CN115277849A - Vehicle releasing system and method for network breaking in parking lot - Google Patents

Abstract

The application provides a vehicle clearance system and a method for the break of a network in a parking lot, which relate to the technical field of parking lot management, and the system comprises: the system comprises a cloud server, a terminal, an exit detection device and a parking lot edge server; the terminal is connected with the exit detection equipment, the entrance time of a vehicle sent by the exit detection equipment is obtained, parking data are sent to the cloud server, a parking bill sent by the cloud server is obtained, and a message that the parking bill is paid successfully is sent to the exit detection equipment; the parking lot edge server is used for acquiring and caching the entrance data of each parking lot device after the network is disconnected after the parking lot network is found out; and receiving the information of the vehicles to be discharged, obtaining the entrance time of the vehicles to be discharged from the cached entrance data, sending the entrance time to the exit detection equipment, and sending a command of opening the gate to the corresponding exit after receiving the message of successful payment of the parking bill sent by the exit detection equipment. The method and the device can realize automatic charging and releasing of the vehicle during the network breaking period of the parking lot.

Description

Vehicle releasing system and method for network breaking in parking lot

Technical Field

The application relates to the technical field of parking lot management, in particular to a vehicle releasing system and method for parking lot network breaking.

Background

At present, a parking management system of a parking lot is deployed at a cloud end and communicates through an external network. When the network is disconnected, the parking lot display device displays the offline two-dimensional code, after the vehicle owner scans the code, the cloud bill is issued on the mobile phone, after the vehicle owner pays, the Bluetooth of the camera is linked through the Bluetooth of the mobile phone, and the brake is opened through Bluetooth communication. The disadvantages of this approach are:

the vehicle must enter the parking lot before the network is disconnected, and the cloud stores the entrance information of the vehicle so as to generate a bill; if the vehicle enters the parking lot after the network is disconnected, or else, a bill cannot be generated after the vehicle leaves the parking lot, the vehicle cannot be charged, and only can be abnormally released, so that the loss is caused to the parking lot. In addition, when the network is recovered, the incoming data after the network is disconnected has no synchronization mechanism, which may cause data omission.

Disclosure of Invention

In view of this, the present application provides a vehicle release system and method for parking lot network breaking to solve the above technical problems.

In a first aspect, an embodiment of the present application provides a vehicle clearance system for a yard breaking network, including: the system comprises a cloud server, a terminal, an exit detection device and a parking lot edge server; the parking lot edge server is connected with each parking lot device through a parking lot local area network;

the terminal is used for scanning the two-dimensional code of the off-line application program on the display device of the outlet when the vehicle is out of the field, establishing connection with the outlet detection equipment, acquiring the time of the vehicle entering the field, sent by the outlet detection equipment, sending parking data to the cloud server, acquiring a parking bill sent by the cloud server, and sending a message that the parking bill is paid successfully to the outlet detection equipment;

the exit detection equipment is used for sending the collected information of the vehicles to be discharged to the parking lot edge server and forwarding the time of entering the parking lot of the vehicles to be discharged, which is sent by the parking lot edge server, to the terminal;

the train yard edge server is used for acquiring and caching the entrance data of each train yard device after the disconnection between the train yard local area network and the external network is found; generating an offline two-dimensional code according to the information of each exit of the train yard and the offline departure processing program entrance, and pushing the offline two-dimensional code to a display device of each exit; and receiving the information of the vehicles to be discharged, obtaining the entrance time of the vehicles to be discharged from the cached entrance data, sending the entrance time to the exit detection equipment, and sending a command of opening the gate to the corresponding exit after receiving the message of successful payment of the parking bill sent by the exit detection equipment.

