passenger face information, passenger identity information and passenger boarding voucher information of passengers which are prestored at the background;

identifying face information of a passenger, identity information of the passenger and boarding voucher information of the passenger, and comparing the face information of the passenger, the identity information of the passenger and the boarding voucher information of the passenger which are prestored at the background;

the passenger luggage which is obtained by identification and is consistent with the comparison result of the passenger face information, the passenger identity information and the passenger boarding voucher information of the passenger, the passenger face information, the passenger identity information and the passenger boarding voucher information of the passenger which are prestored at the background is placed in a security check frame and then is conveyed, and the RFID code and the two-dimensional code of the security check frame for containing the passenger luggage are identified;

the personal check is carried out on the passengers with the comparison results of the face information, the identity information and the boarding voucher information of the passengers, which are obtained by identification, of the passengers, and the face information, the identity information and the boarding voucher information of the passengers, which are prestored at the background, of the passengers;

binding the RFID code and the two-dimensional code of the security check frame for containing the passenger luggage of the same passenger with the identified face information of the passenger, the identity information of the passenger and the boarding voucher information of the passenger;

shooting the luggage of the passenger in the conveying process through a security check machine;

judging the baggage image information shot by the security check machine, and binding and storing the judged result with the recognized face information of the passenger, the identity information of the passenger and the boarding voucher information of the passenger;

the baggage of the passenger whose judgment result is abnormal is checked for opening the bag.

Having described embodiments of the present invention, the foregoing description is intended to be exemplary, not exhaustive, and not limited to the embodiments disclosed. Many modifications and variations will be apparent to those of ordinary skill in the art without departing from the scope and spirit of the described embodiments.

Claims (10)

1. An airport passenger security system, comprising:

a face recognition verification subsystem, a carry-on baggage centralized image judgment checking subsystem, a passenger carry-on baggage automatic transmission subsystem, a security check machine and a passenger information management subsystem;

the face recognition verification subsystem recognizes the face information of the passenger, the identity information of the passenger and the boarding voucher information of the passenger, sends the recognized face information of the passenger, the identity information of the passenger and the boarding voucher information of the passenger to the passenger information management subsystem, and compares the face information of the passenger, the identity information of the passenger and the boarding voucher information of the passenger with prestored data in the passenger information management subsystem for verification;

the passenger carry-on luggage automatic transmission subsystem is used for conveying the luggage of the passenger, the passenger carry-on luggage automatic transmission subsystem is used for identifying the RFID code and the two-dimensional code of the security check frame for containing the luggage of the passenger, binding the identified RFID code and the two-dimensional code information with the face information of the passenger, the identity information of the passenger and the boarding evidence information of the passenger identified by the face identification verification subsystem, and sending the bound RFID code and the two-dimensional code, the face information of the passenger, the identity information of the passenger and the boarding evidence information of the passenger to the carry-on luggage centralized judgment map checking subsystem;

the security check machine is used for shooting the baggage on the passenger carry-on baggage automatic transmission subsystem and sending the shot baggage image information to the carry-on baggage centralized judging image checking subsystem;

the portable luggage centralized image judging and checking subsystem receives the bound RFID code and two-dimensional code information, the face information of the passenger and the identity information of the passenger of the automatic passenger luggage transmission subsystem, matches the information with the luggage image information sent by the security check machine, judges the luggage image information sent by the security check machine, and sends the judgment result of the luggage image information, the corresponding RFID code and two-dimensional code information, the face information of the passenger and the identity information of the passenger to the passenger information management subsystem;

the passenger information management subsystem is used for storing the face information of the passenger, the identity information of the passenger, the boarding voucher information of the passenger, the RFID code and two-dimensional code information of the security check frame for containing the passenger luggage, the luggage image information and the judgment result thereof.

2. The airport passenger security system of claim 1, further comprising a personal inspection module and a hand-held inspection module;

the personal checking module and the handheld checking module check the personal carried articles of the passenger and send the checking result to the passenger information management subsystem;

the personal check module comprises safety door personal check equipment, millimeter wave door personal check equipment and surface rechecking equipment, and the handheld check module comprises manual check personal check equipment and a millimeter wave workstation.

3. An airport passenger security system as claimed in claim 2 wherein said passenger carry-on baggage automated transport subsystem includes a conveyor line front section and a conveyor line rear section, said security check machine being located at the junction of said conveyor line front section and said conveyor line rear section.

4. The airport passenger security system of claim 2, wherein said face recognition verification subsystem comprises an identity recognition device and an airplane boarding voucher recognition device, said identity recognition device comprising a passenger face primary verification module, a passenger face recognition module located at the passenger carry-on baggage automatic transport subsystem and a passenger face secondary verification module located at the personal check module;

the passenger face primary verification module identifies the face of a passenger to obtain the face information of the passenger, and compares the face information of the passenger with the face information corresponding to the certificate information of the passenger prestored in the passenger information management subsystem for verification;

the passenger face recognition module is used for recognizing the face of a passenger to obtain the face information of the passenger and comparing the face information of the passenger with the face information corresponding to the certificate information of the passenger prestored in the passenger information management subsystem;

the passenger face secondary verification module identifies the face of a passenger to obtain the face information of the passenger, and compares the face information of the passenger with the face information corresponding to the certificate information of the passenger pre-stored in the passenger information management subsystem for verification;

the boarding pass identification device identifies a boarding pass of a traveler to obtain boarding pass information of the traveler.

