CN115314232A - Data processing method based on artificial intelligence and intelligent parking lot - Google Patents

Abstract

The invention discloses a data processing method based on artificial intelligence and an intelligent parking lot, which mainly solves the problem that the existing vehicle charging system of the parking lot is unreliable. The method comprises the following steps: acquiring the information of vehicle entering and exiting a warehouse and generating vehicle charge settlement information; establishing a charging settlement information storage block chain and a block chain data authentication center module; the charging settlement information encryption database performs secret calculation on the stored data by using an encryption algorithm to generate ciphertext data; the charging settlement information encryption database calls and authorizes the vehicle charging system; the vehicle charging system calls the encrypted charging settlement information during the charge settlement, and completes the vehicle charging settlement after verification. According to the invention, the vehicle entrance and exit information data entering the parking lot is encrypted and stored, and the unchangeable vehicle charging calculation of the parking lot entrance and exit is ensured by utilizing the characteristics of unforgeability and traceability of the block chain, so that the operation reliability of the charging system of the intelligent parking lot is improved.

Description

Data processing method based on artificial intelligence and intelligent parking lot

Technical Field

The invention belongs to the technical field of intelligent parking lots, and particularly relates to a data processing method based on artificial intelligence and an intelligent parking lot.

Background

With the improvement of living standard, the possession proportion of private cars is increasing year by year, and how to solve or improve the jam of parking lots is a technical problem that needs to be considered at present. The purpose in wisdom parking area is to let the car owner more conveniently find the parking stall, contains the wisdom of two aspects off-line, on-line. The online intellectualization is embodied as a mobile phone APP, weChat and a payment treasure for a vehicle owner, obtains the parking lot and parking space vacancy information of a specified place, the charging standard, whether reservation can be carried out, whether charging and sharing are available and the like, and realizes the functions of prepayment and online payment. The offline intellectualization is realized by enabling a parking person to better park in a parking space. Firstly, pass fast, avoid the parking area in the past to lean on the people pipe, the charge is opaque, the great problem consuming time of business turn over parking area. Secondly, provide special parking stall, for example diversified, individualized consumption upgrading service such as wide big motorcycle type parking stall, novice driver parking stall, fill electric pile parking stall. Thirdly, more vehicles are parked in the same space. For example, a three-dimensional parking garage can expand the parking quantity of a unit space; the parking is shared, and the parking problem of the vehicle can be solved at different time intervals.

However, the existing intelligent parking lot is not perfect in the aspect of vehicle charge information processing, a parking lot charge settlement system is easy to generate data tampering, and the problem that charge data is not matched with the actually generated charge often occurs in the vehicle parking charge settlement.

Disclosure of Invention

The invention aims to provide a data processing method based on artificial intelligence and an intelligent parking lot, and mainly solves the problem that an existing vehicle charging system of the parking lot is unreliable.

In order to realize the purpose, the technical scheme adopted by the invention is as follows:

a data processing method based on artificial intelligence and an intelligent parking lot comprises the following steps:

(S1) a vehicle entrance recognition system carries out identity recognition and information input on an entering vehicle to obtain vehicle charge settlement initial data;

(S2) the vehicle exit recognition system carries out identity recognition and information input on vehicles which come out of the field, and vehicle charge settlement ending data is obtained;

(S3) generating charge settlement information corresponding to charge settlement initial data and charge settlement ending data of the vehicle information according to the identified vehicle information;

(S4) establishing a charging settlement information storage block chain in the vehicle charging system, performing chain link storage on the charging calculation information to form a charging settlement information encryption database, and establishing a block chain data authentication center module for confirming vehicle information calling;

(S5) the charging settlement information encryption database carries out secret calculation on the stored data by using an encryption algorithm to generate ciphertext data;

(S6) calling and authorizing the vehicle charging system by the charging settlement information encryption database;

and (S7) calling the encrypted charge settlement information by the vehicle charge system during charge settlement, and finishing the vehicle charge settlement after verification.

Further, in the present invention, in the step (S5), a specific method of generating the ciphertext data is: in the process of secret state calculation, performing packet storage on data, and disassembling the packet storage data into a first data subset and a second data subset, wherein the bit number of the first data subset is greater than that of the second data subset; and encrypting the first data subset and the second data subset through a preset key.

