CN113506119A - APP-based charging pile transaction management method and system - Google Patents

Abstract

The invention provides a charging pile transaction management method based on APP, which comprises the following steps: a user logs in a terminal APP to register, real-name authentication of a service platform is completed, and an authorized manager synchronously links a user account; an operator logs in a terminal APP for registration, real-name authentication of a service platform is completed, an authorization manager binds an operator account number to a charging pile block chain device serial number and then synchronously links a chain, and a corresponding operator identity identifier and a public and private key are generated; responding to payment of a user for the charging service, and requesting the user to sign the order by using a private key by the terminal APP; the charging pile block chain device verifies and stores the order information, the charging record and the user order signature to a block chain, the block chain performs identity authentication, and finally, data storage is performed; the method provided by the invention ensures the transparence of data and the authenticity and unique traceability of order information through the identity authentication of the user, the operator and the corresponding charging pile equipment and the authentication of the service platform.

Description

APP-based charging pile transaction management method and system

Technical Field

The invention belongs to the field of new energy automobiles, and particularly relates to a charging pile transaction management method and system based on APP.

Background

In recent years, along with the rapid increase of the user quantity of electric automobiles, a large number of electric automobile charging piles are connected to a power grid, and charging pile operators are more and more. Each charging pile operator adopts centralized operation, the transaction data and the identity data of the charging pile equipment and users cannot be shared, so that the transaction data is difficult to trace, and cross-operator and cross-platform payment cannot be realized; there are even a number of operators who forge order information for profit.

Disclosure of Invention

The invention mainly aims to overcome the defects in the prior art and provide an APP-based charging pile transaction management method, which ensures the transparence of data and the authenticity and unique traceability of order information through the identity authentication of users, operators and corresponding charging pile equipment and the authentication of a service platform.

The invention adopts the following technical scheme:

a charging pile transaction management method based on APP comprises the following steps:

a user logs in a terminal APP to register, real-name authentication of a service platform is completed, an authorization manager synchronously links a user account number, and sends a user identity identifier and a public and private key on a generated block chain to the service platform, and the service platform returns the user identity identifier and the public and private key to the terminal;

an operator logs in a terminal APP for registration, real-name authentication of a service platform is completed, an authorization manager binds an operator account number to a charging pile block chain device serial number and then synchronously links a chain, and a corresponding operator identity identifier and a public and private key are generated;

responding to the payment of the user for the charging service, requesting the user to sign the order by using a private key by the terminal APP, and sending the order to the charging pile block chain device;

the charging pile block chain device verifies order information, charging records and user order signatures and stores the order information, the charging records and the user order signatures in a block chain, the block chain authenticates identities of the charging pile block chain device and a user, and finally data storage is carried out.

Specifically, the steps further include:

the blockchain manager deploys the intelligent contracts on the blockchain and authorizes the generation of the authorization manager.

Specifically, the generating an identity identifier and a public and private key pair of a user specifically includes:

generating a fixed character string and a random character string;

combining the fixed character string and the random character string to obtain an identity identifier;

a public-private key pair associated with the identity identifier is generated.

Specifically, the block chain performs identity authentication for the charging pile block chain device and the user, and specifically includes:

in response to receiving an authentication request for a user, extracting an identity identifier of the user, and inquiring a corresponding public key of the user;

verifying the order signature information by using the public key, and if the order signature information passes the verification, determining that the user is a trusted user;

and responding to a received verification request for an operator and a charging pile block chain device, verifying the operator account and the charging pile block chain device serial number by using the public key, and determining that the operator and the charging pile block chain device are credible if verification is passed.

Another embodiment of the present invention provides an APP-based charging pile transaction management system, including:

user information uplink module: a user logs in a terminal APP to register, real-name authentication of a service platform is completed, an authorization manager synchronously links a user account number, and sends a user identity identifier and a public and private key on a generated block chain to the service platform, and the service platform returns the user identity identifier and the public and private key to the terminal;

fill electric pile information cochain module: an operator logs in a terminal APP for registration, real-name authentication of a service platform is completed, an authorization manager binds an operator account number to a charging pile block chain device serial number and then synchronously links a chain, and a corresponding operator identity identifier and a public and private key are generated;

an order signing module: responding to the payment of the user for the charging service, requesting the user to sign the order by using a private key by the terminal APP, and sending the order to the charging pile block chain device;

the verification and storage module: the charging pile block chain device verifies order information, charging records and user order signatures and stores the order information, the charging records and the user order signatures in a block chain, the block chain authenticates identities of the charging pile block chain device and a user, and finally data storage is carried out.

