KR102241776B1 - Authentication device and method for vehicle - Google Patents

Abstract

The present disclosure is to provide a vehicle authentication apparatus and method capable of preventing unauthorized use of a vehicle by another person using a user terminal and input devices in the vehicle. According to a technical embodiment of the present disclosure, a vehicle authentication method comprises the steps of: obtaining a signal or input set to trigger an authentication operation of a vehicle; obtaining authentication information in response to the signal or input; transmitting the obtained authentication information to a terminal; and performing authentication for starting control of the vehicle based on a user input received through a user input device provided in the vehicle and the authentication information.

Description

Vehicle authentication device and method {AUTHENTICATION DEVICE AND METHOD FOR VEHICLE}

The technical idea of the present disclosure relates to an authentication device and method of a vehicle, and more particularly, to an authentication device and method for performing double authentication between a terminal and an authentication device.

A vehicle's smart key is a device that allows a user to open and close a door and start a vehicle without inserting a separate key or operating an operation button. In recent years, with the development of Internet of Things (IoT) technology, communication and electronic control technologies applied to vehicles are also rapidly developing.

In particular, among recently released vehicles, various functions are provided through communication between the terminal and the vehicle, such as opening and closing a door or starting the vehicle using a terminal such as a smart key or a smart phone possessed by a user. For example, the terminal may be connected to the vehicle through a short-range wireless communication method such as Bluetooth or a wireless communication method such as LTE, 5G, or Wi-Fi.

However, in the case of signals (packets) transmitted and received between the terminal and the vehicle, there is a security risk due to signal duplication or interception. There is a problem that it becomes easy.

In addition, when the user opens the door using a terminal or the like while being far away from the vehicle, there is a possibility that an unauthorized person may illegally board the vehicle and take the vehicle after starting the engine.

1. Republic of Korea Patent Publication No. 10-1667990 (registered on October 14, 2016)

The technical problem to be solved by the present invention is to provide a vehicle authentication apparatus and method capable of preventing unauthorized use of a vehicle by others using a user terminal and input devices in the vehicle.

The technical problem to be solved by the present invention is to provide a vehicle authentication method capable of improving the security of authentication information required for authentication between a user terminal and a vehicle.

In order to achieve the above object, a vehicle authentication method according to an aspect according to the technical idea of the present disclosure includes the steps of acquiring a signal or input set to trigger an authentication operation of the vehicle, the signal or input Acquiring authentication information in response to, transmitting the obtained authentication information to a terminal, and based on a user input received through a user input device provided in the vehicle and the authentication information, for driving the vehicle And performing authentication.

According to an embodiment, until the authentication is completed, the engine of the vehicle may be maintained in a state in which it is not started.

According to an embodiment, the user input device includes at least one of a dial, a touch panel, a touch screen, and a button included in the vehicle, and the authentication information is for at least one of configurations included in the user input device. May contain input information.

According to an embodiment, the authentication information may be randomly generated to have arbitrary input information for at least one of the components included in the user input device.

According to an embodiment, obtaining the authentication information may include requesting transmission of authentication information to a server in response to the signal or input, and receiving the authentication information from the server. .

According to an embodiment, transmitting the received authentication information to the terminal may include transmitting the authentication information to the terminal in order to output the authentication information through an output unit of the terminal.

According to an embodiment, the signal or input includes a start button input signal corresponding to the start button input of the vehicle or the start button input, and the performing of the authentication includes the authentication information and the user input. In this case, it may include starting the engine of the vehicle.

According to an embodiment, the authentication information includes first authentication information and second authentication information, and the performing of the authentication includes receiving a first user input through the user input device, and the received first authentication information. Determining whether a user input corresponds to the first authentication information, if the first user input corresponds to the first authentication information, transmitting a request for outputting the second authentication information to the terminal, the user It may include receiving a second user input through an input device, and determining whether the received second user input corresponds to the second authentication information.

According to an embodiment, the authentication for the operation of the vehicle corresponds to the secondary authentication, and the step of obtaining the signal or input comprises performing a primary authentication for the terminal, and upon completion of the primary authentication, the It may include unlocking a door of the vehicle, and obtaining a signal or input set to trigger an authentication operation of the vehicle.

An authentication device for a vehicle according to an aspect according to the technical idea of the present disclosure, a communication unit for communication connection with a terminal, and obtaining authentication information in response to a signal or input set to trigger an authentication operation of the vehicle, and obtained authentication It may include a processor that transmits information to the terminal, and performs authentication for driving the vehicle based on a user input received through a user input device provided in the vehicle and the authentication information.

According to an embodiment, the authentication device further includes an interface for connecting with a vehicle electronic control unit (ECU), and the processor receives the signal or input from the vehicle ECU through the interface, and The user input is received from the vehicle ECU through the vehicle, and upon completion of the authentication, a starting control signal for starting control of the vehicle may be transmitted to the vehicle ECU through the interface.

The vehicle authentication method according to the technical idea of the present disclosure includes secondary authentication using a user's terminal and a user input device in the vehicle, and effectively prevents an unauthorized person from driving the vehicle. In particular, after the user unlocks the vehicle door from a distance, it is possible to prevent the risk of the other person illegally boarding the vehicle and taking the vehicle.

In addition, since the secondary authentication information for secondary authentication does not exist stored in the two-factor authentication device or terminal, but is randomly generated and provided by the two-factor authentication device or server, the problem of security degradation due to leakage of secondary authentication information is effectively prevented. Can be.

The effects that can be obtained by the dual authentication method and apparatus according to the technical idea of the present disclosure are not limited to the effects mentioned above, and other effects not mentioned are common knowledge in the technical field to which the present invention belongs from the following description. It will be clearly understandable to those who have.

