CN113763612A - Intelligent front-building explosion-proof three-dimensional security inspection method and system - Google Patents

Abstract

An explosion-proof three-dimensional security check system in front of intelligence building includes: the system comprises one or more parallel-deployed pre-building explosion-proof gate equipment, an automatic channeling guide device, personal intelligent checking equipment, luggage intelligent security inspection equipment and mobile handling equipment. Each pre-building explosion-proof gate device realizes the functions of identity information acquisition, explosive residual substance acquisition, face information acquisition, body temperature information acquisition, testimony verification, face library comparison, explosive detection and the like of a person to be detected. Automated channelized guide apparatus queues people passing through one or more pre-floor blast gate apparatuses deployed in parallel. The personal intelligent checking equipment is used for checking the personnel in the queue to detect the contraband hidden on the personnel. The intelligent luggage security inspection equipment is used for inspecting luggage carried by people in a queue so as to monitor contraband concealed in the luggage. The mobile disposal equipment is used for rapidly disposing suspicious people or contraband discovered in the intelligent inspection link of personnel and luggage of the anti-explosion security inspection in front of the building.

Description

Intelligent front-building explosion-proof three-dimensional security inspection method and system

Technical Field

The present disclosure relates to the field of security, and in particular to the field of pre-building explosion-proof security.

Background

From 2019, normalized explosion-proof detection work is continuously implemented in multi-ground airports in China, so that the active safety capability of the terminal building is improved, and safety guarantee is provided for passengers to travel by airplane.

The conventional explosion-proof detection work (namely the traditional explosion-proof safety check work in front of a building) generally comprises an explosion-proof detection guide post at an entrance of a terminal, an explosive detection (wiping) post, explosive trace detection equipment, a detection waiting area and an exit release control post. Wherein all the posts need to be completed manually.

In the whole flow of actual explosion-proof security inspection, the guide of explosion-proof detection guide post, will wait to examine personnel and guide to explosion-proof detection channel at random and detect, the security inspector who surveys (cleans) the post utilizes special test paper, article such as the case and bag luggage that get into this regional waiting to examine personnel take a sample, use explosive trace detection equipment to detect, wait to examine personnel after the detection and get into the result that waits for the explosive to detect in the detection waiting area, if the testing result is normal, then let pass by export control post personnel and leave, if detect unusually, then control suspect by security personnel, and follow-up processing is carried out. Through explosion-proof detection, can carry out effective screening to more than 40 explosive compositions. Normally, explosion-proof detection needs to wait for more than 2 minutes.

Fig. 1 shows an example configuration of a conventional building front explosion-proof detection area at an entrance of an airport terminal. In the example of fig. 1, the arrangement of "one machine 3 people" is performed in the front explosion-proof detection area at the entrance of the terminal building, and mainly includes 1 person each of an explosion-proof detection guide post, an explosive detection (wiping) post, and an exit clearance control post. In some cases, there may also be a "4-person-on-one" human configuration.

The prior explosion-proof detection system in front of the building has the following problems.

From the aspect of safety analysis, firstly, the traditional mode of explosion-proof detection on personnel is adopted for the explosion prevention in front of the building, and 100% of detection on the personnel cannot be realized. In fact, traditional explosion-proof before the building has only realized treating the explosive detection of examining personnel parcel, and to waiting to examine other contraband (like control cutter, flammable liquid, spraying agent, gun etc.) that carry in personnel's health, the clothing or the luggage, can't realize effectual detection. Thirdly, the identity of personnel entering the terminal building cannot be effectively examined and verified. Finally, the detected suspicious personnel cannot be effectively and quickly controlled, so that great potential safety hazards are caused to public safety of the airport terminal building area.

From the aspect of efficiency, firstly, the personnel for explosion-proof detection needs to wait for the result of explosion-proof detection in the explosion-proof waiting area in front of the building. Normally, the waiting time is about 2 minutes. This has a great influence on the efficiency of passage of personnel at the entrance of the terminal. Secondly, the mode of manual 'wiping' detection and equipment comparison of security check personnel is adopted for personnel explosion-proof detection, so that the efficiency of explosive detection link is not high.

From the analysis of cost aspect, in the whole process, the explosion-proof area (namely the entrance area of the terminal building) in front of the building is matched with personnel, 1: and 3, a standard matching mode is adopted, 1 to 2 security check personnel are added to help the evacuation of personnel if more queuing personnel exist, and the personnel cost and the operation cost are higher.

From examining the aspect analysis of examining the personnel experience, at first, because explosion-proof waiting area before the building, the time that the personnel of examining wait for the testing result is longer, leads to examining the personnel of examining to experience not good. Secondly, in order to realize trace detection of explosives, the luggage of the person to be detected needs to be wiped, and the luggage of the person to be detected is in close contact with the person to be detected, so that the trip experience of the person to be detected is influenced.

