JP3806605B2 - In-vehicle device and mobile terminal connection method - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to an in-vehicle device that connects a mobile terminal to an in-vehicle device and controls the mobile terminal through the in-vehicle device, and a mobile terminal connection method.
[0002]
[Prior art]
Conventionally, mobile devices such as mobile phones and PHS (Personal Handyphone System) and portable information terminals called PDA (Personal Digital Assistants) are connected to in-vehicle devices that are used in vehicles such as navigation devices. In addition, navigation devices that perform a series of operations related to calls and mail transmission / reception of these portable terminals on the navigation device have become widespread.
[0003]
In such a navigation device, the mobile terminal is connected to the navigation device via an interface, and the user manually stores memory information such as phone book information and mail address information stored in the mobile terminal in advance in the navigation device. It is necessary to store in a recording medium. Hereinafter, a process for storing memory information such as telephone directory information and mail address information of a portable terminal in a conventional navigation device will be described.
[0004]
FIG. 4 is a flowchart showing a download process in which memory information such as phone book information and e-mail address information of a portable terminal is stored in the navigation device by a user operation in a conventional navigation device.
When the connection of the portable terminal is started (step S31), the navigation device waits for an instruction input by the user (step S32). For example, when an instruction for specifying an item such as memory erasure or download start is input from the user via the input unit of the navigation device (step S33; YES), the specified item is acquired (step S34). . First, it is determined whether or not the acquired item is a memory information deletion instruction.
[0005]
If the acquired item is a memory information deletion instruction (step S35; YES), the navigation device deletes the memory information stored in the recording medium (step S36). If the acquired item is not a memory information deletion instruction (step S33; NO), it is determined whether or not the acquired item is a download start instruction.
[0006]
When the acquired item is not a download start instruction (step S37; NO), the process proceeds to another process (step S43). When the acquired item is a download start instruction (step S37; YES), from the storage unit of the portable terminal Download of the memory information is started (step S38). Here, “downloading” means that the memory information stored in the storage unit of the portable terminal is once expanded in the RAM of the navigation device, and the expanded memory information is stored in the recording medium of the navigation device.
[0007]
Next, the navigation device determines whether or not the connection with the mobile terminal has been released. If the connection has not been released (step S39; YES), the navigation device determines whether or not the download has ended. If the download is not finished (step S40; NO), the download is continued as it is, and if the download is finished (step S40; YES), the download process is finished.
[0008]
On the other hand, when the connection of the mobile terminal is released (step S39; NO), the navigation device determines whether or not the download is completed, and when the download is completed (step S41; YES), the recording is performed. The download process is terminated while retaining the memory information stored in the medium. If the download has not ended (step S41; NO), the memory information stored in the recording medium of the navigation device is erased (step S42), and the download process ends.
[0009]
By executing the above download process, for example, when the mobile terminal receives a call, the navigation device determines whether the callee corresponds to the memory information acquired from the mobile terminal, and the callee corresponds to the memory information. In this case, the name and telephone number of the called party are displayed on the display screen, and a response is made according to the user's instruction. Thereby, the user can perform a hands-free call using the speaker and the microphone attached to the navigation device.
[0010]
[Problems to be solved by the invention]
However, in such a conventional navigation device, in order to acquire and store data from the connected mobile terminal, complicated key operations are required, and the user is very troublesome and time consuming. Met. For this reason, even if the user takes longer than necessary from getting into the vehicle and departs, or forgetting the operation of storing the memory information from the mobile terminal to the navigation device, the incoming party is the navigation device even if there is an incoming call to the mobile terminal There was a problem that it was not displayed on the screen.
[0011]
An object of the present invention is to provide an in-vehicle device that easily acquires and stores data from a mobile terminal connected to the in-vehicle device, and a mobile terminal connection method.
[0012]
[Means for Solving the Problems]
  The invention described in claim 1
  In an in-vehicle device (for example, the navigation apparatus 1 shown in FIG. 1) that controls a portable terminal connected to a wireless communication network (for example, the portable terminal 20 shown in FIG. 1).