In order to more fully understand the drawings cited in the present disclosure, a brief description of each drawing is provided.
1 is a diagram illustrating a network configuration according to an exemplary embodiment of the present disclosure.
2 is a block diagram illustrating a detailed configuration of a user terminal and a dual authentication device for dual authentication of a vehicle according to an exemplary embodiment of the present disclosure.
3 is a block diagram illustrating an example of components included in the user input device shown in FIG. 2.
4 is an example of a signal or input set to trigger a secondary authentication operation by a two-factor authentication device among operations for a two-factor authentication method according to an exemplary embodiment of the present disclosure, and generates secondary authentication information based on an input of a start button Or, it is a ladder diagram for explaining the operation up to the process of requesting transmission of secondary authentication information.
5 is an exemplary diagram for explaining an operation of a vehicle ECU and a dual authentication device according to an input of a start button.
6 is a ladder diagram illustrating an example of an operation performed by the two-factor authentication device based on an input of a start button.
7 is a ladder diagram illustrating an example of an operation in which a user terminal and a two-factor authentication device perform secondary authentication among operations for a two-factor authentication method according to an exemplary embodiment of the present disclosure.
8 is a ladder diagram illustrating an example of an operation in which a user terminal and a two-factor authentication device perform secondary authentication among operations for a two-factor authentication method according to an exemplary embodiment of the present disclosure.
9 illustrates various examples of an operation of performing secondary authentication using a user terminal and a user input device in relation to the embodiments of FIGS. 7 to 8.
10 shows an example of an operation performed by a user terminal and a vehicle when secondary authentication is successful according to embodiments of the present disclosure.

Exemplary embodiments according to the technical idea of the present disclosure are provided to more completely explain the technical idea of the present disclosure to those of ordinary skill in the art, and the following embodiments are modified in various different forms. It may be, and the scope of the technical idea of the present disclosure is not limited to the following embodiments. Rather, these embodiments are provided to make the present disclosure more faithful and complete, and to completely convey the technical idea of the present invention to those skilled in the art.

In the present disclosure, terms such as first and second are used to describe various members, regions, layers, regions, and/or components, but these members, parts, regions, layers, regions, and/or components refer to these terms. It is obvious that it should not be limited by. These terms do not imply any particular order, top or bottom, or superiority, and are used only to distinguish one member, region, region, or component from another member, region, region, or component. Accordingly, a first member, region, region, or component to be described below may refer to a second member, region, region, or component without departing from the teachings of the technical idea of the present disclosure. For example, without departing from the scope of the present disclosure, a first element may be referred to as a second element, and similarly, a second element may be referred to as a first element.

Unless otherwise defined, all terms used herein, including technical terms and scientific terms, have the same meaning as commonly understood by one of ordinary skill in the art to which the concept of the present disclosure belongs. In addition, terms commonly used, as defined in the dictionary, should be construed as having a meaning consistent with what they mean in the context of the technology to which they are related, and in an excessively formal sense unless explicitly defined herein. It should not be interpreted.

When a certain embodiment can be implemented differently, a specific process order or process order may be performed differently from the described order. For example, two consecutively described processes or processes may be performed substantially simultaneously, or may be performed in an order opposite to the described order.

In addition, terms such as "~ unit", "~ group", "~ character", and "~ module" described in the present specification mean a unit that processes at least one function or operation, which is a processor or a microcomputer. Processor (Micro Processer), Micro Controller, CPU (Central Processing Unit), GPU (Graphics Processing Unit), APU (Accelerate Processor Unit), DSP (Drive Signal Processor), ASIC (Application Specific Integrated Circuit), FPGA It may be implemented in hardware or software such as (Field Programmable Gate Array), or a combination of hardware and software, and may be implemented in a form combined with a memory that stores data necessary for processing at least one function or operation. .

In addition, it is intended to clarify that the division of the constituent parts in the present specification is merely divided by the main function that each constituent part is responsible for. That is, two or more constituent parts to be described below may be combined into one constituent part, or one constituent part may be divided into two or more for each more subdivided function. In addition, each of the constituent units to be described below may additionally perform some or all of the functions of other constituent units in addition to its own main function, and some of the main functions of each constituent unit are different. It goes without saying that it can also be performed exclusively by.

The term'and/or' as used herein includes each and every combination of one or more of the recited elements.

Hereinafter, embodiments according to the technical idea of the present disclosure will be described in detail with reference to the accompanying drawings.

1 is a diagram illustrating a network configuration according to an exemplary embodiment of the present disclosure.

Referring to FIG. 1, the entire network may include a user terminal 10, a vehicle 20, a server 30, and a mobile communication network 40 (or various wired and wireless communication networks). Depending on the embodiment, the server 30 may be omitted.

The vehicle 20 may be configured to include a dual authentication device 21 and a vehicle Electronic Control Unit (ECU) 23.

The user terminal 10 may perform short-range wireless communication with the dual authentication device 21 of the vehicle 20. For example, short-range wireless communication may include Bluetooth communication, but this is only one embodiment, and Wi-Fi communication, NFC (Near Field Communication), UWB (Ultra Wideband) communication, and the like may be used. However, communication between the user terminal 10 and the two-factor authentication device 21 is not performed only by short-range wireless communication, and according to an embodiment, the user terminal 10 includes the two-factor authentication device 21 and Wi-Fi, LTE (long term). evolution) and 5G.

The user terminal 10 and the dual authentication device 21 may transmit and receive information and/or data for user authentication of the vehicle 20. By controlling the vehicle ECU 23 to execute or block various functions based on the user authentication result, it is possible to prevent theft or theft due to the boarding or use of the vehicle 20 by someone other than the user.

The user terminal 10 may include a general-purpose portable terminal such as a smart phone, a tablet PC, and a wearable device, but is not limited thereto, and is dedicated for user authentication or function execution of the vehicle 20. It may also include a terminal (smart key, etc.). When the user terminal 10 corresponds to a general-purpose portable terminal, an application (not shown) for performing user authentication or function execution through communication with the vehicle 20 may be installed on the user terminal 10. .

