KR102081777B1 - How to manage traffic violation penalties using block chains - Google Patents

Abstract

According to an embodiment of the present invention, the present invention relates to a method for managing a traffic violation penalty using a blockchain comprising: a traffic violation information receiving process of receiving, by a penalty management server, traffic violation information from a user terminal; a traffic violation information storing process of propagating, by the penalty management server, the traffic violation information to a blockchain network, and storing the same; and a traffic violation notifying process of imposing, by the penalty management server, a traffic violation penalty in real time while notifying a traffic violator terminal of the traffic violation information. The traffic violation information storing process includes: a user grade grasping process of grasping a user grade providing the traffic violation information; a blockchain validity verification determining process of determining whether a blockchain validity is verified in accordance with the grasped user grade; and a blockchain propagating process of propagating the traffic violation information to the blockchain network in a state that the blockchain validity is verified or not verified in accordance with determination on whether the blockchain validity is verified.

Description

How to manage traffic violation penalties using block chains}

The present invention relates to a method for managing a traffic violation fine using a block chain, which imposes a fine prescribed by the law on fines, penalties, fines, etc.

Blockchain is a distributed ledger-type database technology. In 2008, an anonymous developer development group named Satoshi Nakamoto first mentioned blockchain in a Bitcoin paper, cryptocurrency.

Blockchain is a technology that operates the cryptocurrency represented by bitcoin by storing and storing all transaction information generated between participants in all participants' devices. This principle of operation has the advantage of being transparent because of the decentralized path which is not managed by a specific central server. And since every participant monitors each other for correct input of transaction information as witnesses, there is no risk of forgery or malicious hacking of the recorded information.

Because of these advantages of blockchain, various industries such as finance, healthcare, logistics and distribution, and public service are using these projects. As such, the blockchain's impact on the economy is likely to be very large.

One example is the use of blockchain technology to increase collaboration productivity and efficiency. In August 2018, Musk Group, the world's largest shipping company, formed a joint venture, Tradelens, with IBM, officially launching the blockchain logistics platform GTD (Global Trade Digitization) for logistics trade. TradeLens is building a system that enables logistics trade without paper documents while providing real-time visibility of transportation information processes using blockchain technology. Currently, more than 100 logistics companies have joined the platform, and the results have shown that it has actually reduced sea transport time and transaction costs. Musk Group expects to save 300 trillion won by 2020 through this logistics trading platform. It is anticipated that the trade process, which will take nearly a month, will be reduced on a daily basis (The Future of Blockchain (Report on 2018 Technology Impact Assessment Report), Ministry of Science and ICT, published 11 April 2019)

The impact of the blockchain on the economy is expected to continue to grow very much, as the report forecasts showed earlier. This is because blockchain is not just a technology but an infrastructure technology that changes the service platform.

Blockchain is expected to replace the existing cloud-based service platform, and the change of this platform will have a big impact on cloud-based 'smart city'. The existing smart city model is a structure that collects information generated from the IoT and analyzes it in the cloud center and provides it to users in the city. But if blockchain is applied, the smart city model will be transformed into a new structure. In other words, a service in a smart city is changed into a form of directly exchanging services between the Internet of Things without going through a cloud center.

For example, when Smart Parking, which provides parking information to a user, is applied to an existing cloud method, the parking information is received and processed by a central server and then provided to a driver who needs parking in real time. Blockchain, on the other hand, connects parking information with the driver in real time, guiding free parking spaces.

Parking fee calculation is also different from cloud method. In the case of the cloud method, when a driver presses a payment button, it is operated in the cloud. On the other hand, in the case of the blockchain, the sensor attached to the parking and the sensor attached to the car check the information of each other and automatically make a payment.

On the other hand, illegal parking stops the normal traffic flow of vehicles on high-traffic roads and becomes a major cause of traffic accidents, such as parking violations, signal violations, speed violations, designated lane violations, trucks and passenger buses The law imposes penalties for various traffic-related violations, such as buses, buses, buses, buses, etc.

However, under the current centralized system, the average processing time from the crackdown to disposal is about two weeks, and social costs such as traffic flow disruption are increasing.

Even local governments have serious effects on data integrity, including the discovery of social service personnel who have randomly deleted illegal parking control data from acquaintances.

On the other hand, the parking control alert service is a public service with about 5 million people in 120 local governments nationwide. There are many complaints due to regional subscriptions, and fixed CCTVs are expensive to install, maintain and repair in traffic enforcement. As they enter, citizens are using their smartphones to crack down on illegal parking vehicles.

