CN108133548B - Electronic fence type NFC payment based method for sharing bicycle big data scheduling system - Google Patents

Abstract

An electronic fence type NFC payment sharing bicycle and big data scheduling control system comprises a buried NFC card, an NFC sharing bicycle and a big data scheduling control system. The embedded NFC card is placed in a public place allowing parking, one front wheel grounding part of each parking space is placed, and the front wheel grounding part is made into a floor tile type, wherein the position of the NFC card is coated with a conspicuous color mark. A plurality of NFC devices and bluetooth controlling means are pasted to solar energy NFC bluetooth rim, and solar cell is pasted to the inboard, and the position of placing NFC device and bluetooth controlling means scribbles bright-colored color as the sign. The NFC device and the Bluetooth control device comprise leg batteries, and the NFC device and the Bluetooth control device are connected with the solar battery through a wire and a rim; the NFC device works in a main equipment mode after being awakened by the Bluetooth control device, reads the position and the payment information of the buried NFC card and sends the position and the payment information to the Bluetooth control device.

Description

Electronic fence type NFC payment based method for sharing bicycle big data scheduling system

Technical Field

The invention relates to the technical field of big data, artificial intelligence, financial payment, Internet of things, NFC (near field communication), smart cities and shared bicycles, in particular to a method for paying a shared bicycle big data scheduling system based on electronic fence type NFC.

Background

The shared bicycle is a novel service mode for the convergence development of the mobile internet and the rented bicycles. In recent years, the internet renting bicycles in China are rapidly developed, so that the method plays an active role in better meeting public travel demands, effectively solving the problem of 'the last kilometer' of urban traffic travel, relieving urban traffic congestion, constructing a green travel system and the like, and promotes the development of sharing economy. But also has the problems of disorderly parking and disorderly placing of vehicles, improper operation and maintenance of the vehicles, unrealized responsibility of enterprise subjects, user fund and information safety risks and the like.

The 'guiding opinions about encouraging and standardizing the development of Internet rented bicycles' stipulate that each city needs to formulate a bicycle parking area setting technical guide rule suitable for local characteristics and standardize the bicycle parking point position setting. For areas and road sections which are not suitable for parking, a negative list can be established to carry out parking prohibition management. For places such as important business areas of cities, public transportation stations, transportation hubs, residential areas, tourist attractions and the like, matched bicycle parking points should be planned to standardize bicycle parking.

At present, shared bicycle parking occupies public places, charging is not needed, the main reason is charging difficulty, and therefore no capital investment is caused for parking point construction, and the construction cannot be mentioned. Moreover, the shared bicycle is parked in a private place, an accurate and simple charging mode is not available, so that the shared bicycle is small in use range, and the shared bicycle is not allowed to be parked in the private place.

On the other hand, the error of the GPS of the static object is about 10 meters, and the positions of the close-contact motor vehicle lane and the parking space are difficult to identify, so that the implementation of the parking forbidding management of the negative list is difficult to realize technically.

A 26 inch bicycle refers to a bicycle wheel having a diameter dimension of 26 inches (in) =66.04 centimeters (cm) and a radius of 33 cm. if a five spoke front wheel is required to align any front wheel spoke with the ground mark during parking, the user needs to lift the front wheel by 17 cm less.

Disclosure of Invention

The embodiment of the invention provides a method for paying a shared single-vehicle big data scheduling system based on electronic fence type NFC, and aims to solve the problems of setting and construction of parking positions of a shared single vehicle.

One of the purposes of the invention is to solve the construction fund problem of the parking point and realize the charging parking.

One of the objectives of the present invention is to technically implement negative inventory enforcement parking management.

The invention achieves the above object through the following technical scheme.

The electronic fence type NFC payment sharing bicycle big data scheduling system comprises a buried NFC card, an NFC sharing bicycle and a big data scheduling control system.

The embedded NFC card is placed in a public place allowing parking, one front wheel grounding part of each parking space is placed, the front wheel grounding part is made into a floor tile type, the NFC card is coated with a prominent color mark or is hidden in a thick wear-resistant material with the size of the card and coated with the prominent color mark, and the ground is knocked off and embedded when the embedded NFC card is used; each card has a unique number, latitude and longitude of a placement address and parking fee payment information.

