JP2020170993A - Communication system and communication method - Google Patents

Abstract

To provide a communication system and a communication method that can shorten a time until operation execution of a communication target.SOLUTION: A vehicle 1 is provided with a communication system 3 that wirelessly communicates with a terminal 2. The communication system 3 causes one of a terminal authentication unit 9 provided on the vehicle 1 and the terminal 2 to transmit a signal to be detected for causing the presence of its own device to be detected in the vicinity, and if the other receives it, makes a communication connection to perform communication. The communication system 3 includes a control unit 33 that controls the operation of the vehicle 1 based on the control information upon receiving the control information when the control information related to the control of the operation of the vehicle 1 is transmitted from the terminal 2 together with the signal to be detected.SELECTED DRAWING: Figure 1

Description

The present invention relates to a communication system and a communication method in which a terminal and its communication target perform wireless communication.

Conventionally, for example, in a vehicle, a communication system is known in which a terminal possessed by a user and an authentication device mounted on the vehicle wirelessly communicate with each other to control the vehicle. Here, a communication system that uses a terminal such as a high-performance mobile phone as a vehicle key is well known. In the communication system described in Patent Document 1, the terminal is authenticated when the communication connection between the communication device mounted on the vehicle and the terminal is established. When the terminal is authenticated, the operation of the vehicle such as unlocking the door and starting the engine is controlled.

U.S. Patent Application Publication No. 2017/0228952

By the way, when trying to operate a vehicle by wireless communication using a high-performance mobile phone or the like as a vehicle key, if Bluetooth is used as a communication method, it takes time to connect the communication device and the terminal. Therefore, there is a problem that it takes a long time to operate the vehicle.

An object of the present invention is to provide a communication system and a communication method capable of shortening the time required to execute an operation of a communication target.

In the communication system for solving the above problems, one of the communication unit provided in the communication target of the terminal and the terminal transmits a detected signal for detecting the existence of the own device to the surroundings, and the detected signal is transmitted to the other. Is a communication system in which communication is connected and wireless communication is executed when is received, and when control information relating to control of operation of the communication target is transmitted from the terminal together with the detected signal, the control information Is received, the control unit that controls the operation of the communication target based on the control information is provided.

In the communication method for solving the above problem, one of the communication unit provided in the communication target of the terminal and the terminal transmits a detected signal for detecting the existence of the own device to the surroundings, and the detected signal is transmitted to the other. Is a communication method in which communication is connected and wireless communication is executed when is received, and when control information relating to control of operation of the communication target is transmitted from the terminal together with the detected signal, the control information Is received, the step of controlling the operation of the communication target based on the control information is provided.

The communication system and the communication method of the present invention can shorten the time until the operation of the communication target is executed.

The block diagram which shows the structure of the communication system. A timing chart showing the flow of operation control by a communication system. A timing chart showing the flow of operation control by a conventional system. The block diagram which shows the structure of the terminal authentication part in another embodiment.

Hereinafter, an embodiment of the communication system will be described with reference to FIGS. 1 to 3.
As shown in FIG. 1, the vehicle 1 as a communication target includes a communication system 3 that wirelessly communicates with a terminal 2 possessed by a user. The communication system 3 is a short-range wireless collation system that controls the operability of the in-vehicle device 4 by authenticating the correctness of the terminal 2 through, for example, short-range wireless communication. The terminal 2 is preferably a high-performance mobile phone, a so-called smartphone, which has a telephone function and can communicate with the vehicle 1 by using short-range wireless communication. The in-vehicle device 4 includes, for example, a door lock device that controls locking / unlocking of a vehicle door, an engine of the vehicle 1, and the like. The short-range wireless communication is preferably, for example, Bluetooth (Bluetooth: registered trademark) communication.

The vehicle 1 includes a controller 5 that controls whether or not the in-vehicle device 4 can be operated. The controller 5 is connected to the in-vehicle device 4 through the communication line 6. The communication line 6 is composed of, for example, CAN (Controller Area Network) or LIN (Local Interconnect Network). The in-vehicle device 4 includes, for example, a door lock device and an engine device.