In view of the foregoing, there is a need for an improved method and system for front anti-explosion stereo security inspection.

Disclosure of Invention

The utility model aims at providing an explosion-proof three-dimensional security check solution in front of intelligence building, this scheme can realize 100% explosion-proof security check, reduce security check personnel and wait to examine personnel's contact, reduce wait time of waiting to examine personnel, retrench security check personnel and arrange, promote automatic security check level.

In order to achieve the above object, in a first aspect, the present disclosure provides an intelligent front-building explosion-proof stereo security inspection system, including:

one or more pre-floor explosion-proof gate apparatuses deployed in parallel, each pre-floor explosion-proof gate apparatus comprising:

an identity information collection device and an explosive residual material collection device disposed before the first gate, wherein the identity information collection device is configured to collect identity information of a person to be inspected through a document, and the explosive residual material collection device is configured to collect residual material on the document;

the human face information acquisition equipment and the body temperature acquisition equipment are arranged between the first gate and the second gate, wherein the human face information acquisition equipment is configured to acquire human face information of a person to be detected, and the body temperature acquisition equipment is configured to acquire body temperature information of the person to be detected; and

a processing device configured to: acquiring the identity information, the face information and the body temperature information; checking the personnel to be detected based on the identity information, the face information and the body temperature information, and judging whether the collected residual substances contain trace explosive residues or not;

an automatic channeling guide device arranged behind the second gate and configured to automatically guide the persons to be inspected passing through the pre-floor explosion-proof gate machine equipment to gather the persons to be inspected into a queue; and

and the personal intelligent inspection device is configured to carry out personal inspection on the person to be inspected in the queue so as to detect the contraband hidden on the person to be inspected.

In one embodiment, the intelligent pre-building explosion-proof stereoscopic security inspection system further comprises: the high-speed luggage X-ray intelligent security inspection device comprises a high-speed X-ray security inspection machine and an AI intelligent image judging device and is configured to automatically perform security inspection on luggage carried by a person to be inspected.

In one embodiment, the intelligent pre-building explosion-proof stereoscopic security inspection system further comprises: the mobile handling equipment is configured to receive information related to suspicious people or articles during personal inspection and luggage X-ray inspection in the pre-building explosion protection, and intercept the suspicious people or articles by controlling corresponding gates.

In one embodiment, the intelligent pre-building explosion-proof stereoscopic security inspection system further comprises: and the processing equipment interacts with the portrait big data system, binds the identity information and the face information and compares the identity information and the face information with corresponding information in the portrait big data system so as to verify whether the person to be detected is a suspicious person.

In one embodiment, the intelligent pre-building explosion-proof stereoscopic security inspection system further comprises: the system comprises an access switch, wherein the switch is configured to network each component of each pre-building explosion-proof gate device, the personal intelligent inspection device, the high-speed luggage X-ray intelligent security inspection device and the portrait big data system.

In one embodiment, the intelligent pre-building explosion-proof stereoscopic security inspection system further comprises: the system comprises a pre-building explosion-proof remote operation and maintenance system, wherein the pre-building explosion-proof remote operation and maintenance system interacts with each component of each pre-building explosion-proof gate device, the personal intelligent inspection device, the high-speed luggage X-ray intelligent security inspection device and the portrait big data system and is configured to build a remote operation and maintenance platform so as to realize real-time monitoring of the operation condition of corresponding devices, remote diagnosis of device faults and management of device information.

In one embodiment, the personal smart pinging device is deployed at a top location of a personal ping channel in a "figure of the drawings" layout.

In one embodiment, the personal smart pinging device comprises a terahertz imager personal smart pinging device and/or a smart metal door personal pinging device.

In a second aspect, the present disclosure provides an intelligent anti-explosion three-dimensional security inspection method in front of a building, including:

before the first gate, the first gate is opened,

acquiring identity information of a person to be detected through a certificate of the person to be detected, and acquiring residual substances on the certificate;

between the first gate and the second gate,

collecting face information and body temperature information of a person to be detected;

checking the personnel to be detected based on the identity information, the face information and the body temperature information, and judging whether the collected residual substances contain trace explosive residues or not;

automatically guiding the personnel to be detected passing through the second gate so as to combine the personnel to be detected into a queue; and

and checking the person to be detected in the queue for personal inspection so as to detect contraband hidden on the person to be detected.

In one embodiment, the intelligent pre-building explosion-proof stereo security inspection method further includes: the luggage carried by the person to be inspected is subjected to high-speed luggage X-ray intelligent security inspection.

