KR102324906B1 - Smart Key Device for Automobile - Google Patents

Abstract

The present invention relates to a smart key device for a vehicle using a smart phone, and more particularly, to a key box having a first short-range communication unit and an OTP authentication unit; a smartphone having a second short-distance communication unit and an OTP generating unit, generating an OTP number and transmitting it to the OTP authentication unit; an authentication center that transmits a secret key for OTP generation to a smartphone; Since the key box and the smartphone perform mutual authentication using the OTP number when the car door is opened, it can be safe from the risk of hacking, and after storing only a part of the secret key in the OTP generator of the smartphone When authentication using user biometric information is performed when the door is opened, the authentication center sends the remaining secret key to the smartphone to allow authentication using the OTP number between the keybox and the smartphone to further improve the security function. It relates to a smart key device for automobiles using

Description

Smart Key Device for Automobile using a smartphone

The present invention relates to a smart key device for a vehicle using a smart phone, and more particularly, to a key box having a first short-range communication unit and an OTP authentication unit; a smartphone having a second short-distance communication unit and an OTP generating unit, generating an OTP number and transmitting it to the OTP authentication unit; an authentication center that transmits a secret key for OTP generation to a smartphone; Since the key box and the smartphone perform mutual authentication using the OTP number when the car door is opened, it can be safe from the risk of hacking, and after storing only a part of the secret key in the OTP generator of the smartphone When authentication using user biometric information is performed when the door is opened, the authentication center sends the remaining secret key to the smartphone to allow authentication using the OTP number between the keybox and the smartphone to further improve the security function. It relates to a smart key device for automobiles using

In general, when opening a car door or starting the engine, a car key formed in the form of a key is inserted into a key box and used.

However, in the case of such a car key, there is a problem in that the risk of vehicle loss increases because it is easy to duplicate the key.

In order to solve this problem, a smart key for opening a door or starting the engine using a two-way communication function is provided.

However, the conventional smart key has a risk of loss because the driver must always carry the smart key.

In order to solve the problems of the conventional smart key, a smart key using a smart phone, which is always carried by modern people, has been provided.

However, the conventional smart key device using a smart phone is vulnerable to hacking because a security function is not provided.

* Prior art literature *

Republic of Korea Patent No. 10-1741500

Therefore, the present invention for solving the above problems is a first short-distance communication unit and a key box having an OTP authentication unit; a smartphone having a second short-distance communication unit and an OTP generating unit, generating an OTP number and transmitting it to the OTP authentication unit; an authentication center that transmits a secret key for OTP generation to a smartphone; Since the key box and the smartphone perform mutual authentication using the OTP number when the car door is opened, it can be safe from the risk of hacking, and after storing only a part of the secret key in the OTP generator of the smartphone When authentication using user biometric information is performed when the door is opened, the authentication center sends the remaining secret key to the smartphone to allow authentication using the OTP number between the keybox and the smartphone to further improve the security function. An object of the present invention is to provide a smart key device for automobiles using

Therefore, the present invention for solving the above problems

A key box 10 having a first short-range communication unit 11 and an OTP authentication unit 12;

a smartphone 20 having a second short-range communication unit 21 and an OTP generating unit 22, generating an OTP number and transmitting it to the OTP authentication unit 12;

Authentication center 30 for transmitting the OTP generation secret key to the smart phone 20;

It is characterized in that it is composed of

According to the present invention, when the car door is opened, as the key box and the smart phone perform mutual authentication using the OTP number, it can be safe from the risk of hacking, and only a part of the secret key is stored in the OTP generator of the smart phone. When the user's biometric information is used for authentication when the rear door is opened, the authentication center transmits the remaining secret key to the smartphone to allow authentication using the OTP number between the keybox and the smartphone to further improve the security function. can be expected

1 is a block diagram showing a smart key device for a vehicle using a smart phone of the present invention.

Hereinafter, a preferred embodiment of the present invention will be described with reference to the accompanying drawings FIG. 1 .

According to the drawings, the present invention is

A key box 10 having a first short-range communication unit 11 and an OTP authentication unit 12;

a smartphone 20 having a second short-range communication unit 21 and an OTP generating unit 22, generating an OTP number and transmitting it to the OTP authentication unit 12;

Authentication center 30 for transmitting the OTP generation secret key to the smart phone 20;

It is characterized in that it is composed of

In addition, the OTP generating unit 22 of the smartphone 20 stores a part of the secret key A, and when the OTP number is generated, the remaining secret key B is transmitted from the authentication center 30 and the OTP number is obtained using the secret key AB. characterized by creating

In addition, the smartphone 20 further includes a biometric information authentication unit 23 that transmits the user's biometric information to the authentication center 30 to perform biometric information authentication, and the authentication center 30 includes the biometric information authentication unit 23 ), when normal biometric information is inputted, the remaining secret key B is transmitted to the smart phone 20.

The smart key device for a car using a smart phone of the present invention transmits a secret key B to the key box 10 installed in the door trim of the car, the smart phone 20 carried by the user, and the smart phone 20 Each authentication center 30 is configured.