Therefore, in order to control and dispose of vehicles that have committed traffic violations, traffic violation penalties and block management systems using block chains are required for data integrity and fairness.

Korean Patent Publication No. 10-2009-0076868 Korean Patent Publication No. 10-2009-0076868

The technical problem of the present invention is as follows.

First, the present invention records the facts of the enforcement at each traffic enforcement agency in a distributed ledger on the blockchain in real time.

Secondly, the present invention enables real-time notification or inquiry of user information on an incident recorded in a distributed ledger.

Third, the present invention pays a compensation for the block, and makes it possible to pay a penalty using it. Through this, if a good driver or citizen, an open parking lot, a faithful payer, or any other predecessor or exemplary activity is done for a certain period of time, points will be paid as a reward coin, so that they can be traded between individuals (P2P). It can be used for the use of public facilities.

Fourth, the present invention protects the personal information of the crackdown facts using blockchain encryption technology, receiving complaints, on-site processing instructions, received by the authorities related to crackdowns in various ways, including app for reporting inconvenience, safety newspaper, homepage, Manage the processing results on a blockchain basis and provide the results to complaints.

Fifth, the present invention intends to provide a coin suitable for its purpose in individual enforcement agencies and organizations and provide a blockchain ecosystem according to regional characteristics and uses.

Sixth, the present invention can generate a block in a hybrid form combining a consensus algorithm, PoW, PoS, DPoS, etc., for blockchain integrity. Hybrid consensus algorithm is a consensus algorithm that only takes advantage of PoW and PoS. It is eco-friendly and can replace parts that cannot be solved in a single algorithm by combining two or more algorithms.

An embodiment of the present invention, the fine management server, traffic violation information receiving process for receiving traffic violation information from the user terminal; A traffic violation information storing process of the fine management server propagating and storing the traffic violation information on a blockchain network; The traffic management server, the traffic violation notification process of imposing a traffic violation penalty in real time with the notification of traffic violation information to the traffic violation terminal; Including the traffic violation information storage process, the user class that provided traffic violation information Grading process to grasp the user rating; A blockchain validation step of determining whether to validate the blockchain according to the identified user level; And a blockchain propagation process of propagating traffic violation information on the blockchain network with or without blockchain validation according to the determined blockchain validation.

The penalty management server, the reward coin payment process for paying the reward coin to the user terminal provided the traffic violation information; may include.

The reward coin may be characterized in that the electronic money that can be used as a traffic violation penalty payment, public facilities (merchants) fee.

The reward coin may be a reward coin that can be used only in each region.

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The traffic violation information includes a traffic violation vehicle number, a traffic violation place, a traffic violation time, and a traffic violation photo. The traffic violation photo is stored only in a fine management server, which is initially provided with traffic violation information, and is a blockchain network. It may not be propagated to other servers on the network.

In the traffic violation notification process, the traffic violation vehicle number, traffic violation place, traffic violation time, and traffic violation information stored on the server storing traffic violation photo can be queried to the relevant traffic offender, who can be regarded as agreeing to use the fine electronic notice. Internet address (e.g. domain) can be notified to the trafficker terminal by mail, messenger, SNS app, text service, etc., and the trafficker terminal accesses the server where the trafficker photo is stored and checks the trafficker photo in advance. It may be characterized by paying the reward coin of the set amount.

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In the process of determining whether to validate the blockchain, if the user grade that provided the traffic violation information is the enforcement officer level, which is the grade of the enforcement officer including the police officer and the enforcement officer, the blockchain validation decision is not performed, and the traffic violation information is provided. If the user level is not the intermediary level, the blockchain validation may be determined.

If it is decided not to validate blockchain, the traffic violation information is stored in the fine management server without validation and the traffic violation information is transmitted on another blockchain network, and if it is decided to validate the blockchain, Only when the validity of the information is verified, the traffic violation information is transferred to another blockchain network at the same time as it is stored on the fine management server.When the information is not validated, the traffic violation information is discarded without being stored on the fine management server. The traffic violation information may not be transmitted to the user.

Penalties of fines payer can be rewarded by paying a pre-set reward if you pay the penalty within 30 days from the prior notice period of the penalty using the smart contract function and within 30 days after the notice of the penalty.

