CN211263806U - Automatic matching remote centralized interpretation system for intelligent passage of travel inspection - Google Patents

Abstract

The utility model discloses an automatic long-range centralized interpretation system that matches of intelligent passageway is examined in journey, the system including the automatic long-range centralized interpretation system AMRSS of matching that links together and automatic basket system ABRS that returns. The automatic rechecking of the suspicious luggage is realized, and the labor intensity of a security inspector is reduced. By designing the proportion, setting of a plurality of basket taking tables, interpretation of a plurality of operators and reinspection of a plurality of packing operators, the security inspection efficiency is improved. Can predict passenger number and passenger latency, reduce passenger latency, through the automatic matching of journey inspection centralized interpretation system and the mutually supporting of automatic transmission branch system, the people package that has accomplished the journey inspection passageway corresponds, centralized interpretation, the work that luggage letter sorting and tray were retrieved, has improved the passenger's of journey inspection passageway through the rate, has realized the people package and has corresponded the management, has reduced security inspector intensity of labour.

Description

Automatic matching remote centralized interpretation system for intelligent passage of travel inspection

Technical Field

The utility model belongs to the technical field of the safety inspection, especially, relate to an automatic long-range centralized interpretation system that matches of intelligent passageway is examined in journey.

Background

At present, three pain points in the security inspection industry need to be solved urgently: how to improve the security check effect, how to improve the security check efficiency, and how to reduce the labor intensity. The safety check of the hand-held luggage of the passenger is the bottleneck of the safety check efficiency of the airport, and the passenger passing rate of each passenger check passage per hour is about 150 at present. The labor intensity of security personnel in the passenger inspection passage is the greatest, luggage needs to be placed in a targeted mode, images need to be distinguished carefully, and trays need to be recovered manually; these all affect security efficiency. On the other hand, accurately identifying contraband in the luggage image, especially accurately identifying contraband in the complex luggage image, is always the most important and difficult challenge for airport security inspection personnel. The application number is 2017207467235's patent application discloses a luggage security check system with reinspection device, and its technical scheme main points are including the security check machine, the entry of security check machine be equipped with to the conveyer of security check machine transmission, the exit linkage of security check machine has the sorting device that the screening shifts article, sorting device with be equipped with the reinspection device between the conveyer, the reinspection device includes the inspection desk, sets up in first conveying roller set and the second conveying roller set that inspection desk both ends and direction of transfer are opposite, and first conveying roller set is connected with sorting device, and the second conveying roller set is connected with conveyer.

The patent application with the application number of 2017111908428 discloses a conveying device for a luggage basket and a luggage security check system, wherein the conveying device for the luggage basket comprises a rack, a conveying mechanism and a basket clamping mechanism, the basket clamping mechanism is arranged at the upper part of the rack, and the basket clamping mechanism can retract into the side wall of the rack or extend out of the side wall of the rack so as to loosen the luggage basket or clamp the luggage basket; the conveying mechanism is arranged at the lower part of the rack and is provided with a bearing surface for bearing the luggage basket; the lifting mechanism is arranged below the basket clamping mechanism, can ascend to the lower part of the basket clamping mechanism to convey the luggage basket between the basket clamping mechanism and the conveying mechanism, and is provided with a supporting plate. In summary, because the content of the luggage is relatively complex, the number and the types of articles in the luggage are various, and the prohibited articles are easy to form a complex shielding relation with other articles; secondly, because the postures in the luggage are not controllable, the image characteristics of the same contraband after being imaged are often very different; finally, in the peak time of passenger transport, the time for the security inspector to judge the image is limited, and the image needs to be judged in a very short time. Therefore, the efficiency and accuracy of manually interpreting contraband in the luggage image by a security inspector are difficult to guarantee.

The traditional technical scheme has the following defects:

1. the safe luggage and the suspicious luggage can not be automatically sorted, the safe luggage and the suspicious luggage need to be distinguished through manual sites, the sites are disordered, once a security checker fails, passengers can take the suspicious luggage away, and in addition, the labor intensity of carrying back the suspicious luggage by personnel is high due to the fact that the empty frames on the sites are needed.