The parking spaces with the buried NFC cards are formed into buried NFC card parking spaces.

The NFC sharing bicycle comprises a wrapping type inflation-free tire, a solar NFC Bluetooth rim, an intelligent bicycle lock and a unique number.

The inboard of pneumatic tire is exempted from to parcel formula is close the part of rim, has certain concave position for place NFC device and bluetooth controlling means, the position of placing NFC device and bluetooth controlling means scribbles bright-colored color as the sign.

A plurality of NFC devices and bluetooth controlling means are pasted in the solar energy NFC bluetooth rim outside, and solar cell is pasted to the inboard, and the position of placing NFC device and bluetooth controlling means scribbles bright-colored color as the sign.

The NFC device and the Bluetooth control device comprise weld leg batteries, NFC devices and Bluetooth control devices which are welded on the outer side of the rim together, wherein the position of the Bluetooth control device is the direction close to the intelligent lock when the rim is grounded; the NFC device and the Bluetooth control device are connected with the solar battery through the rim through wires; the Bluetooth control device is used for communicating with an intelligent lock of the shared bicycle, receiving the control of the intelligent lock and dispatching the NFC device and the power supply; the NFC device works in a main equipment mode after being awakened by the Bluetooth control device, reads the position and the payment information of the buried NFC card and sends the position and the payment information to the Bluetooth control device.

The solar cell is used for charging the welding leg battery and providing a power supply for the NFC device and the Bluetooth control device.

The intelligent vehicle lock comprises a central control unit, a GPS positioning module, an electromechanical vehicle locking button, a wireless mobile communication module and a Bluetooth device; the Bluetooth device is used for receiving the position and payment information transmitted by the NFC device and the Bluetooth control device and transmitting the position and payment information to the big data scheduling control system through the wireless mobile communication module; and the electromechanical vehicle locking device is used for a client to switch on and off a vehicle lock through a client APP of the big data scheduling control system.

The big data scheduling control system comprises a big data scheduling control server and a big data scheduling control system client APP and is used for carrying out big data analysis, scheduling and business processing on the buried NFC card parking space and the NFC sharing bicycle.

A use method of a shared bicycle big data scheduling system based on electronic fence type NFC payment comprises the following steps.

A. Five groups of NFC devices and Bluetooth control devices are installed on the front wheel of the NFC sharing single vehicle; the Bluetooth control device is connected with the intelligent vehicle lock through Bluetooth.

B. The method comprises the steps of installing a buried NFC card on the ground where a vehicle can be parked, establishing a buried NFC card parking space, and setting the position and payment information of the NFC card.

C. And placing the NFC sharing bicycle on the buried NFC card parking space by the sharing bicycle supplier.

D. And the client A downloads the client APP of the big data scheduling control system.

E. Customer A seeks the NFC sharing bicycle that buried NFC card parking stall was parked, sweeps the sign indicating number and unblanks and rent the car, and the intelligence lock is through the NFC device and the bluetooth controlling means communication of bluetooth and front wheel, opens the lock and upload information to big data scheduling control server after reading buried NFC card information.

F. The big data scheduling control server records and updates the information of all buried NFC card parking spaces in real time, marks whether the buried NFC card parking spaces are empty, and if the buried NFC card parking spaces are not empty, marks NFC sharing single cars parked in the buried NFC card parking spaces and marks NFC sharing single cars in transit.

G. And if the NFC shared bicycle intelligent lock when the client A unlocks does not read the information of the buried NFC card, the NFC shared bicycle is represented to be moved, and the big data scheduling control system records that the original parking space of the NFC shared bicycle used by the client A is empty.

H. Customer A arrives the destination, and big data dispatch control system client APP gives the parking stall of near vacant of destination, and customer A also can look for scribbling the buried NFC card parking stall of conspicuous color sign.

I. Customer A pushes away the parking stall with NFC sharing bicycle, scribble NFC device and the bluetooth controlling means that bright-colored color sign was scribbled to arbitrary group of front wheel when being close to scribble the buried NFC card buried ground of conspicuous color sign, lift NFC sharing bicycle a little, the distance that is less than 17 centimetres is pushed forward or backed off, the front wheel that will be closest to buried NFC card scribbles bright-colored color sign part and aims at buried NFC card and puts down, through big data scheduling control system customer end APP or press electromechanical lock car button and go back the car.