The communication system 3 includes a communication unit 7 that executes authentication through short-range wireless communication with the terminal 2. The communication unit 7 includes a communication module 8 that performs short-range wireless communication and a terminal authentication unit 9 that authenticates the terminal 2. The terminal authentication unit 9 of this example is provided in the controller 5. That is, the controller 5 has a built-in communication unit 7. In short-range wireless communication, when the other receives a detected signal transmitted from one of the terminal 2 and the communication unit 7 to detect the existence of the own device to the surroundings, the communication is connected and communication is executed. The communication unit 7 of this example communicates with the terminal 2 by BLE (Bluetooth Low Energy) communication as short-range wireless communication. The detected signal is, for example, an advertising packet. In BLE communication, the BLE communication connection is executed by the master responding to the advertising packet transmitted from the slave. The key information used for terminal authentication is written and stored in the memory 10 of the terminal authentication unit 9.

The controller 5 includes an ID authentication unit 11 that performs ID verification wirelessly with an electronic key. An electronic key is a type of vehicle key that mainly has a key function. An electronic key ID (not shown) and a key unique key registered in the vehicle 1 are written and stored in the memory 10. The ID authentication unit 11 can execute ID verification using the electronic key ID and the key unique key against the electronic key and the terminal authentication unit 9. The ID authentication unit 11 permits the operation of the in-vehicle device 4 on condition that the ID verification is established.

The terminal 2 includes a terminal control unit 20 that controls the operation of the terminal 2, a network communication unit 21 that performs network communication at the terminal 2, and a terminal communication unit 22 that performs short-range wireless communication at the terminal 2. The terminal control unit 20 is provided with a user interface application 23 (hereinafter referred to as UI application 23) that manages the operation of the communication system 3 in the terminal 2. The UI application 23 is downloaded from a server or the like through network communication, for example. As described above, the terminal control unit 20 can perform various processes such as terminal authentication with the vehicle 1, locking / unlocking operation of the vehicle door, and engine starting operation by using the UI application 23.

For example, when the terminal 2 and the communication unit 7 are registered in the vehicle 1 as a vehicle key, the terminal 2 and the communication unit 7 are paired by transmitting identification information such as a device address used for short-range wireless communication to each other. A BLE communication connection is possible between the paired terminal 2 and the communication unit 7.

Key information is written and saved in the memory 24 of the terminal 2, for example, when the terminal 2 is registered as a vehicle key. The key information is used for authentication performed with the terminal authentication unit 9 through short-range wireless communication when operating the vehicle 1 with the terminal 2. The key information includes, for example, a one-time key that is valid for a certain period of time or a certain number of times, an encryption key that encrypts communication between the vehicle 1 and the terminal 2, and the like. The key information is acquired through network communication using, for example, the UI application 23, and is written and stored in the memory 24. Further, the same key information stored in the terminal 2 is also written and saved in the memory 10 of the terminal authentication unit 9. The key information registered in the terminal authentication unit 9, for example, may be given to the terminal 2 through BLE communication.

The terminal 2 is provided with a display unit 25 for displaying various images. The display unit 25 is, for example, a touch panel display.
The terminal 2 is provided with an input unit 31 into which a user operation for operating the vehicle 1 is input. The input unit 31 of this example is a button displayed on the display unit 25 of the terminal 2. Examples of the input unit 31 include an unlock button for operating the unlocking of the vehicle door, a lock button for operating the locking of the vehicle door, and an engine button for operating the start of the engine.

The UI application 23 is provided with a processing unit 32 that performs processing according to a user operation. When a user operation is input to the input unit 31, the processing unit 32 transmits control information regarding control of the operation of the vehicle 1 to the vehicle 1 in response to the user operation. The control information is a command for requesting, for example, locking or unlocking a vehicle door, starting an engine, or the like. The processing unit 32 transmits the control information together with the detected signal. Further, the control information is preferably transmitted through encrypted communication using key information.

The communication system 3 includes a control unit 33 that controls the operation of the vehicle 1 based on the control information. The control unit 33 of this example is provided in the terminal authentication unit 9. When the control unit 33 receives the control information transmitted from the terminal 2, the control unit 33 controls the operation of the vehicle 1 corresponding to the control information through ID verification with the ID authentication unit 11.

When the control information is transmitted through the encrypted communication using the key information, the control unit 33 confirms the correctness of the terminal 2 by the encrypted communication. For example, the control unit 33 controls the operation of the vehicle 1 when the encrypted control information can be correctly decrypted. Further, when the key information is, for example, a predetermined encryption key, that is, a key used for encrypting plaintext in a calculation procedure, the control unit 33 transmits the key information when the terminal 2 and the terminal authentication unit 9 are connected by communication. Update.