In one embodiment, the intelligent pre-building explosion-proof stereo security inspection method further includes: the method comprises the steps of receiving information related to suspicious people or articles in the processes of personnel inspection and baggage inspection in the process of the pre-building explosion protection by utilizing a mobile device, and intercepting the suspicious people or articles by controlling corresponding gates.

In one embodiment, the intelligent pre-building explosion-proof stereo security inspection method further includes: and verifying whether the person to be detected is a suspicious person or not by binding the identity information and the face information and comparing the identity information with corresponding information in a portrait big data system.

In one embodiment, the intelligent pre-building explosion-proof stereo security inspection method further includes: and (4) building a remote operation and maintenance platform to realize real-time monitoring of the operation condition of corresponding equipment, remote diagnosis of equipment faults and management of equipment information.

In one embodiment, the personal inspection of the person to be inspected in the queue is performed at a top position of the personal inspection lane in a "how" layout.

In one embodiment, the person inspection of the person to be inspected in the queue is realized through a terahertz imager person intelligent inspection device and/or an intelligent metal door person inspection device.

In a third aspect, there is provided a computer-implemented apparatus, the apparatus comprising: a processor; and a memory for storing computer readable instructions which, when executed by the processor, cause the processor to perform the method of the second aspect.

Drawings

The above and other aspects, features and advantages of particular embodiments of the present disclosure will become more apparent from the following description taken in conjunction with the accompanying drawings, in which:

FIG. 1 illustrates an example configuration of a conventional pre-building explosion-proof detection area at an airport terminal entrance;

FIG. 2 shows a schematic diagram of an intelligent pre-building explosion-proof security check solution in accordance with an embodiment of the present disclosure;

FIG. 3 illustrates a block diagram of an intelligent pre-building explosion-proof security check system according to an embodiment of the present disclosure;

FIG. 4 illustrates a block diagram of an example pre-building explosion-proof gate apparatus, according to an embodiment of the present disclosure;

FIG. 5 shows a schematic diagram of some alternative device combination configurations in accordance with embodiments of the present disclosure;

FIG. 6 shows a flow chart of an intelligent pre-building explosion-proof security check method according to an embodiment of the disclosure;

FIG. 7 shows a schematic diagram of a human verification process, according to an embodiment of the present disclosure;

FIG. 8 illustrates a schematic diagram of a personal verification process in accordance with an embodiment of the disclosure;

FIG. 9 shows a schematic diagram of a high speed baggage X-ray intelligent security check process according to an embodiment of the present disclosure; and

fig. 10 shows a front explosion proof overall solution panorama for the same-square-view civil aviation airport designed in accordance with the concepts of the present disclosure.

Detailed Description

Specific embodiments of the present invention will be described in detail below, and it should be noted that the embodiments described herein are only for illustration and are not intended to limit the present invention. In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present invention. However, it will be apparent to one of ordinary skill in the art that: it is not necessary to employ these specific details to practice the present invention. In other instances, well-known circuits, materials, or methods have not been described in detail in order to avoid obscuring the present invention.

Throughout the specification, reference to "one embodiment," "an embodiment," "one example," or "an example" means: the particular features, structures, or characteristics described in connection with the embodiment or example are included in at least one embodiment of the present disclosure. Thus, the appearances of the phrases "in one embodiment," "in an embodiment," "one example" or "an example" in various places throughout this specification are not necessarily all referring to the same embodiment or example. Furthermore, the particular features, structures, or characteristics may be combined in any suitable combination and/or sub-combination in one or more embodiments or examples. Further, those of ordinary skill in the art will appreciate that the drawings provided herein are for illustrative purposes and are not necessarily drawn to scale. As used herein, the term "and/or" includes any and all combinations of one or more of the associated listed items.

The utility model aims at providing an explosion-proof three-dimensional security check solution in front of intelligence building, this solution can effectively solve personnel information, personal security check, luggage security check and the security check management in some public explosion-proof areas (for example, explosion-proof area in front of civil aviation airport building) and so on the aspect problem, under the prerequisite of guaranteeing these public area safety, the relation of better balanced safety and efficiency further promotes user's security check service level. This is disclosed through carding and improving each link flow of explosion-proof before building, optimizes personnel's configuration, integrates explosion-proof safety inspection equipment cluster before the building intelligence and explosion-proof management system before the intelligent building, has formed the whole solution of explosion-proof three-dimensional safety inspection before one set of intelligent building, realizes the dynamic early warning of key region, promotes the station building initiative safety ability, takes advantage of the machine for the personnel to go on a journey, builds first "security close".

Fig. 2 illustrates an intelligent pre-building explosion-proof security check solution according to an embodiment of the present disclosure. The solution mainly comprises the following parts:

1. identity information collection and explosive residue collection

In this section, the personnel to be examined are identity gathered and explosive residual material is gathered using a pre-building explosion-proof gate system. Specifically, at first gate department, the person of awaiting measuring inserts the identity document, and the system reads the document information, gathers the residual material on the document simultaneously. After information reading succeeds, the first gate is opened, the person to be detected enters the gate passage, and the first gate is closed immediately.