  Connection detection means for detecting the start of connection of the portable terminal (for example, the CPU 10 that performs the processes shown in steps S12 and S18 in FIG. 3);
  Memory information storage means for acquiring and storing memory information including telephone directory information or mail address information stored in the mobile terminal when the connection detection means detects the start of connection of the mobile terminal ( For example, the storage device 17) shown in FIG.
First identification information acquisition means for acquiring identification information from the portable terminal when the connection detection means detects the start of connection of the portable terminal (for example, the CPU 10 that performs the process shown in step S13 of FIG. 3). When,
Second identification information acquisition means for acquiring identification information stored in the memory information storage means (for example, the CPU 10 that performs the process shown in step S14 of FIG. 3),
The memory information storage means compares the identification information acquired by the first identification information acquisition means and the second identification information acquisition means, and stores the information in the portable terminal when the identification information is different. To acquire and store stored memory informationIt is characterized by.
[0013]
According to the first aspect of the present invention, in a vehicle-mounted device that connects a mobile terminal connected to a wireless communication network and controls the mobile terminal, the connection detection means detects the start of connection of the mobile terminal, and the memory When the connection detecting means detects the start of the connection of the portable terminal by the information storage means, the user can acquire and store the phone book information stored in the portable terminal or the memory information including the mail address information. The memory information stored in the mobile terminal can be automatically stored in the in-vehicle device simply by connecting the mobile terminal to the in-vehicle device. Therefore, a complicated operation for storing the memory information in the in-vehicle device can be eliminated, and the user's trouble and time can be saved.
[0015]
  Also,When the first identification information acquisition means detects the start of connection of the portable terminal by the connection detection means, the identification information is acquired from the portable terminal and stored in the memory information storage means by the second identification information acquisition means. And the memory information storage means compares the identification information acquired by the first identification information acquisition means and the second identification information acquisition means. Since the memory information stored in the terminal is acquired and stored, if the memory information of the same mobile terminal is already stored in the in-vehicle device, the memory information is not acquired. There is no need to perform unnecessary processing such as storing again, and the vehicle-mounted battery can be saved.
[0016]
  Claim2The described invention is claimed.1In the described invention,
  The identification information includes at least one of a model name and a mobile terminal number of the mobile terminal.
[0017]
  This claim2According to the described invention, since the identification information includes at least one of the model name of the mobile terminal and the mobile terminal number, the memory information is stored in the mobile terminal connected to the in-vehicle device and the memory information storage unit. When identifying a mobile terminal, the mobile terminal can be easily identified.
[0018]
  Claim3The invention according to claim 1 is the invention according to claim 1,
  The connection detection means further comprises a connection release detection means for detecting the release of the connection of the mobile terminal,
  The memory information storage means erases the stored memory information when the connection release detection means detects the release of the connection of the portable terminal while the memory information storage means stores the memory information. It is characterized by.
[0019]
  Claim3According to the described invention, the connection detection means further includes a connection release detection means for detecting the release of the connection of the mobile terminal, and the mobile terminal uses the connection release detection means when the memory information storage means stores the memory information. When the release of the connection is detected, the memory information storage means erases the stored memory information, so that the memory capacity of the memory information storage means can be saved without retaining the memory information in the middle of storage.
The invention according to claim 4
In a mobile terminal connection method for an in-vehicle device (for example, navigation device 1 shown in FIG. 1) that connects a mobile terminal (for example, mobile terminal 20 shown in FIG. 1) connected to a wireless communication network and controls the mobile terminal. ,
In the in-vehicle device,
A connection detection step (for example, step S12, step S19 in FIG. 3) for detecting the start of connection of the mobile terminal;
Memory information storage step of acquiring and storing memory information including telephone directory information or mail address information stored in the portable terminal when the connection detection of the portable terminal is detected in the connection detection step (For example, step S18 in FIG. 3);
A first identification information acquisition step (for example, step S14 in FIG. 3) for acquiring identification information from the portable terminal when the connection detection step detects the start of connection of the portable terminal;
A second identification information acquisition step (for example, step S15 in FIG. 3) for acquiring the identification information stored in the memory information storage step,
The memory information storage step compares the identification information acquired in the first identification information acquisition step and the second identification information acquisition step, and stores the identification information in the portable terminal when the identification information is different. The memory information obtained is acquired and stored.