2. The security inspection is carried out on site for interpretation, the interpretation quality of a security inspector is easily interfered by site chaos, the image is displayed in a rolling mode in the site for interpretation, and the difficulty of identifying the image in motion is increased. On-site interpretation requires that each security inspection device is equipped with a security inspector for interpretation, and even if no passenger time exists, the security inspector can not leave the security inspection site, so that personnel waste is caused.

3. The accurate matching of people and images cannot be realized, the luggage image of a certain passenger needs to be subjected to time fuzzy query in the later stage, manual matching is carried out through manual query, and time and labor are wasted.

4. After the suspicious luggage is checked, the suspicious luggage needs to be rechecked and confirmed, the luggage needs to be manually conveyed to the front end for rechecking in the rechecking process, and the heavy luggage and continuous conveying of the safety inspectors have high labor intensity.

5. Because the field interpretation is adopted, only one display terminal can interpret, only one security inspector can interpret, and only one package is opened, so that the efficiency of security inspection is limited to a great extent.

6. According to the traditional technical scheme, passengers do not have channels to know the security inspection condition of the airport in advance, and only need to go to the airport for security inspection in advance for a few clocks, so that boarding time is prevented from being delayed.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a can overcome above-mentioned technical problem's automatic long-range centralized interpretation system that matches of tour inspection intelligent channel, tour inspection intelligent channel matches long-range centralized interpretation system automatically and includes:

an Automatic Matching remote centralized interpretation System AMRSS (Automatic Matching and remote centralized interpretation System) and an Automatic basket returning System ABRS (Automatic Bin Return System) are connected together, wherein the Automatic Matching remote centralized interpretation System comprises an X-ray machine, an operator workstation, a bale opener workstation and an administrator workstation.

The AMRSS system of the automatic matching remote centralized interpretation system comprises an X-ray workstation, an operator workstation, a packet opener workstation and an administrator workstation which are connected together; the automatic basket returning system ABRS system comprises a luggage placing frame, a conveyor, a sorting machine, a tray descending machine, an RFID tag reader and a camera which are connected together; the automatic basket returning system ABRS system is divided into a delivery inspection channel, a sorting channel, a safe luggage channel, a suspicious luggage channel, a rechecking channel and a basket returning channel according to a luggage tray conveying path, namely a luggage security inspection process, and passengers transact delivery luggage and need to carry out personal and carry-on luggage inspection before going to a boarding gate. The passenger carry-on luggage and boarding information is checked by using the automatic matching remote centralized interpretation system of the intelligent passage for the passenger check.

Wherein, the X-ray workstation is used for scanning the article, forming and displaying the image; the operator workstation is used for receiving the image sent by the X-ray workstation and carrying out remote interpretation; the unpacking worker workstation is used for executing unpacking operation on the luggage; the administrator workstation is used for rechecking, counting and controlling the information of passengers and luggage; the luggage placing rack is used for placing luggage; the conveyor provides the power for conveying the luggage; the sorting machine is used for sorting the luggage; the tray landing machine is used for lifting the luggage; the RFID tag reader is used for reading the RFID tag; the camera is used for taking a picture of a person or a piece of luggage.

Wherein, the censorship passageway is arranged in sending the tray of splendid attire passenger luggage to the scanning image in the X ray workstation, sorts the passageway and carries safe luggage passageway or suspicious luggage passageway to the tray of splendid attire passenger luggage according to the interpretation result, the recheck passageway communicate in X ray workstation is in order to recheck the tray, returns the basket passageway and communicates between safe luggage passageway and tray descending machine in order to replay the tray after will using to the tray descending machine.

The utility model discloses a superior effect is:

1. the ray safety of passengers and operators is ensured, and the security inspection effect and the security inspection efficiency are improved.

2. The automatic sorting of safe luggage and rejected luggage and the automatic recovery of empty trays are realized, and the labor intensity of security inspectors is reduced.