Further, in the present invention, in the step (S6), the authorization calling method of the charging settlement information encryption database performs node authorization on the first data subset and the second data subset for the charging settlement information encryption database; wherein the authorization nodes of the first data subset and the second data subset have the authority to view the first data subset and the second data subset; the authorized node stores the key; the key is obtained by mutual negotiation between the client and the authorization node.

Further, in the present invention, in the step (S5), the process of storing the data packets is as follows:

(S51) the charge settlement information encryption database acquires the initial value of the data bit number of the charge settlement information in the storage block chain in the current settlement period;

(S52) generating a predicted value of the data bit number in the current settlement period according to the historical data of the resource utilization rate of the storage block chain;

(S53) determining whether an absolute value of a difference between the initial value and the predicted value exceeds a first threshold; if the number of the data bits exceeds the first threshold, adjusting the target value of the number of the data bits in the current settlement period to the predicted value; otherwise, keeping the target value of the data bit number in the current settlement period as the initial value;

(S54) averaging the historical resource utilization rate of the storage block chain, and multiplying the average by a constant to obtain a corresponding product of each storage block chain;

(S55) averaging the products corresponding to the historical resource utilization rate of the storage block chain, and calculating to obtain a second average value which is used as a predicted value of the data bit number in the current settlement period.

Further, in the present invention, in the charging settlement information encryption database, a double SHA256 hash function is adopted, and the vehicle information data stored on the block chain is converted into binary digits with a length of 256 bits through two hash operations, and is used as vehicle identification encryption information, and is stored in a unified manner.

Further, in the present invention, in the step (S6), the key is obtained by:

(S61) randomly generating a first demand parameter by the charging settlement information encryption database;

(S62) generating first key data according to the first requirement parameter and a preset global parameter;

(S63) sending the first key data to the authorizing node; wherein the global parameter is used for the storage block chain to generate the first key data and is also used for the authorization node to generate the second key data;

(S64) receiving second key data transmitted by the authorized node; the second key data are generated by the authorization node according to a second demand parameter which is randomly generated, the first key data and the global parameter;

(S65) determining the key based on the first key data and the second key data.

Further, in the present invention, in the step (S7), a specific settlement method is: the vehicle charging system calls the encrypted charging settlement information during the charge settlement, firstly, the payment information is compared with the stored vehicle information for verification, if the payment information is consistent with the stored vehicle information, the payment information is fed back, the block chain data authentication center module is used for extracting the corresponding charging settlement encrypted information from the charging settlement information encryption database according to the license plate number, the charging settlement encrypted information is decrypted and the decrypted charging calculation information is settled, and if the payment information is inconsistent with the license plate number, the payment information is not fed back, so that the vehicle charging settlement information is ensured not to be falsified.

Compared with the prior art, the invention has the following beneficial effects:

(1) The invention ensures that the charging calculation of the vehicles entering and leaving the parking lot can not be changed by carrying out encryption storage processing on the information data of the vehicles entering and leaving the parking lot and utilizing the characteristics of unforgeability and traceability of the block chain, thereby improving the operation reliability of the charging system of the intelligent parking lot.

(2) According to the invention, double SHA256 hash functions are adopted in the encryption method, the binary digits with the length of 256 bits are converted from the hash operations for two times stored in the block chain and are used as vehicle identification encryption information and are stored uniformly, and the number of nodes is reduced when the data with the same size are stored, so that the occupation of storage space is reduced in the data encryption process, the system operation efficiency is improved, and the data encryption efficiency is further improved.

Drawings

FIG. 1 is a schematic view of the flow structure of the method of the present invention.

Fig. 2 is a schematic flow chart of the packet storage in the method of the present invention.

Fig. 3 is a schematic flow chart of key generation in the method of the present invention.

Detailed Description

The present invention will be further described with reference to the following description and examples, which include but are not limited to the following examples.

Examples

As shown in fig. 1 to 3, in the data processing method based on artificial intelligence and intelligent parking lot disclosed by the invention, a vehicle entrance recognition system in intelligent parking first performs identity recognition and information input on an entering vehicle to obtain vehicle charge settlement initial data; the method is mainly used for recording the vehicle storage time. The vehicle exit identification system carries out identity identification and information input on vehicles on the departure to acquire vehicle charge settlement ending data; the system is mainly used for recording the time of leaving the garage.