According to the fourth aspect of the present invention, in the in-vehicle device that controls the mobile terminal by connecting the mobile terminal connected to the wireless communication network, the connection detection step detects the start of the connection of the mobile terminal, and the memory When the information storage process detects the start of the connection of the mobile terminal by the connection detection process, the memory information including the phone book information stored in the mobile terminal or the mail address information is acquired and stored. The user can automatically store the memory information stored in the mobile terminal in the in-vehicle device simply by connecting the mobile terminal to the in-vehicle device. Therefore, a complicated operation for storing the memory information in the in-vehicle device can be eliminated, and the user's trouble and time can be saved.
Further, when the first identification information acquisition step detects the start of connection of the portable terminal by the connection detection step, the identification information is acquired from the portable terminal, and the second identification information acquisition step acquires the memory information storage step. When the identification information stored in is acquired, and in the memory information storage process, the identification information acquired in the first identification information acquisition process and the second identification information acquisition process are compared, and the identification information is different. In addition, since the memory information stored in the mobile terminal is acquired and stored, if the memory information of the same mobile terminal is already stored in the in-vehicle device, the memory information is not acquired. There is no need to perform unnecessary processing such as storing the memory information again, and the vehicle battery can be saved.
[0020]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings.
1-3 is a figure which shows one Embodiment of the vehicle equipment to which this invention is applied.
Hereinafter, a case where a characteristic in-vehicle device is a navigation device will be described as an example in describing the present invention.
[0021]
First, the configuration will be described.
FIG. 1 is a block diagram showing a main configuration of a navigation device 1 according to the present embodiment. In FIG. 1, a navigation device 1 includes a CPU 10, a GPS antenna 11, an autonomous navigation unit 12, a voice control unit 13, a memory 14 having a connection state memory 14a, an input unit 15, a display unit 16, a storage device 17, an I / F. The mobile terminal 20 is connected to the unit 18 and the parts other than the mobile terminal 20 are connected by a bus.
[0022]
The CPU 10 reads and executes various system programs stored in the storage device 17, and drives and controls each unit of the navigation device 1. Various application programs for navigation stored in the storage device 17 according to information input from the GPS antenna 11, the autonomous navigation unit 12, the voice control unit 13, the input unit 15, the I / F unit 18 or the like, or a portable terminal A program related to the control program is read, and various processes such as a current position detection process, a route search process, and an automatic download process are executed. Then, various processing results are displayed on the display unit 16.
[0023]
Specifically, the CPU 10 executes an automatic download process (see FIG. 3) described later based on an automatic download process program stored in the storage device 17.
[0024]
In this automatic download process, when receiving a signal indicating that the mobile terminal 20 is connected from the I / F unit 18 described later, the CPU 10 detects the start of the connection of the mobile terminal 20. Further, the CPU 10 determines whether or not the automatic download setting is turned on. Here, the automatic download setting is for the user to set in advance whether or not to automatically download in the navigation device. When the automatic download setting is off, the CPU 10 waits for an instruction by a user's manual operation without performing the automatic download process.
[0025]
On the other hand, when the automatic download setting is on, the CPU 10 acquires identification information indicating the model name and the mobile terminal number of the mobile terminal 20. Next, the CPU 10 reads a memory information file 171 stored in the storage device 17 described later, and acquires memory information that is already stored. Here, the memory information is information in which the model name of the mobile terminal, the mobile terminal number, and the phone book information and mail address information acquired from the mobile terminal are stored together with the name.
[0026]
The CPU 10 acquires the model name and the mobile terminal number as identification information from the memory information acquired from the memory information file 171 and compares it with the identification information acquired from the connected mobile terminal 20, thereby connecting the connected mobile It is determined whether the terminal 20 and the portable terminal of the memory information stored in the storage device 17 are the same. When the connected mobile terminal 20 is the same as the mobile terminal whose memory information is stored in the memory information file 171, the CPU 10 does not download the memory information.