3. The remote centralized interpretation improves the security inspection effect and the security inspection efficiency by reducing the interference factors of security inspection diagraphs.

4. Through matching of the face characteristic information and the unique identification label of the tray, the passenger information, the identification label and the image information are accurately matched.

5. The suspicious luggage is automatically rechecked, and the labor intensity of a security inspector is reduced.

6. By designing the proportion, setting of more basket taking platforms, interpretation of more operators and reinspection of more packing members, the passing rate of passengers per hour is ensured to be more than 300, and the security inspection efficiency is improved.

7. The number of passengers and the waiting time of the passengers can be predicted, the waiting time of the passengers is reduced, and the user experience is improved.

8. Through the automatic matching of the centralized interpretation system and the automatic transmission subsystem, the people and bags of the travel inspection channel are matched, centralized interpretation, luggage sorting and tray recovery are completed, the passenger passing rate of the travel inspection channel is improved, the corresponding management of the people and bags is realized, and the labor intensity of security inspectors is reduced.

Drawings

FIG. 1 is a schematic flow diagram of a method of the present invention;

fig. 2 is a schematic diagram of the system of the present invention.

Detailed Description

Embodiments of the present invention will be described in detail below with reference to the accompanying drawings. As shown in fig. 2, the automatic long-range centralized interpretation system that matches of intelligent passageway of tourism inspection includes:

an Automatic Matching remote centralized interpretation System AMRSS (Automatic Matching and remote centralized interpretation System) and an Automatic basket returning System ABRS (Automatic Bin Return System) are connected together, wherein the Automatic Matching remote centralized interpretation System comprises an X-ray machine, an operator workstation, a bale opener workstation and an administrator workstation.

The AMRSS system comprises an X-ray workstation, an operator workstation, a bale opener workstation and an administrator workstation which are connected together. The automatic basket returning system ABRS system comprises a luggage placing frame, a conveyor, a sorting machine, a tray descending machine, an RFID tag reader and a camera which are connected together; the automatic basket returning system ABRS system is divided into a delivery inspection channel, a sorting channel, a safe luggage channel, a suspicious luggage channel, a rechecking channel and a basket returning channel according to a luggage tray conveying path, namely a luggage security inspection process, and passengers transact delivery luggage and need to carry out personal and carry-on luggage inspection before going to a boarding gate. The passenger carry-on luggage and boarding information is checked by using the automatic matching remote centralized interpretation system of the intelligent passage for the passenger check. As shown in fig. 1, the utility model discloses an interpretation method of remote centralized interpretation system is automatically matchd to well tour inspection intelligent channel includes following step:

step 1, passenger security inspection information statistics:

step 1.1, when passengers enter a security inspection area through an isolation belt or a gate, an inductor or a gate system on the isolation belt records the number of passengers waiting for security inspection;

step 1.2, acquiring a high-definition video in the channel in real time through a camera above the security check channel, and calculating the number of security check passengers in the security check channel in real time through video data analysis;

step 1.3, realizing a WeChat public number page, developing a WeChat small program by using a WeChat small program tool, calling public cloud WEB service by the WeChat public number and the WeChat small program through AJAX or RESTFUL, and realizing the public cloud WEB service through C # WEB API;

step 1.4, acquiring returned security check information by calling the WEB service on the airport communication server through public cloud WEB service, and storing a query record into a polling queue if the WEB service on the airport communication server carries a subscription query instruction in the query instruction received; polling queue concerns the change of the security check condition information in the database; when the change of the security check condition information is detected, pushing the security check condition information to a client program;

step 1.5, passengers can inquire the number of passengers to be subjected to security check in a take-off airport and the waiting time of passenger security check at any time through a mobile phone and an iPad mobile terminal, and obtain the predicted time of arriving at the airport in advance;

step 1.6, the page query conditions comprise the name of an airport and the number of terminals, and the query result comprises the number of passengers with security check, the estimated security check waiting time and the opening number of security check channels; and (4) entering the security check channel detailed information by points, and displaying the number of passenger security checks in each channel in a list form.