The standard for the prior notice of the penalty period or the regular period for the penalty is the data generated by the fine management program (new or extra taxation system) operated by the government agency or local government or the traffic administration management program (including the parking fine program) that is used individually by the institution. In connection with the standard.

In addition, the user can securely trade by providing the electronic wallet address based on the public key.

According to an embodiment of the present invention, the imposition of penalties in various transportation fields can be provided to the distributed ledger in real time using the blockchain. In addition, according to an embodiment of the present invention, a coin is provided as a reward, and the coin can be used to pay a fine to an institution or use a public facility.

In addition, by promoting a culture of fine payment of fines, we will prevent arrears and establish an advanced transportation culture.

1 is a diagram showing a penalty charge system using a blockchain according to an embodiment of the present invention.
2 is a flowchart illustrating a method for imposing and managing a traffic penalty using a blockchain according to an embodiment of the present invention.
3 is a block diagram showing the block structure.
4 is an exemplary diagram in which data is propagated on a blockchain network.
5 is an exemplary diagram in which validation is performed during data propagation on a blockchain network.
6 is a flowchart illustrating a traffic violation information storing process according to an embodiment of the present invention.
Figure 7 is an illustration of a traffic violation photo stored in a separate DB according to an embodiment of the present invention.

Advantages and features of the present invention, and methods for achieving them will be apparent with reference to the embodiments described below in detail with the accompanying drawings. However, the present invention is not limited to the embodiments disclosed below, but may be implemented in various forms, and is provided to fully inform the scope of the invention to those skilled in the art. The invention is defined only by the scope of the claims. In addition, in describing the present invention, when it is determined that related related technologies and the like may obscure the gist of the present invention, detailed description thereof will be omitted.

1 is a diagram showing a penalty charge system using a blockchain according to an embodiment of the present invention.

The present invention provides the imposition of penalties in various transportation fields to the distributed ledger in real time using a blockchain, provides a coin as a reward, and uses a decentralized imposition and notification for paying the penalties to users. Payment management system.

If such a blockchain-based service is charged with traffic violation penalties, there are three advantages over the existing cloud method.

First is transparency. All communication is done in peer to peer (P2P) mode and there is no central interference. And all participants can see the recorded content. IBM, an IT giant, linked these blockchain features to the Internet of Things and referred to it as `` smart device democratization. ''

Second is simplicity. Traffic violations are automatically recorded on the blockchain network, making it easier to charge and view penalties.

Lastly, security. The information recorded on the blockchain is shared with all participants. Therefore, in order to forge recorded information, the majority of participants must be hacked at the same time. This is practically impossible.

Hereinafter, the traffic fine charging system using the blockchain of the present invention will be described in detail. As shown in FIG. 1, a blockchain user terminal 100 and a fine management server 200 are provided, and other nodes and blockchains on the blockchain network are provided. Allow for propagation and storage. Here, the node is a blockchain node such as a computer or a server, and refers to all the computing devices participating in the blockchain network, such as the fine management server 200.

The user terminal 100 is a terminal used by a user who provides traffic violation information to the fine management server 200. The traffic violation information may include one or more traffic violation vehicle numbers, traffic violation places, traffic violation times, and traffic violation photos. For example, a user walking on a road photographs a vehicle that is illegally parked in India at intervals of one minute so that the license plate is visible, and transmits the photographed traffic violation photo to the fine management server 200 together with the traffic violation place. Report violations of illegal parking vehicles.

The user terminal 100 may correspond to a smart phone, a desktop PC, a tablet PC, a slate PC, a notebook computer, and the like. Of course, the terminal to which the present invention is applicable is not limited to the above-described type, and of course, may include all terminals capable of communicating with the fine management server 200.

When the user terminal 100 is implemented as a smart phone, the enforcement information service app that can input and view traffic violation information may be installed. The user terminal 100 may install and add or delete hundreds of various applications (applications) as desired by the user, and may create a desired application by the user, and implement an interface suitable for the user through various applications. Can be. Therefore, Google Market, Apple Store program developers, etc. can be installed or supported by the smart phone information service app of the present invention.

For reference, the enforcement information service app, the user can be a member registration in the following manner.

All users go through ID verification, text authentication, simple communication service provider, Google, Facebook, etc., and biometrics (based on fingerprint registration, including additional information such as iris and face photo). The general user ID may have authority to provide traffic violation information, view traffic violation information, and the like, and the administrative user ID may have authority to view traffic violation information and modify traffic violation information.