[0027]
When the connected mobile terminal 20 is different from the mobile terminal in which the memory information is stored in the memory information file 171, the CPU 10 downloads the memory information stored in the storage unit of the mobile terminal 20. Note that the CPU 10 downloads the memory information of the portable terminal 20 even when the memory information is not stored in the memory information file 171.
[0028]
Further, the CPU 10 outputs a control signal for confirming the connection state to the I / F unit 18 at regular intervals in order to determine whether or not the connection of the mobile terminal 20 that is downloading is released. When the mobile terminal 20 is connected, a response signal input from the I / F unit 18 is received to check whether the mobile terminal 20 is connected. Further, the CPU 10 outputs the presence / absence of a response signal input from the I / F unit 18 as data indicating the presence / absence of connection of the portable terminal 20 together with the model name and portable terminal number to a connection state memory 14a in the memory 14 described later. To do. Note that the connection state memory 14 a stores these data as connection history data of the mobile terminal 20.
[0029]
Therefore, the CPU 10 can determine whether or not the connection of the mobile terminal 20 is released according to the response signal input from the I / F unit 18 and the connection history data stored in the connection state memory 14a. Note that the method for confirming the connection state is not limited to the above method, and for example, a dedicated port for confirming the connection state of the mobile terminal is provided, and the connection state is confirmed instantaneously by constantly monitoring the state of the port. be able to. In addition, of course, it is possible to check the connection state of the portable terminal by various methods depending on the design specifications and the like.
[0030]
When the CPU 10 detects the release of the connection of the mobile terminal 20 during the download, the CPU 10 erases some memory information already stored in the memory information file 171.
[0031]
The GPS antenna 11 receives GPS signals transmitted from a plurality of GPS satellites launched into a low earth orbit. This GPS antenna receives GPS signals transmitted from at least three GPS satellites, and outputs the received GPS signals to the CPU 10. And the absolute present position (latitude, longitude) of a vehicle is detected based on this GPS signal.
[0032]
The autonomous navigation unit 12 includes an angle sensor, a distance sensor, and the like. The angle sensor detects the angular velocity of the vehicle (the rotation angle in the horizontal direction per unit time) and calculates the amount of change in the moving direction. A distance sensor detects the pulse signal output according to rotation of a wheel, and calculates the moving amount | distance of a vehicle. The autonomous navigation unit 12 calculates a relative position change of the vehicle based on the angular velocity signal and the vehicle speed pulse signal, and outputs the calculated change to the CPU 10.
[0033]
The voice control unit 13 includes a microphone and a speaker (not shown), receives voice input from the microphone, converts the received analog voice data into digital voice data, and outputs the digital voice data to the CPU 10. Also, the digital audio data input from the CPU 10 is converted into analog audio data and output from the speaker.
[0034]
The memory 14 includes a RAM, a ROM, and the like, and forms a work area that temporarily stores various programs executed by the CPU 10 and data related to these various programs. For example, in the automatic download process executed by the CPU 10, the memory information acquired from the portable terminal 20 is expanded in the work area in the RAM.
[0035]
Further, the memory 14 includes a connection state memory 14 a for storing a connection history of the mobile terminal 20. In this connection state memory 14a, data indicating the presence / absence of connection of the mobile terminal 20 output from the CPU 10 at regular intervals, the model name of the mobile terminal 20 to be connected, and data of the mobile terminal number are used as connection history data. Remember.
[0036]
The input unit 15 includes various keys associated with various functions such as navigation use in addition to character keys, numeric keys, and search keys, and outputs operation signals for the operated keys to the CPU 10. The input unit 15 may be configured to include a pointing device such as a touch panel, an input device such as a remote controller, or a configuration capable of voice input.
[0037]
The display unit 16 is configured by a color liquid crystal display or the like, and in accordance with a display instruction from the CPU 10, the contents input by the input unit 15, display information for navigation input from the CPU 10, the name of the other party who has arrived at the mobile terminal 20, etc. Display character data.
