CN111404987A - Vehicle management method and system based on RFID technology and L oRa network - Google Patents

Abstract

A vehicle management system based on an RFID technology and an L oRa network comprises a terminal sensing system and a control platform for bidirectional data transmission with the terminal sensing system through a L oRa network, wherein the terminal sensing system comprises a terminal sensing device, and the control platform comprises a link maintenance module, a data interface module and a device information service module, and the vehicle management method based on the RFID technology and a L oRa network is characterized in that the device information service module issues an AT command to the data interface module to obtain or modify the state of the terminal sensing device, the data interface module receives the AT command and sends the AT command to the terminal sensing device through the link maintenance module and the L oRa network, the terminal sensing device receives the command transmitted by the L oRa network, transmits information back to the device information service module through a L oRa network, the link maintenance module and the data interface module, and modifies the parameters of the terminal sensing device according to the command.

Description

Vehicle management method and system based on RFID technology and L oRa network

Technical Field

The invention relates to the technical field of vehicle management, in particular to a vehicle management method and system based on an RFID technology and an L oRa network.

Background

In recent years, with the rapid development of economic development and takeout industry, the quantity of motor vehicles and vehicles in each city is increased year by year, the problems of traffic accidents, vehicle theft and the like related to the motor vehicles and the vehicles are frequent, various problems related to the vehicles become potential safety hazards of urban traffic, and the management is urgent.

The RFID technology is a technology for realizing data acquisition and short-distance automatic query and response by performing non-contact data communication between a terminal sensing device and a tag, and at present, a system and a method for managing vehicles and the like based on the RFID technology have become an emerging direction in the industry, and how to provide a more stable data service platform for the vehicles through the RFID technology is a problem that needs to be solved at present.

Disclosure of Invention

The invention aims to overcome the defects of the prior art and provides a vehicle management method and system based on an RFID technology and an L oRa network.

The technical problem to be solved by the invention is realized by adopting the following technical scheme:

2. a vehicle management system based on RFID technology and L oRa network comprises a terminal sensing system and a control platform for bidirectional data transmission with the terminal sensing system through L oRa network, wherein the terminal sensing system comprises a terminal sensing device, and the control platform comprises a link maintenance module, a data interface module and a device information service module;

the terminal sensing equipment is used for acquiring RFID tag data of the vehicle in real time, packaging the RFID tag data into a data frame format and then sending the data frame format to the L oRa network;

the link maintenance module is connected between the data interface module and the L oRa network, bidirectional data transmission can be carried out between the data interface module and the L oRa network, and the link maintenance module is used for transmitting data;

the data interface module is connected with the link maintenance module and is used for converting the RFID tag data of the vehicle from a data frame into formatted data and sending an AT instruction transmitted by the equipment information service module to L oRa network through the link maintenance module;

the device information service module is connected with the data interface module, and can issue an AT instruction to the L oRa network through the data interface module and the link maintenance module so as to obtain a hardware version number and a loraID number of the terminal sensing device or modify a protocol type and a band type of the terminal sensing device.

Preferably, the management and control platform further comprises a data processing module and a data display module;

the data processing module is connected with the data interface module and used for analyzing the received structured data, acquiring data content and sending the data content to the data display module;

and the data display module is connected with the data processing module and is used for receiving the data content transmitted by the data processing module so as to display the received data, the equipment state and the link state in real time.

Preferably, the L oRa network is connected between the terminal sensing device and the link maintenance module, the terminal sensing device and the link maintenance module can send keepalive heartbeat messages to the L oRa network in real time, the L oRa network judges whether the terminal sensing device and the link maintenance module are in an online state according to the real-time receiving condition, and sends the judgment result to the data display module through the link maintenance module, the data interface module and the data processing module.

Preferably, the management and control platform further comprises a data storage module and a data service module;

the data storage module is connected with the data processing module and is used for carrying out persistence and backup on the data sent by the data processing module and sending the data to the data service module;

and the data service module is connected with the data storage module and is used for providing a data query interface and a push interface for the upper-layer platform so as to provide information query for a user.