Step 2, the passenger verifies, the passenger can adopt self-service verification, namely self-service gate or manual verification mode to carry out security check verification, adopts OCR/RFID multifunctional reader, reads identity card, passport, boarding card, port and Macau station certificate information through a device:

step 2.1, the passenger adopts a self-service verification mode to carry out security check verification:

step 2.1.1, the passenger scans the identity card, and the system automatically takes a picture of the passenger;

step 2.1.2, the system compares the passenger identity card information, the passenger boarding check information and the portrait information, and if the comparison is successful, the passenger is released;

step 2.1.3, the system compares the passenger identity card information, the passenger boarding check information and the portrait information, and if the comparison fails, the passenger is refused to pass;

step 2.1.4, the passengers who fail in self-service verification can select a manual verification mode to pass the security check verification;

step 2.2, the passenger adopts a manual verification mode to carry out security check verification:

step 2.2.1, the verifier checks the passenger certificate, uses the integrated keyboard to read the information of the passenger certificate, automatically reads the information of the second-generation certificate and the passport and displays the information in the information area of the passenger certificate;

2.2.2, for the non-second-generation certificate and the passport, a security inspector can input information in a manual input mode;

step 2.2.3, the verifier checks the boarding check, uses the boarding check reader to automatically read the passenger information and displays the passenger information in the passenger information area; the passenger information comprises flight number, seat number, boarding serial number, passenger name, certificate number, boarding gate, nationality/region, off-duty date, pre-flight time, destination, baby information and consignment luggage;

step 2.2.4, when the boarding check is read, the system simultaneously triggers the camera to carry out dynamic snapshot (for example, the optimal picture within 3 seconds) on the passenger so as to obtain the passenger portrait; the verification workstation automatically shoots the passenger portrait and displays the passenger portrait in a passenger portrait static display area; when the portrait shooting is not clear, the security inspector can shoot the portrait again of the passenger through the prompt or shortcut key of the portrait re-shooting on the interface;

and 2.2.5, when the passenger certificate photo and the portrait shot on site are the same person, the periphery of the interface certificate portrait turns green and the score (percent) of the face comparison result is displayed.

And 2.2.6, when the passenger certificate photo and the portrait shot on site are not the same person, turning red around the interface certificate portrait and displaying the face comparison result score (percent system).

And 2.2.7, scanning various certificates of the passengers and taking pictures, allowing the passengers to enter when the certificates and the tickets are consistent, and clicking a 'normal clearance' button to clear the passengers.

And 2.2.8, scanning various certificates of the passengers and taking pictures, when the certificates and the tickets are inconsistent, the passengers are not allowed to enter, and clicking a rejection button to reject the passengers.

Step 3, carrying out security check on the passenger luggage:

step 3.1, the passenger obtains a tray with an RFID chip through face recognition or boarding check scanning, and the passenger puts luggage items into the tray;

step 3.2, automatically selecting a picture with clear appearance characteristics in passenger video shooting and comparing the picture shot in the verification process by the system to obtain passenger information and binding the passenger information with the RFID chip tray;

step 3.3, when the face recognition fails to automatically acquire the passenger information, reminding the passenger to scan the boarding check, acquiring the passenger information through the boarding check and binding the passenger information with the RFID chip tray;

step 3.4, the luggage tray passes through an X-ray workstation entrance multidimensional information acquisition device, the system acquires RFID chip information and passenger identity card information, and meanwhile, a camera shoots visible light images of the articles;

step 3.5, the baggage tray passes through an entrance of an X-ray machine in the forward direction, an automatic basket returning system ABRS sends an identification code and a passenger information code corresponding to the baggage tray passing through the position to an automatic matching remote centralized interpretation system AMRSS, one baggage tray only sends an identification code once when passing through the entrance in the forward direction, and does not send the identification code when passing through the entrance in the reverse direction, the AMRSS acquires information of an RFID chip and information of a passenger identity card, and meanwhile, a camera shoots a visible light image of an article;

step 3.6, the ABRS continuously tracks the position of the luggage tray;