[0038]
The storage device 17 includes a recording medium (not shown) in which programs, data, and the like are stored in advance. Various applications of the navigation device 1 executed by the CPU 10 and data relating to these programs are stored in the recording medium. Memorize etc. For example, the recording medium records various programs such as a current position detection process, a route search process, and an automatic download process for performing the above process, a route searched in the past, and various settings related to the operation of the navigation device 1. The set data is stored. In addition, a memory information file 171 for storing memory information downloaded from the portable terminal 20 is stored in the recording medium.
[0039]
FIG. 2 is a diagram illustrating a configuration example of the memory information file 171 stored in the recording medium in the storage device 17. As shown in FIG. 2, the memory information file 171 includes, as memory information, a “model name” indicating the model of the mobile terminal, a “mobile terminal number” assigned to each mobile terminal corresponding to the wireless communication system, and a mobile terminal. Each data of “name”, “phone number” corresponding to the name, and “mail address” corresponding to the name included in the phone book information or the mail address information stored in the storage unit 20 is stored. The
[0040]
For example, the memory information stored in the top record of the memory information file 171 will be described as an example. In the model name, character data “A001” and numeric data are stored, and the mobile terminal number includes Numerical data of “090-1234-5678” is stored. Character data “Tanaka OO” is stored in the name, and number data “03-1234-5678” is stored in the telephone number. The mail address stores character data of “tanaka@abc.ne.jp”.
[0041]
The I / F unit 18 is an interface for connecting the navigation device 1 and the portable terminal 20 and has a modulation / demodulation function for converting a digital signal and an analog signal. Further, when the mobile terminal 20 is connected, the I / F unit 18 outputs a signal indicating the start of connection to the CPU 10. Alternatively, when a signal for determining a connection state with the mobile terminal 20 is input from the CPU 10 at regular intervals, a signal indicating that the mobile terminal 20 is connected is sent to the CPU 10 when the mobile terminal 20 is connected. Output.
[0042]
The mobile terminal 20 is, for example, a mobile phone, a PHS, or a mobile information terminal with a built-in communication function, and establishes a radio communication line with a radio base station and transmits and receives radio signals. More specifically, when a destination telephone number is designated and a call instruction is input by the user via the input unit, a call is made to the designated telephone number. Alternatively, when an incoming signal is received from the radio base station, the user is notified of the incoming call, and when a call instruction is input, the incoming call is answered. The portable terminal 20 is connected to the navigation device 1 via the I / F unit 18 to perform a hands-free call using a microphone and a speaker (not shown) attached to the navigation device 1. Can do.
[0043]
Further, when the mobile terminal 20 is connected to the navigation apparatus 1 via the I / F unit 18, the mobile terminal 20 outputs the model name and the mobile terminal number to the navigation apparatus 1 as identification information. Furthermore, the mobile terminal 20 includes a storage unit that stores phone book information and mail address information, and outputs these pieces of information to the navigation device 1 in response to a request from the navigation device 1.
[0044]
Next, the operation of the present embodiment will be described.
FIG. 3 is a flowchart showing an automatic download process executed by the CPU 10 of the navigation device 1.
[0045]
In FIG. 3, the CPU 10 waits for connection of the mobile terminal 20 (step S <b> 11), and determines whether or not the mobile terminal 20 is connected. When a signal indicating that the connection of the mobile terminal 20 has started is input from the I / F unit 18 (step S12; YES), the CPU 10 determines whether or not the automatic download setting is on. If the automatic download setting is off (step S13; NO), the automatic download process is terminated. When the automatic download setting is on (step S13; YES), the CPU 101 acquires the model name of the mobile terminal 20 and the mobile terminal number as identification information from the mobile terminal 20 (step S14).
[0046]
Next, the CPU 10 acquires the model name and the portable terminal number stored in the memory information file 171 in the storage device 17 as identification information, compares the identification information of both, and connects the connected portable terminal 20; It is determined whether or not the portable terminals whose memory information is stored in the memory information file 171 are the same (step S15).
[0047]
If the identification information matches (step S16; YES), the CPU 10 determines that the connected mobile terminal 20 and the mobile terminal 20 whose memory information is stored in the memory information file 171 are the same, and downloads them. The automatic download process is terminated without performing the above.
