JP2021002217A - Wireless communication device and time acquisition method - Google Patents

Abstract

To provide a wireless communication device and a time acquisition method capable of acquiring time information from a portable terminal device even when a function of providing time information executable by the portable terminal device of a connection destination is different.SOLUTION: A wireless communication device 10 attempts to establish communication connection with a mobile terminal device 20 having time information. Next, the wireless communication device 10 determines whether or not establishment of communication connection with the mobile terminal device 20 has succeeded. Then, the wireless communication device 10 requests the mobile terminal device 20 to provide time information by using a function of providing time information that can be executed by the mobile terminal device 20 determined based on success/failure of establishment of communication connection with the mobile terminal device 20 to acquire the time information.SELECTED DRAWING: Figure 2

Description

The present invention relates to a wireless communication device for acquiring time information from a mobile terminal device and a time acquisition method.

Conventionally, a technique for exchanging various data by wireless communication conforming to the wireless communication standard BLUETOOTH (registered trademark) has been proposed. For example, Patent Document 1 describes a technique in which an e-mail data processing device acquires e-mail data from the wireless communication device at the timing when a communication connection with the wireless communication device to be connected is established and displays an e-mail list. It is disclosed.

Japanese Unexamined Patent Publication No. 2012-128497

However, the technique disclosed in Patent Document 1 aims to acquire e-mail data from a wireless communication device to be connected and display an e-mail list. Therefore, there is a problem that the time information cannot be acquired from the mobile terminal device when the function for providing the time information that can be executed by the connected mobile terminal device is different.

The present invention has been made in view of the above problems, and it is possible to acquire time information from a mobile terminal device even if the mobile terminal device to be connected has a different function of providing time information. An object of the present invention is to provide a communication device and a time acquisition method.

In order to achieve the above object, the wireless communication device (10) according to the embodiment of the present invention is a wireless communication device that performs wireless communication with a mobile terminal device (20) having time information, and is in contact with the mobile terminal device. The success or failure of the establishment of the communication connection between the communication connection unit (110, 111) that attempts to establish the communication connection, the connection determination unit (112) that determines the success or failure of the establishment of the communication connection with the mobile terminal device, and the mobile terminal device. It is provided with a time acquisition unit (113) that requests the mobile terminal device to provide the time information and acquires the time information from the mobile terminal device by using the time information providing function that the mobile terminal device can execute, which is determined based on the above. ..

Further, the time acquisition method according to the embodiment of the present invention is a method executed by a mobile terminal device (20) having time information and a wireless communication device (10) that performs wireless communication, and is a communication connection with the mobile terminal device. (S301, S401, S405), the step of determining the success or failure of the establishment of the communication connection with the mobile terminal device (S302, S402, S406), and the success or failure of the establishment of the communication connection with the mobile terminal device. The step (S303, S305, S403, S407) of requesting the mobile terminal device to provide the time information by using the time information providing function that the mobile terminal device can execute, which is determined based on the above, and the time information from the mobile terminal device. Includes receiving steps (S304, S306, S404, S408).

In the present invention, the wireless communication device provides the time information to the mobile terminal device by using the time information providing function that the mobile terminal device can execute based on the success or failure of the establishment of the communication connection with the mobile terminal device to be connected. To request. Therefore, even if the function of providing the time information that can be executed by the connection-destination mobile terminal device differs depending on the connection-destination mobile terminal device, the time information can be acquired from the mobile terminal device.

It is a block diagram which shows the hardware structure of the communication system which concerns on 1st Embodiment of this invention, and the in-vehicle device included in the communication system. It is a block diagram which shows the function which the vehicle-mounted device which concerns on 1st Embodiment of this invention has. It is a sequence diagram which shows an example of the process executed in the communication system which concerns on 1st Embodiment of this invention. It is a sequence diagram which shows another example of the process executed in the communication system which concerns on 1st Embodiment of this invention. It is a flowchart which shows an example of the process executed by the in-vehicle device which concerns on 1st Embodiment of this invention. It is a flowchart which shows an example of the process executed by the in-vehicle device which concerns on 2nd Embodiment of this invention.