The fine management server 200 of the present invention is a node participating in the blockchain storage on the blockchain network, and stores the received traffic violation information and transmits the traffic violation to another node (another fine management server 200) on the blockchain network. Spread the information.

Therefore, the fine management server 200 may be provided for each region, for example, Seoul fine management server 200, Busan fine management server 200, Daejeon fine management server 200, Gwangju fine management server 200, etc. There exists, such a Seoul fine management server 200, Busan fine management server 200, Daejeon fine management server 200, Gwangju fine management server 200 and the like will function as nodes on the blockchain network, respectively.

When the fine management server 200 receives the traffic violation information from the user terminal 100, the traffic violation information is propagated and stored on the blockchain network. If it is determined that the traffic violation information actually corresponds to the traffic violation, a compensation coin is paid to the user terminal 100 which has provided the traffic violation information. Herein, the reward coin may be an electronic money that can be used as a traffic violation penalty fee and a public facility (merchant) fee. The reward coin may be a reward coin that can be used only in each region or a reward coin that can be used only for a predetermined purpose. In addition, the penalty management server 200 imposes a traffic violation penalty in real time along with the notification of the traffic violation information to the traffic violation terminal. The fine management server 200 will be described with reference to Figures 2 to 7 for the process of receiving the traffic violation information and imposing a fine.

FIG. 2 is a flowchart illustrating a method for imposing and managing a traffic penalty using a blockchain according to an embodiment of the present invention. FIG. 3 is a diagram illustrating a blockchain block structure. FIG. 4 is a diagram illustrating data propagation on a blockchain network. 5 is an exemplary diagram in which validation is performed when data propagates on a blockchain network, and FIG. 6 is a flowchart illustrating a process of storing traffic violation information according to an embodiment of the present invention, and FIG. According to an embodiment of the traffic violation picture is stored in a separate DB is an example.

In the traffic fine imposing and managing method using the blockchain of the present invention, as shown in FIG. 2, the fine management server 200 receives the traffic violation information from the user terminal 100. Traffic violation information storage process for propagating and storing traffic violation information on the blockchain network (S220), and traffic violation notification process for imposing a traffic violation penalty in real time along with the notification of traffic violation information to the traffic violation terminal (S230). And a reward coin payment process (S240) for providing a reward coin to the user terminal 100 providing the traffic violation information.

The traffic violation information reception process (S210) is a process in which the fine management server 200 receives the traffic violation information from the user terminal 100. The traffic violation information may include one or more traffic violation vehicle numbers, traffic violation places, traffic violation times, traffic violation photos, and traffic violation videos.

For example, a user walking on a road photographs a vehicle that is illegally parked in India at intervals of one minute so that the license plate is visible, and transmits the photographed traffic violation photo to the fine management server 200 together with the traffic violation place. Report violations of illegal parking vehicles. In addition, even if the red signal, the vehicle crossing the crossroads to shoot a video and transmit to the fine management server 200 can be reported violation of illegal parking vehicle.

The fine management server 200 that receives the report of the violation of the illegal parking vehicle detects the traffic violation time by using the shooting date and time in the file attribute information of the traffic violation photo (traffic violation video) file, and the traffic violation photo (traffic violation) The license plate of the video is read to determine the traffic violation license plate number. For reference, the traffic violation place may be directly input by the user, or the GPS location information at the time of photographing the user terminal 100 may be used as the traffic violation place.

Traffic violation information storage process (S220) is a process of propagating and storing traffic violation information on the blockchain network. Accordingly, due to blockchain propagation, each fine management server 200 that is a node on the blockchain stores the same traffic violation information, so that traffic violation information of another region may be connected to the fine management server 200 of any particular region. Can be viewed and checked in real time.

As is known, propagation and storage on the blockchain means that the blockchain is stored between nodes on the blockchain network. That is, as shown in FIG. 3, the information included in the block may correspond to a unique number, a header block, a data block, and the like. Version, Rre Block Hash, Merkle Hash, Timestamp, Bits, and Nonnce are recorded in the header block, and traffic violation information of the present invention is stored in the data block.

Traffic violation information stored in the data block is propagated to the blockchain network as shown in FIG. Therefore, when a single information occurs, this information must be propagated to numerous node terminals distributed in the blockchain network.