step 3.7, the ABRS forwards sends the tray into the X-ray machine, the tray forwards enters the X-ray machine, the tray sequentially passes through the X-ray machine and is scanned and checked, AMRSS forms an X-ray image file in the process that the tray passes through the X-ray machine, AMRSS sends an identification code request instruction to the ABRS to apply for an identification code (which can also be sent for multiple times) corresponding to the tray after the tray reaches a matching area, the ABRS sends identification code information corresponding to the tray which is located in the matching area at the moment to the AMRSS according to a tracking result, and when the ABRS judges that the tray is not located in the matching area at the moment, the ABRS sends a tray-free code to the;

and 3.8, matching the RFID chip tray code information, the visible light image and the perspective image by the X-ray workstation, and sending the image to any remote idle operator workstation for remote interpretation by the X-ray workstation.

Step 4, automatically identifying the image by the X-ray machine; automatically identifying explosives and contraband, distinguishing different material materials by an explosive identification algorithm through a material identification algorithm, and then distinguishing the types of different explosives through a density identification algorithm; for contraband automatic identification algorithms, determining material of matter by material identification algorithms and then determining object shape by morphological processing:

step 4.1, automatic identification of explosives:

step 4.1.1, detecting materials, segmenting the suspicious object region of interest and reliably reconstructing;

step 4.1.2, matching suspicious object danger areas at different viewing angles;

4.1.3, removing the background area of the suspicious object;

step 4.1.4, reconstructing cross sections with different visual angles;

step 4.1.5, mapping the X-ray transmission imaging data to an explosive database;

step 4.1.6, making decision and alarming on explosives;

step 4.2, automatically identifying contraband:

4.2.1, detecting materials, segmenting the suspicious object region of interest and reliably reconstructing;

4.2.2, segmenting the region of interest based on the gray scale and the material characteristics;

step 4.2.3, extracting a knife and gun communication area;

step 4.2.4, detecting the edges of the low-gray points and lines;

step 4.2.5, interesting edge segmentation and connected region extraction;

at step 4.2.6, the contraband is automatically detected and decision-making is made to alarm.

Step 5, the security inspector interprets the image; the security inspector interprets the X-ray images into a centralized interpretation mode and a local interpretation mode, the security inspector interprets the images on an operator workstation of a centralized interpretation room, and the operator workstation displays a double-view X-ray image, a visible light image, passenger information and RFID information; the security inspector can perform various image processing through the image processing key, can mark contraband information on the image and perform interpretation so as to realize centralized interpretation of security check of the carry-on luggage of passengers, and improves the security check effect and the security check efficiency by reducing interference factors of the security inspector; the security inspector can also select a local interpretation mode to interpret the image:

step 5.1, the image interpretation is carried out in a remote centralized interpretation mode, and the image interpretation method comprises the following steps: the simultaneous interpretation of a plurality of operator workstations corresponding to one X-ray workstation, the interpretation of an operator workstation corresponding to a plurality of X-ray workstations and the interpretation of a plurality of operator workstations corresponding to a plurality of X-ray workstations are supported:

step 5.1.1, a security inspector interprets the X-ray image at an operator workstation, and AMRSS displays the X-ray image file, the visible light image, the passenger information and the corresponding identification code generated by scanning on the operator workstation;

step 5.1.2, displaying the double-view X-ray image on an operator workstation, carrying out various image processing by a security inspector through an image processing key, and simultaneously marking contraband information on the image and carrying out interpretation; the contraband includes but is not limited to a charger, liquid, fire, knife and scissors;

step 5.1.3, when the luggage is safe, a security inspector clicks a release button, the interpretation result of the luggage tray is release, the AMRSS binds the result with the identification code and sends a tray release code to the ABRS, and the subsequent interpretation result cannot be changed into suspicious open inspection;

step 5.1.4, when the luggage is suspicious, a security inspector can draw a dangerous area on the X-ray image and click an open inspection button, the interpretation result of the luggage tray is open inspection, the subsequent interpretation result cannot be changed into safe clearance, and the AMRSS binds the result with the identification code and sends a tray open inspection code to the ABRS;