Specifically, the method further comprises the following steps:

a contract deployment module: the blockchain manager deploys the intelligent contracts on the blockchain and authorizes the generation of the authorization manager.

Specifically, in the uplink module of user information, generating an identity identifier and a public and private key pair of a user specifically includes:

generating a fixed character string and a random character string;

combining the fixed character string and the random character string to obtain an identity identifier;

a public-private key pair associated with the identity identifier is generated.

Specifically, in the verification and card storage module, the identity authentication of the blockchain is performed for the charging pile blockchain device and the user, and the method specifically includes:

in response to receiving an authentication request for a user, extracting an identity identifier of the user, and inquiring a corresponding public key of the user;

verifying the order signature information by using the public key, and if the order signature information passes the verification, determining that the user is a trusted user;

and responding to a received verification request for an operator and a charging pile block chain device, verifying the operator account and the charging pile block chain device serial number by using the public key, and determining that the operator and the charging pile block chain device are credible if verification is passed.

Yet another embodiment of the present invention provides an electronic device, which includes a processor, a memory, and a computer program stored in the memory and configured to be executed by the processor, and when the processor executes the computer program, the APP-based charging pile transaction management method is implemented.

Yet another embodiment of the present invention provides a computer-readable storage medium, on which a computer program is stored, wherein the program, when executed by a processor, implements the APP-based charging pile transaction management method as described above.

As can be seen from the above description of the present invention, compared with the prior art, the present invention has the following advantages:

(1) the invention provides a charging pile transaction management method based on APP, which comprises the steps that firstly, a user logs in a terminal APP for registration, real-name authentication of a service platform is completed, an authorized manager synchronously links a user account number, a generated user identity identifier and a public and private key on a block chain are sent to the service platform, and the service platform returns to the terminal; an operator logs in a terminal APP for registration, real-name authentication of a service platform is completed, an authorization manager binds an operator account number to a charging pile block chain device serial number and then synchronously links a chain, and a corresponding operator identity identifier and a public and private key are generated; responding to the payment of the user for the charging service, requesting the user to sign the order by using a private key by the terminal APP, and sending the order to the charging pile block chain device; the charging pile block chain device verifies the order information, the charging record and the user order signature and stores the order information, the charging record and the user order signature into a block chain, the block chain authenticates the identity of the charging pile block chain device and the user, and finally data storage is carried out; the method provided by the invention ensures the transparence of data and the authenticity and unique traceability of order information through the identity authentication of the user, the operator and the corresponding charging pile equipment and the authentication of the service platform.

Drawings

Fig. 1 is a flowchart of an APP-based charging pile transaction management method according to an embodiment of the present invention;

fig. 2 is a structural diagram of an APP-based charging pile transaction management system according to an embodiment of the present invention;

fig. 3 is a schematic diagram of an embodiment of an electronic device according to an embodiment of the present invention;

fig. 4 is a schematic diagram of an embodiment of a computer-readable storage medium according to an embodiment of the present invention.

Detailed Description

The invention is further described below by means of specific embodiments.

The invention provides a charging pile transaction management method based on APP, which ensures the transparence of data and the authenticity and unique traceability of order information through the identity authentication of users, operators and corresponding charging pile equipment and the authentication of a service platform, and solves the problem that transaction data is difficult to trace.

Fig. 1 is a flowchart of a charging pile transaction management method based on APP according to an embodiment of the present invention; the method specifically comprises the following steps:

s101: a user logs in a terminal APP to register, real-name authentication of a service platform is completed, an authorization manager synchronously links a user account number, and sends a user identity identifier and a public and private key on a generated block chain to the service platform, and the service platform returns the user identity identifier and the public and private key to the terminal;

before the step, after the intelligent contract writing is completed, the blockchain manager deploys the intelligent contract on the blockchain and authorizes to generate a plurality of authorization managers, and the authorization managers can perform information uplink operation.

The terminal can be a mobile phone, a tablet, a computer and the like, a user logs in the terminal APP for registration, wherein the APP comprises two identity types of 'user' and 'operator', different identity authorities are different, when the user needs to register, the user is clicked to enter a corresponding page for registration, and after the user completes real-name authentication of a service platform, an authorization manager synchronously links up a user account.

After the uplink is carried out, the generated user identity identifier and the public and private key on the block chain are sent to a service platform, and the service platform returns to the terminal user;

the generating of the identity identifier and the public and private key pair of the user specifically includes:

generating a fixed character string and a random character string;

combining the fixed character string and the random character string to obtain an identity identifier;

a public-private key pair associated with the identity identifier is generated.