However, when propagation is performed on the blockchain network, each node terminal is validated as shown in FIG. 5. For example, the first node validates the input information and then propagates to another adjacent second node when the verification is completed. After verifying validity of the propagated information, the second node also propagates to another adjacent third node.

For reference, validation on the blockchain is known as PoW (Proof of Work), which is known as work proof. In the header block consisting of Version, Rre Block Hash, Merkle Hash, Timestamp, Bits, and Nonce, To validate.

In consideration of this point, the traffic violation information storing process (S220) of the present invention has a feature of selectively performing such validation when traffic violation information is propagated in the blockchain network for efficient propagation in the blockchain network. .

To this end, the traffic violation information storage process (S220) of the present invention, as shown in Figure 6, the user grade grasping process (S221), the blockchain validity determination process (S222), blockchain propagation process (S223) can do.

The user grade determining process (S221) is a process of identifying a user grade providing traffic violation information. For example, if a general citizen provides traffic violation information, the user rating is a general citizen rating. In addition, if the enforcement officers, such as police officers or enforcement officials, who crack down on traffic violations and provide traffic violation information, the user rating becomes a enforcement officer.

The process of determining whether to validate is a process of determining whether to validate the blockchain according to the identified user level. In determining whether or not to validate blockchain, if the user level that provided traffic violation information is a enforcement officer level, the blockchain validation is determined not to be validated, and the user rating that provided traffic violation information is a general citizen class, not a enforcement officer rating. In case of blockchain validation.

The blockchain propagation process (S223) is a process of propagating traffic violation information on the blockchain network with or without blockchain validation according to the determined blockchain validation.

Therefore, when it is determined not to validate blockchain, traffic violation information is stored in the fine management server 200 without validation and the traffic violation information is transmitted on another blockchain network. On the other hand, if it is determined to validate the blockchain, the traffic violation information is stored in the fine management server 200 and the traffic violation information is transmitted to another blockchain network only when the validity of the traffic violation information is verified, and the validity is not verified. If not, the fine management server 200 does not store it and discards it and does not transmit traffic violation information on another blockchain network.

Therefore, the traffic violation information received through the enforcement terminal with the authorized enforcement authority shall be stored and propagated immediately without discarding it in the blockchain network without additional validation. On the other hand, traffic violation information received through ordinary citizens who do not have permission to enforce the crackdown is subject to blockchain validation to block malicious data manipulation by any third party.

Meanwhile, the traffic violation notification process (S230) is a process in which the penalty management server 200 imposes a traffic violation penalty in real time along with the notification of the traffic violation information to the traffic violation terminal. For example, a penalty of 50,000 won may be imposed for signal violations, and a fine of 30,000 won for illegal parking.

The reward coin payment process (S240) is a process in which the fine management server 200 pays the reward coin to the user terminal 100 which provided the traffic violation information. This is a reward for providing traffic violation information, and the reward coin may be an electronic money (cryptocurrency) that can be used as a traffic violation penalty fee or a public facility (merchant) fee.

The reward coin used here may be a reward token that can be used only in each region. The difference between coins and tokens can be classified as having or not owning an independent blockchain network (mainnet). Today, the standard ERC-20 (Ethereum Request for Comment) token, the world's token, means a token that can be used in Decentralized Application (DAPP) based on Ethereum network blockchain. In a broad sense it also functions as an asset as well as money.

For example, the Seoul regional fine management server 200 for managing traffic violation penalties in the Seoul area pays compensation coins that can be used only in the Seoul area, and the Busan regional fine management server for managing traffic violation penalties in the Busan area ( In the case of 200), reward coins that can only be used in Busan are paid.

In addition, the reward coin may be a reward token that can be used only for a given purpose. For example, it may be a reward token that can only be used in traditional markets, or a reward token that can only be used as a utility fee.

Meanwhile, due to blockchain propagation, each fine management server 200 that is a node on the blockchain stores the same traffic violation information. At this time, a traffic violation photo (traffic violation video) in the traffic violation information is displayed on each blockchain. Storing all of the nodes is unnecessary because it requires a large storage medium. For example, storing traffic violation photos received in the Seoul area in the Busan area fine management server 200 as well as the Seoul area fine management server 200 consumes the storage capacity of the Busan area fine management server is inefficient.