5. The airport passenger security inspection system of claim 4, wherein said passenger carry-on baggage automated transport subsystem further comprises an elastic passenger drop-in position module, a pair of RFID and two-dimensional code reading modules, said elastic passenger drop-in position module and security inspection frame RFID reading module are located at the front section of said conveyor line, said pair of RFID and two-dimensional code reading modules are located at the front section of conveyor line and the rear section of conveyor line respectively;

the elastic passenger basket throwing position module is used for throwing a security check frame used for containing passenger luggage, the RFID and two-dimensional code reading module is used for reading RFID codes and two-dimensional code information of the security check frame used for containing the passenger luggage, and the RFID codes and the two-dimensional code information are bound with face information of passengers, identity information of the passengers and boarding voucher information of the passengers, wherein the face information of the passengers, the identity information of the passengers and the boarding voucher information of the passengers are identified by the face identification verification subsystem.

6. An airport passenger security system as claimed in claim 1,

the security check machine comprises AT least one of an X-ray carry-on baggage check device, an AT carry-on baggage check device and a CT carry-on baggage check device, the X-ray carry-on baggage check device, the AT carry-on baggage check device and the CT carry-on baggage check device detect passenger baggage and send detection data to the carry-on baggage centralized judgment image check subsystem in the form of images.

7. The airport passenger security inspection system of claim 1, wherein said carry-on baggage centralized interpretation subsystem comprises a data caching module, an image distribution module, an interpretation result interaction module, an emergency processing module and a centralized storage module, wherein said data caching module receives baggage image information transmitted from said security inspection machine;

the system comprises a data cache module, an image distribution module, an emergency event processing module and a centralized storage module, wherein the data cache module receives and temporarily caches baggage image information transmitted from a security check machine, the image distribution module acquires the baggage image information from the data cache module and displays the baggage image information on a plurality of displays, the graph judgment result interaction module performs data exchange on judgment results of the baggage image information, the emergency event processing module is used for responding to emergency situations occurring during graph judgment work, and the centralized storage module stores the baggage image information in the data cache module and judgment results of the baggage image information.

8. The airport passenger security inspection system of claim 1, further comprising a passenger flight data exchange subsystem for storing passenger flight number data, passenger flight departure time data, passenger ticket booking ID data, passenger seat number data, and passenger boarding sequence number data, and transmitting the passenger flight number data, passenger flight departure time data, passenger ticket booking ID data, passenger seat number data, and passenger boarding sequence number data to the passenger information management subsystem.

9. The airport passenger security inspection system of claim 1, further comprising a background query service subsystem, wherein the background storage query service subsystem acquires flight number data taken by a passenger, flight departure time data of the passenger, ticket booking ID data of the passenger, seat number data of the passenger, boarding sequence number data of the passenger, face information of the passenger, identity information of the passenger and boarding voucher information of the passenger, RFID code and two-dimensional code information of a security inspection box for containing passenger luggage, and judgment results of luggage image information in the passenger information management subsystem and the passenger flight data exchange subsystem.

10. An airport passenger security check method, comprising:

acquiring passenger face information, passenger identity information and passenger boarding voucher information of passengers which are prestored at the background;

identifying face information of a passenger, identity information of the passenger and boarding voucher information of the passenger, and comparing the face information of the passenger, the identity information of the passenger and the boarding voucher information of the passenger which are prestored at the background;

the passenger luggage which is obtained by identification and is consistent with the comparison result of the passenger face information, the passenger identity information and the passenger boarding voucher information of the passenger, the passenger face information, the passenger identity information and the passenger boarding voucher information of the passenger which are prestored at the background is placed in a security check frame and then is conveyed, and the RFID code and the two-dimensional code of the security check frame for containing the passenger luggage are identified;

the personal check is carried out on the passengers with the comparison results of the face information, the identity information and the boarding voucher information of the passengers, which are obtained by identification, of the passengers, and the face information, the identity information and the boarding voucher information of the passengers, which are prestored at the background, of the passengers;

binding the RFID code and the two-dimensional code of the security check frame for containing the passenger luggage of the same passenger with the identified face information of the passenger, the identity information of the passenger and the boarding voucher information of the passenger;

shooting the luggage of the passenger in the conveying process through a security check machine;

judging the baggage image information shot by the security check machine, and binding and storing the judged result with the recognized face information of the passenger, the identity information of the passenger and the boarding voucher information of the passenger;

the baggage of the passenger whose judgment result is abnormal is checked for opening the bag.

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