The two-factor authentication device 21 may control overall operations related to the above-described user authentication. The dual authentication device 21 may be implemented as a device that can be mounted inside the vehicle 20 (such as a center fascia), or may be provided in a form built-in when the vehicle 20 is shipped. Alternatively, the double authentication device 21 may be provided integrally with the vehicle ECU 23 and/or the user input device 25 to be described later.

According to an embodiment of the present disclosure, the two-factor authentication device 21 more effectively prevents theft or theft of the vehicle 20 and authenticates through two-factor authentication including primary (primary) authentication and secondary (secondary) authentication. It can improve safety. For example, the primary authentication corresponds to authentication for unlocking the door of the vehicle 20, and the secondary authentication corresponds to authentication for activating the function of the vehicle 20 (eg, starting the engine, releasing the parking brake, etc.). However, it is not necessarily limited thereto.

According to an embodiment of the present disclosure, when an input of a start button is detected after primary authentication, the dual authentication device 21 may generate secondary authentication information for the secondary authentication. For example, the secondary authentication information may not be pre-stored in the two-factor authentication device 21, but may be randomly generated for each secondary authentication. Accordingly, a problem of security deterioration due to leakage of secondary authentication information can be prevented. Embodiments related to the two-factor authentication operation of the two-factor authentication device 21 will be described in more detail later with reference to FIGS. 4 to 10.

The dual authentication device 21 and the vehicle ECU 23 may exchange information using at least one of controller area network (CAN) communication, media oriented systems transport (MOST) communication, Ethernet communication, and FlexRay communication. . Here, the information may include various control signals and sensing signals, but is not limited thereto. According to an embodiment, a vehicle gateway (not shown) may be provided between the dual authentication device 21 and the vehicle ECU 23. In this case, the dual authentication device 21 may be connected to the vehicle gateway through CAN communication or the like, and may exchange information with the vehicle ECU 23 through the vehicle gateway.

The vehicle ECU 23 corresponds to a component that controls the operation of most components of the vehicle 20. For example, the vehicle ECU 23 may include a powertrain controller (PTC) domain, a body electronic module (BEM) domain, a head unit (HU) domain, and a chassis and safety controller (CSC) domain.

According to an embodiment, the PTC domain may include an engine controller, a powertrain sensor, a hybrid controller, and the like.

According to an embodiment, the BEM domain may include a door controller, an air conditioning controller, a seat controller, a trunk controller, a window/mirror controller, a lamp controller, and the like.

Depending on the embodiment, the HU (Head Unit) domain may be composed of controllers that provide functions such as navigation, multimedia (audio/video, etc.), and telematics.

According to an embodiment, the Chassis and Safety Controller (CSC) domain may include a brake controller, a steering controller, an environmental sensor, an airbag controller, a cruise controller, a tire pressure controller, and the like.

According to the present embodiment, the vehicle ECU 23 receives a control signal based on the authentication result from the double authentication device 21, and executes or blocks a predetermined function of the vehicle 20 based on the received control signal. You can perform the operation.

The server 30 may store a variety of information for management of the vehicle 20 and/or a user. According to an embodiment, the server 30 may manage authentication information for performing an authentication operation of the two-factor authentication device 21. According to an embodiment of the present disclosure, the server 30 receives a request for transmission of secondary authentication information from the two-factor authentication device 21, generates the second authentication information in response to the received request, and generates the two-factor authentication device 21 and / Or it can be transmitted to the user terminal 10. According to an embodiment, the server 30 may provide authentication information in a kind of instant form in which the secondary authentication information is randomly generated and transmitted in response to a received request. Accordingly, compared to the case where the authentication information set by the user or the like is continuously stored in the user terminal 10, the dual authentication device 21 and/or the server 30, the security of the authentication information used during authentication is greatly improved. Can be improved.

The server 30 may refer to various types of previously known servers such as PCs, workstations, and data centers.

2 is a block diagram illustrating a detailed configuration of a user terminal and a dual authentication device for dual authentication of a vehicle according to an exemplary embodiment of the present disclosure. 3 is a block diagram illustrating an example of components included in the user input device shown in FIG. 2.

Referring to FIG. 2, the user terminal 10 may include a communication unit 110, an input unit 120, an output unit 130, a memory 140, and a processor 150. The dual authentication device 21 may include a communication unit 210, a memory 220, an interface 230, and a processor 240. The configuration of the user terminal 10 and the double authentication device 21 shown in FIG. 2 is an embodiment for convenience of description, and each of the user terminal 10 and the double authentication device 21 is the configuration shown in FIG. It may include more or less configurations.

The communication unit 110 of the user terminal 10 is a short-range wireless communication module 112 for communicating with devices such as a two-factor authentication device 21 located in a short distance within a predetermined distance, and a two-factor authentication device 21 through the mobile communication network 40. ), a server 30, and/or a mobile communication module 114 for communicating with other devices. The short-range wireless communication module 112 may include at least one communication interface supporting communication such as Bluetooth, NFC, and UWB. The mobile communication module 114 may include at least one communication interface supporting a known mobile communication method such as LTE, LTE-A (LTE-Advanced), and 5G.

The input unit 120 may receive various types of inputs for executing functions of the user terminal 10 or inputting information from the user. For example, the input unit 120 may include various types of previously known input means such as a microphone, a camera, a button, a dial, a touch panel, and/or a touch screen.

The output unit 130 may output various information or data processed through the user terminal 10. For example, the output unit 130 may include a display 132 that outputs the information or data in a text or graphic form, but is not limited thereto, and may include various output means such as a speaker and a haptic module.

The memory 140 may store information related to the operation of the user terminal 10, program data, an algorithm, and the like. According to an embodiment, the memory 140 may store information or data related to a two-factor authentication operation between the user terminal 10 and the two-factor authentication device 21. The memory 140 may include volatile memory and nonvolatile memory.