<First Embodiment>
Hereinafter, the first embodiment of the present invention will be described with reference to the drawings. As shown in FIG. 1, the communication system 1 according to the first embodiment of the present invention includes an in-vehicle device 10 and a mobile terminal device 20. The in-vehicle device 10 and the mobile terminal device 20 can perform data communication with each other via wireless communication conforming to the wireless communication standard BLUETOOTH (registered trademark). The in-vehicle device 10 corresponds to a wireless communication device.

The in-vehicle device 10 is a wireless communication device installed in a vehicle such as an automobile, and includes a control unit 11, a communication unit 12, a storage device 13, and an antenna 14.

The control unit 11 is an arithmetic unit such as a CPU that controls the operation of the in-vehicle device 10. The control unit 11 executes the time acquisition method of the present invention by executing the time acquisition program stored in the storage device 13. The function of the control unit 11 will be described later with reference to FIG.

The communication unit 12 is a device that transmits and receives various data to and from the mobile terminal device 20 via the antenna 14.

The storage device 13 is a storage device in which data used by the control unit 11 is stored. Specifically, the storage device 13 stores the program executed by the control unit 11 and the time information. Further, the storage device 13 stores HFP (Hands Free Profile) and MAP (Message Access Profile), which are profiles of BLUETOOTH. These profiles are programs that can be executed by the control unit 11, the HFP provides a hands-free call function, and the MAP provides a mail data transfer function.

The mobile terminal device 20 is a portable information processing device having a wireless communication function. Specific examples of the mobile terminal device 20 include a smartphone, a tablet-type terminal device, and the like. The mobile terminal device 20 provides the vehicle-mounted device 10 with time information possessed by the mobile terminal device 20 in response to a request from the vehicle-mounted device 10. The mobile terminal device 20 can periodically acquire the time information from an external server (not shown) that provides the time information, and can correct the time information stored in the storage device of the own device.

Some operating systems (OS) installed in the mobile terminal device 20 can execute either the AT command (AT + CCLK?) Of HFP or the message list providing function of MAP. The AT command (AT + CCLK?) Is a kind of AT command, and is a command for acquiring time information from the mobile terminal device 20. The message list providing function of the MAP is a function for providing a list of e-mails (hereinafter referred to as "message list") included in the mobile terminal device 20. Some operating systems (OS) can execute both the HFP AT command (AT + CCLK?) And the MAP message list providing function, while others cannot.

As an OS (hereinafter referred to as "AT command compatible OS") capable of executing an AT command (AT + CCLK?), There is an iOS or the like provided by APPLE (registered trademark). Examples of an OS that can execute the message list providing function of MAP include ANDROID (registered trademark) provided by GOOGLE (registered trademark), WINDOWS (registered trademark) Mobile provided by MICROSOFT (registered trademark), and the like.

When the AT command compatible OS is installed in the mobile terminal device 20, when the mobile terminal device 20 receives the AT command (AT + CCLK?) From the vehicle-mounted device 10, the mobile terminal device 20 sends a response (+ CCLK: time information) to the AT command. Send to 10. This response includes time information included in the mobile terminal device 20.

When an OS capable of executing the MAP message list providing function is installed in the mobile terminal device 20, when the mobile terminal device 20 receives a request for the MAP message list from the vehicle-mounted device 10, the message list is transmitted to the vehicle-mounted device 10. Send. Information indicating the transmission time of the message list is added to the message list.

Next, the function of the control unit 11 of the in-vehicle device 10 will be described with reference to FIG. The control unit 11 includes a wireless communication connection unit 110, an OS communication connection unit 111, a connection determination unit 112, a time acquisition unit 113, and a time correction unit 114. These functional units can be realized by a program executed by the control unit 11.