2. Human authentication and detection of explosives

Between the first gate and the second gate, the system collects the face photos of the person to be detected in real time. After the system binds the identity information of the person to be detected and the face photo, the identity information is transmitted to a related system (such as a public security system and an airport system) so as to be compared with the information in a related database. The system compares the certificate photo and the face photo of the person to be detected, detects the temperature of the person, and detects whether the collected residual substance contains trace explosive residues. When public security and airport database compare, gate machine system testimony of a witness compares, explosive detects and human body temperature detects all passes through, then open the second gate, wait to examine personnel and normally let pass, if detect not pass through completely, then will wait to examine personnel control in the gate machine to the suggestion removes security check personnel and deals with.

3. Flow channeling guide

After passing through the pre-building explosion-proof gate system, the personnel to be detected are automatically channeled by the isolation pull belts or the baffle plates, and the multi-channel personnel to be detected are orderly gathered into a team and sequentially enter a personnel inspection channel (namely a personnel inspection area).

4. Human intelligent inspection

The human body inspection channel of the person to be inspected is in a 'n' -shaped layout, human body intelligent inspection equipment is arranged at the top of the human body inspection channel, and the person to be inspected sequentially passes through the inspection equipment to inspect the human body. The personal intelligence check out test set can carry out diversified scanning to the human body, and the personnel of waiting to examine simultaneously normally pass, and whole journey need not to stop. Meanwhile, the scanning imaging picture of the person to be detected can be associated with the picture of the person to be detected. And (4) automatically identifying and alarming suspected articles carried by the person to be detected, sending related information to a mobile security inspection disposal workstation, and prompting a security inspector to intercept and inspect.

5. Luggage X-ray high-speed intelligent inspection

The person to be inspected sequentially puts the luggage into a high-speed (for example, belt speed of 0.3 m/s) X-ray security inspection machine, and automatically interprets the X-ray image of the luggage through an AI intelligent inspection device. Meanwhile, the system collects the luggage appearance photos and automatically associates the luggage appearance photos with the luggage X-ray images and the intelligent image judgment conclusion. The system automatically identifies the suspected articles in the luggage, automatically identifies the suspected articles, carries out alarm prompt, sends the relevant interpretation information to the security mobile disposal workstation and prompts a security inspector to intercept and check.

6. Anti-explosion mobile treatment before exit building

A security personnel is arranged at an exit of the anti-explosion security inspection area in front of the building for guarding and is provided with a mobile tablet personal computer. When discovering explosion-proof floodgate machine early warning, the security personnel can hold back personnel to explosion-proof floodgate machine and handle, can treat the self-service safety inspection of examining personnel and guide, are responsible for work such as on-the-spot order maintenance simultaneously, and an entry region area can be managed to a security personnel. Meanwhile, the alarm information of suspicious carry-on luggage and prohibited articles hidden by people can be received in real time, security personnel are assisted to intercept and check suspicious personnel and articles, check results are recorded, and related information is uploaded to a system platform to be stored; when the system checks and alarms the person or the luggage of the person to be inspected, all the entrance gate machines are controlled to be closed in a linkage mode, so that the person to be inspected can be prevented from entering.

Fig. 3 illustrates an intelligent pre-building explosion-proof security check system 300 according to an embodiment of the disclosure. The intelligent pre-building explosion-proof security inspection system 300 can implement the solution shown in fig. 2.

As shown in fig. 3, the intelligent pre-floor explosion-proof security system 300 may include one or more pre-floor explosion-proof gate devices 302 deployed in parallel. Each pre-building explosion-proof gate device 302 completes the functions of personnel face identification, ticket identification, testimony comparison, human body temperature measurement, explosive detection and the like.

Fig. 4 illustrates example components of a pre-floor explosion-proof gate apparatus 302, according to an embodiment of the disclosure. As shown in fig. 4, the pre-building explosion-proof gate apparatus 302 may include: an identity information collecting device 402 and an explosive residual material collecting device 404 disposed before the first gate. The identity information collecting device 402 is used to collect identity information of a person to be examined through a certificate. The explosives residual material capture device 404 can be used to capture residual material on a document, for example, on a document when a person under inspection inserts his or her document. The pre-building explosion-proof gate device 302 may further include a face information acquisition device 406 and a body temperature acquisition device 408 disposed between the first gate and the second gate. The face information acquisition device 406 may be used to acquire face information of a person to be examined. The body temperature acquisition device 408 may be used to acquire body temperature information of the person to be examined. The pre-building explosion-proof gate device 302 can further include a processing device 410 for implementing "person verification" based on the identity information and face information of the person to be checked, and determining whether the person to be checked is a suspicious person; and judging whether the collected residual substances contain trace explosive substances. For example, in one embodiment, the processing device 410 may bind and transmit the identity information and facial photos of the suspect to the police system and airport system for comparison with information in the databases of the relevant systems to determine if the suspect is a suspect (e.g., a wanted person in the police system). The processing device 410 may be deployed in any suitable location.