The processor 150 may control the overall operation of components included in the user terminal 10. According to an embodiment, the processor 150 may control a double authentication operation between the user terminal 10 and the double authentication device 21 using the authentication module 152. The authentication module 152 may be implemented in hardware, software, and/or a combination thereof.

The communication unit 210 of the dual authentication device 21 is a short-range wireless communication module 212 for communicating with devices such as a user terminal 10 located in a short distance within a predetermined distance, and the user terminal 10 through the mobile communication network 40. , A server 30, and/or a mobile communication module 214 for communicating with other devices. The short-range wireless communication module 212 may include at least one communication interface supporting communication such as Bluetooth, NFC, and UWB. The mobile communication module 214 may include at least one communication interface supporting a known mobile communication method such as LTE, LTE-A (LTE-Advanced), and 5G.

The memory 220 may store information related to the double authentication operation of the double authentication device 21, program data, an algorithm, and the like. In addition, the memory 220 may store information for controlling a predetermined function of the vehicle 20 through the vehicle ECU 23.

The interface 230 may connect the dual authentication device 21 and the vehicle ECU 23 to exchange signals or information between the dual authentication device 21 and the vehicle ECU 23. The interface 230 may include various known wired/wireless connection interfaces. Depending on implementation, the interface 230 may correspond to a component included in the communication unit 210.

The processor 240 may control the overall operation of components included in the dual authentication device 21. According to an embodiment, the processor 240 may generally control a double authentication operation for the vehicle 20 using the authentication module 242. Similar to the authentication module 152 of the user terminal 10, the authentication module 242 may be implemented in hardware, software, or a combination thereof.

Although not shown, according to an embodiment, the two-factor authentication device 21 further includes a configuration such as at least one input means (eg, buttons, dials, touch panels, etc.), at least one output means (eg, a display, a speaker, etc.) can do.

Meanwhile, the vehicle ECU 23 may be connected to the user input device 25 included in the vehicle 20 to receive a user input through the user input device 25. According to an embodiment, the vehicle ECU 23 may transmit the received user input to the dual authentication device 21.

In FIG. 2, for convenience of explanation, the dual authentication device 21, the vehicle ECU 23, and the user input device 25 are shown as having separate configurations, respectively. However, depending on the embodiment, the dual authentication device 21, the vehicle ECU 23, and/or the user input device 25 are configured in an integrated form (device, function) in relation to the operation or authentication of the vehicle 20. Block, etc.).

Referring to FIG. 3, the user input device 25 may include various types of input (or manipulation) means disposed in the vehicle 20. For example, the user input device 25 includes a start button 251 for receiving an input for starting and turning off the engine of the vehicle 20, selecting a predetermined menu or item, increasing or decreasing the volume, changing a channel, etc. It may include a dial 252 for receiving input. In addition, the user input device 25 includes a touch panel 253 and/or a touch screen 255 for receiving a touch input from a user, and a physical button unit 254 for receiving a push input from the user. Can include. The configuration of the user input device 25 illustrated in FIG. 3 is only an example for convenience of description, and the user input device 25 may include more or less configurations.

Hereinafter, a method of dual authentication of a vehicle according to an exemplary embodiment of the present disclosure will be described with reference to FIGS. 4 to 10.

4 is an example of a signal or input set to trigger a secondary authentication operation by a two-factor authentication device among operations for a two-factor authentication method according to an exemplary embodiment of the present disclosure, and generates secondary authentication information based on an input of a start button. Or, it is a ladder diagram for explaining the operation up to the process of requesting transmission of secondary authentication information. 5 is an exemplary diagram for explaining an operation of a vehicle ECU and a dual authentication device according to an input of a start button.

Referring to FIG. 4, the two-factor authentication method may include performing primary (primary) authentication between the user terminal 10 and the two-factor authentication device 21 (S400). In the double authentication method, when primary authentication is completed, the step of transmitting, by the double authentication device 21, a request to perform a process (function, etc.) corresponding to completion of the primary authentication to the vehicle ECU 23 (S410), and the vehicle ECU 23 ) May include performing a process in response to the request to perform the process (S420).

The user terminal 10 may be connected to the dual authentication device 21 through a communication unit 110 (for example, a short-range wireless communication module 112). When the user terminal 10 and the two-factor authentication device 21 are connected, the processor 150 (or the authentication module 152) may obtain a primary authentication input for performing primary authentication through the input unit 120 or the like. For example, the primary authentication input may correspond to any one of various types of input data for user authentication of the vehicle 20, such as a password, a voice, and a fingerprint.

According to an embodiment, the processor 150 may transmit primary authentication input information including the primary authentication input to the dual authentication device 21. The processor 240 of the dual authentication device 21 may perform the first authentication by comparing the received first authentication input with the first authentication information stored in the memory 220. As a result of the comparison, when the primary authentication input and the primary authentication information match, the processor 240 may transmit a process execution request corresponding to completion of the primary authentication to the vehicle ECU 23. Meanwhile, when the primary authentication input and the primary authentication information do not match, the processor 240 may transmit a notification (message, etc.) indicating primary authentication failure to the user terminal 10. The user terminal 10 may output information corresponding to the primary authentication failure based on the received notification through the output unit 130 and re-acquire the primary authentication input through the input unit 120.

According to an embodiment, the primary authentication information may be stored in the memory 140 of the user terminal 10. In this case, the processor 150 may perform primary authentication by comparing the primary authentication input with the primary authentication information. As a result of the comparison, when the primary authentication input and the primary authentication information match, the processor 150 may transmit a notification (message, etc.) indicating completion of the primary authentication to the dual authentication device 21. The processor 240 of the dual authentication device 21 may transmit a process execution request corresponding to completion of the primary authentication to the vehicle ECU 23 in response to the received notification. On the other hand, when the primary authentication input and the primary authentication information are inconsistent, the processor 150 outputs information corresponding to the primary authentication failure through the output unit 130, and re-reads the primary authentication input through the input unit 120. Can be obtained.