step 5.1.5, when the interpretation result is not input by a security inspector, the AMRSS automatically marks the interpretation result of the luggage tray as overtime after a period of time (default 30s, configurable change and enough length for the ABRS sorting position reservation), binds the interpretation result with the identification code and then sends an interpretation timeout code to the ABRS;

step 5.1.6, the safety inspector can not manually control the starting or stopping of the X-ray machine conveying belt;

step 5.2, the local interpretation mode carries out image interpretation:

step 5.2.1, a security inspector judges and reads images at a single machine end of the X-ray machine, and AMRSS binds X-ray image files generated by scanning with corresponding identification codes;

step 5.2.2, when the luggage is safe, a security inspector clicks a release button, the interpretation result of the luggage tray is release, the AMRSS binds the result with the identification code, and sends a tray release code to the ABRS, and the interpretation result cannot be changed into suspicious open inspection;

step 5.2.3, when the luggage is suspicious, a security inspector can click an open inspection button or click the position of the suspicious luggage object on the X-ray image by a mouse (can click for multiple times), the interpretation result of the luggage tray is open inspection, the subsequent interpretation result cannot be changed into safe clearance, and the AMRSS binds the result with the identification code and sends the tray open inspection code to the ABRS;

step 5.2.4, when the interpretation result is not input by the security inspector, after AMRSS is carried out for a period of time (default is 30s, configurable change is needed, and enough length is reserved at an ABRS sorting position), automatically marking the interpretation result of the luggage tray as overtime, binding the interpretation result with the identification code, and sending an interpretation overtime code to the ABRS;

and 5.2.5, the security inspector can manually control the starting or stopping of the X-ray machine conveying belt.

Step 6, automatic sorting of passenger luggage:

6.1, when the luggage pallet reaches the sorting device and the corresponding interpretation result of the pallet is safe clearance, the ABRS executes safe sorting action, and the luggage is sorted to a safe luggage channel;

6.2, when the corresponding interpretation result of the luggage tray is suspicious and the inspection is carried out, the ABRS executes suspicious sorting action, and the luggage is sorted to a suspicious luggage channel;

6.3, when the interpretation result corresponding to the tray is overtime or has no interpretation result, the ABRS executes a rechecking and sorting action, and the luggage is sorted to a rechecking luggage channel;

6.4, when the sorting waiting position luggage trays are stacked, the ABRS can automatically judge and control the X-ray machine to stop through a busy/idle signal; after the baggage trays at the sorting waiting position are removed from being accumulated, the ABRS can automatically judge and control the X-ray machine to be started again in the centralized interpretation mode, the ABRS can automatically judge and remove a busy/idle signal in the local interpretation mode, and a security inspector can manually control the X-ray machine to be started again;

6.5, the luggage tray reaches the unpacking platform through the suspicious luggage passage, and after the unpacking platform finishes unpacking inspection, the reinspection flow operation is finished according to the relevant national regulations;

6.6, the luggage tray needing to be rechecked automatically returns to the inlet of the X-ray machine, and then enters the X-ray machine again for checking, and the identification code of the luggage tray is not changed when the luggage tray passes through the X-ray machine again;

and 6.7, automatically returning the empty tray to the storage place of the passenger acquisition tray through the empty frame luggage channel.

Step 7, unpacking the passenger baggage; a plurality of unpacking person workstations can be simultaneously configured in one security inspection channel, unpacking processing is carried out simultaneously, and the unpacking process is divided into a one-key unpacking process and a complex unpacking process so as to improve the unpacking processing speed:

step 7.1, scanning the RFID label or searching a corresponding security inspection image of the luggage in the list to be unpacked, unpacking and checking the image and using a quick unpacking processing key to carry out unpacking result input, which is called 'one-key unpacking' for short:

7.1.1, scanning an RFID label on a luggage tray or clicking an image in a queue to be unpacked to determine a luggage image needing unpacking inspection;

step 7.1.2, unpacking inspection, wherein when no contraband is detected, the step 7.1.3 is executed, and when the contraband is detected, the step 7.1.4 is executed;

