CN114548333B

CN114548333B - 5G and radio frequency tag combined cargo path processing method and device

Info

Publication number: CN114548333B
Application number: CN202210135162.0A
Authority: CN
Inventors: 严巍峰; 李大龙; 冯海波; 徐奔
Original assignee: Hunan Jinfeng Lin Printing And Packing Machinery Technology Co ltd
Current assignee: Hunan Jinfeng Lin Printing And Packing Machinery Technology Co ltd
Priority date: 2022-02-15
Filing date: 2022-02-15
Publication date: 2023-11-14
Anticipated expiration: 2042-02-15
Also published as: CN114548333A

Abstract

The application discloses a method and a device for processing a cargo path by combining a 5G and a radio frequency tag, wherein the method comprises the following steps: the client acquires a delivery starting point of a batch of goods and sends the delivery starting point to the server; under the condition that the client moves along with a vehicle for transporting the goods, each time the client senses that the vehicle changes from a moving state to a static state, the client acquires the geographic position of the vehicle when the vehicle changes to the static state; the client sends the geographic position of the client when the client is in a static state each time to the server; when the vehicle with the client reaches a delivery destination, the delivery destination is sent to the server; and the server side generates a conveying path according to all the received geographic positions, the conveying starting point and the conveying terminal, wherein the conveying path is used for writing in RFID tags arranged on the goods. The application solves the problem that the cargo transportation process cannot be monitored because no relevant technical scheme indicates how to record the cargo transportation path, thereby recording the path of the cargo in the cargo transportation process through the combination of 5G and RFID, and providing data support for monitoring the cargo transportation process.

Description

5G and radio frequency tag combined cargo path processing method and device

Technical Field

The application relates to the field of wireless radio frequency, in particular to a method and a device for processing a cargo path by combining a 5G and a radio frequency tag.

Background

In the prior art, the package of the goods or the goods itself is provided with a bar code or a two-dimensional code, and the goods information of the goods, such as the goods name, the goods specification, the production batch, the raw materials, the production date, the quality guarantee period, etc., can be inquired through the bar code or the two-dimensional code, but the goods cannot be monitored, such as tracking the circulation path of the goods, monitoring the flow direction of the goods, carrying out quick recall on the goods with problems, carrying out tracing on the goods, etc.

In another technical scheme, a method for monitoring goods is provided, wherein a supervision code is assigned to the package of goods or the goods per se through the production link of the goods, each piece of goods is provided with a supervision code, the supervision code is used for uniquely identifying the goods like an identity card of the goods, the supervision code can be a symbol with certain goods information, such as a two-dimensional code, a graphic code, a bar code, an anti-counterfeiting code and the like, or can be an invisible label, or can be a code generated by a specific coding rule, and in the embodiment, the supervision code is a series of digital sequences, the goods information of the goods can be inquired through the supervision code, and meanwhile, the circulation process of the goods can be monitored.

In the prior art, although it is mentioned that the flow passage can be monitored, there is no related technical solution to indicate how the delivery path of the goods should be recorded, so that monitoring of the goods transportation process cannot be achieved.

Disclosure of Invention

The embodiment of the application provides a method and a device for processing a 5G and radio frequency label combined with a cargo path, which at least solve the problem that the cargo transportation process cannot be monitored because no relevant technical scheme indicates how to record the cargo transportation path.

According to one aspect of the present application, there is provided a method for processing a cargo path by combining a 5G and a radio frequency tag, which is applied to software, wherein the software includes a client and a server, the client is installed on an intelligent terminal, the intelligent terminal has a positioning function, and the intelligent terminal performs data interaction with the server through a 5G network, the method includes: the client acquires a delivery starting point of a batch of goods and sends the delivery starting point to the server; under the condition that the client moves along with a vehicle for transporting the goods, each time the client senses that the vehicle changes from a moving state to a static state, the client acquires the geographic position of the vehicle when the vehicle changes to the static state; the client sends the geographic position of the client when the client is in a static state each time to the server; when the vehicle with the client reaches a delivery destination, the delivery destination is sent to the server; and the server side generates a conveying path according to all the received geographic positions, the conveying starting point and the conveying terminal, wherein the conveying path is used for writing in RFID tags arranged on the goods.

