CN216927622U - Airport wearable luggage identification system based on RFID technology - Google Patents
Airport wearable luggage identification system based on RFID technology Download PDFInfo
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- CN216927622U CN216927622U CN202122668468.6U CN202122668468U CN216927622U CN 216927622 U CN216927622 U CN 216927622U CN 202122668468 U CN202122668468 U CN 202122668468U CN 216927622 U CN216927622 U CN 216927622U
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- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02D—CLIMATE CHANGE MITIGATION TECHNOLOGIES IN INFORMATION AND COMMUNICATION TECHNOLOGIES [ICT], I.E. INFORMATION AND COMMUNICATION TECHNOLOGIES AIMING AT THE REDUCTION OF THEIR OWN ENERGY USE
- Y02D30/00—Reducing energy consumption in communication networks
- Y02D30/70—Reducing energy consumption in communication networks in wireless communication networks
Abstract
The utility model discloses an airport wearable luggage identification system based on RFID technology, which comprises a wearable RFID luggage identification device, an RFID luggage tag, a wearable PDA device and a wearable carrier, wherein the RFID luggage tag is arranged on luggage; the wearable RFID luggage identification device and the wearable PDA device are arranged on the wearable carrier; the wearable RFID luggage identification device comprises an ultrahigh frequency RFID reader-writer, an RFID antenna, an acousto-optic prompt unit and a power supply; the ultrahigh frequency RFID reader-writer is connected with the RFID antenna; the RFID antenna is matched with the RFID luggage tag; the wearable PDA device is connected with the wearable RFID luggage identification device; the wearable PDA device is also in control connection with the acousto-optic prompt unit; the ultra-high frequency RFID reader-writer and the acousto-optic prompt unit are connected with the power supply, and the airport wearable luggage identification system based on the RFID technology can quickly and accurately acquire and check luggage information, so that the luggage is ensured to be accurate in loading, unloading and transferring links.
Description
Technical Field
The utility model belongs to the technical field of baggage monitoring, and particularly relates to an airport wearable baggage identification system based on an RFID technology.
Background
The RFID technology is widely considered as one of the most potential technologies in the 21 st century, and is a new technology which causes the change of the field of automatic identification after the bar code technology. The system has the advantages of non-line-of-sight, long distance, low requirement on directivity, and rapid and accurate wireless communication capacity, and is increasingly focused on an airport luggage automatic sorting system. Finally, in 10 months 2005, IATA (international air transport association) agreed upon resolution, UHF (ultra high frequency) RFID strapped tags as the only standard for air baggage tags.
At present, airports at home and abroad begin to use the RFID information acquisition technology in a unified way, and meanwhile, the precise zero-error monitoring of passenger luggage is ensured by combining the video or picture technology, so that the manual intervention degree is reduced, and the luggage circulation efficiency is improved.
The International Air Transport Association (IATA) passed a resolution in 2018 that supported global deployment of RFID tracking of shipped air baggage. Resolution 753: member airlines are required to be able to track baggage at the four key nodes of passenger baggage transport (baggage consignment, loading, transfer, arrival). That is, "accurately grasp baggage information by monitoring a key link of baggage receiving and transporting processes", and information sharing and data exchange are performed between intermodal airlines with respect to the tracked baggage information of passengers.
Currently, the rate of baggage mistransportation worldwide is five per thousand, with economic losses of up to billions of dollars each year due to mistransportation worldwide. Along with the rising of the number of passengers in the air and the increase of the number of consigned luggage, the luggage processing link is under greater pressure, the phenomenon of luggage misdelivery or loss is more frequent, and the loss of airlines and airports is increased continuously. Therefore, it is imperative to build a real-time tracking and tracing platform for the RFID-based luggage. With the popularization and application of the internet technology and the construction of intelligent airports, the luggage full-flow tracking is an important development trend of civil aviation.
Therefore, how to realize real-time tracking of baggage is a technical problem to be solved in the art.
SUMMERY OF THE UTILITY MODEL
The utility model aims to provide an airport wearable luggage identification system based on an RFID technology, aiming at solving the problem of misdelivery or loss of the existing airport luggage during transportation, and the airport wearable luggage identification system can accurately monitor the luggage and accurately judge the state of an article.