Further, the parking lot edge server is provided with: the device comprises a detection module, a cache module, a sending module, an offline two-dimensional code generation module and a release module;

the detection module is used for detecting the connection state of the parking lot local area network and the external network at regular time, and when the parking lot local area network is disconnected with the external network, the cache module, the sending module and the off-line two-dimensional code generating module are started;

the cache module is used for acquiring the entrance data of each yard device after the network is disconnected and caching the entrance data;

the sending module is used for acquiring the entrance time of the vehicle from the entrance data after receiving the vehicle information acquired by the exit detection equipment and sending the yard ID and the entrance time of the vehicle to the exit detection equipment;

the off-line two-dimensional code generating module is used for generating off-line application program two-dimensional codes for all exits of the parking lot and sending the off-line application program two-dimensional codes to the corresponding display devices, and the off-line application program two-dimensional codes comprise: a yard ID, an exit ID, and an access address of the offline application;

and the releasing module is used for sending a gate opening instruction to a corresponding outlet after receiving the message of successful parking bill payment sent by the outlet detection equipment.

Further, the yard edge server further comprises: and the uploading module is used for caching the incoming data and the outgoing data of each yard device during the network disconnection period after the connection between the yard local area network and the external network is recovered, and uploading all cached data to the cloud server.

Further, the terminal includes: the system comprises an exit detection device communication module, a cloud communication module and a parking bill payment module;

the exit detection equipment communication module is used for establishing connection between the terminal and the exit detection equipment through Bluetooth, RFID and/or NFC to acquire a train yard ID and the entrance moment of a train, which are sent by the exit detection equipment; sending a message that the payment of the parking bill is successful to the exit detection equipment;

the cloud communication module is used for sending the parking data of the vehicle to a cloud server, and the parking data comprise: the parking lot Identification (ID), the vehicle entering time, the current time, the vehicle entering type and the entrance ID are used for receiving a parking bill generated by the cloud server according to the parking data;

and the parking bill payment module is used for generating a message that the parking bill payment is successful after the information that the parking bill is paid is obtained.

Further, the terminal further includes: and the reminding module is used for reminding a user to start the Bluetooth, the RFID and/or the NFC of the terminal.

In a second aspect, an embodiment of the present application provides a vehicle release method for a vehicle yard network cut, which is applied to a vehicle release system for a vehicle yard network cut of the present application embodiment, and the method includes:

after the parking lot edge server finds that the parking lot local area network is disconnected with the external network, an offline application program two-dimensional code is generated according to information of each exit of the parking lot and an offline departure processing program inlet and is pushed to a display device of each exit;

the terminal scans the two-dimensional code of the off-line application program of the display device at the exit of the parking lot and establishes connection with exit detection equipment; the exit detection equipment sends the collected information of the vehicles to be discharged to a parking lot edge server;

the parking lot edge server acquires the entrance time of the vehicles to be discharged from the cached entrance data of each parking lot device after the network is disconnected, and sends the parking lot ID and the entrance time of the vehicles to be discharged to the terminal through the exit detection device;

the terminal sends parking data of the vehicle to a cloud server; receiving a parking bill generated by the cloud server according to the parking data; after the payment of the parking bill is completed, a message that the payment of the parking bill is successful is generated and sent to the exit detection equipment;

the exit detection equipment sends a message of successful payment of the parking bill to a parking lot edge server through a parking lot local area network; and after receiving the message that the parking bill is successfully paid, the parking lot edge server sends a command for opening the gate to the corresponding outlet.

Further, the offline application two-dimensional code includes: the yard ID, exit ID, and access address of the offline application.

Further, the terminal and the exit detection device establish a connection via bluetooth, RFID and/or NFC.

Further, the parking data includes: the yard ID, the time of approach of the vehicle, the current time, the type of the vehicle entering the yard, and the entrance ID.

Further, the method further comprises:

after finding that the parking lot local area network and the external network are connected again, the parking lot edge server caches the incoming data and the outgoing data of each parking lot device during the network disconnection period, and uploads all cached data to the cloud server.

The method and the device can realize automatic charging and releasing of the vehicle during the network breaking period of the parking lot.

Drawings

In order to more clearly illustrate the detailed description of the present application or the technical solutions in the prior art, the drawings needed to be used in the detailed description of the present application or the prior art description will be briefly introduced below, and it is obvious that the drawings in the following description are some embodiments of the present application, and other drawings can be obtained by those skilled in the art without creative efforts.