Further, the method further comprises the following steps: the server side sends the transport path to the client side; and the client calls an RFID reading function of the intelligent terminal and writes the conveying path into the RFID tag.

Further, the method further comprises the following steps: the server side stores the conveying path and generates a link of the conveying path, wherein the link points to the motion path.

Further, the method further comprises the following steps: the server side sends the link to the client side; and the client calls an RFID reading function of the intelligent terminal and writes the link into the RFID tag.

Further, the method further comprises the following steps: under the condition that the intelligent terminal has no RFID reading function; the client sends the delivery path or the link to an RFID read-write device, wherein the RFID read-write device is used for writing the delivery path or the link into the RFID tag.

According to another aspect of the present application, there is further provided a 5G and radio frequency tag combined cargo path processing apparatus, applied to software, where the software includes a client and a server, where the client is installed on an intelligent terminal, the intelligent terminal has a positioning function, the intelligent terminal performs data interaction with the server through a 5G network, and the client is configured to obtain a delivery start point of a batch of cargos, and send the delivery start point to the server; the client is used for acquiring the geographic position of the vehicle when the vehicle is changed into a static state every time the vehicle is perceived to be changed into the static state from the moving state under the condition that the vehicle which carries the goods moves along with the vehicle; the client is used for sending the geographic position of the client to the server when the client is in a static state each time; the client is used for sending the delivery terminal to the server when the vehicle reaches the delivery terminal; the server side is used for generating a conveying path according to all received geographic positions, the conveying starting point and the conveying terminal, wherein the conveying path is used for writing RFID labels arranged on goods.

Further, the server side is used for sending the transport path to the client side; the client is used for calling the RFID reading function of the intelligent terminal and writing the conveying path into the RFID tag.

Further, the server side is configured to save the transport path and generate a link of the transport path, where the link points to the motion path.

Further, the server side is used for sending the link to the client side; the client is used for calling the RFID reading function of the intelligent terminal and writing the link into the RFID tag.

Further, under the condition that the intelligent terminal has no RFID reading function; the client is used for sending the conveying path or the link to an RFID read-write device, wherein the RFID read-write device is used for writing the conveying path or the link into the RFID tag.

In the embodiment of the application, the client is adopted to acquire a delivery starting point of a batch of goods, and the delivery starting point is sent to the server; under the condition that the client moves along with a vehicle for transporting the goods, each time the client senses that the vehicle changes from a moving state to a static state, the client acquires the geographic position of the vehicle when the vehicle changes to the static state; the client sends the geographic position of the client when the client is in a static state each time to the server; when the vehicle with the client reaches a delivery destination, the delivery destination is sent to the server; and the server side generates a conveying path according to all the received geographic positions, the conveying starting point and the conveying terminal, wherein the conveying path is used for writing in RFID tags arranged on the goods. The application solves the problem that the cargo transportation process cannot be monitored because no relevant technical scheme indicates how to record the cargo transportation path, thereby recording the path of the cargo in the cargo transportation process through the combination of 5G and RFID, and providing data support for monitoring the cargo transportation process.

Drawings

The accompanying drawings, which are included to provide a further understanding of the application and are incorporated in and constitute a part of this specification, illustrate embodiments of the application and together with the description serve to explain the application. In the drawings:

fig. 1 is a flow chart of a method of processing a 5G and radio frequency tag in combination with a cargo path according to an embodiment of the application.

Detailed Description

It should be noted that, without conflict, the embodiments of the present application and features of the embodiments may be combined with each other. The application will be described in detail below with reference to the drawings in connection with embodiments.

It should be noted that the steps illustrated in the flowcharts of the figures may be performed in a computer system such as a set of computer executable instructions, and that although a logical order is illustrated in the flowcharts, in some cases the steps illustrated or described may be performed in an order other than that illustrated herein.