Next, the operation of the communication system 3 will be described with reference to FIGS. 2 and 3. Here, it is assumed that the vehicle key registration of the terminal 2 is completed, that is, the pairing setting of the terminal 2 and the terminal authentication unit 9 is completed.

As shown in FIG. 2, in S101 (S is an abbreviation for a step, the same applies hereinafter), the terminal 2 starts a process for operating the vehicle 1 when a user operation is input to the input unit 31. The user operation is, for example, a touch operation of a button displayed on the touch panel display of the terminal 2.

In S102, when the user operation is input to the input unit 31, the processing unit 32 of the terminal 2 transmits the control information S to the vehicle 1 together with the advertising packet. The control information S is a command corresponding to a user operation, and is an operation command that specifies how to operate the in-vehicle device 4. The control information S is included in the data packet of the advertising packet and transmitted. Further, the control information S is preferably transmitted through encrypted communication using key information. In the case of this example, the processing unit 32 encrypts the control information S with the encryption key included in the key information stored in the terminal 2 and transmits the control information S.

In S103, the control unit 33 of the terminal authentication unit 9 receives the control information S together with the advertising packet. The control unit 33 can identify whether or not the terminal 2 is paired by the identification information included in the advertising packet. Further, it is preferable that the control unit 33 determines the correctness of the terminal 2 by the encrypted communication using the key information. In the case of this example, the control unit 33 decrypts the received control information S with the encryption key included in the key information stored in the terminal authentication unit 9. If the control information S can be correctly decoded, the control unit 33 determines that the terminal 2 is a registered legitimate one. When the control unit 33 determines that the terminal 2 is a legitimate one, the control unit 33 shifts to S104. On the other hand, if the control information S cannot be correctly decoded, the control unit 33 determines that the terminal 2 is non-regular. When the control unit 33 determines that the terminal 2 is non-regular, the control unit 33 ends the process and prohibits the operation of the vehicle 1.

In S104, when the control unit 33 determines that the terminal 2 is a legitimate one, the control unit 33 performs an ID verification process with the ID authentication unit 11. In the ID verification process, for example, ID verification using an electronic key ID, challenge response authentication using a key-specific key, and the like are performed. If all of these are satisfied, ID verification is established. When the ID verification is established, the control unit 33 requests the ID authentication unit 11 to control the operation corresponding to the received control information S.

In S105, when the ID verification is established, the ID authentication unit 11 controls the operation of the vehicle 1 corresponding to the control information S. For example, when the control information S relates to the operation of locking / unlocking the vehicle door, the ID authentication unit 11 controls the operation of the door lock device to execute the locking / unlocking of the door. Further, the ID authentication unit 11 permits the engine to be started on the condition that the control information S regarding the engine start is received.

In S106, the terminal 2 and the terminal authentication unit 9 process a series of communication connections connected to the advertising packet. In the processing of the communication connection, when the terminal authentication unit 9 returns a response to the advertising packet, the terminal 2 and the terminal authentication unit 9 authenticate each other with identification information such as a device address. Then, the communication connection is established on condition that the device authentication of the identification information is established. In the communication connection process, information for communication connection, for example, a communication profile and a communication rule are shared. The communication connection process may be executed at any timing after receiving the advertising packet. Further, authentication using, for example, a one-time key as key information may be performed before, after, or during the communication connection.

In S107, when the communication connection is established, the control unit 33 updates the key information stored in the terminal 2 and the terminal authentication unit 9 to a new value. The new key information will be used for the next short-range wireless communication between the terminal 2 and the terminal authentication unit 9. The key information is preferably updated using secure communication between the terminal 2 and the terminal authentication unit 9. The terminal 2 and the terminal authentication unit 9 disconnect the communication connection when, for example, the update of the key information is completed.

Here, the flow of operation control of the vehicle 1 in the conventional manner will be described with reference to FIG.
As shown in FIG. 3, in S201, a user operation is input to the terminal 2.
In S202, the terminal 2 transmits an advertising packet to the vehicle 1 when a user operation is input.