S102: an operator logs in a terminal APP for registration, real-name authentication of a service platform is completed, an authorization manager binds an operator account number to a charging pile block chain device serial number and then synchronously links a chain, and a corresponding operator identity identifier and a public and private key are generated;

when an operator needs to register, logging in a terminal APP, and clicking the operator to enter a corresponding page for registration;

it is worth noting here that charging pile block chain devices are paired with charging piles one by one, the charging pile block chain devices have unique serial numbers and serve as unique cochain inlets, the same operator may have a plurality of different charging piles, the charging pile block chain devices are paired with the charging piles one by one through setting, and the operator account numbers are bound to the serial numbers of the charging pile block chain devices and then are cochain synchronously, so that each charging pile is assigned definitely.

S103: responding to the payment of the user for the charging service, requesting the user to sign the order by using a private key by the terminal APP, and sending the order to the block chain device;

the method comprises the steps that a user charges a charging pile, when payment is carried out, the terminal APP requests the user to sign a current order by using a private key when the user pays for a charging service, and the signature is sent to a charging pile block chain device matched with the charging pile carrying out the charging service;

s104: the charging pile block chain device verifies order information, charging records and user order signatures and stores the order information, the charging records and the user order signatures in a block chain, the block chain authenticates identities of the charging pile block chain device and a user, and finally data storage is carried out.

The charging pile block chain device serves as a unique cochain entrance, the charging pile block chain devices are paired with the charging piles one by one and have unique serial numbers, and after a user finishes charging service on the charging pile A, the charging pile block chain device paired with the charging piles checks order information, charging records and user order signatures and stores the order information, the charging records and the user order signatures in a block chain;

the block chain specifically includes that the block chain performs identity authentication for the charging pile block chain device and the user:

in response to receiving an authentication request for a user, extracting an identity identifier of the user, and inquiring a corresponding public key of the user;

verifying the order signature information by using the public key, and if the order signature information passes the verification, determining that the user is a trusted user;

and responding to a received verification request for an operator and a charging pile block chain device, verifying the operator account and the charging pile block chain device serial number by using the public key, and determining that the operator and the charging pile block chain device are credible if verification is passed.

By the operation, the completeness, accuracy and non-falsification of the data of the order information source are ensured;

as shown in fig. 2, another embodiment of the present invention provides an APP-based charging pile transaction management system, including:

the user information uplink module 201: a user logs in a terminal APP to register, real-name authentication of a service platform is completed, an authorization manager synchronously links a user account number, and sends a user identity identifier and a public and private key on a generated block chain to the service platform, and the service platform returns the user identity identifier and the public and private key to the terminal;

before the step, after the intelligent contract writing is completed, the blockchain manager deploys the intelligent contract on the blockchain and authorizes to generate a plurality of authorization managers, and the authorization managers can perform information uplink operation.

The terminal can be a mobile phone, a tablet, a computer and the like, a user logs in the terminal APP for registration, wherein the APP comprises two identity types of 'user' and 'operator', different identity authorities are different, when the user needs to register, the user is clicked to enter a corresponding page for registration, and after the user completes real-name authentication of a service platform, an authorization manager synchronously links up a user account.

After the uplink is carried out, the generated user identity identifier and the public and private key on the block chain are sent to a service platform, and the service platform returns to the terminal user;

the generating of the identity identifier and the public and private key pair of the user specifically includes:

generating a fixed character string and a random character string;

combining the fixed character string and the random character string to obtain an identity identifier;

a public-private key pair associated with the identity identifier is generated.

Charging pile information cochain module 202: an operator logs in a terminal APP for registration, real-name authentication of a service platform is completed, an authorization manager binds an operator account number to a charging pile block chain device serial number and then synchronously links a chain, and a corresponding operator identity identifier and a public and private key are generated;

when an operator needs to register, logging in a terminal APP, and clicking the operator to enter a corresponding page for registration;

it is worth noting here that charging pile block chain devices are paired with charging piles one by one, the charging pile block chain devices have unique serial numbers and serve as unique cochain inlets, the same operator may have a plurality of different charging piles, the charging pile block chain devices are paired with the charging piles one by one through setting, and the operator account numbers are bound to the serial numbers of the charging pile block chain devices and then are cochain synchronously, so that each charging pile is assigned definitely.