In this embodiment, a method for processing a 5G and radio frequency tag combined cargo path is provided and applied to software, where the software includes a client and a server, where the client is installed on an intelligent terminal, the intelligent terminal has a positioning function, and the intelligent terminal performs data interaction with the server through a 5G network, and fig. 1 is a flowchart of the method for processing a 5G and radio frequency tag combined cargo path according to an embodiment of the present application, and the method includes the following steps:

step S102, the client acquires a delivery start point of a batch of goods and sends the delivery start point to the server;

step S104, when the client moves with the vehicle carrying the goods, each time the client senses that the vehicle changes from a moving state to a stationary state, the client obtains the geographic position of the vehicle when the vehicle changes to the stationary state, for example, the client may obtain the position through a positioning module of the intelligent terminal;

step S106, the client sends the geographical position of the client when the client is in a static state each time to the server;

step S108, when the vehicle with the client reaches a delivery destination, the delivery destination is sent to the server;

in step S110, the server generates a delivery path according to all the received geographic locations, the delivery start point and the delivery terminal, where the delivery path is used to write in an RFID tag disposed on the goods.

As an optional implementation manner, after the server side generates the conveying path, the server side may further obtain a preset starting position and an endpoint position, and if the preset starting position and endpoint position are different from the starting position and endpoint position in the conveying path, the server side also saves the preset starting position and endpoint position; the server side sends a message to the client side, wherein the message is used for indicating the client side to display an input control, and the input control is used for inputting reasons for changing the starting point position and the end point position; and the server side receives the reason and stores the reason.

The server side packages the conveying path, the reason, the preconfigured starting point position and the preconfigured ending point position into a file, and stores the file after encrypting the file.

The position of the intelligent terminal in the above steps can be obtained through a positioning module of the intelligent terminal, for example, through a Beidou positioning module or a GPS positioning module.

The problem that the cargo transportation process cannot be monitored due to the fact that no relevant technical scheme indicates how to record the cargo transportation path is solved, and therefore the path of the cargo in the cargo transportation process is recorded through the combination of 5G and RFID, and data support is provided for monitoring the cargo transportation process.

There are two ways to write the transport path to the RFID tag, which will be described below:

mode one: the server side is used for sending the conveying path to the client side; the client is used for calling the RFID reading function of the intelligent terminal and writing the conveying path into the RFID tag.

Mode two: the server side is used for storing the conveying path and generating a link of the conveying path, wherein the link points to the moving path. The server side is used for sending the link to the client side; the client is used for calling the RFID reading function of the intelligent terminal and writing the link into the RFID tag.

In the two modes, under the condition that the intelligent terminal has no RFID reading function; the client is used for sending the conveying path or the link to an RFID read-write device, wherein the RFID read-write device is used for writing the conveying path or the link into the RFID tag.

As an alternative implementation mode, the RFID read-write device can write RFID data to a batch of goods at one time, and the alternative implementation mode is described below.

The RFID read-write device may use the following antennas: a multiband near field antenna for an RFID encoder comprising a substrate, an internal coil antenna defined within the substrate, a loop ground plane defined on a first surface of the substrate, a second ground plane defined on an opposite second surface of the substrate, wherein the loop ground plane and the second ground plane form a faraday cage for the internal coil antenna; and a second antenna disposed on an opposite second surface within the annular space defined by the annular ground plane.

And a plurality of RFID read-write devices are arranged to surround the batch of goods, and the RFID is controlled to simultaneously transmit data according to the frequency of the RFID tag, wherein the data is written in the RFID. Each RFID performs writing of data after receiving the writing data.

After the data is written, the client uses the RFID read-write equipment to read the preset number of tags, and if the preset number of tags are successfully written with the data, the data writing is completed. If the data is not written successfully in the preset number of the tags, the mode that a plurality of RFID read-write devices are arranged to encircle the batch of goods is used again, and the RFID is controlled to simultaneously send the data according to the frequency of the RFID tags until all the RFID tags are written successfully.