A management method of a vehicle management system containing the RFID technology and L oRa network-based vehicle management system comprises the steps that an equipment information service module can issue an AT instruction to a terminal sensing device through a data interface module, a link maintenance module and a L oRa network to acquire information of the terminal sensing device, the terminal sensing device sends the information back to the equipment information service module through a L oRa network, the link maintenance module and the data interface module after receiving the instruction, the equipment information module can also issue the AT instruction to the terminal sensing device to modify parameters of the terminal sensing device, and the terminal sensing device modifies the parameters after receiving the instruction.

Preferably, the vehicle management method based on the RFID technology and L oRa network includes the following steps:

(a) the equipment information service module issues an AT instruction to the data interface module to acquire the state of the terminal sensing equipment;

(b) the data interface module receives an AT command, converts the AT command into a json format through the link maintenance module and sends the json format to the L oRa network;

(d) l oRa the network receives the instruction and finds out the corresponding terminal sensing device to send the instruction according to the instruction;

(e) the terminal sensing equipment receives L oRa network transmission instructions and transmits information such as hardware version numbers, loraID numbers and the like back to the L oRa network;

(f) l oRa the network transmits the received information of the terminal sensing device to the data interface module through the link maintenance module;

(h) the data interface module verifies the received terminal sensing equipment information and sends the information back to the equipment information service module.

Preferably, the vehicle management method based on the RFID technology and L oRa network further includes the following steps:

(a) the equipment information service module issues an AT instruction to the data interface module to modify the state of the terminal sensing equipment;

(b) the data interface module receives an AT command, converts the AT command into a json format through the link maintenance module and sends the json format to the L oRa network;

(d) l oRa the network receives the instruction and finds out the corresponding terminal sensing device to send the instruction according to the instruction;

(e) and the terminal sensing equipment receives L oRa the instruction transmitted by the network and modifies the protocol type and the band type according to the instruction.

A method for managing a vehicle management system based on RFID technology and L oRa network, comprising the steps of:

(a) the terminal sensing equipment collects RFID label data on the vehicle, packages the RFID label data into a data frame format and transmits the data frame format to L oRa network;

(b) l oRa the network transmits the data frame to the data interface module through the link maintenance module;

(c) the data interface module verifies and analyzes the data frame into formatted data and sends the formatted data to the data service module;

(d) the data service module analyzes the received formatted data according to the length of the data content, analyzes the field to obtain an RFID label id, an equipment number, a label electric quantity state, acquisition time and the like, and sends the RFID label id, the equipment number, the label electric quantity state, the acquisition time and the like to the data display module;

(e) and the data display module displays the RFID label id, the equipment number, the electric quantity state of the label and the acquisition time.

Preferably, the method further comprises the following steps:

(a) the terminal sensing equipment and the link maintenance module send keepalive heartbeat messages to the L oRa network;

(b) l oRa the network receives keepalive heartbeat message in real time, if the heartbeat message can be received, the terminal sensing device or the link maintenance module is judged to be in an online state, if the heartbeat message disappears, the terminal sensing device or the link maintenance module is judged to be in an offline state;

(c) l oRa the network transmits the status result of the terminal sensing device or the link maintenance module to the link maintenance module in real time;

(d) the link maintenance module transmits the state to the data display module through the data interface module and the data interface module for displaying.

Preferably, the method further comprises the following steps:

(a) the data service module encapsulates the received formatted data into a JavaBean type and sends the JavaBean type to the data storage module;

(b) the data storage module is used for persisting and backing up the received data and transmitting the data to the data service module;

(c) and the upper-layer platform queries the data through the data service module.

The invention has the advantages and positive effects that:

1. based on the mutual cooperation of the RFID technology and the L oRa network, the power consumption of the system is lower, the real-time acquisition is higher, the distance is longer, and the network transmission is safer, so that the application range is expanded, and the use cost is reduced.

2. The equipment information service module can monitor and inquire the terminal sensing equipment in real time and modify parameters, so that the terminal sensing equipment is more convenient to maintain, and the stability of system operation is ensured.