The wireless communication connection unit 110 is a functional unit that executes wireless communication connection processing for establishing a wireless communication connection with the mobile terminal device 20 by using each of HFP and MAP. The wireless communication connection unit 110 exchanges data necessary for establishing a wireless communication connection with the mobile terminal device 20 via the communication unit 12 in the wireless communication connection process.

The OS communication connection unit 111 is a process for establishing a communication connection with the AT command-compatible OS of the mobile terminal device 20 (hereinafter, referred to as “OS communication connection process”). The OS communication connection process is a process required to be executed when establishing a communication connection with the AT command compatible OS according to the specifications of the AT command compatible OS of the mobile terminal device 20. For example, when the OS of the mobile terminal device 20 is iOS, the OS communication connection unit 111 may execute the OS communication connection process using iAP (iPod (registered trademark) Accessory Protocol) which is the communication protocol of iOS. it can.

When the OS of the mobile terminal device 20 is an AT command compatible OS, a communication connection with the AT command compatible OS of the mobile terminal device 20 is established by the OS communication connection process. On the other hand, when the OS of the mobile terminal device 20 is an OS other than the AT command compatible OS (ANDROID, WINDOWS Mobile, etc.), the communication connection with the OS of the mobile terminal device 20 is not established by the OS communication connection process. An OS other than the AT command-compatible OS can establish a communication connection with the OS without executing the OS communication connection process.

The connection determination unit 112 is a function unit that determines whether or not a communication connection has been established with the AT command compatible OS of the mobile terminal device 20. The time acquisition unit 113 is a functional unit that acquires time information from the mobile terminal device 20. Specifically, when the time acquisition unit 113 transmits an AT command (AT + CCLK?) To the mobile terminal device 20, the mobile terminal device 20 receives the AT command response (+ CCLK: time information) from the mobile terminal device 20. Return the time information you have. As a result, the connection determination unit 112 can acquire the time information from the mobile terminal device 20.

Further, when the time acquisition unit 113 transmits a request for the MAP message list to the mobile terminal device 20, the mobile terminal device 20 returns an e-mail message list to which the transmission time is added as a response to the request. As a result, the connection determination unit 112 can acquire the time information from the mobile terminal device 20.

The time correction unit 114 is a functional unit that corrects the time information of the in-vehicle device 10 by using the time information acquired from the mobile terminal device 20. Specifically, the time correction unit 114 corrects the time information stored in the storage device 13 by using the time information acquired by the time acquisition unit 113 from the mobile terminal device 20.

Next, an example of a processing sequence executed by the communication system 1 will be described with reference to FIG. FIG. 3 shows a processing sequence when an AT command compatible OS is installed in the mobile terminal device 20.

In step S101, the in-vehicle device 10 establishes a wireless communication connection with the mobile terminal device 20 by executing the wireless communication connection process using each of the HFP and the MAP. In step S102, the in-vehicle device 10 attempts to establish a communication connection with the AT command compatible OS by executing the OS communication connection process.

When the communication connection with the AT command compatible OS is established by the OS communication connection process, the in-vehicle device 10 transmits the HFP AT command (AT + CCLK?) To the mobile terminal device 20 in step S103. When the mobile terminal device 20 receives the AT command from the vehicle-mounted device 10, the mobile terminal device 20 transmits a response (+ CCLK: time information) to the AT command to the vehicle-mounted device 10 in step S104. In step S105, the in-vehicle device 10 corrects the time information of its own device by using the time information acquired from the mobile terminal device 20.

Next, another example of the sequence of processing executed by the communication system 1 will be described with reference to FIG. FIG. 4 shows a processing sequence when an OS other than the AT command compatible OS is installed in the mobile terminal device 20.

In step S201, the in-vehicle device 10 executes the wireless communication connection process using each of the HFP and the MAP. In step S201, the in-vehicle device 10 establishes a wireless communication connection with the mobile terminal device 20 by executing the wireless communication connection process using each of the HFP and the MAP. In step S202, the in-vehicle device 10 attempts to establish a communication connection with the AT command compatible OS by executing the OS communication connection process.