Meanwhile, the system determines the vehicle information mainly through the identified license plate number according to the identified vehicle information and generates the charging settlement information according to the time of the vehicle entering and leaving the garage recorded by the system.

After the charging calculation information is generated, the charging calculation information is subjected to chain link storage through a charging settlement information storage block chain in the vehicle charging system to form a charging settlement information encryption database, and a block chain data authentication center module for confirming vehicle information calling is established.

The charging settlement information encryption database performs secret calculation on the stored data by using an encryption algorithm to generate ciphertext data; in the process of secret state calculation, performing packet storage on data, and disassembling the packet storage data into a first data subset and a second data subset, wherein the bit number of the first data subset is greater than that of the second data subset; and encrypting the first data subset and the second data subset through a preset secret key.

In this embodiment, the encryption method uses a double SHA256 hash function, converts two hash operations stored in the block chain into 256-bit binary digits as vehicle identification encryption information, and stores the binary digits in a unified manner, so that the number of nodes is reduced when the same size data is stored, thereby reducing the occupation of storage space in the data encryption process, improving the system operation efficiency, and further improving the data encryption efficiency.

Wherein, the data subpackage storage process is as follows:

the charge settlement information encryption database obtains the initial value of the data bit number of the charge settlement information in the storage block chain in the current settlement period. And generating a predicted value of the data bit number in the current settlement period according to the historical data of the resource utilization rate of the storage block chain. Judging whether the absolute value of the difference value between the initial value and the predicted value exceeds a first threshold value; if the number of the data bits exceeds the first threshold, adjusting the target value of the number of the data bits in the current settlement period to the predicted value; otherwise, the target value of the data bit number in the current settlement period is kept as the initial value. And averaging the historical resource utilization rate of the storage block chain, and multiplying the average by a constant to obtain a corresponding product of each storage block chain. And averaging the products corresponding to the historical resource utilization rate of the storage block chain, and calculating to obtain a second average value as a predicted value of the data bit number in the current settlement period. The sub-package storage is to store the data in a split mode, and therefore the safety of the data can be improved.

The charging settlement information encryption database calls and authorizes the vehicle charging system: the charging settlement information encryption database carries out node authorization on the first data subset and the second data subset; wherein the authorization nodes of the first data subset and the second data subset have the authority to view the first data subset and the second data subset; the authorized node stores the key; the key is obtained by mutual negotiation between the client and the authorization node.

Wherein the key is obtained by:

randomly generating a first demand parameter by a charging settlement information encryption database; generating first key data according to the first requirement parameter and a preset global parameter; sending the first key data to the authorizing node; wherein the global parameter is used for the storage block chain to generate the first key data and is also used for the authorization node to generate the second key data; receiving second key data sent by the authorized node; the second key data are generated by the authorization node according to a second demand parameter which is randomly generated, the first key data and the global parameter; determining the key according to the first key data and the second key data.

And finally, calling the encrypted charge settlement information by the vehicle charge system during charge settlement, firstly comparing and verifying the payment information with the stored vehicle information, if the payment information is consistent with the stored vehicle information, feeding back the payment information, extracting the corresponding charge settlement encrypted information from the charge settlement information encryption database by using the block chain data authentication center module according to the license plate number, decrypting the charge settlement encrypted information, and settling the decrypted charge calculation information, and if the payment information is inconsistent with the stored vehicle information, not feeding back the charge settlement information, thereby ensuring that the vehicle charge settlement information is not falsified.

Through the design, the invention ensures that the charging calculation of the vehicles entering and leaving the parking lot can not be changed by carrying out encryption storage processing on the information data of the vehicles entering and leaving the parking lot and utilizing the characteristics of unforgeability and traceability of the block chain, thereby improving the operation reliability of the charging system of the intelligent parking lot. Therefore, compared with the prior art, the invention has outstanding substantive features and remarkable progress.

The above-mentioned embodiment is only one of the preferred embodiments of the present invention, and should not be used to limit the scope of the present invention, but all the insubstantial modifications or changes made within the spirit and scope of the main design of the present invention, which still solve the technical problems consistent with the present invention, should be included in the scope of the present invention.