The key box 10 includes a first short-range communication unit 11 that provides a short-range communication function, performs an authentication operation using the OTP number transmitted from the smart phone 20, and opens the door when authentication is performed. It is configured to include an OTP authentication unit 12 to drive.

The first short-range communication unit 11 may transmit/receive data using NFC or Bluetooth communication.

In addition, the OTP authentication unit 12 is configured to generate and authenticate an OTP number using the complete secret key AB stored in advance.

The OTP authentication unit 12 requests transmission of the OTP number to the smartphone 20 when the smartphone 20 is authenticated, and in response to this, when the OTP number is transmitted from the smartphone 20, the OTP authentication unit 12 compares the OTP number generated by itself using the secret key AB with the OTP number transmitted from the smartphone 20 and, if they match, operates to open the door after authentication is completed.

The smartphone 20 is a wireless communication device that the user always carries.

The smartphone 20 includes a second short-range communication unit 21 , an OTP generation unit 22 , and a biometric information authentication unit 23 .

The second short-range communication unit 21 is configured to communicate with the first short-range communication unit 11 of the key box 10, and the second short-range communication unit 21 also communicates with the first short-range communication unit 11 by NFC or Bluetooth communication method. do.

The OTP generating unit 22 has a function of generating and transmitting an OTP number to the key box 10 when there is a request for the OTP number from the key box 10 .

The OTP generator 22 stores only a part of the secret key A, and when generating the OTP number, after receiving the remaining secret key B transmitted from the authentication center 30, the OTP number is generated using the complete secret key AB. generated and transmitted to the key box 10 .

In order to maximize the security function, the secret key B transmitted from the authentication center 30 is preferably not stored in the OTP generating unit 22 .

The biometric information authentication unit 23 configured in the smartphone 20 is configured to transmit biometric information input by the user to the authentication center 30 so that authentication is performed.

The biometric information transmitted by the biometric information authentication unit 23 to the authentication center 30 may be a user's unique biometric information such as a user's fingerprint and iris.

The fingerprint may be input through a scanner installed in the smartphone, and the iris may be captured as image information through a camera provided in the smartphone and transmitted to the authentication center 30 .

When the user's biometric information is input from the biometric information authentication unit 23 of the smartphone 20, the authentication center 30 compares whether the input biometric information is the same as the user's biometric information registered in advance. If they match after completion of biometric authentication, the remaining secret key B is transmitted to the smartphone 20 .

The operation of the present invention configured in this way will be described as follows.

When the user carrying the smartphone 20 approaches the key box 10 installed on the door trim of the vehicle, the first short-range communication unit 11 and the second short-range communication unit 21 communicate predetermined data with each other. connected while

At this time, after the OTP authentication unit 12 of the key box 10 is activated, the OTP number request signal is transmitted to the smart phone 20 .

The OTP generating unit 22 of the smartphone 20 operates the biometric information authentication unit 23 after receiving the OTP number request signal received from the key box 10, and the biometric information authentication unit 23 is the user A message that prompts the user to input biometric information is displayed on the screen.

Accordingly, when the user inputs biometric information using a fingerprint or iris, the biometric information authentication unit 23 transmits the input biometric information to the authentication center 30, and the authentication center 30 communicates with the input biometric information in advance. Compare registered biometric information.

As a result of the comparison, if the two biometric information matches, the authentication center 30 transmits the remaining secret key B to the smart phone 20 after authenticating the user.

The OTP generating unit 22 generates an OTP number using the complete secret key AB by combining some of the secret key A stored in advance and the remaining secret key B transmitted from the authentication center 30 to the key box 10 . send.

The OTP authentication unit 12 of the key box 10 stores the complete secret key AB, and when the OTP number is received from the smartphone 20, it generates an OTP number by itself using the secret key AB, and then the received OTP Compare the number with the self-generated OTP number.

As a result of the comparison, when the two OTP numbers match, the key box 10 operates to open the door.

As described above, the present invention uses the smart phone 20 to open the car door, and the smart phone 20 and the key box 10 internally perform an authentication operation using an OTP number to each other, thereby providing security performance. this was to be improved.

10: key box, 11: first short-distance communication unit,
12: OTP authentication unit, 20: smartphone,
21: second short-range communication unit, 22: OTP generating unit,
23: biometric information authentication department, 30: authentication center,

Claims (3)

a first short-distance communication unit 11 and a key box 10 having an OTP authentication unit 12;
a smartphone 20 having a second short-range communication unit 21 and an OTP generating unit 22, generating an OTP number and transmitting the OTP number to the OTP authentication unit 12;
The authentication center 30 for transmitting the secret key for OTP generation to the smartphone 20; consists of;
The OTP generating unit 22 of the smartphone 20 stores a part of the secret key A, and when the OTP number is generated, the remaining secret key B is transmitted from the authentication center 30 and the OTP number is generated using the secret key AB. and
The smartphone 20 further includes a biometric information authentication unit 23 that transmits user biometric information to the authentication center 30 to perform biometric information authentication, and the authentication center 30 includes a biometric information authentication unit 23 A smart key device for a car using a smart phone, characterized in that when normal biometric information is input from the smart phone, the remaining secret key B is transmitted to the smart phone 20.
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