If the establishment of the communication connection with the AT command compatible OS by the OS communication connection processing fails, the in-vehicle device 10 requests the mobile terminal device 20 for the MAP message list in step S203. When the mobile terminal device 20 receives the message list request from the vehicle-mounted device 10, in step S204, the mobile terminal device 20 transmits the message list to which the time information of the mobile terminal device 20 is added to the vehicle-mounted device 10. In step S205, the in-vehicle device 10 corrects the time information of its own device by using the time information acquired from the mobile terminal device 20.

Next, with reference to FIG. 5, the processing executed by the control unit 11 of the in-vehicle device 10 in the processing sequence shown in FIGS. 3 and 4 described above will be described. The process of FIG. 5 is executed after the wireless communication connection process is executed.

In step S301, the OS communication connection unit 111 of the in-vehicle device 10 attempts to establish a communication connection with an AT command-compatible OS that may be installed in the mobile terminal device 20 by executing the OS communication connection process. .. In step S302, the connection determination unit 112 determines whether or not the communication connection with the AT command compatible OS of the mobile terminal device 20 by the OS communication connection process has been established. When a communication connection with an AT command-compatible OS is established by the OS communication connection process (YES), the process branches to step S303.

In step S303, the time acquisition unit 113 transmits an HFP AT command (AT + CCLK?) To the mobile terminal device 20. In step S304, the time acquisition unit 113 determines whether or not a response to the AT command has been received from the mobile terminal device 20. If no response has been received from the mobile terminal device 20 (NO), the process of step S304 is executed again. On the other hand, when a response is received from the mobile terminal device 20 (YES), the process branches to step S307.

When the connection determination unit 112 determines in step S302 that the communication connection with the AT command compatible OS by the OS communication connection process has not been established (NO), the process branches to step S305. In step S305, the time acquisition unit 113 requests the mobile terminal device 20 for a MAP message list. In step S306, the time acquisition unit 113 determines whether or not the message list has been received from the mobile terminal device 20. If the message list has not been received (NO), the process of step S306 is executed again. On the other hand, when the message list is received (YES), the process branches to step S307.

In step S307, the time correction unit 114 corrects the time information possessed by the in-vehicle device 10 by using the time information acquired from the mobile terminal device 20, and the process of FIG. 5 ends.

(Effect of the first embodiment)
In the first embodiment, the OS communication connection unit 111 of the vehicle-mounted device 10 executes the OS communication connection process to establish a communication connection with an AT command-compatible OS that may be installed in the mobile terminal device 20. (S102, S202, S301). Next, the connection determination unit 112 determines the success or failure of establishing the communication connection with the AT command compatible OS (S302). When the establishment of the communication connection with the AT command compatible OS is successful, the time acquisition unit 113 requests the mobile terminal device 20 to provide the time information by transmitting the HFP AT command (AT + CCLK?) ( S303), the time information is acquired (S304). On the other hand, when the establishment of the communication connection with the OS of the mobile terminal device 20 fails, the time acquisition unit 113 requests the mobile terminal device 20 to provide the time information by transmitting the request of the MAP message list. Then (S305) and acquire the time information (S306).

As a result, even if the OS of the connection-destination mobile terminal device 20 can execute only one of the HFP AT command (AT + CCLK?) And the MAP message list providing function, the in-vehicle device 10 is the connection-destination mobile terminal. The time information can be requested from the mobile terminal device 20 by using the function of providing the time information that can be executed by the OS of the device 20. Therefore, the in-vehicle device 10 can acquire the time information from the mobile terminal device 20.

Since the HFP AT command (AT + CCLK?) Is not an essential command to be implemented in the mobile terminal device 20, not all mobile terminal devices 20 using HFP can execute the AT command (AT + CCLK?). Absent. In the present embodiment, the vehicle-mounted device 10 requests the mobile terminal device 20 that cannot execute the AT command (AT + CCLK?) Of the HFP to provide the time information by requesting the message list of the MAP. As a result, even if the OS of the connected mobile terminal device 20 cannot execute the HFP AT command (AT + CCLK?), As long as the MAP message list providing function can be executed, the in-vehicle device 10 is timed from the mobile terminal device 20. Information can be obtained.