The RFID read-write device used in the present embodiment may include: an RF unit for communicating with the RFID tag according to a duty cycle of the RFID reader, the duty cycle including a first period in which the RF unit communicates with the RFID tag and a second period in which the RF unit does not communicate with the RFID tag; a microcontroller unit configured to control a quality factor of the RF unit according to a change in the operation period; a power supply configured to supply power to the radio frequency unit and the microcontroller unit.

Optionally, the RF unit has a different figure of merit associated with each of the first and second periods. The RF unit has a first quality factor during the first period and a second quality factor higher than the first quality factor during the second period. The figure of merit is constant over the first period. The second period includes a period in which the figure of merit varies with time. The microcontroller unit is configured to control the RF unit such that the quality factor of the RF unit increases if the operation period changes from the first period to the second period, and to control the RF unit such that the quality factor of the radio frequency unit decreases if the operation period changes from the second period to the first period.

In this embodiment, there is provided an electronic device including a memory in which a computer program is stored, and a processor configured to run the computer program to perform the method in the above embodiment.

The above-described programs may be run on a processor or may also be stored in memory (or referred to as computer-readable media), including both permanent and non-permanent, removable and non-removable media, and information storage may be implemented by any method or technique. The information may be computer readable instructions, data structures, modules of a program, or other data. Examples of storage media for a computer include, but are not limited to, phase change memory (PRAM), static Random Access Memory (SRAM), dynamic Random Access Memory (DRAM), other types of Random Access Memory (RAM), read Only Memory (ROM), electrically Erasable Programmable Read Only Memory (EEPROM), flash memory or other memory technology, compact disc read only memory (CD-ROM), digital Versatile Discs (DVD) or other optical storage, magnetic cassettes, magnetic tape magnetic disk storage or other magnetic storage devices, or any other non-transmission medium, which can be used to store information that can be accessed by a computing device. Computer-readable media, as defined herein, does not include transitory computer-readable media (transmission media), such as modulated data signals and carrier waves.

These computer programs may also be loaded onto a computer or other programmable data processing apparatus to cause a series of operational steps to be performed on the computer or other programmable apparatus to produce a computer implemented process such that the instructions which execute on the computer or other programmable apparatus provide steps for implementing the functions specified in the flowchart block or blocks and/or block diagram block or blocks, and corresponding steps may be implemented in different modules.

Such an apparatus or system is provided in this embodiment. The device is called as a 5G and radio frequency tag combined cargo path processing device and is applied to software, wherein the software comprises a client and a server, the client is installed on an intelligent terminal, the intelligent terminal has a positioning function, the intelligent terminal performs data interaction with the server through a 5G network, and the client is used for acquiring a delivery starting point of a batch of cargoes and sending the delivery starting point to the server; the client is used for acquiring the geographic position of the vehicle when the vehicle is changed into a static state every time the vehicle is perceived to be changed into the static state from the moving state under the condition that the vehicle which carries the goods moves along with the vehicle; the client is used for sending the geographic position of the client to the server when the client is in a static state each time; the client is used for sending the delivery terminal to the server when the vehicle reaches the delivery terminal; the server side is used for generating a conveying path according to all received geographic positions, the conveying starting point and the conveying terminal, wherein the conveying path is used for writing RFID labels arranged on goods.

The system or the device is used for realizing the functions of the method in the above embodiment, and each module in the system or the device corresponds to each step in the method, which has been described in the method, and will not be described herein.

For example, the server side is configured to send the transport path to the client side; the client is used for calling the RFID reading function of the intelligent terminal and writing the conveying path into the RFID tag. Or the server side is used for storing the conveying path and generating a link of the conveying path, wherein the link points to the motion path. The server side is used for sending the link to the client side; the client is used for calling the RFID reading function of the intelligent terminal and writing the link into the RFID tag.

For another example, in the case where the intelligent terminal has no RFID reading function; the client is used for sending the conveying path or the link to an RFID read-write device, wherein the RFID read-write device is used for writing the conveying path or the link into the RFID tag.