The intelligent pre-building explosion-proof security inspection system 300 may include an automatic channelized guide apparatus 304. The automated channeling apparatus 304 is disposed behind the second gate for automated channeling of personnel through the pre-floor blast gate apparatus to group personnel from one or more pre-floor blast gate apparatuses deployed in parallel into a queue. For example, in one embodiment, the guide robot 304 may include a release pull tape or baffle.

Intelligent pre-building explosion-proof security inspection system 300 may include personal intelligent verification device 306. The personal intelligent inspection device 306 is used for performing personal inspection on a team of people to complete automatic detection (ATR intelligent recognition) of suspected substances which may be hidden under clothes of the people to be inspected and on the body surface of the human body. Examples of suspicions include, but are not limited to: metal/non-metal weapons, metal/ceramic cutters, hazardous liquids, explosives, gels, drug powders, and the like. In the whole human body checking and imaging process, the personnel can complete all-around safety inspection under the state of natural walking without stopping.

In one embodiment, smart pinging device 306 may be a terahertz imager smart pinging device or a smart metal door ping device.

Additionally or alternatively, the intelligent pre-building explosion-proof security inspection system 300 may include a high-speed baggage X-ray intelligent security inspection device 308 for performing an automatic security inspection of baggage carried by the person to be inspected. By using the high-speed luggage X-ray intelligent security inspection equipment 308, various contraband articles such as suspicious liquid, flammable and explosive articles, various knives, guns, lighters, sprays, explosive articles and the like can be rapidly and automatically identified from the complex luggage X-ray image, and the positions and the types of the contraband articles are automatically marked, so that the intelligent inspection of the luggage of people is realized. In one embodiment, the automatic security inspection of the luggage can be realized by a high-speed X-ray security inspection machine and an AI intelligent image judging device which are independently developed by the same way.

Additionally or alternatively, the intelligent pre-building explosion-proof security system 300 may include mobile disposal devices (not shown in fig. 3). The mobile disposal equipment is operated by security check personnel and is used for receiving and intercepting suspicious information of people and objects in the processes of personal check and luggage X-ray check in the explosion protection in front of the building. The mobile disposal equipment can be deployed at any suitable position, so that the working area of security check personnel is not limited by the position, the checking work is more flexible, the response is faster, the disposal is faster, and various functions of people and object interception checking, personnel interception and disposal by an explosion-proof gate, self-service security check guidance of personnel, queue order maintenance and the like are integrated. By moving the disposal device, one security inspector can manage one passage (entrance area), thereby saving labor cost.

Additionally or alternatively, the intelligent pre-building explosion-proof security system 300 may include a portrait big data system (not shown in fig. 3). The portrait big data system is combined with a building front explosion-proof gate device at an entrance of an airport terminal, can collect portrait data information, and realizes functions of portrait comparison analysis, structured personnel file information management, historical security inspection data mining, personnel portrait analysis, safety risk assessment and the like. Meanwhile, the system has data interaction capacity, and can provide portrait data support for airport related information systems such as integrity security check, face clearance check, differential security check and the like.

Additionally or alternatively, the intelligent pre-building explosion-proof security system 300 may include a pre-building explosion-proof information management system (not shown in fig. 3). The pre-building explosion-proof information management system is based on the existing security check network environment of the station building, only necessary access switches are added, the explosion-proof gate machines, the X-ray security check machines, the human body intelligent checking equipment and the checking work stations at the entrance of each station building are subjected to area networking, the pre-building explosion-proof security check information is subjected to centralized collection and unified storage, and the functions of centralized management, statistical query, data interaction and the like of the pre-building explosion-proof security check information are completed.

Additionally or alternatively, the intelligent pre-building explosion-proof security check system 300 may include a pre-building explosion-proof remote operation and maintenance system (not shown in fig. 3). The anti-explosion remote operation and maintenance system in front of the building is integrated with various safety check anti-explosion devices, a remote operation and maintenance platform is built, operation data of the anti-explosion safety check anti-explosion devices in front of the building are collected, and functions of real-time monitoring of operation conditions of the anti-explosion devices in front of the building, remote diagnosis of equipment faults, equipment information management and the like are achieved.