7.1.3, selecting a one-key package opening processing key on the main interface when no contraband exists, and recording that the baggage does not have the contraband in the system;

7.1.4, when the packet opening inspection finds that the contraband exists, selecting the number of the contraband in a one-key packet opening area of the main interface, wherein the default number is 1, pressing a corresponding processing key according to the type and the processing mode of the found contraband, and the number below the shortcut key is the name of the contraband and the processing mode; the system automatically records the contraband information found by the luggage so as to facilitate subsequent data query;

step 7.1.5, the system automatically removes the processed baggage image from the list to be checked;

step 7.2, by scanning the RFID label or searching the corresponding security inspection image of the luggage in the list to be unpacked, unpacking and checking the unpacking image and using a complex input interface to input unpacking results, which is called 'complex unpacking' for short:

7.2.1, scanning an RFID label on the luggage tray or clicking an image in a queue to be unpacked to determine a luggage image needing unpacking inspection;

7.2.2, unpacking and checking;

7.2.3, selecting an opening and logging-in key of a main function key area of the main interface to enter a complex opening and packaging information logging-in interface;

step 7.2.4, selecting the type of contraband found to pop up a detailed information interface, selecting the number of contraband (wherein the selection of the powder or other quantity which cannot be cleared is a 'ignore' key), the processing mode, whether to be hidden or not, whether to perform explosion-proof security check or not in the interface, and then clicking a determination button to add a piece of contraband information into a list;

step 7.2.5, repeating the above step 7.2.4 until the addition of the plurality of pieces of contraband information is completed;

step 7.2.6, after adding all the contraband information, pressing the processing completion key to input the contraband information into the system for subsequent inquiry;

at step 7.2.7, the system automatically clears the image of the unpacked baggage.

The above description is only for the specific embodiments of the present invention, but the protection scope of the present invention is not limited thereto, and any changes or substitutions that can be easily conceived by those skilled in the art within the scope of the present invention shall be covered by the protection scope of the claims of the present invention.

Claims (2)

1. The utility model provides a long-range centralized interpretation system of automatic matching of tourist attraction intelligent channel which characterized in that includes: the automatic matching remote centralized interpretation system AMRSS and the automatic basket returning system ABRS are connected together; the AMRSS system of the automatic matching remote centralized interpretation system comprises an X-ray workstation, an operator workstation, a packet opener workstation and an administrator workstation which are connected together; the automatic basket returning system ABRS system comprises a luggage placing frame, a conveyor, a sorting machine, a tray descending machine, an RFID tag reader and a camera which are connected together; wherein, the X-ray workstation is used for scanning the article, forming and displaying the image; the operator workstation is used for receiving the image sent by the X-ray workstation and carrying out remote interpretation; the unpacking worker workstation is used for executing unpacking operation on the luggage; the administrator workstation is used for rechecking, counting and controlling the information of passengers and luggage; the luggage placing rack is used for placing luggage; the conveyor provides the power for conveying the luggage; the sorting machine is used for sorting the luggage; the tray landing machine is used for lifting the luggage; the RFID tag reader is used for reading the RFID tag; the camera is used for taking a picture of a person or a piece of luggage.

2. The automated intelligent inspecting passage matching remote centralized interpretation system according to claim 1, wherein the automatic basket returning system ABRS system is divided into an inspecting passage, a sorting passage, a safe luggage passage, a suspicious luggage passage, a rechecking passage and a basket returning passage according to a luggage tray conveying path, wherein the inspecting passage is used for conveying the trays containing the luggage of passengers to an X-ray workstation for scanning images, the sorting passage conveys the trays containing the luggage of passengers to the safe luggage passage or the suspicious luggage passage according to interpretation results, the rechecking passage is communicated with the X-ray workstation for rechecking the trays, and the basket returning passage is communicated between the safe luggage passage and the tray landing machine for replaying the used trays into the tray landing machine.

Images