KR20170079560A - NFC-based Vehicle Status Alerts Service System for Phone-number Leakage Protection - Google Patents

Abstract

The NFC-based vehicle condition notification service system records a device ID indicating a hardware unique number in a sticky NFC tag in a write mode and records it in a sticky NFC tag in a read mode, A portable terminal having a notification application for performing an operation of reading a device ID of the terminal; An application server that relays data exchange between a cloud server that performs a push message service using a register ID as an identifier and the notification application; And a database for storing and storing register IDs corresponding to the device IDs.

Description

[0001] NFC-based Vehicle Status Alert Service System for Phone-number Leakage Protection [

The present invention relates to a notification service system, and more particularly, to an NFC-based vehicle status notification service system.

Most vehicle drivers display emergency contacts on the car's front glass in case of an accident. However, the telephone number and the like may be exposed to the unspecified number of persons, and the spam character, the telephone, or personal information may be damaged.

According to the National Statistical Office, the number of spam phone calls and spam in the 2011 spam damage survey was 2 or 3, respectively.

Recently, a system has been developed to match a real telephone number with a virtual disposable temporary number using a recent encryption algorithm. However, there are many errors in matching work and a separate cost is imposed.

In addition, although a virtual contact system provided by a car insurance company is attached to the front of the vehicle and a system for communicating via an automobile insurance company has been developed, there is a problem that communication with the owner of the car is not performed smoothly.

SUMMARY OF THE INVENTION The present invention has been proposed in order to solve the above-mentioned technical problems, and it is an object of the present invention to provide a method of transmitting a transmission message, which is intended to be transmitted without exposing an actual telephone number, Based vehicle status notification service system.

According to an embodiment of the present invention, a device ID indicating a hardware unique number in a write mode is recorded in a sticky NFC tag adjacent to the sticky NFC tag, A portable terminal having a notification application for performing an operation of reading a device ID of the terminal; An application server that relays data exchange between a cloud server that performs a push message service using a register ID as an identifier and the notification application; And a database for storing and storing register IDs corresponding to the device IDs.

The register ID is an identifier assigned to each notification application in the cloud server.

In addition, the notification application of the portable terminal reads the device ID of another portable terminal recorded in the sticky NFC tag in the read mode, and then connects to the web server and registers in the register corresponding to the device ID Receives the ID, and transmits a transmission message and a register ID to be transmitted to the application server.

The cloud server receives the transmission message and the register ID from the application server when the push message service is performed, and transmits the transmission message to the notification application of the other portable terminal corresponding to the register ID.

The NFC-based vehicle status notification service system according to the embodiment of the present invention includes:

By using the NFC (Near Field Communication) tag and the push message service, the push message (transmission message) can be transmitted to the portable handheld terminal when necessary through the simple writing function and the reading function of the NFC tag. The NFC tag stores only the device ID of the portable terminal owned by the car owner, thereby minimizing leakage of personal information.

That is, a system can be implemented that allows the vehicle owner to communicate smoothly without revealing the actual phone number of the car owner.

1 is a configuration diagram of an NFC-based vehicle situation notification service system 1 according to an embodiment of the present invention;
FIG. 2 is a first operational configuration diagram according to an embodiment of the NFC-based vehicle condition notification service system 1 of FIG. 1; FIG.
3 is a second operation configuration diagram according to the embodiment of the NFC-based vehicle condition notification service system 1 of FIG.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings, in order to facilitate a person skilled in the art to easily carry out the technical idea of the present invention.

1 is a configuration diagram of an NFC-based vehicle condition notification service system 1 according to an embodiment of the present invention.

The NFC-based vehicle condition notification service system 1 according to the present embodiment includes only a brief configuration for clearly explaining the technical ideas to be proposed.

First, Near Field Communication (NFC) is an extended non-contact wireless local area communication (RFID) technology that does not use a network.

Since NFC (Near Field Communication) can use both data reading and writing functions, it is not necessary to use a reader that was needed for RFID use. When the communication distance is short and the communication distance is less than 10cm, And thus it is used as a main technology of the system proposed in the present invention because it has a strong security and excellent convenience.

Near Field Communication (NFC) not only provides data communication in the terminal by converging with mobile devices, especially smart phones, but also provides interoperability with existing RFID. In order to transmit and receive data through Near Field Communication (NFC), the terminal is placed close to the tag and inputs data to the tag. In addition, when the data in the tag is read, the terminal can be read close to the tag and the data stored in the tag.

Also, in the case of communication between two terminals, the terminal may operate in a peer-to-peer manner and perform bidirectional communication, or may use a card emulation mode in which one terminal operates as a tag.

Referring to FIG. 1, an NFC-based vehicle condition notification service system 1 according to an embodiment of the present invention includes:

A sticker type NFC tag 100, a web server 200, an application server 300, a cloud server 400, and a portable terminal 500.

The detailed configuration and main operation of the NFC-based vehicle condition notification service system 1 configured as described above will be described below.