Fig. 1 is a functional block diagram of a vehicle release system for a yard break network according to an embodiment of the present disclosure;

fig. 2 is a functional structure diagram of a terminal according to an embodiment of the present disclosure;

fig. 3 is a functional block diagram of a yard edge server according to an embodiment of the present application;

fig. 4 is a flowchart of a vehicle clearance system method for yard outage provided in the embodiment of the present application.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present application clearer, the technical solutions in the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application, and it is obvious that the described embodiments are some embodiments of the present application, but not all embodiments. The components of the embodiments of the present application, generally described and illustrated in the figures herein, can be arranged and designed in a wide variety of different configurations.

Thus, the following detailed description of the embodiments of the present application, as presented in the figures, is not intended to limit the scope of the claimed application, but is merely representative of selected embodiments of the application. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present application.

First, the design idea of the embodiment of the present application is briefly introduced.

Currently, a parking lot management system is deployed at a cloud (cloud server) and communicates with a parking lot device through a network to realize management of a parking lot. When the network of the parking lot is disconnected, the parking lot cannot access the cloud server, and the parking lot has problems in normal operation.

In order to solve the technical problem, the method deploys an edge server (small server) in the parking lot, and the edge server is connected with each parking lot device through a parking lot local area network; the yard edge server is used for caching data of each yard device after network breaking, generating an offline application program two-dimensional code of each outlet and pushing the offline application program two-dimensional code to each outlet display device (yard device). When a vehicle leaves a parking lot, a vehicle owner enters an offline application program after scanning the two-dimensional code, the vehicle owner is connected with an exit detection device through a Bluetooth terminal, the exit detection device (parking lot device) collects vehicle information and sends the vehicle information to a parking lot edge server, the parking lot edge server acquires the entering time of the vehicle from entering data, the information is sent to the exit detection device through a parking lot local area network, an exit is forwarded to the terminal, the terminal sends parking data to a cloud end through a 4G/5G network, the cloud end generates a parking bill and sends the parking bill to the terminal, after the vehicle owner pays, the cloud end sends a release instruction to the terminal, the terminal sends the release instruction to the exit detection device, the exit detection device sends the exit detection device to the parking lot edge server, and the parking lot edge server sends a brake opening instruction through the parking lot local area network. After the network is recovered, the parking lot edge server can automatically cache the incoming data and the outgoing data of each parking lot device after being offline, and report the cached data to the cloud again.

This application is behind parking lot LAN and extranet disconnection, and parking lot edge server passes through LAN and each parking lot equipment (including export check out test set) communication, and export check out test set and terminal pass through bluetooth communication, and the terminal passes through 4G 5G network and high in the clouds communication to under the scene of parking lot broken network, can continue to use high in the clouds automatic billing function, thereby realized the normal operating of parking lot. In addition, in the present application, the validity of data is checked every time data is transmitted.

The method and the device can realize matching charging of vehicles entering the field before or after the network is disconnected, and can realize a complete mechanism for re-reporting data after network recovery. Under the condition of network disconnection, the vehicle yard personnel are not required to intervene for releasing, thereby avoiding the releasing in disorder and realizing the self-releasing of the vehicle owner. Meanwhile, the release record is stored, and the post-verification is guaranteed.

After introducing the application scenario and the design idea of the embodiment of the present application, the following describes a technical solution provided by the embodiment of the present application.

As shown in fig. 1, the present application provides a vehicle clearance system for vehicle yard breaking, where the system 100 includes: the system comprises a terminal 101, an exit detection device 102, a yard edge server 103 and a cloud server 104; the parking lot edge server 103 is connected with each parking lot device through a parking lot local area network; the yard equipment includes: the system comprises an entrance camera, an entrance gate, an entrance display screen, a parking lot camera, an exit gate, an exit display screen and the like.