Drawings

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

FIG. 2 is a schematic diagram of an interface of the terminal sensing device of the present invention;

fig. 3 is a schematic diagram of a data frame format encapsulated by the terminal sensing device of the present invention.

Detailed Description

The embodiments of the invention will be described in further detail below with reference to the accompanying drawings:

as shown in FIG. 1, the invention provides a vehicle management system based on RFID technology and L oRa network, comprising a terminal sensing system and a control platform for bidirectional data transmission with the terminal sensing system through L oRa network, wherein the terminal sensing system comprises a terminal sensing device, and the control platform comprises a link maintenance module, a data interface module and a device information service module;

the terminal sensing equipment is used for acquiring RFID tag data of the vehicle in real time, packaging the RFID tag data into a data frame format and then sending the data frame format to the L oRa network;

the link maintenance module is connected between the data interface module and the L oRa network, bidirectional data transmission can be carried out between the data interface module and the L oRa network, and the link maintenance module is used for transmitting data;

the data interface module is connected with the link maintenance module and is used for converting the RFID tag data of the vehicle from a data frame into formatted data and sending an AT instruction transmitted by the equipment information service module to L oRa network through the link maintenance module;

the equipment information service module is connected with the data interface module, and can issue an AT instruction to a L oRa network through the data interface module and the link maintenance module so as to acquire a hardware version number and a loraID number of the terminal sensing equipment or modify a protocol type and a band type of the terminal sensing equipment, and the equipment information service module is communicated with a L oRa network through a L oRaWAN protocol.

In one embodiment of the invention, the terminal sensing system comprises an RFID tag arranged on a vehicle and a terminal sensing device arranged on a road, wherein vehicle information is stored in the RFID tag, and the terminal sensing device is used for collecting RFID tag data of the vehicle in real time, packaging the RFID tag data into a data frame format and then sending the data frame format to L oRa network.

In an embodiment of the present invention, as shown in fig. 2 and 3, after acquiring RFID tag data, a terminal sensing device encapsulates the RFID tag data into a corresponding data frame format, including 2 bytes of a data packet header, which adopts a fixed value of 0xFF, 2 bytes of the data packet total length, 1 byte of an instruction code, a length-variable data specific content, and 2 bytes of a CRC16 check code, specifically, the terminal sensing device includes a 2.4G module and a L oRa module, the 2.4G module is used for acquiring RFID tag data, the L oRa module is used for implementing network data transmission, the 2.4G module and the L oRa module communicate through a UART1 interface, UART1 is a data transparent transmission port, after acquiring RFID data by the 2.4G module, data is sent to the L oRa module through UART1, and then data is sent to a L oRa network through a radio frequency port of the L oRa module, the L oRa module is further provided with a 2 interface, and UART2 is an operation maintenance port, and when debugging the device, a UART2 is an UART interface directly connected to a adapter board, thereby facilitating various functions of the debugging device.

Furthermore, the control platform also comprises a data processing module and a data display module;

the data processing module is connected with the data interface module and used for analyzing the received structured data, acquiring data content and sending the data content to the data display module;

and the data display module is connected with the data processing module and is used for receiving the data content transmitted by the data processing module so as to display the received data, the equipment state and the link state in real time.

In an embodiment of the present invention, as shown in fig. 3, the data interface module verifies the received data frame, then parses the data frame into formatted data, and sends the formatted data to the data processing module, and the data processing module parses the data content again on the received formatted data, and parses the field to obtain the tag id, the device number, the tag electric quantity state, the acquisition time, and the like. Specifically, the data interface module receives data FF 21 a0 FF 0018F 1 FF 000000 EA DB 0000000000000000000145 BE 0E 173163D 3, analyzes the data according to length (third byte) 21 and type (4 th byte) a0, performs CRC check on the whole data, determines whether the result is consistent with end D3, obtains FFFF 0018F 1 FF 000000 EA DB 0000000000000000000145 BE, and then delivers the FFFF to the data processing module for processing, and the data processing module analyzes data content according to length, and analyzes fields to obtain tag id, device number, tag electric quantity state, acquisition time and the like.