Order signing module 203: responding to the payment of the user for the charging service, requesting the user to sign the order by using a private key by the terminal APP, and sending the order to the block chain device;

the method comprises the steps that a user charges a charging pile, when payment is carried out, the terminal APP requests the user to sign a current order by using a private key when the user pays for a charging service, and the signature is sent to a charging pile block chain device matched with the charging pile carrying out the charging service;

the verification and evidence storage module 204: the charging pile block chain device verifies order information, charging records and user order signatures and stores the order information, the charging records and the user order signatures in a block chain, the block chain authenticates identities of the charging pile block chain device and a user, and finally data storage is carried out.

The charging pile block chain device serves as a unique cochain entrance, the charging pile block chain devices are paired with the charging piles one by one and have unique serial numbers, and after a user finishes charging service on the charging pile A, the charging pile block chain device paired with the charging piles checks order information, charging records and user order signatures and stores the order information, the charging records and the user order signatures in a block chain;

the block chain specifically includes that the block chain performs identity authentication for the charging pile block chain device and the user:

in response to receiving an authentication request for a user, extracting an identity identifier of the user, and inquiring a corresponding public key of the user;

verifying the order signature information by using the public key, and if the order signature information passes the verification, determining that the user is a trusted user;

and responding to a received verification request for an operator and a charging pile block chain device, verifying the operator account and the charging pile block chain device serial number by using the public key, and determining that the operator and the charging pile block chain device are credible if verification is passed.

Through the operation, the completeness, the accuracy and the non-falsification of the source data of the order information are ensured.

As shown in fig. 3, an embodiment of the present invention provides an electronic device 300, which includes a memory 310, a processor 320, and a computer program 311 stored in the memory 320 and executable on the processor 320, where when the computer program 311 is executed by the processor 320, the APP-based charging pile transaction management method provided by the embodiment of the present invention is implemented.

In a specific implementation, when the processor 320 executes the computer program 311, any of the embodiments corresponding to fig. 1 may be implemented.

Since the electronic device described in this embodiment is a device used for implementing a data processing apparatus in the embodiment of the present invention, based on the method described in this embodiment of the present invention, a person skilled in the art can understand the specific implementation manner of the electronic device in this embodiment and various variations thereof, so that how to implement the method in this embodiment of the present invention by the electronic device is not described in detail herein, and as long as the person skilled in the art implements the device used for implementing the method in this embodiment of the present invention, the device used for implementing the method in this embodiment of the present invention belongs to the protection scope of the present invention.

Referring to fig. 4, fig. 4 is a schematic diagram illustrating an embodiment of a computer-readable storage medium according to the present invention.

As shown in fig. 4, the present embodiment provides a computer-readable storage medium 400, on which a computer program 411 is stored, and when executed by a processor, the computer program 411 implements an APP-based charging pile transaction management method provided by the present embodiment;

in a specific implementation, the computer program 411 may implement any of the embodiments corresponding to fig. 1 when executed by a processor.

It should be noted that, in the foregoing embodiments, the descriptions of the respective embodiments have respective emphasis, and reference may be made to relevant descriptions of other embodiments for parts that are not described in detail in a certain embodiment.

As will be appreciated by one skilled in the art, embodiments of the present invention may be provided as a method, system, or computer program product. Accordingly, the present invention may take the form of an entirely hardware embodiment, an entirely software embodiment or an embodiment combining software and hardware aspects. Furthermore, the present invention may take the form of a computer program product embodied on one or more computer-usable storage media (including, but not limited to, disk storage, CD-ROM, optical storage, and the like) having computer-usable program code embodied therein.

The invention provides a charging pile transaction management method based on APP, which comprises the steps that firstly, a user logs in a terminal APP for registration, real-name authentication of a service platform is completed, an authorized manager synchronously links a user account number, a generated user identity identifier and a public and private key on a block chain are sent to the service platform, and the service platform returns to the terminal; an operator logs in a terminal APP for registration, real-name authentication of a service platform is completed, an authorization manager binds an operator account number to a charging pile block chain device serial number and then synchronously links a chain, and a corresponding operator identity identifier and a public and private key are generated; responding to the payment of the user for the charging service, requesting the user to sign the order by using a private key by the terminal APP, and sending the order to the charging pile block chain device; the charging pile block chain device verifies the order information, the charging record and the user order signature and stores the order information, the charging record and the user order signature into a block chain, the block chain authenticates the identity of the charging pile block chain device and the user, and finally data storage is carried out; the method provided by the invention ensures the transparence of data and the authenticity and unique traceability of order information through the identity authentication of the user, the operator and the corresponding charging pile equipment and the authentication of the service platform.

The above description is only an embodiment of the present invention, but the design concept of the present invention is not limited thereto, and any insubstantial modifications made by using the design concept should fall within the scope of infringing the present invention.