J. After the intelligent vehicle lock receives the vehicle returning information, the NFC device of the front wheel is activated through Bluetooth, the position and the payment information of the NFC device are read and uploaded to the big data scheduling control server, and after the big data scheduling control server deducts the vehicle renting and parking fees, the service is finished, the charging is stopped, and a client A is informed.

K. If in step F, if the big data dispatching control system cannot receive the position and payment information of the NFC device, reading GPS information of the NFC sharing bicycle, carrying out big data analysis by combining an empty buried NFC card parking space near the position, if judging that the empty buried NFC card parking space exists, informing a customer A to place the NFC sharing bicycle well, coating a bright-colored identification part on a front wheel closest to the buried NFC card to be aligned with the buried NFC card to be put down, if the empty buried NFC card parking space still fails to be read, requiring the customer A to take a picture through a big data dispatching control system client APP to upload, carrying out artificial intelligence recognition on the picture by using big data, confirming that the front wheel of the NFC sharing bicycle is coated with the bright-colored identification part to be aligned with the buried NFC card, finishing the service, stopping charging and informing the customer A.

If it does not have empty buried NFC card parking stall near the judgement, big data dispatch control system through big data dispatch control system customer end APP instruct the customer to park to nearest empty buried NFC card parking stall, assign the staff to the scene and receive the car, vacate buried NFC card parking stall, if the customer is not according to guiding the parking, then do not end this business, continue to charge, withhold predetermined penalty and pay the staff and receive the car and influence the public extra charge of passing in public place.

The method has the beneficial effects that: and guiding the sharing bicycle to be orderly put for use.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without inventive exercise.

FIG. 1: electronic fence type NFC payment based shared bicycle big data scheduling system.

Solar energy NFC bluetooth rim, wherein, FIG. 2 a: section view of rim; FIG. 2 b: a top view of the rim; FIG. 2 c: side view of rim.

FIG. 3: use method of the electronic fence type NFC payment sharing bicycle big data scheduling system.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. 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 invention.

Embodiment l is based on electronic fence formula NFC payment sharing bicycle big data scheduling system.

As shown in fig. 1, the electronic fence type NFC payment sharing bicycle big data scheduling system in the embodiment of the present invention includes a buried NFC card, an NFC sharing bicycle, and a big data scheduling control system.

The embedded NFC card is placed in a public place where parking is allowed, one front wheel grounding part of each parking space is placed, and the front wheel grounding part is made into a floor tile type, wherein the NFC card is coated with a conspicuous color mark or is hidden in a thick wear-resistant material with the size of a card and coated with the conspicuous color mark, and the ground is knocked off and embedded when the embedded NFC card is used; each card has a unique number, latitude and longitude of a placement address and parking fee payment information.

The parking spaces with the buried NFC cards are formed into buried NFC card parking spaces.

The NFC sharing bicycle comprises a wrapping type inflation-free tire, a solar NFC Bluetooth rim, an intelligent bicycle lock and a unique number.

The inboard of pneumatic tire is exempted from to parcel formula is close the part of rim, has certain concave position for place NFC device and bluetooth controlling means, the position of placing NFC device and bluetooth controlling means scribbles bright-colored color as the sign.

A plurality of NFC devices and bluetooth controlling means are pasted in the solar energy NFC bluetooth rim outside, and solar cell is pasted to the inboard, and the position of placing NFC device and bluetooth controlling means scribbles bright-colored color as the sign.

The NFC device and the Bluetooth control device comprise weld leg batteries, NFC devices and Bluetooth control devices which are welded on the outer side of the rim together, wherein the position of the Bluetooth control device is the direction close to the intelligent lock when the rim is grounded; the NFC device and the Bluetooth control device are connected with the solar battery through the rim through wires; the Bluetooth control device is used for communicating with an intelligent lock of the shared bicycle, receiving the control of the intelligent lock and dispatching the NFC device and the power supply; the NFC device works in a main equipment mode after being awakened by the Bluetooth control device, reads the position and the payment information of the buried NFC card and sends the position and the payment information to the Bluetooth control device.