The portable terminal 500 collectively refers to a portable device such as a mobile phone, a smart phone, a smart pad, etc., which the user can carry while using the portable terminal 500. In the present embodiment, the portable terminal 500 is assumed to be a portable terminal configured as a smart phone.

The portable terminal 500 has a notification application installed therein. The notification application may be executed to select a write mode or a read mode, and then perform an NFC (Near Field Communication) service. That is, in the write mode, data can be written in the sticky NFC tag 100, and in the read mode, the data stored in the sticky NFC tag 100 can be read.

The sticky NFC tag 100 can be attached to a front glass of a vehicle and stores a device ID of the portable terminal 500 owned by a car owner.

In the write mode, the portable terminal 500 records the device ID indicating the hardware unique number in the adjacent sticky NFC tag 100. Here, the device ID refers to the hardware unique number of the portable terminal 500.

That is, after executing the notification application installed in the portable terminal 500 and selecting the write mode and approaching the sticky NFC tag 100, the device ID of the portable terminal 500 is displayed on the sticker- Type NFC tag 100 as shown in FIG. At this time, when a device ID is already recorded in the sticky NFC tag 100, the device ID is updated to a new device ID.

In the read mode, the portable terminal 500 performs an operation of reading the device ID of another portable terminal recorded in the adjacent sticky NFC tag 100.

That is, after executing the notification application installed in the portable terminal 500 and selecting the read mode and approaching the sticky NFC tag 100, the device ID (Device ID) stored in the sticky NFC tag 100 ) Is read. At this time, if the device ID is not stored in the sticky NFC tag 100, it is preferable that an error message is displayed on the portable terminal 500.

The application server 300 may be defined as a server that is connected to the notification application installed in the portable terminal 500 through a network and runs a notification application while exchanging data with the notification application.

The application server 300 may be networked with the cloud server 400 that performs the push message service,

That is, the application server 300 can perform a function of relaying data exchange between the cloud server 400 performing the push message service using the register ID as an identifier and the notification application. At this time, the register ID is defined as an identifier assigned to each notification application in the cloud server 400.

For example, the cloud server 400 may use a GCM (Google Cloud Messaging) server provided by Google. In this case, the application server 300 may include a GCM connection server GCM Connection Server).

As a reference, a polling mechanism must be implemented to maintain the connection from the portable terminal 500 to the server while checking whether the connection is disconnected at predetermined time intervals in order to continuously maintain the connection. However, it is preferable to use a cloud server compatible with the operating system of the portable terminal 500 since a problem of consuming a lot of hardware resource or power of the terminal occurs in the polling process.

That is, when the portable terminal 500 is operated as an Android operating system, it is most preferable to implement a push service using a GCM (Google Cloud Messaging) server provided by Google. It is most preferable to use a push service server provided by a manufacturer of each operating system for portable terminals equipped with other operating systems. However, a user may construct a separate push service server to construct an NFC-based vehicle situation notification service system 1 will be.

The web server 200 has a database for sorting and storing a register ID corresponding to a device ID.

That is, when registering a user in the notification application of the portable terminal 500, the web server 200 arranges a device ID and a register ID to construct a database, ID (Device ID), and Register ID data.

A process of registering a car owner in the sticky NFC tag 100 will be described as follows.

First, the notification application of the car owner portable terminal 500 is executed, and then the writing mode is selected.

The device ID of the portable terminal 500 is stored in the sticky NFC tag 100 when the portable terminal 500 is brought close to the sticky NFC tag 100 in the write mode.

At this time, the notification application receives a register ID from the cloud server 400 via the application server 300, and the registered register ID is registered in the web server 200 with a device ID ).

For reference, the notification application compares the unique number of the sticky NFC tag 100 with the device ID of the portable terminal 500 to determine the device ID of the portable terminal 500 ID) can be controlled to be stored in the sticky NFC tag 100.

That is, since the device ID corresponding to the unique number of each sticky NFC tag 100 is previously authenticated to the web server 200 or the application server 300 through a separate authentication process in advance, Information can be used to enhance security.

A process of transmitting a transmission message to a car owner using the sticky NFC tag 100 will be described below.

First, when the portable terminal of another person installed with the notification application confirms the device ID of the owner of the car stored in the sticky NFC tag 100 in proximity to the sticky NFC tag 100, 200 and confirms a register ID corresponding to the device ID.

Next, when a transmission message to be transmitted to the car owner is input, a transmission message and a register ID are transmitted to the cloud server 400 via the application server 300, And performs a push message service using an ID (Register ID) as an identifier. The cloud server 400 pushes the transmission message to the portable terminal corresponding to the register ID.

That is, the notification application of the portable terminal reads the device ID of the other portable terminal recorded in the sticky NFC tag 100 in the read mode, and then connects to the web server 200 to read the device ID And receives a register ID corresponding to the Device ID of the application server 300 and transmits a transfer message and a Register ID to be transmitted to the application server 300.