The terminal 101 is used for scanning the two-dimensional code of the offline application program on the display device at the outlet when the vehicle is out of the field, establishing connection with the outlet detection equipment, acquiring the time of the vehicle entering the field, which is sent by the outlet detection equipment, sending parking data to the cloud server, acquiring a parking bill sent by the cloud server, and sending a message that the parking bill is successfully paid to the outlet detection equipment;

the exit detection device 102 is configured to send the collected information of the vehicles to be departed to the yard edge server, and forward the entry time of the vehicles to be departed, which is sent by the yard edge server, to the terminal;

the yard edge server 103 is used for acquiring and caching the entrance data of each yard device after the disconnection between the yard local area network and the external network is found; generating an offline two-dimensional code according to the information of each exit of the train yard and the offline departure processing program entrance, and pushing the offline two-dimensional code to a display device of each exit; receiving the information of the vehicles to be discharged, obtaining the entrance time of the vehicles to be discharged from the cached entrance data, and sending the entrance time to exit detection equipment; and after receiving the message of successful payment of the parking bill sent by the exit detection equipment, sending an instruction of opening the gate to the corresponding exit.

Specifically, as shown in fig. 2, the terminal 101 includes: an exit detection device communication module 201, a cloud communication module 202 and a parking bill payment module 203;

the exit detection device communication module 201 is configured to establish a connection between a terminal and an exit detection device through bluetooth, RFID and/or NFC, and obtain a train yard ID and an entry time of a vehicle, which are sent by the exit detection device; sending a message of successful parking bill payment to an exit detection device;

cloud communication module 202 for send the parking data of vehicle to the cloud server, the parking data includes: the parking lot ID, the vehicle entering time, the current time, the entering vehicle type and the entrance ID are used for receiving a parking bill generated by the cloud server according to the parking data;

and the parking bill payment module 203 is configured to generate a message that the parking bill payment is successful after the information that the parking bill is paid is obtained.

In addition, the terminal further includes: and the reminding module is used for reminding a user to start the Bluetooth, the RFID and/or the NFC of the terminal. Wherein bluetooth is preferentially used for communication with the exit monitoring device.

In this embodiment, the exit detection apparatus includes: and the exit camera, the channel monitoring, the high-order video, the intelligent identification all-in-one machine and the like can acquire the vehicle information of the exit channel.

Specifically, as shown in fig. 3, the yard edge server 103 is provided with: the system comprises a detection module 301, a caching module 303, a sending module 303, an offline two-dimensional code generation module 304 and a release module 305;

the detection module 301 is configured to detect a connection state of the yard local area network and the external network at regular time, and when the yard local area network and the external network are disconnected, start the cache module, the sending module and the offline two-dimensional code generation module;

the cache module 303 is configured to obtain the entrance data of each yard device after the network is disconnected and perform caching;

the sending module 303 is configured to obtain an entry time of the vehicle from the entry data after receiving the vehicle information acquired by the exit detection device, and send the yard ID and the entry time of the vehicle to the exit detection device;

the offline two-dimensional code generating module 304 is configured to generate an offline application two-dimensional code for each exit of the yard of vehicles, and send the offline application two-dimensional code to a corresponding display device, where the offline application two-dimensional code includes: a yard ID, an exit ID, and an access address of the offline application;

the releasing module 305 is configured to send an instruction to open a gate to a corresponding outlet after receiving the message that the parking bill payment sent by the outlet detection device is successful.

In addition, the yard edge server further comprises: and the uploading module is used for caching the incoming data and the outgoing data of each yard device during the network disconnection period after the connection between the yard local area network and the external network is recovered, and uploading all cached data to the cloud server.

As shown in fig. 4, an embodiment of the present application provides a vehicle clearance method for a yard network cut, including:

step 401: after the parking lot edge server finds that the parking lot local area network is disconnected with the external network, the parking lot edge server generates an offline application program two-dimensional code according to information of each exit of the parking lot and an offline departure processing program entrance and pushes the offline application program two-dimensional code to a display device of each exit;

wherein, the off-line application two-dimensional code comprises: the yard ID, exit ID, and access address of the offline application.