The solar cell is used for charging the welding leg battery and providing a power supply for the NFC device and the Bluetooth control device.

The intelligent vehicle lock comprises a central control unit, a GPS positioning module, an electromechanical vehicle locking button, a wireless mobile communication module and a Bluetooth device; the Bluetooth device is used for receiving the position and payment information transmitted by the NFC device and the Bluetooth control device and transmitting the position and payment information to the big data scheduling control system through the wireless mobile communication module; and the electromechanical vehicle locking device is used for a client to switch on and off a vehicle lock through a client APP of the big data scheduling control system.

The big data scheduling control system comprises a big data scheduling control server and a big data scheduling control system client APP and is used for carrying out big data analysis, scheduling and business processing on the buried NFC card parking space and the NFC sharing bicycle.

Embodiment 2 solar NFC bluetooth rim.

As shown in fig. 2c, in the embodiment of the present invention, a plurality of NFC devices and bluetooth control devices are attached to the outer side of the solar NFC bluetooth rim, a solar cell is attached to the inner side of the solar NFC bluetooth rim, and bright colors are coated on the positions where the NFC devices and the bluetooth control devices are placed as identifiers.

As shown in fig. 2b, the NFC device and the bluetooth control device include a leg battery, an NFC device, and a bluetooth control device, which are welded together outside the rim, where the location of the bluetooth control device is the direction of approaching the smart lock when the rim is grounded. As shown in fig. 2a, the NFC device and the bluetooth control device are connected to the solar cell through the rim by wires; the Bluetooth control device is used for communicating with an intelligent lock of the shared bicycle, receiving the control of the intelligent lock and dispatching the NFC device and the power supply; the NFC device works in a main equipment mode after being awakened by the Bluetooth control device, reads the position and the payment information of the buried NFC card and sends the position and the payment information to the Bluetooth control device.

The solar cell is used for charging the welding leg battery and providing a power supply for the NFC device and the Bluetooth control device.

Embodiment 3 is a method for using a shared bicycle big data scheduling system based on electronic fence type NFC payment.

As shown in fig. 3, a method for using a payment sharing bicycle big data scheduling system based on electronic fence type NFC according to an embodiment of the present invention includes the following steps.

A. Five groups of NFC devices and Bluetooth control devices are installed on the front wheel of the NFC sharing single vehicle; the Bluetooth control device is connected with the intelligent vehicle lock through Bluetooth.

B. The method comprises the steps of installing a buried NFC card on the ground where a vehicle can be parked, establishing a buried NFC card parking space, and setting the position and payment information of the NFC card.

C. And placing the NFC sharing bicycle on the buried NFC card parking space by the sharing bicycle supplier.

D. And the client A downloads the client APP of the big data scheduling control system.

E. Customer A seeks the NFC sharing bicycle that buried NFC card parking stall was parked, sweeps the sign indicating number and unblanks and rent the car, and the intelligence lock is through the NFC device and the bluetooth controlling means communication of bluetooth and front wheel, opens the lock and upload information to big data scheduling control server after reading buried NFC card information.

F. And the big data scheduling control server records and updates the information of all parking spaces in real time, marks whether the parking spaces are empty, marks the unique serial number of the NFC sharing single car of the buried NFC card parking spaces if the parking spaces are not empty, and marks the NFC sharing single car in transit.

G. And if the NFC shared bicycle intelligent lock when the client A unlocks does not read the information of the buried NFC card, the NFC shared bicycle is represented to be moved, and the big data scheduling control system records that the original parking space of the NFC shared bicycle used by the client A is empty.

H. Customer A arrives the destination, and big data dispatch control system client APP gives the parking stall of near vacant of destination, and customer A also can look for scribbling the buried NFC card parking stall of conspicuous color sign.

I. Customer A pushes away the parking stall with NFC sharing bicycle, scribble NFC device and the bluetooth controlling means that bright-colored color sign was scribbled to arbitrary group of front wheel when being close to scribble the buried NFC card buried ground of conspicuous color sign, lift NFC sharing bicycle a little, the distance that is less than 17 centimetres is pushed forward or backed off, the front wheel that will be closest to buried NFC card scribbles bright-colored color sign part and aims at buried NFC card and puts down, through big data scheduling control system customer end APP or press electromechanical lock car button and go back the car.