Further, the L oRa network is connected between the terminal sensing device and the link maintenance module, the terminal sensing device and the link maintenance module can send keepalive heartbeat messages to the L oRa network in real time, the L oRa network judges whether the terminal sensing device and the link maintenance module are in an online state according to the real-time receiving condition, and sends the judgment result to the data display module through the link maintenance module, the data interface module and the data processing module.

Furthermore, the management and control platform also comprises a data storage module and a data service module;

the data storage module is connected with the data processing module and is used for carrying out persistence and backup on the data sent by the data processing module and sending the data to the data service module;

and the data service module is connected with the data storage module and is used for providing a data query interface and a push interface for the upper-layer platform so as to provide information query for a user.

The invention provides a vehicle management method based on an RFID (radio frequency identification) technology and an L oRa network, which comprises the following steps that an equipment information service module can issue an AT instruction to a terminal sensing device through a data interface module, a link maintenance module and a L oRa network to acquire information of the terminal sensing device, the terminal sensing device sends the information back to the equipment information service module through a L oRa network, the link maintenance module and the data interface module after receiving the instruction, the equipment information module can also issue the AT instruction to the terminal sensing device to modify parameters of the terminal sensing device, and the terminal sensing device modifies self parameters after receiving the instruction.

The vehicle management method based on the RFID technology and the L oRa network specifically comprises the following steps:

(a) the equipment information service module issues an AT instruction to the data interface module to acquire the state of the terminal sensing equipment;

(b) the data interface module receives an AT command, converts the AT command into a json format through the link maintenance module and sends the json format to the L oRa network;

(d) l oRa the network receives the instruction and finds out the corresponding terminal sensing device to send the instruction according to the instruction;

(e) the terminal sensing equipment receives L oRa network transmission instructions and transmits information such as hardware version numbers, loraID numbers and the like back to the L oRa network;

(f) l oRa the network transmits the received information of the terminal sensing device to the data interface module through the link maintenance module;

(h) the data interface module verifies the received terminal sensing equipment information and sends the information back to the equipment information service module.

The vehicle management method based on the RFID technology and the L oRa network specifically comprises the following steps:

(a) the equipment information service module issues an AT instruction to the data interface module to modify the state of the terminal sensing equipment;

(b) the data interface module receives an AT command, converts the AT command into a json format through the link maintenance module and sends the json format to the L oRa network;

(d) l oRa the network receives the instruction and finds out the corresponding terminal sensing device to send the instruction according to the instruction;

(e) and the terminal sensing equipment receives L oRa the instruction transmitted by the network and modifies the protocol type and the band type according to the instruction.

The invention provides another vehicle management method based on an RFID technology and an L oRa network, which is characterized by comprising the following steps:

(a) the terminal sensing equipment collects RFID label data on the vehicle, packages the RFID label data into a data frame format and transmits the data frame format to L oRa network;

(b) l oRa the network transmits the data frame to the data interface module through the link maintenance module;

(c) the data interface module verifies and analyzes the data frame into formatted data and sends the formatted data to the data service module;

(d) the data service module analyzes the received formatted data according to the length of the data content, analyzes the field to obtain an RFID label id, an equipment number, a label electric quantity state, acquisition time and the like, and sends the RFID label id, the equipment number, the label electric quantity state, the acquisition time and the like to the data display module;

(e) and the data display module displays the RFID label id, the equipment number, the electric quantity state of the label and the acquisition time.

Further, the method also comprises the following steps:

(a) the terminal sensing equipment and the link maintenance module send keepalive heartbeat messages to the L oRa network;

(b) l oRa the network receives keepalive heartbeat message in real time, if the heartbeat message can be received, the terminal sensing device or the link maintenance module is judged to be in an online state, if the heartbeat message disappears, the terminal sensing device or the link maintenance module is judged to be in an offline state;

(c) l oRa the network transmits the status result of the terminal sensing device or the link maintenance module to the link maintenance module in real time;

(d) the link maintenance module transmits the state to the data display module through the data interface module and the data interface module for displaying.