In some embodiments, different equipment combination configuration schemes may be selected according to the budget scale of the explosion-proof area, the field situation, the business requirements, and the like. In addition, different equipment combination configuration schemes can be selected according to the user requirements or the difference of security level. Some alternative device combination configurations are shown in fig. 5. As shown in the figure, a combination mode (optional configuration-2) of an explosion-proof gate machine and a terahertz imager can be independently adopted, and a combination mode of the explosion-proof gate machine and an intelligent metal door (optional configuration 3) or the explosion-proof gate machine and the intelligent metal door and an X-ray inspection device (optional configuration-1) can also be adopted. In addition to this, an explosion-proof gate alone may be used, or a mode of a verification gate + an explosive detector may be used (optional configuration 4).

Fig. 6 shows a flowchart of an intelligent pre-building explosion-proof stereo security inspection method 600 according to an embodiment of the present disclosure. The method 600 may include: prior to the first gate, identity information of the person under examination is collected through the document and residual material on the document is collected (step 602). The method 600 may further include, between the first gate and the second gate, acquiring face information and body temperature information of the person to be inspected, checking the person to be inspected based on the identity information, the face information and the body temperature information, and determining whether the acquired residual substance contains trace explosive residues (step 604). Fig. 7 shows a schematic illustration of a process for verifying a person to be examined on the basis of the acquired information.

The method 600 may further include automatically channeling the personnel through the second gate to group the personnel into a queue (step 606); and physically examining the people in the queue to detect contraband concealed on the people (step 608).

In one embodiment, the personal inspections of the persons in the queue may be performed at a top location of a personal inspection lane in a "how-word" layout. In one embodiment, personal inspection of the persons in the queue may be achieved through a terahertz imager personal intelligent inspection device and/or an intelligent metal door personal inspection device.

Figure 8 shows a schematic diagram of a personal smart ping process. Through this personal intelligence inspection process, can accomplish the automated inspection (ATR intelligent recognition) to the suspect that probably hides under the personnel's of examining clothing and human body surface. Examples of suspicions include, but are not limited to: metal/non-metal weapons, metal/ceramic cutters, hazardous liquids, explosives, gels, drug powders, and the like. In the whole human body checking and imaging process, the personnel can complete all-around safety inspection under the state of natural walking without stopping.

Additionally or alternatively, method 600 may also include performing high-speed baggage X-ray intelligent security checks on baggage carried by personnel checked by the person (610). Fig. 9 shows a schematic diagram of a high-speed baggage X-ray intelligent security process. Through the intelligent security inspection process of high-speed luggage X-ray, various contraband articles such as suspicious liquid, flammable and explosive articles, various knives, guns, lighters, sprays, explosive articles and the like can be rapidly and automatically identified from the complex luggage X-ray image, and the positions and the types of the contraband articles are automatically marked, so that the intelligent inspection of the luggage of people is realized. In one embodiment, the automatic security inspection of the luggage can be realized by a high-speed X-ray security inspection machine and an AI intelligent image judging device which are independently developed by the same way.

Additionally or alternatively, the method 600 may further include receiving information related to suspicious people or items occurring during personnel and baggage inspections in the pre-building explosion protection using a mobile device and intercepting the suspicious people or items by controlling corresponding gates.

Additionally or alternatively, the method 700 may further comprise verifying whether the person to be inspected is a suspicious person by comparing the identity information and the face information with corresponding information in a portrait big data system. The portrait big data system is combined with a building front explosion-proof gate device at an entrance of an airport terminal, can collect portrait data information, and realizes functions of portrait comparison analysis, structured personnel file information management, historical security inspection data mining, personnel portrait analysis, safety risk assessment and the like. Meanwhile, the system has data interaction capacity, and can provide portrait data support for airport related information systems such as integrity security check, face clearance check, differential security check and the like.

Additionally or alternatively, the method 700 may further include, further comprising: and (4) building a remote operation and maintenance platform to realize real-time monitoring of the operation condition of corresponding equipment, remote diagnosis of equipment faults and management of equipment information.

Fig. 10 shows a front explosion proof overall solution panorama for the same-square-view civil aviation airport deployed in accordance with the concepts of the present disclosure. The panoramic view shows the deployment of the security check devices, the cluster of security check devices used, and the pre-building explosion-proof management system. As can be seen from the panoramic view in fig. 10, compared to the conventional pre-building explosion-proof security check solution, the present disclosure can achieve the following beneficial effects:

1. the active safety capability of the terminal building is improved: the method realizes 100% personnel information inspection, 100% personnel explosive detection, 100% personnel and luggage security inspection and 100% personnel body temperature screening, and builds a first safety barrier for the personnel traveling by the plane.