J. After the intelligent vehicle lock receives the vehicle returning information, the NFC device of the front wheel is activated through Bluetooth, the position and the payment information of the NFC device are read and uploaded to the big data scheduling control server, and after the big data scheduling control server deducts the vehicle renting and parking fees, the service is finished, the charging is stopped, and a client A is informed.

K. If in step F, if the position and payment information of the NFC device can not be received by the big data dispatching control system, reading GPS information of the NFC sharing bicycle, carrying out big data analysis on an empty buried NFC card parking space near the position, if judging that the empty buried NFC card parking space exists, informing a customer A to place the NFC sharing bicycle well, coating a bright-colored identification part on a front wheel closest to the buried NFC card to be aligned with the buried NFC card to be put down, if the empty buried NFC card parking space still exists, requiring the customer A to take a picture through a big data dispatching control system client APP to upload, carrying out artificial intelligence recognition on the picture by the big data dispatching control server, confirming that the front wheel of the NFC sharing bicycle is coated with the bright-colored identification part to be aligned with the buried NFC card, finishing the service, stopping charging and informing the customer A.

If it does not have empty buried NFC card parking stall near the judgement, big data dispatch control system through big data dispatch control system customer end APP instruct the customer to park to nearest empty buried NFC card parking stall, assign the staff to the scene and receive the car, vacate buried NFC card parking stall, if the customer is not according to guiding the parking, then do not end this business, continue to charge, withhold predetermined penalty and pay the staff and receive the car and influence the public extra charge of passing in public place.

The principle and the implementation mode of the invention are explained by applying specific embodiments in the invention, and the description of the embodiments is only used for helping to understand the method and the core idea of the invention; meanwhile, for a person skilled in the art, according to the idea of the present invention, there may be variations in the specific embodiments and the application scope, and in summary, the content of the present specification should not be construed as a limitation to the present invention.

Claims (1)

1. The use method of the electronic fence type NFC payment sharing bicycle big data scheduling system is characterized by comprising the following steps:

A. five groups of NFC devices and Bluetooth control devices are installed on the front wheel of the NFC sharing single vehicle; the Bluetooth control device is connected with the intelligent vehicle lock through Bluetooth;

B. installing a buried NFC card on the ground where parking can be performed, establishing a buried NFC card parking space, and setting the position and payment information of the NFC card;

C. a sharing bicycle supplier places an NFC sharing bicycle in a buried NFC card parking space;

D. a client A downloads a big data scheduling control system client APP;

E. the method comprises the steps that a customer A searches for an NFC shared bicycle parked in a buried NFC card parking space, a code is scanned to unlock and rent the bicycle, an intelligent bicycle lock is communicated with an NFC device and a Bluetooth control device of a front wheel through Bluetooth, and after information of the buried NFC card is read, the bicycle lock is unlocked and the information is uploaded to a big data scheduling control server;

F. the big data scheduling control server records and updates information of all parking spaces in real time, marks whether the parking spaces are empty, marks NFC shared single cars parked in the buried NFC card parking spaces and marks the NFC shared single cars in transit if the parking spaces are not empty;

G. if the information of the buried NFC card cannot be read by the NFC shared bicycle intelligent lock when the client A unlocks, the NFC shared bicycle is represented to be moved, and the big data scheduling control system records that the original parking space of the NFC shared bicycle used by the client A is empty;

H. the method comprises the following steps that when a customer A arrives at a destination, a big data scheduling control system customer APP gives an empty parking space near the destination, and the customer A can also find a buried NFC card parking space coated with a conspicuous color mark;

I. the method comprises the steps that a customer A pushes an NFC (near field communication) shared bicycle to a parking space, when an NFC device and a Bluetooth control device, which are coated with bright-colored identification, of any group of front wheels are close to a buried NFC card coated with a prominent-colored identification, the NFC shared bicycle is slightly lifted, the NFC shared bicycle is pushed forwards or retreated by a distance less than 17 centimeters, the part, which is closest to the buried NFC card, of the front wheels coated with the bright-colored identification is placed down in alignment with the buried NFC card, and the NFC card is returned through a big data dispatching control system client APP or an electromechanical car locking button is pressed;