Meanwhile, the vehicle ECU 23 may receive a process execution request corresponding to completion of the primary authentication, and may perform a process corresponding to the received request. For example, when the process is a process of unlocking a door of the vehicle 20, the vehicle ECU 23 (eg, a door controller of the BEM domain) may switch the door of the vehicle 20 to an unlocked state.

The double authentication method includes a step (S440) of receiving a start button input by the vehicle ECU 23 (S430) and transmitting a start button input signal corresponding to the received start button input to the double authentication device 21 can do.

5, a person (user, etc.) who boards the vehicle 20 after completion of the primary authentication may perform an act of inputting (push, etc.) the ignition button 251 to start the vehicle 20. I can. The vehicle ECU 23 may receive a start button input according to the above behavior and transmit a start button input signal corresponding thereto to the double authentication device 21. At this time, the vehicle ECU 23 may not start the engine of the vehicle 20 despite the input of the start button. For example, after the user of the vehicle 20 performs primary authentication at a distance through the user terminal 10 and the door is unlocked, an unauthorized person takes the vehicle 20 by boarding the driver's seat of the vehicle 20. Things can happen. Accordingly, in the double authentication method, in order to prevent illegal use of the vehicle 20 by others, when an input of the start button 251 is detected, the engine may be started after secondary authentication, which will be described later, is completed.

The two-factor authentication method includes the step of generating secondary authentication information in response to the start button input signal by the two-factor authentication device 21 (S450) (CASE1) or requesting transmission of the second authentication information to the server 30 ( S460) (CASE2) may be included.

5, the processor 240 of the dual authentication device 21 may generate secondary authentication information for performing secondary authentication in response to a start button input signal received from the vehicle ECU 23. .

The secondary authentication information may mean input information (such as an input value or an operation value) for at least one of components included in the user input device 25. For example, the secondary authentication information includes a range of rotation angles of the dial 252, a touch pattern through the touch panel 253 or the touch screen 255 (touch coordinates, touch order, character input through touch drag, etc.), physical Among the buttons included in the button unit 254, it may mean information that allows a user to perform a predetermined input through the user input device 25, such as information or an order of a button to be input.

According to an embodiment, the processor 240 may transmit a request to transmit secondary authentication information to the server 30 through a communication unit 210 such as a mobile communication module 214 in response to the start button input signal.

Meanwhile, the dual authentication device 21 or the server 30 may randomly generate the secondary authentication information. Accordingly, each time the start button input signal is received, the two-factor authentication device 21 or the server 30 can generate the secondary authentication information including arbitrary input information for an arbitrary configuration of the user input device 25. have.

According to an embodiment, the dual authentication device 21 or the server 30 may also randomly generate the number of the secondary authentication information. In this case, the two-factor authentication device 21 or the server 30 selects an arbitrary number of configurations among the user input devices 25, and generates the secondary authentication information including arbitrary input information for each of the selected configurations. can do.

Although not shown, the two-factor authentication device 21 may not include the mobile communication module 214 according to an embodiment. In this case, the two-factor authentication device 21 requests transmission of secondary authentication information to the server 30 through the user terminal 10, and the secondary authentication information is sent to the two-factor authentication device 21 through the user terminal 10. It can also be transmitted. As in the above embodiment, information exchange between the user terminal 10, the two-factor authentication device 21, and the server 30 may be performed through various paths that can be changed based on the skill level of a person skilled in the art.

According to an embodiment, step S450 or step S460 (and step S650 of FIG. 6) may be performed based on at least one signal or input set to trigger a secondary authentication operation in addition to the start button input signal. For example, the at least one signal or input may be a detection signal of closing and opening of a driver's door, a fastening detection signal of a driver's seat belt, a driver's boarding detection signal, a brake input, a touch detection signal of a steering wheel, and/or a camera or sensor. It may include various types of signals or inputs related to the driving intention of the vehicle 20, such as a signal for detecting a person's boarding by using.

According to this embodiment, the secondary authentication information is not previously stored in the two-factor authentication device 21 or the user terminal 10, and is generated and transmitted from the two-factor authentication device 21 or the server 30 when performing secondary authentication. As a result, the risk of leakage of the secondary authentication information from the user terminal 10, the two-factor authentication device 21, or the server 30 can be prevented in advance.

6 is a ladder diagram illustrating an example of an operation performed by the two-factor authentication device based on an input of a start button.

Referring to FIG. 6, steps S600 to S640 are substantially the same as steps S400 to S440 of FIG. 4, and redundant descriptions thereof will be omitted.

The two-factor authentication method may include a step (S650) of estimating a distance to the user terminal 10 by the two-factor authentication device 21 receiving a start button input signal from the vehicle ECU 23.

As an example, the two-factor authentication device 21 is based on the strength of a signal received from the user terminal 10 (for example, RSSI (received signal strength indicator)) and/or a distance from the user terminal 10 based on the reception time of the signal. Can be estimated. Specifically, the processor 240 of the dual authentication device 21 transmits a transmission request for a distance measurement signal to the user terminal 10, and the processor 150 of the user terminal 10 responds to the received transmission request. The communication unit 110 may be controlled to output a signal for measuring distance. The distance measurement signal may be output according to a preset strength and timing. The processor 240 of the dual authentication device 21 receives the distance measurement signal and measures the strength (RSSI) of the received distance measurement signal, or when the transmission request is output and the distance measurement signal is received. You can measure the time between time points. The processor 240 may estimate a distance to the user terminal 10 based on the measured intensity and/or time.

The double authentication method, when the estimated distance is within the reference distance (YES in S660), the step of transmitting a start control signal from the double authentication device 21 to the vehicle ECU 23 (S670), and received start control Based on the signal, the vehicle ECU 23 may control the engine start of the vehicle 20 (S680).