Further, at present, in BLUETOOTH Low Energy (BLE), a profile (Time Profile) for acquiring time information is specified, but in the conventional BLUETOOTH older than BLE, the profile is not provided. In this embodiment, the AT command (AT + CCLK?) Of HFP and the message list providing function of MAP provided in the conventional BLUETOOTH are used. Therefore, the time information can be acquired from the mobile terminal device 20 even in the in-vehicle device 10 that does not support BLE but only supports the conventional BLUETOOTH.

Further, conventionally, the in-vehicle device uses GPS (Global Positioning System) to acquire time information, but in the present embodiment, the in-vehicle device 10 uses GPS by adopting the above-mentioned algorithm. The time information can be acquired from the mobile terminal device 20 without any problem.

<Second embodiment>
Next, with reference to FIG. 6, the second embodiment of the present invention will be described focusing on the differences from the first embodiment. The process of FIG. 6 is a process for establishing a wireless communication connection between the in-vehicle device 10 and the mobile terminal device 20 by using each of the HFP and the MAP.

In step S401, the wireless communication connection unit 110 of the vehicle-mounted device 10 attempts to establish a communication connection with the mobile terminal device 20 using the HFP. In step S402, the connection determination unit 112 determines whether or not the communication connection by HFP has been established. If the communication connection by HFP is not established (NO), the process of FIG. 6 ends. On the other hand, when the communication connection by HFP is established (YES), the process branches to step S403.

In step S403, the time acquisition unit 113 transmits an HFP AT command (AT + CCLK?) To the mobile terminal device 20. In step S404, the time acquisition unit 113 determines whether or not a response (+ CCLK: time information) to the AT command has been received from the mobile terminal device 20. It is preferable that step S404 is executed after the lapse of a normal round trip time between the in-vehicle device 10 and the mobile terminal device 20.

When a response is received from the mobile terminal device 20 (YES), the process branches to step S409. On the other hand, when the response is not received from the mobile terminal device 20 (NO), the process branches to step S405. In step S405, the wireless communication connection unit 110 attempts to establish a communication connection with the mobile terminal device 20 by using the MAP. In step S406, the connection determination unit 112 determines whether or not a communication connection by MAP has been established. If the communication connection by MAP is not established (NO), the process of FIG. 6 ends. On the other hand, when the communication connection by MAP is established (YES), the process branches to step S407.

In step S407, the time acquisition unit 113 transmits a request for a MAP message list to the mobile terminal device 20. In step S408, the time acquisition unit 113 determines whether or not the message list has been received from the mobile terminal device 20. It is preferable that step S408 is executed after the lapse of a normal round trip time between the in-vehicle device 10 and the mobile terminal device 20.

If the message list has not been received (NO), the process of FIG. 6 ends. On the other hand, when the message list is received (YES), the process branches to step S409. In step S409, the time correction unit 114 corrects the time information possessed by the in-vehicle device 10 by using the time information acquired from the mobile terminal device 20, and the process of FIG. 6 ends.

(Effect of the second embodiment)
In the second embodiment, the in-vehicle device 10 requests the mobile terminal device 20 for time information when establishing a communication connection with the mobile terminal device 20 by using the HFP and the MAP, respectively (S403, S407). As a result, the in-vehicle device 10 can acquire the time information before executing the OS communication connection process, and can correct the time information more quickly.

<Other Embodiments>
The present invention is not limited to the above-described embodiment, and can be modified in various ways. For example, in the above-described embodiment, the time acquisition unit 113 transmits the AT command (AT + CCLK?) And the message list request only once, but in other embodiments, the AT command (AT + CCLK?) And the message list request are transmitted. It may be transmitted multiple times.