Further, the method also comprises the following steps:

(a) the data service module encapsulates the received formatted data into a JavaBean type and sends the JavaBean type to the data storage module;

(b) the data storage module is used for persisting and backing up the received data and transmitting the data to the data service module;

(c) and the upper-layer platform queries the data through the data service module.

In an embodiment of the invention, when a vehicle carrying an RFID label passes through an induction range of a terminal sensing device, the RFID label on the vehicle is read, the terminal sensing device transmits data to a link maintenance module through a L oRa network, the link maintenance module receives the data and transmits the data to a data interface module for data format conversion, a data frame is converted into formatted data, the converted data is analyzed through a data processing module, information such as user id, device number and position of the vehicle can be obtained through analysis, then the information is displayed in real time through a data display module, the data display module can simultaneously display the state of the terminal sensing device and the state of the link, so that a worker can find working problems in time, meanwhile, the data processing module can encapsulate the received data again, and perform data persistence operation and backup through a data storage module after encapsulation, and then transmit the data to a data service module, the data service module is provided with an inquiry interface and a password pushing interface, the user can inquire the vehicle information through a mobile phone or computer terminal end in real time, the data information is transmitted to a network interface module for reading and transmitting the data maintenance information, the APjs service module reads the state of the terminal sensing device in real time, and transmits a corresponding data maintenance instruction to a network interface 6754, the APjs module, the APjs and transmits a data maintenance instruction to a corresponding network management module, the APjs 36js module, and transmits a data maintenance module to a corresponding network management module to a network management module, and a network management module to obtain a network management module, and a network management module, the APjs module, and a network management module, the APjs module to obtain a network management module, and a system, the APjs, and a system, the.

It should be emphasized that the embodiments described herein are illustrative rather than restrictive, and thus the present invention is not limited to the embodiments described in the detailed description, but other embodiments derived from the technical solutions of the present invention by those skilled in the art are also within the scope of the present invention.

Claims (10)

1. The vehicle management system based on the RFID technology and the L oRa network is characterized by comprising a terminal sensing system and a control platform for bidirectional data transmission with the terminal sensing system through a L oRa network, wherein the terminal sensing system comprises a terminal sensing device, and the control platform comprises a link maintenance module, a data interface module and a device information service module;

the terminal sensing equipment is used for acquiring RFID tag data of the vehicle in real time, packaging the RFID tag data into a data frame format and then sending the data frame format to the L oRa network;

the link maintenance module is connected between the data interface module and the L oRa network, bidirectional data transmission can be carried out between the data interface module and the L oRa network, and the link maintenance module is used for transmitting data;

the data interface module is connected with the link maintenance module and is used for converting the RFID tag data of the vehicle from a data frame into formatted data and sending an AT instruction transmitted by the equipment information service module to L oRa network through the link maintenance module;

the device information service module is connected with the data interface module, and can issue an AT instruction to the L oRa network through the data interface module and the link maintenance module so as to obtain a hardware version number and a loraID number of the terminal sensing device or modify a protocol type and a band type of the terminal sensing device.

2. The vehicle management system based on the RFID technology and L oRa network of claim 1, wherein the management and control platform further comprises a data processing module, a data display module;

the data processing module is connected with the data interface module and used for analyzing the received structured data, acquiring data content and sending the data content to the data display module;

and the data display module is connected with the data processing module and is used for receiving the data content transmitted by the data processing module so as to display the received data, the equipment state and the link state in real time.

3. The vehicle management system based on the RFID technology and the L oRa network of claim 2, wherein the L oRa network is connected between a terminal sensing device and a link maintenance module, the terminal sensing device and the link maintenance module can send keepalive heartbeat messages to the L oRa network in real time, the L oRa network determines whether the terminal sensing device and the link maintenance module are in an online state according to a real-time receiving condition, and sends a determination result to the data display module through the link maintenance module, the data interface module and the data processing module.