Step 402: the terminal scans the two-dimensional code of the off-line application program of the display device at the exit of the parking lot and establishes connection with exit detection equipment; the exit detection equipment sends the collected information of the vehicles to be discharged to a parking lot edge server;

wherein the terminal and the exit detection device establish a connection via bluetooth, RFID and/or NFC.

Step 403: the parking lot edge server acquires the entry time of the vehicles to be departed from the cached entry data of each parking lot device after the network is disconnected, and transmits the parking lot ID and the entry time of the vehicles to be departed to the terminal through the exit detection device;

step 404: the terminal sends parking data of the vehicle to a cloud server; receiving a parking bill generated by the cloud server according to the parking data; after the payment of the parking bill is completed, a message of successful payment of the parking bill is generated and sent to the exit detection equipment;

wherein the parking data comprises: the yard ID, the time of approach of the vehicle, the current time, the type of the vehicle entering the yard, and the entrance ID.

Step 405: the exit detection equipment sends a message of successful payment of the parking bill to a parking lot edge server through a parking lot local area network; and after receiving the message that the parking bill is successfully paid, the parking lot edge server sends a command for opening the gate to the corresponding outlet.

Furthermore, the method further comprises: and after finding that the parking lot local area network and the external network are restored to be connected, the parking lot edge server caches the entrance data and the exit data of each parking lot device during the network disconnection period, and uploads all the cached data to the cloud server.

Further, while the operations of the methods of the present application are depicted in the drawings in a particular order, this does not require or imply that these operations must be performed in this particular order, or that all of the illustrated operations must be performed, to achieve desirable results. Additionally or alternatively, certain steps may be omitted, multiple steps combined into one step execution, and/or one step broken down into multiple step executions.

While the preferred embodiments of the present application have been described, additional variations and modifications in those embodiments may occur to those skilled in the art once they learn of the basic inventive concepts. Therefore, it is intended that the appended claims be interpreted as including preferred embodiments and all alterations and modifications as fall within the scope of the application.

Finally, it should be noted that: the above embodiments are only used for illustrating the technical solutions of the present application, and not for limiting the same; although the present application has been described in detail with reference to the foregoing embodiments, it should be understood by those of ordinary skill in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some or all of the technical features may be equivalently replaced; and these modifications or substitutions do not depart from the scope of the technical solutions of the embodiments of the present application.

Claims (10)

1. A vehicle clearance system for yard breaking comprising: cloud server, its characterized in that still includes: the system comprises a terminal, an exit detection device and a parking lot edge server; the parking lot edge server is connected with each parking lot device through a parking lot local area network;

the terminal is used for scanning the two-dimensional code of the off-line application program on the display device of the outlet when the vehicle is out of the field, establishing connection with the outlet detection equipment, acquiring the time of the vehicle entering the field, sent by the outlet detection equipment, sending parking data to the cloud server, acquiring a parking bill sent by the cloud server, and sending a message that the parking bill is paid successfully to the outlet detection equipment;

the exit detection equipment is used for sending the collected information of the vehicles to be discharged to the parking lot edge server and forwarding the entering time of the vehicles to be discharged sent by the parking lot edge server to the terminal;

the parking lot edge server is used for acquiring and caching the entrance data of each parking lot device after the disconnection between the parking lot local area network and the external network is found; generating an offline two-dimensional code according to the information of each exit of the train yard and the offline departure processing program entrance, and pushing the offline two-dimensional code to a display device of each exit; and receiving the information of the vehicles to be discharged, obtaining the entrance time of the vehicles to be discharged from the cached entrance data, sending the entrance time to the exit detection equipment, and sending a command of opening the gate to the corresponding exit after receiving the message of successful payment of the parking bill sent by the exit detection equipment.