For example, the reference distance may correspond to a state in which the user terminal 10 is located inside the vehicle 20 or a state in which the distance to the vehicle 20 is adjacent within a predetermined distance (eg, several meters). In this case, it may be estimated that the input of the start button 251 is performed by a user or a colleague of the user, or other authorized person. In this case, the dual authentication device 21 may transmit a start control signal to the vehicle ECU 23 instead of performing the step S450 described above. The vehicle ECU 23 may start the engine of the vehicle 20 in response to the received start control signal. According to the present embodiment, by not performing the secondary authentication operation when the user is sufficiently close to the vehicle 20, it is possible to eliminate the hassle when the user uses the vehicle 20.

On the other hand, if the estimated distance does not fall within the reference distance (NO in S660), the double authentication method is a step in which the double authentication device 21 generates secondary authentication information (S685) (CASE1) or the double authentication device 21 It may include a step of requesting the transmission of the secondary authentication information to the server 30 (S690) (CASE2). When the estimated distance does not fall within the reference distance, it means a state in which the user terminal 10 is spaced apart from the vehicle 20 by a predetermined distance or more, so that it can be considered that the user has not pressed the start button 251. I can. In this case, the two-factor authentication device 21 may generate secondary authentication information to perform secondary authentication or request transmission of the secondary authentication information to the server 30, and the vehicle ECU 23 waits without starting the engine. I can.

Hereinafter, embodiments related to the secondary authentication performed by the user terminal 10 and the dual authentication device 21 will be described with reference to FIGS. 7 to 10.

7 is a ladder diagram illustrating an example of an operation in which a user terminal and a two-factor authentication device perform secondary authentication among operations for a two-factor authentication method according to an exemplary embodiment of the present disclosure. 8 is a ladder diagram illustrating an example of an operation in which a user terminal and a two-factor authentication device perform secondary authentication among operations for a two-factor authentication method according to an exemplary embodiment of the present disclosure. 9 illustrates various examples of an operation of performing secondary authentication using a user terminal and a user input device in relation to the embodiments of FIGS. 7 to 8. 10 shows an example of an operation performed by a user terminal and a vehicle when secondary authentication is successful according to embodiments of the present disclosure.

Referring to FIG. 7, the two-factor authentication method may include a step (S700) of obtaining, by the two-factor authentication device 21, secondary authentication information.

According to step S450 or S460 of FIG. 4, or step S685 or S690 of FIG. 6, the two-factor authentication device 21 generates secondary authentication information or receives the secondary authentication information from the server 30, so that the secondary authentication Information can be obtained.

The two-factor authentication method includes the step of transmitting the obtained secondary authentication information by the two-factor authentication device 21 to the user terminal 10 through the communication unit 210 (S710), and the second authentication information received by the user terminal 10 It may include a step (S720) of displaying through the display 132.

The processor 150 of the user terminal 10 may control the display 132 to output the received secondary authentication information in a text or graphic form. Accordingly, the user can check the internal configuration of the user input device 25 to be operated for secondary authentication and input information (input value, input pattern, etc.) for the configuration. According to an embodiment, the secondary authentication information may be output through other output means in the user terminal 10.

According to an embodiment, the dual authentication device 21 may output a message indicating that secondary authentication is in progress using an output means (a center fascia or a display of an instrument panel, a speaker, etc.) connected through the vehicle ECU 23. have.

In the two-factor authentication method, the vehicle ECU 23 receives a user input based on the secondary authentication information from the user input device 25 (S730), and transmits the received user input to the two-factor authentication device 21. It may include step S740.

When the user can normally board the vehicle 20, the user can manipulate the internal configuration of the user input device 25 based on the secondary authentication information displayed through the display 132 of the user terminal 10. The vehicle ECU 23 may receive (acquire) a user input corresponding to an operation of the internal configuration of the user input device 25 and transmit information including the received user input to the double authentication device 21. For example, the user input may include information on a configuration manipulated by a user among the configurations in the user input device 25 and input information (input value, input pattern, etc.) sensed through the manipulated configuration.

In this regard, referring to the examples of FIG. 9, the secondary authentication information 901 displayed on the display 132 of the user terminal 10 as shown in FIG. 9A is the touch panel 253 of the user input device 25. ) May indicate a touch order (touch pattern) for the regions. The user may perform an operation 911 on the touch panel 253 based on the displayed secondary authentication information 901. The vehicle ECU 23 may receive a user input according to an operation 911 on the touch panel 253 and transmit the received user input to the double authentication device 21.

Referring to the example shown in FIG. 9B, the secondary authentication information 902 may indicate the rotation direction (or rotation angle, etc.) of the dial 252. The user may perform an operation 912 on the dial 252 based on the displayed secondary authentication information 902. Referring to the example shown in (c) of FIG. 9, the secondary authentication information 903 may represent a character to be input through the touch panel 253. The user may perform an operation 913 on the touch panel 253 based on the displayed secondary authentication information 903. Since the secondary authentication information according to the present disclosure is not limited to the embodiments illustrated in FIG. 9, the secondary authentication information may include various types of input information using components that can be included in the user input device 25.

The two-factor authentication method may include a step (S750) of performing, by the two-factor authentication device 21, secondary authentication based on the secondary authentication information and the received user input.

When the user input is received, the processor 240 (or the authentication module 242) of the two-factor authentication device 21 may perform the secondary authentication operation by comparing the secondary authentication information with the user input. The processor 240 may compare the configuration information and input information included in the secondary authentication information with the configuration information and input information included in the user input.

If the secondary authentication is successful (YES in S760), the secondary authentication method is that the dual authentication device 21 transmits a start control signal to the vehicle ECU 23 (S770), and the vehicle ECU 23 transmits the start control signal to the start control signal. In response, the step of controlling the start of the engine (S780).

As a result of the comparison, when the secondary authentication information and the user input correspond (match), the dual authentication device 21 may determine that the secondary authentication is successful. As the secondary authentication is successful, the processor 240 may transmit a start control signal for starting the vehicle 20 to the vehicle ECU 23. The vehicle ECU 23 controls the starting of the engine in response to the starting control signal, thereby enabling the user to operate the vehicle 20.