In order to achieve the above object, the present invention provides an airport wearable baggage identification system based on RFID technology, comprising: the wearable RFID luggage identification device comprises a wearable RFID luggage identification device, an RFID luggage tag, a wearable PDA device and a wearable carrier, wherein the RFID luggage tag is arranged on luggage; the wearable RFID luggage identification device and the wearable PDA device are arranged on the wearable carrier; the wearable RFID luggage identification device comprises an ultrahigh frequency RFID reader-writer, an RFID antenna, an acousto-optic prompt unit and a power supply; the ultrahigh frequency RFID reader-writer is connected with the RFID antenna; the RFID antenna is matched with the RFID luggage tag; the wearable PDA device is connected with the wearable RFID luggage identification device; the wearable PDA device is also in control connection with the acousto-optic prompt unit; and the ultrahigh frequency RFID reader-writer and the acousto-optic prompt unit are connected with a power supply.
Furthermore, the wearable PDA device is connected with the wearable RFID luggage identification device in a wireless mode.
Further, the wearable PDA device comprises a controller, and the controller is provided with a processing system.
Further, the controller is formed by a touch screen computer.
Further, the power supply is constituted by a rechargeable battery.
Further, the wearable RFID luggage identification device supports full-network 4G communication and Bluetooth 4.2 communication.
According to the airport wearable luggage identification system based on the RFID technology, the wearable RFID solution is adopted, luggage can be quickly and accurately loaded on the trolley and loaded on an airplane, and the luggage loading operation efficiency and accuracy are obviously improved; release staff's both hands, need not extra equipment can accomplish work such as luggage information acquisition, verification, simple and clear sound and light suggestion simultaneously let operating personnel have better interactive experience.
Drawings
The utility model is further described below in conjunction with the appended drawings and the detailed description.
Fig. 1 is a first hardware composition diagram of the airport wearable baggage identification system based on RFID technology in the present example;
fig. 2 is a hardware composition diagram of the airport wearable baggage identification system based on RFID technology in the present example;
FIG. 3 is a schematic view of a scene panorama application of the RFID technology-based airport wearable baggage identification system in the present example;
fig. 4 is a schematic diagram of an RFID baggage loading scenario of the RFID technology-based airport wearable baggage identification system in the present example;
FIG. 5 is a schematic diagram of an RFID baggage loading scenario of the RFID technology-based airport wearable baggage identification system in this example;
fig. 6 is a schematic diagram of an RFID baggage unloading scenario of the RFID technology-based airport wearable baggage identification system in this example;
fig. 7 is a schematic diagram of an RFID baggage transfer scenario of the RFID technology-based airport wearable baggage identification system in this example.
The reference numbers in the figures mean:
the wearable RFID luggage identification device 100, the ultrahigh frequency RFID reader-writer 101, the RFID antenna 102, the acousto-optic prompt unit 103, the rechargeable battery 104, the vest carrier 105, the RFID luggage tag 200 and the wearable PDA device 300.
Detailed Description
In order to make the technical means, the creation characteristics, the achievement purposes and the effects of the utility model easy to understand, the utility model is further explained below by combining the specific drawings.
Aiming at the problem of misdelivery or loss of the existing airport luggage during transportation, the embodiment provides the airport wearable luggage identification system based on the RFID technology, which can accurately monitor the luggage and accurately judge the state of the luggage.
As shown in fig. 1, the airport wearable baggage identification system based on RFID technology provided by this example includes: a wearable RFID baggage identification device 100, an RFID baggage tag 200, a wearable PDA device 300 and a wearable carrier.
The RFID bag tag 200 is disposed on the bag for identifying and tracking the bag by the wearable RFID bag identification apparatus 100.
The wearable RFID luggage identification device 100 and the wearable PDA device 300 are disposed on a wearable carrier.
The wearable carrier in this example may be constituted by the vest carrier 105 when specifically arranged.
As shown in fig. 1 and 2, the wearable RFID baggage identification device 100 includes: the system comprises an ultrahigh frequency RFID reader-writer 101, an RFID antenna 102, an acousto-optic prompt unit 103 and a rechargeable battery 104.
The ultrahigh frequency RFID reader-writer 101, the RFID antenna 102, the acousto-optic prompt unit 103 and the rechargeable battery 104 are all arranged on the vest carrier 105, the RFID antenna 102 is used for reading information of the RFID luggage tag 200, and the RFID reader-writer 101 is used for capturing luggage information read by the RFID antenna 102 and transmitting the information to the wearable PDA device 300.