[0048]
On the other hand, if the identification information does not match (step S16; NO), it is determined that the connected mobile terminal 20 and the mobile terminal 20 in which the memory information is stored in the memory information file 171 are different, and the memory information file 171 The stored memory information is erased (step S17), and download of new memory information stored in the storage unit of the portable terminal 20 is started (step S18). If no memory information is stored in the memory information file 171, the CPU 10 starts downloading new memory information without comparing identification information (step S18).
[0049]
Subsequently, the CPU 10 determines whether or not the connection of the portable terminal 20 is released during the execution of the download. Here, the CPU 10 acquires connection history data from the connection state memory 14 a and outputs a signal for confirming the connection of the portable terminal 20 to the I / F unit 18. Next, when the connection of the previous mobile terminal 20 is confirmed from the connection history data and the input of the response signal is received, it is determined that the mobile terminal 20 is continuously connected (step S19; NO), Determine whether the download is complete. If the download is not completed (step S21; NO), the download is continued. If the download is completed (step S21; YES), the automatic download process is terminated.
[0050]
On the other hand, when the connection of the immediately preceding mobile terminal 20 is confirmed from the connection history data and no response signal is input from the I / F unit 18, the CPU 10 determines that the connection of the mobile terminal 20 has been released (step S19; YES), it is determined whether or not the download is complete. Next, if the download has not ended (step S20; NO), a part of the memory information already stored in the memory information file 171 is deleted (step S22), and the download process is ended. If the download is complete, the automatic download process is terminated while retaining the memory information stored in the memory information file 171.
[0051]
As described above, according to the embodiment of the present invention, when the mobile terminal 20 is connected to the navigation device 1 and the automatic download setting is on, the memory information file 171 stored in the navigation device 1 is stored. The identification information and the identification information of the portable terminal 20 are acquired and compared. If the identification information of the portable terminal does not match, the memory information already stored in the memory information file 171 is erased and the portable terminal 20 The stored memory information is downloaded to the navigation device 1. Further, when the automatic download setting is off or when the identification information matches, the memory information stored in the mobile terminal 20 is not downloaded.
[0052]
Accordingly, since the memory information stored in the mobile terminal 20 is automatically downloaded simply by connecting the mobile terminal 20 to the navigation device 1, the user does not need a troublesome operation and can save time and effort. In addition, when the memory information of the mobile terminal 20 is already stored in the navigation device 1, the download is not performed. Therefore, unnecessary downloading such as re-registration of the memory information is not executed, and the in-vehicle battery Can be saved.
[0053]
Further, when the connection of the mobile terminal 20 is canceled while the navigation device is downloading, the stored memory information is erased, so that the mobile terminal 20 is identified when the mobile terminal 20 is connected again. There is no need to obtain information and make comparisons. Therefore, the download can be started quickly and the required time can be shortened. Further, by deleting the memory information that has not been downloaded, the storage capacity of the storage device 17 can be saved.
[0054]
In the embodiment of the present invention, when the identification information of the portable terminal 20 connected to the navigation device 1 is the same as the identification information of the portable terminal stored in the memory information file 171, the download is not performed. Although the configuration is adopted, when the memory information stored in the mobile terminal 20 is changed or added, the download can be executed by a user operation as necessary. Since the download process by the user's operation is executed by the same process as the conventional download process described above, a detailed description thereof will be omitted.
[0055]
Moreover, the description in this Embodiment is an example of the suitable navigation apparatus concerning this invention, and is not limited to this. For example, the in-vehicle device is not limited to the navigation device, and may be configured to include a program that can execute the present invention in an in-vehicle audio device or an in-vehicle computer.
[0056]
Further, in the present embodiment, the model name and the portable terminal number are compared as identification information. For example, the number of memory information items is further acquired as identification information. Even if they are the same, if the number of pieces of memory information is different, it may be configured to download. The number of memory information items is, for example, the number of names stored in the memory information. Thus, even if the connected mobile terminal 20 and the mobile terminal storing the memory information in the memory information file 171 are the same, if the memory information is changed, the memory information automatically You can download it. Therefore, when the added memory information is downloaded, the user's manual operation becomes unnecessary.