J. after the intelligent vehicle lock receives the vehicle returning information, the NFC device of the front wheel is activated through Bluetooth, the position and the payment information of the NFC device are read and uploaded to the big data scheduling control server, and after the big data scheduling control server deducts the vehicle renting and parking fees, the service is finished, the charging is stopped, and a client A is informed;

K. if the position and payment information of the NFC device cannot be received by the big data scheduling control system in the step F, reading GPS information of the NFC shared bicycle, performing big data analysis by combining an empty buried NFC card parking space near the position, if the empty buried NFC card parking space is judged to exist, informing a customer A of placing the NFC shared bicycle well, coating a bright color identification part on a front wheel closest to the buried NFC card to be aligned with the buried NFC card to be put down, if the empty buried NFC card parking space is still judged to be read out, requiring the customer A to take a picture through a big data scheduling control system client APP to upload, carrying out artificial intelligence recognition on the picture by using big data, confirming that the bright color identification part coated on the front wheel of the NFC shared bicycle is aligned with the buried NFC card, ending the service, stopping charging and informing the customer A;

if the situation that no empty buried NFC card parking space exists nearby is judged, the big data dispatching control system instructs a customer to park in the nearest empty buried NFC card parking space through a big data dispatching control system client APP, assigns workers to receive vehicles on site, vacates the buried NFC card parking space, if the customer does not park according to guidance, the service is not finished, charging is continued, and a preset penalty is deducted to pay for the collection of the workers and the extra cost influencing the public passage in public places;

electronic fence type NFC payment sharing bicycle-based big data scheduling system comprises: the embedded NFC card, the NFC sharing bicycle and the big data scheduling control system are arranged;

the embedded NFC card is placed in a public place allowing parking, one front wheel grounding part of each parking space is placed, the front wheel grounding part is made into a floor tile type, the NFC card is coated with a prominent color mark or is hidden in a thick wear-resistant material with the size of the card and coated with the prominent color mark, and the ground is knocked off and embedded when the embedded NFC card is used; each card has a unique number, longitude and latitude of a placement address and parking fee payment information;

the parking spaces with the buried NFC cards form buried NFC card parking spaces;

the NFC sharing bicycle comprises a wrapping type inflation-free tire, a solar NFC Bluetooth rim, an intelligent bicycle lock and a unique number;

the inner side of the wrapping type inflation-free tire, which is close to the rim, is provided with a certain concave position for placing an NFC device and a Bluetooth control device, and the positions for placing the NFC device and the Bluetooth control device are coated with bright colors as marks;

the outer side of the solar NFC Bluetooth rim is pasted with a plurality of NFC devices and Bluetooth control devices, the inner side of the solar NFC Bluetooth rim is pasted with a solar cell, and positions for placing the NFC devices and the Bluetooth control devices are coated with bright colors as marks;

the NFC device and the Bluetooth control device comprise weld leg batteries, NFC devices and Bluetooth control devices which are welded on the outer side of the rim together, wherein the position of the Bluetooth control device is the direction close to the intelligent lock when the rim is grounded; the NFC device and the Bluetooth control device are connected with the solar battery through the rim through wires; the Bluetooth control device is used for communicating with an intelligent lock of the shared bicycle, receiving the control of the intelligent lock and dispatching the NFC device and the power supply; the NFC device works in a main equipment mode after being awakened by the Bluetooth control device, reads the position and payment information of the buried NFC card and sends the position and payment information to the Bluetooth control device;

the solar cell is used for charging the welding leg battery and providing power for the NFC device and the Bluetooth control device;

the intelligent vehicle lock comprises a central control unit, a GPS positioning module, an electromechanical vehicle locking button, a wireless mobile communication module and a Bluetooth device; the Bluetooth device is used for receiving the position and payment information transmitted by the NFC device and the Bluetooth control device and transmitting the position and payment information to the big data scheduling control system through the wireless mobile communication module; the electromechanical vehicle locking device is used for a client to switch on and off a vehicle lock through a client APP of the big data scheduling control system;

the big data scheduling control system comprises a big data scheduling control server and a big data scheduling control system client APP and is used for carrying out big data analysis, scheduling and service processing on the buried NFC card parking space and the NFC sharing bicycle.

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