During specific setting, the ultrahigh frequency RFID reader-writer 101 is connected with the RFID antenna 102, the RFID antenna 102 is matched with the RFID luggage tag 200, the wearable PDA device 300 is connected with the wearable RFID luggage identification device 100, the wearable PDA device 300 is further in control connection with the acousto-optic prompt unit 103, and the ultrahigh frequency RFID reader-writer 101 and the acousto-optic prompt unit 103 are connected with the rechargeable battery 104.
The wearable PDA device 300 is used to confirm the passenger baggage information, and is wirelessly connected to the wearable RFID baggage recognition device 100.
The wearable PDA device 300 includes a controller, and the controller is used for the wearable PDA device 300 to perform operations such as sending and receiving commands, processing data, and the like.
For example, the controller may be a touch screen computer.
The wearable PDA device 300 is also in control connection with the acousto-optic prompt unit 103.
The sound and light prompt unit 103 is used for voice and LED light error prompt.
The rechargeable battery 104 is used for providing required electric quantity for the ultrahigh frequency RFID reader 101 and the acousto-optic prompting unit 103 in the wearable luggage identification system.
Directly dress when undershirt carrier 105 specifically uses on the operating personnel is on one's body, can not exert an influence to the operating personnel operation, just can discern the pursuit to luggage when carrying luggage, improved the operating efficiency.
Preferably, the uhf RFID reader 101, the RFID antenna 102, and the acousto-optic warning unit 103 in the wearable RFID luggage identification apparatus 100 in this example are disposed on the front side of the vest carrier 105, the wearable PDA apparatus 300 can be disposed on the upper arm of the operator, and the rechargeable battery 104 is disposed on the back side of the vest carrier 105, so that the operator can automatically identify luggage during the luggage transportation process, and can cover a plurality of orientations.
Further, the present embodiment also designs a plurality of reflective strips and indicator lights on the vest carrier 105 to meet the visibility requirements of day and night.
To better illustrate the embodiments of the present invention, the following description is given by way of example with reference to the accompanying drawings.
As shown in fig. 3, the airport wearable baggage identification system based on RFID technology performs baggage loading, unloading and transfer links after baggage is subjected to an automatic sorting link after the baggage is initialized with passenger information and checked for unpacking:
an airport operator wears the vest carrier 105 provided with the airport wearable luggage identification system, can automatically identify the information of the RFID tag 200 on luggage through the wearable RFID luggage identification device 100 while carrying out luggage carrying operation, when the operator starts to carry the luggage, the operator manually clicks the wearable PDA device 300 to control and connect the ultrahigh frequency RFID reader-writer 101, the ultrahigh frequency RFID reader-writer 101 starts to work, controls the RFID antenna 102 to read the information of the luggage RFID tag 200 and sends the information to the ultrahigh frequency RFID reader-writer 101, the ultrahigh frequency RFID reader-writer 101 transmits the acquired information to the wearable PDA device 300 in a wireless mode, and the wearable PDA device 300 processes data.
When the luggage information is wrong, the wearable PDA device 300 is connected with the acousto-optic prompt unit 103 to make it give out voice or display a lamp for alarm prompt.
Referring to fig. 4, in the airport wearable baggage identification system based on the RFID technology, the baggage loading link tracking identification process is as follows:
the airport operator can carry out a baggage transportation operation while wearing the vest carrier 105 provided with the airport wearable baggage recognition system, and can automatically recognize the information of the RFID tag 200 on the baggage by the wearable RFID baggage recognition apparatus 100.
The wearable RFID luggage identification device 100 is wirelessly connected to the wearable PDA device 300, the wearable RFID luggage identification device 100 transmits information to the wearable PDA device 300, and the wearable PDA device 300 processes data.
When the luggage information is wrong, the wearable PDA device is connected with the acousto-optic prompt unit 103 in a control mode, and the wearable PDA device gives out voice or displays a lamp for alarm prompt.
Referring to fig. 5, in the airport wearable baggage identification system based on the RFID technology, the baggage loading step tracking identification process is as follows:
the airport operator can carry out a baggage transportation operation while wearing the vest carrier 105 provided with the airport wearable baggage recognition system, and can automatically recognize the information of the RFID tag 200 on the baggage by the wearable RFID baggage recognition apparatus 100.
The wearable RFID luggage identification device 100 is wirelessly connected to the wearable PDA device 300, the wearable RFID luggage identification device 100 transmits information to the wearable PDA device 300, and the wearable PDA device 300 processes data.