When performing the push message service, the cloud server 400 receives the transmission message and the register ID transmitted from the application server 300 and transmits a transmission message to the notification application of the other portable terminal corresponding to the register ID .

Fig. 2 is a first operation configuration diagram according to the embodiment of the NFC-based vehicle condition notification service system 1 of Fig. 1; Fig.

Referring to FIG. 2, the terminal 501 is brought close to the sticky NFC tag 100 attached to the other vehicle by using the NFC reading function of the notification application as shown in (1).

The device ID stored in the sticky NFC tag 100 is read and the register ID of the receiver is retrieved from the database with reference to the read device ID.

After the user creates the transmission message suitable for the situation and presses the transmission button, the registered register ID (step 3) and the transmission message created in the notification application are transmitted to the cloud server 400 via the application server 300 .

Finally, the cloud server 400, which is the process of the fourth step, transmits a push message in a push format to the terminal 502 corresponding to the register ID.

3 is a second operation configuration diagram according to the embodiment of the NFC-based vehicle condition notification service system 1 of FIG.

Referring to FIG. 3, ?? is a membership registration process executed when the notification application is initially executed. The device ID and the register ID issued from the cloud server 400 are stored in the database. At this time, the device ID can distinguish the user as the terminal unique number.

Is a process in which a driver stores a device ID in a sticky NFC tag 100 using an NFC write function.

When a tagging from a certain person occurs in the sticky NFC tag 100 attached to the vehicle, a push message is transmitted from the cloud server 400 to the terminal 502 as shown in (1) , The process of storing the situation is executed.

For reference, the NFC-based vehicle condition notification service system 1 can be configured to operate in conjunction with a black box installed inside a vehicle. The black box is defined as an image recording device that records external and internal situations when driving and parking the vehicle.

The Black Box contains an RF module that can exchange data wirelessly with the notification application. Therefore, when the owner of the car approaches the black box, the date and time of receiving the transmission message from the other person are transmitted to the black box. In the black box, only the image corresponding to the received date and time is automatically edited, To the notification application of the terminal.

That is, the car owner can grasp the surrounding situation of his / her vehicle more accurately while simultaneously checking the video transmitted from the black box and the received transmission message.

In addition, the notification application includes anti-spam functionality. The spam protection function is automatically executed regardless of the user's intention to prevent the collection of irrelevant information.

That is, the notification application stores all the read times of the plurality of sticky NFC tags. If the number of times of reading the different sticky NFC tags per reference time exceeds the set range, the operation for reading the sticky NFC tags is blocked.

In addition, if too much read operation is temporarily performed on one sticky NFC tag, the push message service transmitted to the sticky NFC tag may be blocked for a predetermined time.

Further, when the notification application transmits a transmission message, the notification application can detect the motion of the portable terminal, and an operation corresponding to the motion can be performed.

For example, when a user inputs a transmission message and shakes the portable terminal two or three times in the vertical direction (sky-ground direction), the recently photographed picture may be transmitted together with the transmission message. The number of photographed pictures can be selected by the user.

The NFC-based vehicle status notification service system according to the embodiment of the present invention includes:

Utilizing the NFC tag and push message service, the push message (transmission message) can be transmitted to the borrower's portable terminal through the simple writing and reading function of the NFC tag when necessary. The NFC tag stores only the device ID of the portable terminal owned by the car owner, thereby minimizing leakage of personal information.

That is, a system can be implemented that allows the vehicle owner to communicate smoothly without revealing the actual phone number of the car owner.

Thus, those skilled in the art will appreciate that the present invention may be embodied in other specific forms without departing from the spirit or essential characteristics thereof. It is therefore to be understood that the embodiments described above are to be considered in all respects only as illustrative and not restrictive. The scope of the present invention is defined by the appended claims rather than the detailed description and all changes or modifications derived from the meaning and scope of the claims and their equivalents are to be construed as being included within the scope of the present invention do.

1: NFC-based vehicle situation notification service system
100: Sticky NFC tag
200: Web server
300: Application server
400: Cloud server
500, 501, 502: portable terminal

Claims (4)

Writes the device ID indicating the hardware unique number in the sticky NFC tag in the write mode and reads the device ID of the other portable terminal recorded in the sticky NFC tag in the read mode A portable terminal having a notification application installed therein;
An application server that relays data exchange between a cloud server that performs a push message service using a register ID as an identifier and the notification application; And
A web server having a database for sorting and storing register IDs corresponding to device IDs;
Based vehicle status notification service system.
The method according to claim 1,
The register ID includes:
Wherein the identifier is an identifier assigned to each notification application in the cloud server.
The method according to claim 1,
The notification application of the portable terminal includes:
After reading the device ID of another portable terminal recorded in the sticky NFC tag in the read mode, the controller accesses the web server to receive the register ID corresponding to the device ID, And the register ID is transmitted to the application server.
The method of claim 3,
The cloud server includes:
In carrying out the push message service,
Receives a transmission message and a register ID transmitted from the application server, and transmits a transmission message to a notification application of another portable terminal corresponding to the register ID.

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