Claims (7)

1. A data processing method based on artificial intelligence and an intelligent parking lot is characterized by comprising the following steps:

(S1) a vehicle entrance recognition system carries out identity recognition and information input on an entering vehicle to obtain vehicle charge settlement initial data;

(S2) the vehicle exit recognition system carries out identity recognition and information input on vehicles which come out of the field, and vehicle charge settlement ending data is obtained;

(S3) generating charge settlement information corresponding to charge settlement initial data and charge settlement ending data of the vehicle information according to the identified vehicle information;

(S4) establishing a charging settlement information storage block chain in the vehicle charging system, performing chain link storage on the charging calculation information to form a charging settlement information encryption database, and establishing a block chain data authentication center module for confirming vehicle information calling;

(S5) the charging settlement information encryption database carries out secret calculation on the stored data by using an encryption algorithm to generate ciphertext data;

(S6) calling and authorizing the vehicle charging system by the charging settlement information encryption database;

and (S7) calling the encrypted charge settlement information by the vehicle charge system during charge settlement, and finishing the vehicle charge settlement after verification.

2. The data processing method based on artificial intelligence and intelligent parking lot of claim 1, wherein in the step (S5), the specific method for generating the ciphertext data is as follows: in the process of secret state calculation, performing packet storage on data, and disassembling the packet storage data into a first data subset and a second data subset, wherein the bit number of the first data subset is greater than that of the second data subset; and encrypting the first data subset and the second data subset through a preset key.

3. The artificial intelligence and intelligent parking lot based data processing method according to claim 2, wherein in the step (S6), the authorization calling method of the charge settlement information encryption database performs node authorization on the first data subset and the second data subset for the charge settlement information encryption database; wherein the authorization nodes of the first data subset and the second data subset have the authority to view the first data subset and the second data subset; the authorized node stores the key; the key is obtained by mutual negotiation between the client and the authorization node.

4. The artificial intelligence and intelligent parking lot based data processing method according to claim 3, wherein in the step (S5), the data is stored in sub-packages according to the following steps:

(S51) the charge settlement information encryption database acquires the initial value of the data bit number of the charge settlement information in the storage block chain in the current settlement period;

(S52) generating a predicted value of the data bit number in the current settlement period according to the historical data of the resource utilization rate of the storage block chain;

(S53) determining whether an absolute value of a difference between the initial value and the predicted value exceeds a first threshold; if the number of the data bits exceeds the first threshold, adjusting the target value of the number of the data bits in the current settlement period to the predicted value; otherwise, keeping the target value of the data bit number in the current settlement period as the initial value;

(S54) averaging the historical resource utilization rates of the storage block chains, and multiplying the average value by a constant to obtain a corresponding product of each storage block chain;

(S55) averaging the products corresponding to the historical resource utilization rate of the storage block chain, and calculating to obtain a second average value which is used as a predicted value of the data bit number in the current settlement period.

5. The data processing method of claim 4, wherein the vehicle information data stored in the block chain is subjected to two hash operations by using a double SHA256 hash function in the charge settlement information encryption database, and is converted into binary digits with a length of 256 bits as vehicle identification encryption information, and is stored in a unified manner.

6. The artificial intelligence and intelligent parking lot based data processing method according to claim 5, wherein in the step (S6), the secret key is obtained by:

(S61) randomly generating a first demand parameter by the charging settlement information encryption database;

(S62) generating first key data according to the first requirement parameter and a preset global parameter;

(S63) sending the first key data to the authorizing node; wherein the global parameter is used for the storage block chain to generate the first key data and is also used for the authorization node to generate the second key data;

(S64) receiving second key data transmitted by the authorized node; the second key data are generated by the authorization node according to a second demand parameter which is randomly generated, the first key data and the global parameter;

(S65) determining the key based on the first key data and the second key data.

7. The data processing method based on artificial intelligence and intelligent parking lot of claim 6, wherein in the step (S7), the specific settlement method is as follows: the vehicle charging system calls the encrypted charging settlement information during the charge settlement, firstly, the payment information is compared with the stored vehicle information for verification, if the payment information is consistent with the stored vehicle information, the payment information is fed back, the block chain data authentication center module is used for extracting the corresponding charging settlement encrypted information from the charging settlement information encryption database according to the license plate number, the charging settlement encrypted information is decrypted and the decrypted charging calculation information is settled, and if the payment information is inconsistent with the license plate number, the payment information is not fed back, so that the vehicle charging settlement information is ensured not to be falsified.

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