When the luggage information is wrong, the wearable PDA device is connected with the acousto-optic prompt unit 103 in a control mode, and the wearable PDA device gives out voice or displays a lamp for alarm prompt.
Referring to fig. 6, in the airport wearable baggage identification system based on the RFID technology, the baggage unloading tracking and identifying process is as follows:
the airport operator can carry out a baggage transportation operation while wearing the vest carrier 105 provided with the airport wearable baggage recognition system, and can automatically recognize the information of the RFID tag 200 on the baggage by the wearable RFID baggage recognition apparatus 100.
The wearable RFID luggage identification device 100 is wirelessly connected to the wearable PDA device 300, the wearable RFID luggage identification device 100 transmits information to the wearable PDA device 300, and the wearable PDA device 300 processes data.
When the luggage information is wrong, the wearable PDA device is connected with the acousto-optic prompt unit 103 in a control mode, and the wearable PDA device gives out voice or displays a lamp for alarm prompt.
Referring to fig. 7, in the airport wearable baggage identification system based on the RFID technology, the tracking identification process in the baggage transit link is as follows:
the airport operator can carry out a baggage transportation operation while wearing the vest carrier 105 provided with the airport wearable baggage recognition system, and can automatically recognize the information of the RFID tag 200 on the baggage by the wearable RFID baggage recognition apparatus 100.
The wearable RFID luggage identification device 100 is wirelessly connected to the wearable PDA device 300, the wearable RFID luggage identification device 100 transmits information to the wearable PDA device 300, and the wearable PDA device 300 processes data.
When the luggage information is wrong, the wearable PDA device is connected with the acousto-optic prompt unit 103 in a control mode, and the wearable PDA device gives out voice or displays a lamp for alarm prompt.
After the luggage is unloaded, if the luggage needs to be transferred, the luggage is conveyed to an automatic luggage sorting place, and links such as sorting, loading verification, loading, unloading verification and unloading are executed again.
According to the airport wearable luggage identification system based on the RFID technology, a wearable RFID solution is adopted, luggage can be quickly and accurately loaded on a trolley and loaded on an airplane, and the luggage loading operation efficiency and accuracy are obviously improved; release staff's both hands, need not extra equipment can accomplish work such as luggage information acquisition, verification, simple and clear sound and light suggestion simultaneously let operating personnel have better interactive experience.
It should be noted that the above-mentioned embodiments do not limit the specific structure of the airport wearable baggage identification system based on the RFID technology, and are within the scope of the present invention as long as the functions thereof can be realized.
The foregoing shows and describes the general principles and broad features of the present invention and advantages thereof. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are described in the specification and illustrated only to illustrate the principle of the present invention, but that various changes and modifications may be made therein without departing from the spirit and scope of the present invention, which fall within the scope of the utility model as claimed. The scope of the utility model is defined by the appended claims and equivalents thereof.
Claims (6)
1. An airport wearable luggage identification system based on RFID technology, comprising: the wearable RFID luggage identification device comprises a wearable RFID luggage identification device, an RFID luggage tag, a wearable PDA device and a wearable carrier, wherein the RFID luggage tag is arranged on luggage; the wearable RFID luggage identification device and the wearable PDA device are arranged on the wearable carrier; the wearable RFID luggage identification device comprises an ultrahigh frequency RFID reader-writer, an RFID antenna, an acousto-optic prompt unit and a power supply; the ultrahigh frequency RFID reader-writer is connected with the RFID antenna; the RFID antenna is matched with the RFID luggage tag; the wearable PDA device is connected with the wearable RFID luggage identification device; the wearable PDA device is also in control connection with the acousto-optic prompt unit; and the ultrahigh frequency RFID reader-writer and the acousto-optic prompt unit are connected with a power supply.
2. The RFID technology-based airport wearable baggage identification system of claim 1, wherein the wearable PDA device is wirelessly connected with the wearable RFID baggage identification device.
3. The RFID technology-based airport wearable baggage identification system of claim 1, wherein said wearable PDA device comprises a controller, said controller being provided with a processing system.
4. The RFID technology-based airport wearable baggage identification system of claim 3, wherein said controller is comprised of a touch screen computer.
5. The RFID technology-based airport wearable baggage identification system of claim 1, wherein said power source is comprised of a rechargeable battery.
6. The RFID technology-based airport wearable baggage identification system of claim 1, wherein the wearable RFID baggage identification device supports both full network 4G communication and bluetooth 4.2 communication.
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