4. The vehicle management system based on the RFID technology and L oRa network of claim 2, wherein the management and control platform further comprises a data storage module and a data service module;

the data storage module is connected with the data processing module and is used for carrying out persistence and backup on the data sent by the data processing module and sending the data to the data service module;

and the data service module is connected with the data storage module and is used for providing a data query interface and a push interface for the upper-layer platform so as to provide information query for a user.

5. The management method of the vehicle management system based on the RFID technology and the L oRa network is characterized in that the equipment information service module can issue an AT command to the terminal sensing equipment through the data interface module, the link maintenance module and the L oRa network to acquire information of the terminal sensing equipment, the terminal sensing equipment receives the command and then sends the information back to the equipment information service module through the L oRa network, the link maintenance module and the data interface module, the equipment information module can also issue the AT command to the terminal sensing equipment to modify parameters of the terminal sensing equipment, and the terminal sensing equipment modifies the parameters after receiving the command.

6. The RFID technology and L oRa network based vehicle management method according to claim 5, characterized by comprising the following steps:

(a) the equipment information service module issues an AT instruction to the data interface module to acquire the state of the terminal sensing equipment;

(b) the data interface module receives an AT command, converts the AT command into a json format through the link maintenance module and sends the json format to the L oRa network;

(d) l oRa the network receives the instruction and finds out the corresponding terminal sensing device to send the instruction according to the instruction;

(e) the terminal sensing equipment receives L oRa network transmission instructions and transmits information such as hardware version numbers, loraID numbers and the like back to the L oRa network;

(f) l oRa the network transmits the received information of the terminal sensing device to the data interface module through the link maintenance module;

(h) the data interface module verifies the received terminal sensing equipment information and sends the information back to the equipment information service module.

7. The RFID technology and L oRa network based vehicle management method according to claim 5, characterized by comprising the following steps:

(a) the equipment information service module issues an AT instruction to the data interface module to modify the state of the terminal sensing equipment;

(b) the data interface module receives an AT command, converts the AT command into a json format through the link maintenance module and sends the json format to the L oRa network;

(d) l oRa the network receives the instruction and finds out the corresponding terminal sensing device to send the instruction according to the instruction;

(e) and the terminal sensing equipment receives L oRa the instruction transmitted by the network and modifies the protocol type and the band type according to the instruction.

8. A management method for a vehicle management system based on RFID technology and L oRa network, which is characterized by comprising the following steps:

(a) the terminal sensing equipment collects RFID label data on the vehicle, packages the RFID label data into a data frame format and transmits the data frame format to L oRa network;

(b) l oRa the network transmits the data frame to the data interface module through the link maintenance module;

(c) the data interface module verifies and analyzes the data frame into formatted data and sends the formatted data to the data service module;

(d) the data service module analyzes the received formatted data according to the length of the data content, analyzes the field to obtain an RFID label id, an equipment number, a label electric quantity state, acquisition time and the like, and sends the RFID label id, the equipment number, the label electric quantity state, the acquisition time and the like to the data display module;

(e) and the data display module displays the RFID label id, the equipment number, the electric quantity state of the label and the acquisition time.

9. The management method of the vehicle management system based on the RFID technology and L oRa network of claim 6, comprising the following steps:

(a) the terminal sensing equipment and the link maintenance module send keepalive heartbeat messages to the L oRa network;

(b) l oRa the network receives keepalive heartbeat message in real time, if the heartbeat message can be received, the terminal sensing device or the link maintenance module is judged to be in an online state, if the heartbeat message disappears, the terminal sensing device or the link maintenance module is judged to be in an offline state;

(c) l oRa the network transmits the status result of the terminal sensing device or the link maintenance module to the link maintenance module in real time;

(d) the link maintenance module transmits the state to the data display module through the data interface module and the data interface module for displaying.

10. The method for managing a vehicle management system based on RFID technology and L oRa network according to claim 6, further comprising the steps of:

(a) the data service module encapsulates the received formatted data into a JavaBean type and sends the JavaBean type to the data storage module;

(b) the data storage module is used for persisting and backing up the received data and transmitting the data to the data service module;

(c) and the upper-layer platform queries the data through the data service module.

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