2. Promote personnel's trip safety inspection service experience: explosion-proof full flow personnel accomplish by oneself, easy and simple to handle before the building, and whole journey need not to be detained and waits, follow-up along with examining, and the security installations personnel do not carry out the health with personnel and contact simultaneously, avoid the inconvenience that brings in the trip for personnel.

3. Reduce explosion-proof safety inspection human cost before the building: the whole process adopts a self-service security check mode, and the traditional post personnel for detection of the anti-explosion test paper in front of the building, release control, area guidance and the like are simplified. Meanwhile, the intelligent inspection is taken as a main means, so that the working strength of security personnel is obviously reduced. By adopting a mobile disposal mode, one security personnel can finish the security inspection work of personnel interception, area guidance, rechecking disposal and the like in the entrance area of one station building, thereby realizing one person for multiple purposes.

4. The explosion-proof scientific and technological management level in front of the airport building is improved: the double-network double-platform mode is adopted, the face data acquisition, storage and comparison management are realized by constructing a face big data system, and portrait data support is provided for airport informatization systems such as 'one face clearance', 'honest security' and the like. The management of acquisition, storage, inquiry and the like of the explosion-proof information in front of the building is realized by constructing the explosion-proof safety inspection information management system in front of the building, and the personnel safety inspection file is established to realize the credit rating management of the personnel safety inspection. By constructing the operation and maintenance system of the pre-building explosion-proof equipment, the operation state of the pre-building explosion-proof equipment is remotely and intensively monitored, equipment fault early warning and online diagnosis are realized, and the difficulty of operation and maintenance management in the operation of the system is reduced.

The foregoing detailed description has set forth numerous embodiments via the use of schematics, flowcharts, and/or examples. Where such diagrams, flowcharts, and/or examples contain one or more functions and/or operations, it will be understood by those within the art that each function and/or operation within such diagrams, flowcharts, or examples can be implemented, individually and/or collectively, by a wide range of structures, hardware, software, firmware, or virtually any combination thereof. In one embodiment, portions of the subject matter described in embodiments of the present disclosure may be implemented by Application Specific Integrated Circuits (ASICs), Field Programmable Gate Arrays (FPGAs), Digital Signal Processors (DSPs), and the like. However, those skilled in the art will recognize that some aspects of the embodiments disclosed herein, in whole or in part, can be equivalently implemented in integrated circuits, as one or more computer programs running on one or more computers (e.g., as one or more programs running on one or more computer systems), as one or more programs running on one or more processors (e.g., as one or more programs running on one or more microprocessors), as firmware, or as virtually any combination thereof, and that designing the circuitry and/or writing the code for the software and or firmware would be well within the skill of one of skill in the art in light of this disclosure. In addition, those skilled in the art will appreciate that the mechanisms of the subject matter described herein are capable of being distributed as a program product in a variety of forms, and that an illustrative embodiment of the subject matter described herein applies regardless of the particular type of signal bearing media used to actually carry out the distribution. Examples of signal bearing media include, but are not limited to: recordable type media such as floppy disks, hard disk drives, Compact Disks (CDs), Digital Versatile Disks (DVDs), digital tape, computer memory, etc.; and a transmission type medium such as a digital and/or an analog communication medium (e.g., a fiber optic cable, a waveguide, a wired communications link, a wireless communication link, etc.).

While the present disclosure has been described with reference to several exemplary embodiments, it is understood that the terminology used is intended to be in the nature of words of description and illustration, rather than of limitation. As the present disclosure may be embodied in several forms without departing from the spirit or essential characteristics thereof, it should also be understood that the above-described embodiments are not limited by any of the details of the foregoing description, but rather should be construed broadly within its spirit and scope as defined in the appended claims, and therefore all changes and modifications that fall within the meets and bounds of the claims, or equivalences of such meets and bounds are therefore intended to be embraced by the appended claims.

Claims (16)

1. An explosion-proof three-dimensional security check system in front of intelligence building includes:

one or more pre-floor explosion-proof gate apparatuses deployed in parallel, each pre-floor explosion-proof gate apparatus comprising:

an identity information collection device and an explosive residual material collection device disposed before the first gate, wherein the identity information collection device is configured to collect identity information of a person to be inspected through a document, and the explosive residual material collection device is configured to collect residual material on the document;

the human face information acquisition equipment and the body temperature acquisition equipment are arranged between the first gate and the second gate, wherein the human face information acquisition equipment is configured to acquire human face information of a person to be detected, and the body temperature acquisition equipment is configured to acquire body temperature information of the person to be detected; and

a processing device configured to: acquiring the identity information, the face information and the body temperature information; checking the personnel to be detected based on the identity information, the face information and the body temperature information, and judging whether the collected residual substances contain trace explosive residues or not;

an automatic channeling guide device arranged behind the second gate and configured to automatically guide the persons to be inspected passing through the pre-floor explosion-proof gate machine equipment to gather the persons to be inspected into a queue; and

and the personal intelligent inspection device is configured to carry out personal inspection on the person to be inspected in the queue so as to detect the contraband hidden on the person to be inspected.