The foregoing is merely exemplary of the present application and is not intended to limit the present application. Various modifications and variations of the present application will be apparent to those skilled in the art. Any modification, equivalent replacement, improvement, etc. which come within the spirit and principles of the application are to be included in the scope of the claims of the present application.

Claims

1. The method is characterized by being applied to software, wherein the software comprises a client and a server, the client is installed on an intelligent terminal, the intelligent terminal has a positioning function, and the intelligent terminal performs data interaction with the server through a 5G network, and the method comprises the following steps:

the client acquires a delivery starting point of a batch of goods and sends the delivery starting point to the server;

under the condition that the client moves along with a vehicle for transporting the goods, each time the client senses that the vehicle changes from a moving state to a static state, the client acquires the geographic position of the vehicle when the vehicle changes to the static state;

the client sends the geographic position of the client when the client is in a static state each time to the server;

when the vehicle with the client reaches a delivery destination, the delivery destination is sent to the server;

the server side generates a conveying path according to all received geographic positions, the conveying starting point and the conveying destination, wherein the conveying path is used for writing RFID labels arranged on goods;

the server side stores the conveying path and generates a link of the conveying path, wherein the link points to the conveying path;

the server side sends the transport path to the client side or sends the link to the client side;

the client calls an RFID reading function of the intelligent terminal and writes the conveying path or the link into the RFID tag; wherein, under the condition that the intelligent terminal has no RFID reading function; the client sends the conveying path to an RFID read-write device, wherein the RFID read-write device is used for writing the conveying path or the link into the RFID tag, a plurality of RFID read-write devices are arranged to encircle the batch of goods, the RFID is controlled to send data according to the frequency of the RFID tag at the same time, and the data are the data written into the RFID; each RFID writes data after receiving the written data; after writing data, the client uses the RFID read-write equipment to read a preset number of tags, and if the preset number of tags are successfully written with the data, the data writing is completed; if the data is not written successfully in the preset number of the tags, the mode that a plurality of RFID read-write devices are arranged to encircle the batch of goods is used again, and the RFID is controlled to simultaneously send the data according to the frequency of the RFID tags until all the RFID tags are written successfully.

2. A processing device for combining 5G and radio frequency labels with a cargo path is characterized by being applied to software, wherein the software comprises a client and a server, the client is arranged on an intelligent terminal, the intelligent terminal has a positioning function, the intelligent terminal performs data interaction with the server through a 5G network,

the client is used for acquiring a delivery starting point of a batch of goods and sending the delivery starting point to the server;

the client is used for acquiring the geographic position of the vehicle when the vehicle is changed into a static state every time the vehicle is perceived to be changed into the static state from the moving state under the condition that the vehicle which carries the goods moves along with the vehicle;

the client is used for sending the geographic position of the client to the server when the client is in a static state each time;

the client is used for sending the delivery terminal to the server when the vehicle reaches the delivery terminal;

the server side is used for generating a conveying path according to all received geographic positions, the conveying starting point and the conveying destination, wherein the conveying path is used for writing RFID labels arranged on the goods;

the server side is used for storing the conveying path and generating a link of the conveying path, wherein the link points to the conveying path;

the server side is used for sending the transport path to the client side or sending the link to the client side;

the client is used for calling an RFID reading function of the intelligent terminal and writing the conveying path or the link into the RFID tag; under the condition that the intelligent terminal has no RFID reading function; the client is used for sending the conveying path to an RFID read-write device, wherein the RFID read-write device is used for writing the conveying path or the link into the RFID tag, a plurality of RFID read-write devices are arranged to encircle the batch of goods, the RFID is controlled to send data according to the frequency of the RFID tag at the same time, and the data are written data in the RFID; each RFID writes data after receiving the written data; after writing data, the client uses the RFID read-write equipment to read a preset number of tags, and if the preset number of tags are successfully written with the data, the data writing is completed; if the data is not written successfully in the preset number of the tags, the mode that a plurality of RFID read-write devices are arranged to encircle the batch of goods is used again, and the RFID is controlled to simultaneously send the data according to the frequency of the RFID tags until all the RFID tags are written successfully.