According to an embodiment, the two-factor authentication method may further include a step (S790) of transmitting, by the two-factor authentication device 21, a notification of completion of secondary authentication to the user terminal 10. The secondary authentication completion notification may be provided in various forms, such as a message indicating completion (or success) of secondary authentication. The processor 150 of the user terminal 10 may output the received secondary authentication completion notification through the output unit 130.

Referring to the embodiment of FIG. 10, the processor 240 of the dual authentication device 21 may start the engine of the vehicle 20 by transmitting a start control signal to the vehicle ECU 23. According to an embodiment, the processor 240 transmits a secondary authentication success message to the user terminal 10, and the processor 150 of the user terminal 10 indicates that the secondary authentication is successful based on the received secondary authentication success message. The displayed screen may be output through the display 132.

On the other hand, although not shown, as a result of the comparison, the secondary authentication information and the user input may not correspond (match). In this case, the two-factor authentication device 21 may transmit a secondary authentication failure notification to the user terminal 10, and the user terminal 10 may output the received notification. Alternatively, the dual authentication device 21 may output the secondary authentication failure notification through an output means of the vehicle 20. The dual authentication device 21 may control the vehicle ECU 23 so as not to start the engine when secondary authentication fails, or may not transmit the start control signal to the vehicle ECU 23.

According to an embodiment, when the number of consecutive secondary authentication failures is less than a preset number, the two-factor authentication device 21 uses the output unit 130 of the user terminal 10 or the output means of the vehicle 20 to generate a user input. You can also request a re-entry. When the number of secondary authentication failures reaches a preset number, the dual authentication device 21 may determine that the secondary authentication has finally failed and may not start the engine.

According to an embodiment, the two-factor authentication device 21 transmits the secondary authentication information to the user terminal 10 according to step S710, and then, when a user input from the vehicle ECU 23 is not received for a preset time, It can also be determined that authentication has failed.

Meanwhile, the secondary authentication operation according to the present disclosure may be performed by a sequential secondary authentication method using a plurality of secondary authentication information. This will be described with reference to FIG. 8.

8 illustrates a case in which sequential secondary authentication is performed using two secondary authentication information for convenience of explanation, but the dual authentication method according to the present disclosure may include a case of using three or more secondary authentication information, The secondary authentication operation using three or more secondary authentication information may be easily inferred by a person skilled in the art from the secondary authentication operation described in FIG. 8. In addition, according to an embodiment, the user may set the number of the secondary authentication information through the user terminal 10 or the dual authentication device 21.

Based on this, referring to FIG. 8, in the two-factor authentication method, the step of obtaining, by the two-factor authentication device 21, first secondary authentication information and second second authentication information (S800), and the two-factor authentication device 21 It may include transmitting the secondary authentication information and the second secondary authentication information to the user terminal 10 (S805).

The dual authentication device 21 or the server 30 may generate the first secondary authentication information and the second secondary authentication information based on a start button control signal or a request for transmission of the secondary authentication information. According to an embodiment, the dual authentication device 21 or the server 30 may randomly generate the first secondary authentication information and the second secondary authentication information.

The dual authentication device 21 may transmit the obtained first secondary authentication information and the second secondary authentication information to the user terminal 10. The second secondary authentication information may be transmitted to the user terminal 10 before performing secondary authentication using the first secondary authentication information, but according to an embodiment, after performing secondary authentication using the first secondary authentication information It may be transmitted to the user terminal 10.

The two-factor authentication method may include a step (S810) of displaying, by the user terminal 10, the first secondary authentication information of the received first secondary authentication information and the second secondary authentication information through the display 132.

The processor 150 of the user terminal 10 outputs the first secondary authentication information from the received first secondary authentication information and the second secondary authentication information through the output unit 130 such as the display 132, 1 Secondary authentication can be performed using secondary authentication information.

In the two-factor authentication method, the vehicle ECU 23 receives a user input based on the first secondary authentication information from the user input device 25 (S815), and transmits the received user input to the two-factor authentication device 21. It may include (S820).

Steps S815 and S820 are similar to steps S730 and S740 of FIG. 7, and a description thereof will be omitted.

The two-factor authentication device 21 may perform secondary authentication using the received user input and the first secondary authentication information. When the received user input corresponds (matches) with the first secondary authentication information (YES in S825), the two-factor authentication method allows the two-factor authentication device 21 to send a request for displaying the second secondary authentication information to the user terminal 10. Transmitting (S830), the user terminal 10 in response to the received request may include a step (S835) of displaying the second secondary authentication information through the display 132 (S835).

When it is determined that the secondary authentication using the first secondary authentication information is successful, the processor 240 of the dual authentication device 21 sends a second authentication to the user terminal 10 in order to perform secondary authentication using the second secondary authentication information. A request for displaying secondary authentication information may be transmitted. According to an embodiment, the processor 240 may transmit a notification indicating that the secondary authentication using the first secondary authentication information is successful to the user terminal 10.

The processor 150 of the user terminal 10 may display the second secondary authentication information through the display 132 in response to the received request (or notification).

In the two-factor authentication method, the vehicle ECU 23 receives a user input based on the second secondary authentication information from the user input device 25 (S840), and transmits the received user input to the two-factor authentication device 21. (S845) may be included. The two-factor authentication device 21 may perform secondary authentication using the received user input and the second secondary authentication information. When the received user input corresponds (matches) with the second secondary authentication information (YES in S850), in the double authentication method, the dual authentication device 21 transmits a start control signal to the vehicle ECU 23 (S855). , The vehicle ECU 23 may control starting of the engine in response to the starting control signal (S860).

The processor 240 of the dual authentication device 21 transmits a start control signal for starting the vehicle 20 when the secondary authentication for each of the first secondary authentication information and the second secondary authentication information is successful. ). The vehicle ECU 23 controls the starting of the engine in response to the starting control signal, thereby enabling the user to operate the vehicle 20.