2. The intelligent pre-building explosion-proof stereoscopic security inspection system of claim 1, further comprising:

the high-speed luggage X-ray intelligent security inspection equipment comprises a high-speed X-ray security inspection machine and an AI intelligent image judging device and is configured to carry out intelligent security inspection on luggage carried by a person to be inspected.

3. The intelligent pre-building explosion-proof stereoscopic security inspection system of claim 2, further comprising:

the mobile handling equipment is configured to receive information related to suspicious people or articles during personal inspection and luggage X-ray inspection in the pre-building explosion protection, and intercept the suspicious people or articles by controlling corresponding gates.

4. The intelligent pre-building explosion-proof stereoscopic security inspection system of claim 3, further comprising: and the processing equipment interacts with the portrait big data system, binds the identity information and the face information and compares the identity information and the face information with corresponding information in the portrait big data system so as to verify whether the person to be detected is a suspicious person.

5. The intelligent pre-building explosion-proof stereoscopic security inspection system of claim 4, further comprising:

the system comprises an access switch, wherein the switch is configured to network each component of each pre-building explosion-proof gate device, the personal intelligent inspection device, the high-speed luggage X-ray intelligent security inspection device and the portrait big data system.

6. The intelligent pre-building explosion-proof stereoscopic security inspection system of claim 5, further comprising: the system comprises a pre-building explosion-proof remote operation and maintenance system, wherein the pre-building explosion-proof remote operation and maintenance system interacts with each component of each pre-building explosion-proof gate device, the personal intelligent inspection device, the high-speed luggage X-ray intelligent security inspection device and the portrait big data system and is configured to build a remote operation and maintenance platform so as to realize real-time monitoring of the operation condition of corresponding devices, remote diagnosis of device faults and management of device information.

7. An intelligent pre-building explosion-proof stereo security inspection system according to any one of claims 1 to 6, wherein the personal intelligent inspection device is deployed at the top position of a personal inspection channel in a zigzag layout.

8. An intelligent pre-building explosion-proof stereoscopic security inspection system according to any one of claims 1-6, wherein the personal intelligent pinging device comprises a terahertz imager personal intelligent pinging device and/or an intelligent metal door personal pinging device.

9. An intelligent front-building explosion-proof three-dimensional security inspection method comprises the following steps:

before the first gate, the first gate is opened,

acquiring identity information of a person to be detected through a certificate of the person to be detected, and acquiring residual substances on the certificate; between the first gate and the second gate,

collecting face information and body temperature information of a person to be detected;

checking the personnel to be detected based on the identity information, the face information and the body temperature information, and judging whether the collected residual substances contain trace explosive residues or not;

automatically guiding the personnel to be detected passing through the second gate so as to combine the personnel to be detected into a queue; and

and checking the person to be detected in the queue for personal inspection so as to detect contraband hidden on the person to be detected.

10. The intelligent pre-building explosion-proof stereoscopic security inspection method according to claim 9, further comprising:

the luggage carried by the person to be inspected is subjected to high-speed luggage X-ray intelligent security inspection.

11. The intelligent pre-building explosion-proof stereoscopic security inspection method according to claim 10, further comprising:

the method comprises the steps of receiving information related to suspicious people or articles in the processes of personnel inspection and baggage inspection in the process of the pre-building explosion protection by utilizing a mobile device, and intercepting the suspicious people or articles by controlling corresponding gates.

12. The intelligent pre-building explosion-proof stereoscopic security inspection method according to claim 11, further comprising: and verifying whether the person to be detected is a suspicious person or not by binding the identity information and the face information and comparing the identity information with corresponding information in a portrait big data system.

13. The intelligent pre-building explosion-proof stereoscopic security inspection method according to claim 12, further comprising:

and (4) building a remote operation and maintenance platform to realize real-time monitoring of the operation condition of corresponding equipment, remote diagnosis of equipment faults and management of equipment information.

14. The intelligent pre-building explosion-proof three-dimensional security inspection method according to any one of claims 9 to 13, wherein the personal inspection of the person to be inspected in the queue is performed at the top position of the person inspection channel in a layout of a shape like a Chinese character 'ji'.

15. An intelligent pre-building explosion-proof stereo security inspection method according to any one of claims 9-13, wherein the personal inspection of the person to be inspected in the queue is realized by a terahertz imager personal intelligent inspection device and/or an intelligent metal door personal inspection device.

16. A computer-implemented device, the device comprising:

a processor; and

a memory for storing computer readable instructions that, when executed by the processor, cause the processor to perform the method of any of claims 9-15.

Images