In S203, when the terminal authentication unit 9 receives the advertising packet of the terminal 2, the terminal authentication unit 9 starts the processing of the communication connection.
In S204, the terminal 2 and the terminal authentication unit 9 process a series of communication connections connected to the advertising packet. The processing of the communication connection is the same as that of S106. The terminal authentication unit 9 recognizes that the terminal is a legitimate terminal 2 when the communication connection is established. When the communication connection is established, the terminal authentication unit 9 shifts to S205.

In S205, when the communication connection with the terminal 2 is established, the terminal authentication unit 9 performs an ID verification process with the ID authentication unit 11. When the ID verification is established, the control unit 33 requests the ID authentication unit 11 to control the operation corresponding to the user operation. The notification of the user operation from the terminal 2 to the terminal authentication unit 9 may be performed before the communication connection, may be performed during the communication connection, or may be performed later.

In S206, the ID authentication unit 11 controls the operation of the vehicle 1 corresponding to the user operation.
As described above, according to the conventional system, a communication connection is made in the process of controlling the operation of the vehicle 1. On the other hand, in the case of this example, since the control information S is included in the advertising packet and transmitted, the terminal 2 and the terminal authentication unit 9 do not need to make a communication connection in the process of controlling the operation of the vehicle 1. Further, the correctness of the terminal 2 is determined by transmitting the control information S by encrypted communication using the key information. Therefore, the vehicle 1 is not operated by the non-regular terminal 2.

Further, in order to shorten the time required from the user operation to the operation execution of the vehicle 1, it is conceivable to establish the communication connection before the user operation. For example, if an advertising packet is constantly transmitted from one of the vehicle 1 and the terminal 2 and the communication connection process is executed when the other receives the advertising packet, the communication connection is established if the advertising packet is received. .. However, in this case, even if there is no user operation and no communication connection is required, the communication connection is made. On the other hand, in the case of this example, since the communication connection is performed at the timing when the vehicle 1 is desired to be operated by the user operation, unnecessary current consumption related to the communication connection can be suppressed.

According to the above embodiment, the following effects are obtained.
In this example, the control unit 33 that controls the operation of the vehicle 1 is provided based on the control information S transmitted from the terminal 2 together with the advertising packet. According to this configuration, since the control information S is transmitted together with the advertising packet, no communication connection is required. Therefore, the time required to execute the operation of the vehicle 1 can be shortened accordingly.

In this example, the control information S is transmitted through encrypted communication between the terminal 2 and the terminal authentication unit 9. According to this configuration, the correctness of the terminal 2 can be determined by encrypted communication. Therefore, it contributes to the improvement of the security of the communication system 3.

In this example, the control unit 33 updates the key information used for the encrypted communication for transmitting the control information S. According to this configuration, the key information can be updated when performing encrypted communication, which contributes to the improvement of security.

In this example, the control information S is transmitted when a user operation for controlling the operation of the vehicle 1 is input. According to this configuration, since the control information S is transmitted when there is a user operation, it is not necessary to perform communication when there is no user operation. This contributes to the reduction of current consumption.

In addition, this embodiment can be implemented by changing as follows. The present embodiment and the following modified examples can be implemented in combination with each other within a technically consistent range.
[About communication unit 7]
-As shown in FIG. 4, the terminal authentication unit 9 is not limited to being provided in the controller 5, and may be provided separately from the controller 5. The terminal authentication unit 9 may communicate with the controller 5 wirelessly or by wire in the vehicle 1. Further, when communicating wirelessly with the controller 5 and the terminal authentication unit 9, the radio frequency and communication standard are not particularly limited, and for example, LF (Low Frequency) -UHF (Ultra High Frequency) communication is performed. You may. Further, the terminal authentication unit 9 may communicate with the terminal 2 and with the controller 5 according to different communication standards, or may perform communication with the same communication standard.
-The communication unit 7 is not limited to the terminal authentication unit 9, and may have a device different from the terminal authentication unit 9 that performs short-range wireless communication.
-The communication unit 7 may directly control the in-vehicle device 4. This can be applied to a configuration in which the ID authentication unit 11 is omitted.
-The arrangement position of the communication unit 7 is not particularly limited.
-The number of communication units 7 is not particularly limited. It may be one, two, or three.