In consideration of this, when the traffic violation information includes a traffic violation vehicle number, a traffic violation place, a traffic violation time, and a traffic violation photo (traffic violation video), the traffic violation photo (traffic violation video) is a traffic violation information. It is stored only in a separate database of the fine management server 200 initially provided, so as not to propagate to other servers on the blockchain network. For example, as shown in Figure 7, the traffic violation photo received in the Seoul area is stored only in the Seoul administrative fine management server 200, Busan area fine management server 200 in the Seoul traffic violation vehicle number, traffic Save only the place of violation and the traffic violation time, and do not save the traffic violation photo (traffic violation video). Traffic violation information stored in the Seoul administrative fine management server 200 is stored in the address address of the database (DB) is stored traffic violation photos.

However, in the traffic violation notification process (S230), the traffic violation vehicle number, traffic violation place, traffic violation time, the server web address (or traffic violation photo DB address) storing the traffic violation photo is notified to the traffic violation terminal. Therefore, the trafficker terminal is connected to the server that stores the traffic offense picture to download the traffic offense to check the fact that their traffic violations. For example, when a Busan person violates traffic in the Seoul area, the traffic violation photo may be viewed and checked by accessing the traffic violation management server 200 in violation of the traffic when notified of the penalty.

As a reward for the inconvenience of the traffic offender inquiring about the traffic violation picture, the trafficker terminal accesses the server storing the traffic violation picture and inquires the traffic violation picture. .

The embodiments in the above description of the present invention are presented by selecting the most preferred examples to help those skilled in the art from the various possible examples, and the technical spirit of the present invention is not necessarily limited or limited only by the embodiments. In addition, various changes, modifications, and other equivalent embodiments may be made without departing from the technical spirit of the present invention.

100: user terminal
200: fine management server

Claims (11)

The traffic management information receiving process, the fine management server receives the traffic violation information from the user terminal;
A traffic violation information storing process of the fine management server propagating and storing the traffic violation information on a blockchain network; And
A traffic violation notification process, wherein the penalty management server imposes a traffic violation penalty in real time together with the notification of the traffic violation information to the traffic violation terminal;
Including,
The traffic violation information storage process,
A user rating grasp process for grasping a user rating providing traffic violation information;
A blockchain validation step of determining whether to blockblock validation selectively according to the identified user level; And
The blockchain propagation process consists of propagating traffic violation information on the blockchain network with or without blockchain validation according to the determined blockchain validation.
The process of determining whether to validate the blockchain,
(i) If the user class providing the traffic violation information is the officer level, which is the level of the officers including the police officers and officers, the blockchain validation is decided not to be validated.
(ii) A method for managing traffic violation fines using a block chain, characterized in that the block chain validation is determined to be validated if the user class providing the traffic violation information is not a enforcement officer level.
The method according to claim 1,
A reward coin payment process of paying a reward coin to the user terminal providing the traffic violation information, by the penalty management server;
Traffic violation penalty management method using a blockchain comprising a.
The method of claim 2, wherein the reward coin,
A method for managing traffic violation fines using a blockchain, characterized in that it is electronic money that can be used as payment for traffic violation fines and fees for public facilities.
The method of claim 3, wherein the reward coin,
Traffic violation penalty management method using blockchain, which is a reward coin that can only be used in each area.
delete delete delete The method according to claim 1,
If it is decided not to validate blockchain, the traffic violation information is stored in the fine management server without validation and the traffic violation information is transmitted on another blockchain network.
If the blockchain validation is determined, the traffic violation information is stored in the penalty management server only when the validity of the traffic violation information is validated, and the traffic violation information is transmitted on another blockchain network. Method for managing traffic violation penalties using blockchain, characterized in that it does not store in the network and discards it and does not transmit the traffic violation information on another blockchain network.
The method according to claim 1,
A method for managing traffic violation fines using a block chain, characterized in that a notification message is transmitted through a text message or a messenger to a borrower's mobile phone number of a vehicle collected in advance immediately after the traffic violation information is received.
The method according to claim 9,
Personal information such as vehicle owner's mobile phone number, vehicle number, and personal information is propagated on the blockchain network by blockchain-based encryption, and whether or not to send an alert message is also propagated on the blockchain network. How to manage traffic violation penalties using blockchain.
The method according to claim 1,
Blocks that include disseminating complaint reports linked to the inconvenience reporting app, safety newspaper, and the agency's homepage to the blockchain network to inform the complaint reporters of the contents of complaints, on-site processing, and the results of the complaints, and impose a fine on traffic offenders. How to manage traffic violation fines using chain.

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