Further, in the above-described embodiment, the functional unit included in the in-vehicle device 10 is realized by a program that can be executed by the arithmetic unit of the in-vehicle device 10, but in other embodiments, the in-vehicle device 10 includes these functional units. It may be realized by an electronic circuit.

The controls and methods described in the present disclosure can be implemented by a dedicated computer manufactured by configuring a processor programmed to perform one or more specific functions implemented in a computer program. .. In addition, the devices and methods described in the present disclosure may be realized by dedicated hardware logic circuits. Further, the devices and methods described in the present disclosure may be realized by combining one or more dedicated computers manufactured by configuring a processor that executes a computer program and one or more hardware logic circuits. .. The computer program can be stored on a computer-readable non-transitional tangible recording medium as an instruction executed by the computer.

10 Wireless communication device, 110 Wireless communication connection unit, 111 OS communication connection unit, 112 Connection judgment unit, 113 Time acquisition unit, 114 Time correction unit, 20 Mobile terminal device

Claims (6)

A wireless communication device (10) that wirelessly communicates with a mobile terminal device (20) having time information.
Communication connection units (110, 111) that attempt to establish a communication connection with the mobile terminal device, and
A connection determination unit (112) for determining the success or failure of establishment of a communication connection with the mobile terminal device, and
Requesting the mobile terminal device to provide the time information by using the time information providing function that can be executed by the mobile terminal device, which is determined based on the success or failure of establishing a communication connection with the mobile terminal device. , A wireless communication device including a time acquisition unit (113) for acquiring the time information from the mobile terminal device. The communication connection unit attempts to establish a communication connection with a specific operating system corresponding to a command for acquiring the time information, which may be installed in the mobile terminal device.
The connection determination unit determines the success or failure of the establishment of the communication connection with the mobile terminal device by determining the success or failure of the establishment of the communication connection with the specific operating system.
The time acquisition unit uses the time information providing function that can be executed by the mobile terminal device, which is determined based on the success or failure of establishing a communication connection with the specific operating system, to the mobile terminal device. The wireless communication device according to claim 1, which requests the provision of time information. The time acquisition unit
If the establishment of the communication connection with the specific operating system is successful, the command is used to request the mobile terminal device to provide the time information.
When the establishment of the communication connection with the specific operating system fails, the mobile terminal device is requested to provide the time information by requesting a message list to which the information indicating the transmission time is added. Item 2. The wireless communication device according to item 2. The communication connection unit attempts to establish a communication connection with the mobile terminal device by using HFP, which is a program for providing a hands-free call function.
When the HFP succeeds in establishing a communication connection with the mobile terminal device, the time acquisition unit provides the mobile terminal device with the time information by using a command for acquiring the time information. Request and
When the time information is not provided from the mobile terminal device, the communication connection unit attempts to establish a communication connection with the mobile terminal device by using MAP, which is a program that provides an e-mail data transfer function. ,
When the time acquisition unit succeeds in establishing a communication connection with the mobile terminal device by the MAP, the time acquisition unit requests the mobile terminal device for a message list to which information indicating the transmission time is added. The wireless communication device according to claim 1, which requests the provision of time information. The wireless according to any one of claims 1 to 4, further comprising a time correction unit (114) for correcting the time information possessed by the wireless communication device by using the time information provided by the mobile terminal device. Communication device. It is a time acquisition method executed by a wireless communication device (10) that performs wireless communication with a mobile terminal device (20) having time information.
Steps (S301, S401, S405) for attempting to establish a communication connection with the mobile terminal device, and
Steps (S302, S402, S406) for determining the success or failure of establishing a communication connection with the mobile terminal device, and
The mobile terminal device is requested to provide the time information by using the time information providing function that can be executed by the mobile terminal device, which is determined based on the success or failure of establishing a communication connection with the mobile terminal device. Steps (S303, S305, S403, S407) and
A time acquisition method including the steps (S304, S306, S404, S408) of receiving the time information from the mobile terminal device.

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