According to an embodiment, the two-factor authentication method may further include a step (S865) of transmitting, by the two-factor authentication device 21, a notification of completion of secondary authentication to the user terminal 10. Step S865 is substantially the same as step S790 of FIG. 7, and a description thereof will be omitted.

On the other hand, although not shown, secondary authentication for the first secondary authentication information or the second secondary authentication information may fail. For example, the failure of the secondary authentication may include a case where the received user input does not continuously match the secondary authentication information and the preset number of times, or the user input is not received within a preset time. When the secondary authentication fails, the double authentication device 21 may control the vehicle ECU 23 so as not to start the engine, or may not transmit a start control signal to the vehicle ECU 23. Alternatively, the two-factor authentication device 21 may transmit a secondary authentication failure notification to the user terminal 10.

According to embodiments of the present disclosure, the dual authentication method effectively prevents unauthorized persons from driving the vehicle 20, including secondary authentication using the user's terminal and the user input device 25 in the vehicle 20. can do. In particular, after the user unlocks the door of the vehicle 20 at a long distance, the risk of the other person illegally boarding the vehicle 20 and taking the vehicle may be prevented.

In addition, since the secondary authentication information for secondary authentication is randomly generated and provided by the server 30 communicating with the two-factor authentication device 21, a problem of deteriorating security due to leakage of the secondary authentication information can be effectively prevented.

Since the descriptions of the above embodiments are merely examples with reference to the drawings for a more thorough understanding of the present disclosure, they should not be construed as limiting the technical idea of the present disclosure.

In addition, it will be apparent to those of ordinary skill in the technical field to which the present disclosure pertains that various changes and changes can be made without departing from the basic principles of the present disclosure.

Claims (15)

In the vehicle authentication method,
Obtaining a signal or input set to trigger an authentication operation of the vehicle;
Obtaining authentication information in response to the signal or input;
Transmitting the obtained authentication information to a terminal; And
And performing authentication for driving the vehicle, based on a user input received through a user input device provided in the vehicle and the authentication information,
The authentication information includes first authentication information and second authentication information,
The step of performing the authentication,
Receiving a first user input through the user input device;
Determining whether the received first user input corresponds to the first authentication information;
When the first user input and the first authentication information correspond, transmitting a request for outputting the second authentication information to the terminal;
Receiving a second user input through the user input device; And
Comprising the step of determining whether the received second user input corresponds to the second authentication information
Authentication method. The method of claim 1,
Until the authentication is completed, the engine of the vehicle remains in a state in which it is not started,
Authentication method. The method of claim 1,
The user input device includes at least one of a dial, a touch panel, a touch screen, and a button included in the vehicle,
The authentication information,
Including input information for at least one of the components included in the user input device,
Authentication method. The method of claim 3,
The authentication information,
Randomly generated to have arbitrary input information for at least one of the configurations included in the user input device,
Authentication method. The method of claim 1,
Obtaining the authentication information,
Requesting transmission of authentication information to a server in response to the signal or input; And
Including the step of receiving the authentication information from the server,
Authentication method. The method of claim 1,
Transmitting the obtained authentication information to the terminal,
In order to output the authentication information through the output unit of the terminal, the step of transmitting the authentication information to the terminal,
Authentication method. The method of claim 1,
The signal or input includes a start button input signal corresponding to the start button input of the vehicle or the start button input,
The step of performing the authentication,
If the authentication information and the user input correspond, including the step of starting the engine of the vehicle,
Authentication method. The method of claim 1,
Obtaining the authentication information,
Estimating a distance to the terminal in response to the signal or input; And
Not obtaining the authentication information when the estimated distance is less than or equal to the reference distance, and obtaining the authentication information when the estimated distance exceeds the reference distance,
Authentication method. The method of claim 1,
The authentication for the operation of the vehicle corresponds to the secondary authentication,
The step of obtaining the signal or input,
Performing primary authentication for the terminal;
Unlocking the door of the vehicle upon completion of the primary authentication; And
Comprising the step of obtaining a signal or input set to trigger the authentication operation of the vehicle (trigger),
Authentication method. In the vehicle authentication device,
A communication unit for communication connection with a terminal; And
In response to a signal or input set to trigger an authentication operation of the vehicle, authentication information is obtained,
Transmit the obtained authentication information to the terminal,
A processor for performing authentication for driving the vehicle based on a user input received through a user input device provided in the vehicle and the authentication information,
The authentication information includes first authentication information and second authentication information,
The processor,
Receiving a first user input through the user input device,
When the received first user input and the first authentication information correspond, transmit a request for output of the second authentication information to the terminal,
Determining whether a second user input received through the user input device corresponds to the second authentication information,
Authentication device. The method of claim 10,
The user input device includes at least one of a dial, a touch panel, a touch screen, and a button included in the vehicle,
The authentication information,
Including input information for at least one of the components included in the user input device,
Authentication device. The method of claim 11,
The authentication information is randomly generated to have arbitrary input information for at least one of the configurations included in the user input device,
Authentication device. The method of claim 10,
The processor,
In response to the signal or input, estimating a distance to the terminal,
When the estimated distance is less than or equal to the reference distance, authentication for driving the vehicle is not performed, and when the estimated distance exceeds the reference distance, authentication information for the authentication is obtained,
Authentication device. The method of claim 10,
The signal or input includes a start button input signal corresponding to the start button input of the vehicle or the start button input,
The processor,
When the user input and the authentication information correspond, starting the engine of the vehicle,
Authentication device. The method of claim 10,
Further comprising an interface for connecting with the vehicle electronic control unit (ECU),
The processor,
Receiving the signal or input from the vehicle ECU through the interface,
Receiving the user input from the vehicle ECU through the interface,
Upon completion of the authentication, transmitting a starting control signal for starting control of the vehicle to the vehicle ECU through the interface,
Authentication device.

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