Claims (10)

1. A charging pile transaction management method based on APP is characterized by comprising the following steps:

a user logs in a terminal APP to register, real-name authentication of a service platform is completed, an authorization manager synchronously links a user account number, and sends a user identity identifier and a public and private key on a generated block chain to the service platform, and the service platform returns the user identity identifier and the public and private key to the terminal;

an operator logs in a terminal APP for registration, real-name authentication of a service platform is completed, an authorization manager binds an operator account number to a charging pile block chain device serial number and then synchronously links a chain, and a corresponding operator identity identifier and a public and private key are generated;

responding to the payment of the user for the charging service, requesting the user to sign the order by using a private key by the terminal APP, and sending the order to the charging pile block chain device;

the charging pile block chain device verifies order information, charging records and user order signatures and stores the order information, the charging records and the user order signatures in a block chain, the block chain authenticates identities of the charging pile block chain device and a user, and finally data storage is carried out.

2. The APP-based charging pile transaction management method of claim 1, wherein the steps further comprise:

the blockchain manager deploys the intelligent contracts on the blockchain and authorizes the generation of the authorization manager.

3. The APP-based charging pile transaction management method of claim 1, wherein the generating of the identity identifier and the public and private key pair of the user specifically comprises:

generating a fixed character string and a random character string;

combining the fixed character string and the random character string to obtain an identity identifier;

a public-private key pair associated with the identity identifier is generated.

4. The APP-based charging pile transaction management method of claim 1, wherein the blockchain performs identity authentication for a charging pile blockchain device and a user, and specifically comprises:

in response to receiving an authentication request for a user, extracting an identity identifier of the user, and inquiring a corresponding public key of the user;

verifying the order signature information by using the public key, and if the order signature information passes the verification, determining that the user is a trusted user;

and responding to a received verification request for an operator and a charging pile block chain device, verifying the operator account and the charging pile block chain device serial number by using the public key, and determining that the operator and the charging pile block chain device are credible if verification is passed.

5. The utility model provides a fill electric pile transaction management system based on APP which characterized in that includes:

user information uplink module: a user logs in a terminal APP to register, real-name authentication of a service platform is completed, an authorization manager synchronously links a user account number, and sends a user identity identifier and a public and private key on a generated block chain to the service platform, and the service platform returns the user identity identifier and the public and private key to the terminal;

fill electric pile information cochain module: an operator logs in a terminal APP for registration, real-name authentication of a service platform is completed, an authorization manager binds an operator account number to a charging pile block chain device serial number and then synchronously links a chain, and a corresponding operator identity identifier and a public and private key are generated;

an order signing module: responding to the payment of the user for the charging service, requesting the user to sign the order by using a private key by the terminal APP, and sending the order to the charging pile block chain device;

the verification and storage module: the charging pile block chain device verifies order information, charging records and user order signatures and stores the order information, the charging records and the user order signatures in a block chain, the block chain authenticates identities of the charging pile block chain device and a user, and finally data storage is carried out.

6. The APP-based charging pile transaction management system of claim 5, further comprising:

a contract deployment module: the blockchain manager deploys the intelligent contracts on the blockchain and authorizes the generation of the authorization manager.

7. The APP-based charging pile transaction management system of claim 5, wherein in the user information uplink module, generating an identity identifier and a public and private key pair of a user specifically comprises:

generating a fixed character string and a random character string;

combining the fixed character string and the random character string to obtain an identity identifier;

a public-private key pair associated with the identity identifier is generated.

8. The APP-based charging pile transaction management system of claim 5, wherein in the verification and evidence-storing module, the blockchain performs identity authentication for the charging pile blockchain device and the user, and specifically comprises:

in response to receiving an authentication request for a user, extracting an identity identifier of the user, and inquiring a corresponding public key of the user;

verifying the order signature information by using the public key, and if the order signature information passes the verification, determining that the user is a trusted user;

and responding to a received verification request for an operator and a charging pile block chain device, verifying the operator account and the charging pile block chain device serial number by using the public key, and determining that the operator and the charging pile block chain device are credible if verification is passed.

9. An electronic device comprising a processor, a memory, and a computer program stored in the memory and configured to be executed by the processor, the processor implementing an APP-based charging pile transaction management method as claimed in any one of claims 1 to 4 when executing the computer program.

10. A computer-readable storage medium, on which a computer program is stored, wherein the program, when executed by a processor, implements an APP-based charging pile transaction management method as claimed in any one of claims 1 to 4.

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