[About detected signal, control information and control unit 33]
The update of the key information used for encrypted communication by the control unit 33 can be omitted. This is changed as appropriate according to the specifications.
-In the encrypted communication for transmitting the control information S, for example, authentication for encrypting and decrypting the control information S with a common encryption key may be performed, or authentication using a one-time key may be performed.
-The control information S is not limited to being encrypted and transmitted. This can be changed as appropriate according to the specifications.
-The key information used for encrypted communication is not limited to the embodiment. It may be a one-time key or an encryption key.
The frequency and timing of updating the key information by the control unit 33 are not particularly limited. For example, it may be updated every time communication is performed, or it may be updated every time a predetermined period elapses.
-Control information is not limited to commands. The information may be any information corresponding to the operation of the vehicle 1.
-The control information is not limited to being included in the detected signal and transmitted, and may be transmitted in series or in parallel with the detected signal, or may be transmitted in superposition.
-The detected signal may be ADV_IND of Bluetooth communication, ADV_SCAN_IND, ADV_NONCONN_IND, or other type of information.
-The detected signal is not limited to the advertising packet of Bluetooth communication. For example, a Wi-Fi® beacon may be used.

[About terminal 2]
-The method of pairing the short-range wireless communication between the vehicle 1 and the terminal 2 is not particularly limited. For example, pairing may be performed only by operating one of the devices. Further, when the operation is performed on the vehicle 1 side at the time of pairing, a device such as a car navigation system mounted on the vehicle 1 can be applied as an input / output device. That is, at the time of pairing, the operating device, operating method, authentication method, etc. can be changed as appropriate.
-The method by which the terminal 2 acquires the key information is limited to the method of acquiring the key information through network communication. For example, it may be a mode in which the vehicle 1 is logged in (user ID and password authentication) using BLE communication, and the key information registered in the vehicle 1 in advance is given to the terminal 2.
-The terminal 2 is not limited to a high-performance mobile phone, and may be, for example, a terminal positioned as an electronic key.

[Other]
-The communication system 3 may be a system capable of operating the vehicle 1 only by the terminal 2. In this case, the ID authentication unit 11 can be omitted.
-The terminal authentication performed by the communication system 3 is not limited to the one using the key information, and may be any one that can confirm the correctness of the terminal 2. For example, as in the conventional smart verification, challenge response authentication or authentication for confirming the correctness of the key ID may be used. This can be applied to a configuration in which the ID authentication unit 11 is omitted.
-The short-range wireless communication between the terminal 2 and the communication unit 7 may be started by the operation in the vehicle as a trigger.
-In the wireless communication between the terminal 2 and the terminal authentication unit 9, the relationship between the master and the slave is not particularly limited. The terminal 2 may be a slave and the terminal authentication unit 9 may be a master, or the terminal 2 may be a master and the terminal authentication unit 9 may be a slave.
The communication standard and band used for wireless communication between the terminal 2 and the terminal authentication unit 9 are not limited to the examples, and for example, Wi-Fi or Zigbee (registered trademark) may be used.
-The communication system is not limited to being mounted on the vehicle 1, and can be changed to various devices and devices.

1 ... Vehicle, 2 ... Terminal, 3 ... Communication system, 4 ... In-vehicle device, 5 ... Controller, 7 ... Communication unit, 9 ... Terminal authentication unit, 11 ... ID authentication unit, 20 ... Terminal control unit, 23 ... User interface application , 31 ... Input unit, 32 ... Processing unit, 33 ... Control unit.

Claims (5)

One of the communication unit provided in the communication target of the terminal and the terminal transmits a detected signal for detecting the existence of the own device to the surroundings, and when the other receives the detected signal, the communication is connected. A communication system in which wireless communication is executed.
A communication system including a control unit that controls the operation of the communication target based on the control information when the control information related to the control of the operation of the communication target is transmitted from the terminal together with the detected signal and the control information is received. .. The communication system according to claim 1, wherein the control information is transmitted through encrypted communication between the communication unit and the terminal. The communication system according to claim 2, wherein the control unit updates the key information used for the encrypted communication at a specified timing. The control information according to any one of claims 1 to 3, which is transmitted when a user operation for operating the communication target is input to at least one of the terminal and the communication target. Communications system. One of the communication unit provided in the communication target of the terminal and the terminal transmits a detected signal for detecting the existence of the own device to the surroundings, and when the other receives the detected signal, the communication is connected. It is a communication method in which wireless communication is executed.
A communication method comprising a step of controlling the operation of the communication target based on the control information when the control information relating to the control of the operation of the communication target is transmitted from the terminal together with the detected signal and the control information is received.