2. The vehicle clearance system for yard break according to claim 1, wherein said yard edge server is configured with: the device comprises a detection module, a cache module, a sending module, an offline two-dimensional code generation module and a release module;

the detection module is used for detecting the connection state of the parking lot local area network and the external network at regular time, and when the parking lot local area network is disconnected with the external network, the cache module, the sending module and the off-line two-dimensional code generating module are started;

the cache module is used for acquiring the entrance data of each yard device after the network is disconnected and caching the entrance data;

the sending module is used for acquiring the entrance time of the vehicle from the entrance data after receiving the vehicle information acquired by the exit detection equipment and sending the yard ID and the entrance time of the vehicle to the exit detection equipment;

the off-line two-dimensional code generating module is used for generating off-line application program two-dimensional codes for all exits of the parking lot and sending the off-line application program two-dimensional codes to the corresponding display devices, and the off-line application program two-dimensional codes comprise: a yard ID, an exit ID, and an access address of the offline application;

and the releasing module is used for sending a gate opening instruction to a corresponding outlet after receiving the message of successful parking bill payment sent by the outlet detection equipment.

3. The vehicle clearance system for yard break network of claim 2, wherein said yard edge server further comprises: and the uploading module is used for caching the incoming data and the outgoing data of each parking lot device during the network disconnection period after the parking lot local area network and the external network are recovered and connected, and uploading all cached data to the cloud server.

4. The yard break network vehicle clearance system of claim 2, wherein the terminal comprises: the system comprises an exit detection device communication module, a cloud communication module and a parking bill payment module;

the exit detection equipment communication module is used for establishing connection between the terminal and the exit detection equipment through Bluetooth, RFID and/or NFC to acquire a train yard ID and the entrance moment of a train, which are sent by the exit detection equipment; sending a message of successful parking bill payment to an exit detection device;

the cloud communication module is used for sending the parking data of the vehicle to a cloud server, and the parking data comprise: the parking lot Identification (ID), the vehicle entering time, the current time, the vehicle entering type and the entrance ID are used for receiving a parking bill generated by the cloud server according to the parking data;

and the parking bill payment module is used for generating a message that the parking bill payment is successful after the information that the parking bill is paid is obtained.

5. The vehicle clearance system for yard break network of claim 4, wherein said terminal further comprises: and the reminding module is used for reminding a user to start the Bluetooth, the RFID and/or the NFC of the terminal.

6. A vehicle release method for a vehicle yard broken network, which is applied to the vehicle release system for a vehicle yard broken network according to any one of claims 1 to 5, the method comprising:

after the parking lot edge server finds that the parking lot local area network is disconnected with the external network, an offline application program two-dimensional code is generated according to information of each exit of the parking lot and an offline departure processing program inlet and is pushed to a display device of each exit;

the terminal scans the two-dimensional code of the off-line application program of the display device at the exit of the parking lot and establishes connection with exit detection equipment; the exit detection equipment sends the collected information of the vehicles to be discharged to a parking lot edge server;

the parking lot edge server acquires the entrance time of the vehicles to be discharged from the cached entrance data of each parking lot device after the network is disconnected, and sends the parking lot ID and the entrance time of the vehicles to be discharged to the terminal through the exit detection device;

the terminal sends the parking data of the vehicle to a cloud server; receiving a parking bill generated by the cloud server according to the parking data; after the payment of the parking bill is completed, a message that the payment of the parking bill is successful is generated and sent to the exit detection equipment;

the exit detection equipment sends a message of successful payment of the parking bill to a parking lot edge server through a parking lot local area network; and after receiving the message that the parking bill is successfully paid, the parking lot edge server sends a command of opening the gate to the corresponding outlet.

7. The method for vehicle clearance for yard break network of claim 6, wherein said offline application two-dimensional code comprises: the yard ID, exit ID, and access address of the offline application.

8. The method for vehicle clearance in a yard break network of claim 6, wherein the terminal and exit detection device establish a connection via bluetooth, RFID and/or NFC.

9. The method for vehicle clearance for yard break network of claim 6 wherein said parking data comprises: the yard ID, the time of approach of the vehicle, the current time, the type of the vehicle entering the yard, and the entrance ID.

10. The method for vehicle clearance for yard break network of claim 6, further comprising:

and after finding that the parking lot local area network and the external network are restored to be connected, the parking lot edge server caches the entrance data and the exit data of each parking lot device during the network disconnection period, and uploads all the cached data to the cloud server.

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