[0057]
【The invention's effect】
According to the in-vehicle device of the first aspect, the user can automatically store the memory information stored in the mobile terminal in the in-vehicle device simply by connecting the mobile terminal to the in-vehicle device. Therefore, a complicated operation for storing the memory information in the in-vehicle device can be eliminated, and the user's trouble and time can be saved.
[0058]
  Also,If the memory information of the same mobile terminal is already stored in the in-vehicle device, the memory information is not acquired, so that unnecessary processing such as storing the memory information of the same mobile terminal again is not performed. You can save battery.
[0059]
  Claim2According to the in-vehicle device of the described invention, the claim1In addition to the effects of the described invention, when identifying a mobile terminal connected to an in-vehicle device and a mobile terminal having memory information stored in the memory information storage means, the mobile terminal can be easily identified. .
[0060]
  Claim3According to the vehicle-mounted device of the described invention, in addition to the effect of the invention of the first aspect, the storage capacity of the memory information storage means can be saved without retaining the memory information in the middle of storage.
  According to the portable terminal connecting method of the invention described in claim 4, the user can automatically store the memory information stored in the portable terminal in the in-vehicle device only by connecting the portable terminal to the in-vehicle device. . Therefore, a complicated operation for storing the memory information in the in-vehicle device can be eliminated, and the user's trouble and time can be saved. In addition, when the memory information of the same mobile terminal is already stored in the in-vehicle device, the memory information is not acquired, so that unnecessary processing such as storing the memory information of the same mobile terminal again is not performed. Saves onboard battery.
[Brief description of the drawings]
FIG. 1 is a block diagram showing a configuration of a navigation apparatus 1 according to an embodiment to which the present invention is applied.
FIG. 2 is a diagram showing a storage example of a memory information file 171 formed in the storage device 17 of FIG.
FIG. 3 is a flowchart showing an automatic download process executed by the CPU 10 of FIG. 1;
FIG. 4 is a flowchart showing a download process executed by a conventional navigation device.
[Explanation of symbols]
1 Navigation device
10 CPU
11 GPS antenna
12 Autonomous navigation unit
13 Voice control unit
14 memory
15 Input section
16 Display section
17 Storage device
18 I / F section
20 Mobile devices

Claims (4)

In an in-vehicle device that controls a mobile terminal connected to a mobile terminal connected to a wireless communication network,
Connection detecting means for detecting the start of connection of the mobile terminal;
Memory information storage means for acquiring and storing memory information including telephone directory information or mail address information stored in the portable terminal when the connection detection means detects the start of connection of the portable terminal; ,
First identification information acquisition means for acquiring identification information from the mobile terminal when the connection detection means detects the start of connection of the mobile terminal;
Second identification information acquisition means for acquiring identification information stored in the memory information storage means,
The memory information storage means compares the identification information acquired by the first identification information acquisition means and the second identification information acquisition means, and stores the information in the portable terminal when the identification information is different. vehicle device, wherein a storage child memory information is acquired and. The in-vehicle device according to claim 1 , wherein the identification information includes at least one of a model name and a mobile terminal number of the mobile terminal . The connection detection means further comprises a connection release detection means for detecting the release of the connection of the mobile terminal,
The memory information storage means erases the stored memory information when the connection release detection means detects the release of the connection of the portable terminal while the memory information storage means stores the memory information. The in-vehicle device according to claim 1 . In a mobile terminal connection method of an in-vehicle device that connects a mobile terminal connected to a wireless communication network and controls the mobile terminal,
  In the in-vehicle device,
  A connection detection step of detecting the start of connection of the mobile terminal;
  Memory information storage step of acquiring and storing memory information including telephone directory information or mail address information stored in the portable terminal when the connection detection of the portable terminal is detected in the connection detection step When,
  A first identification information acquisition step of acquiring identification information from the mobile terminal when the start of connection of the mobile terminal is detected in the connection detection step;
  A second identification information acquisition step of acquiring the identification information stored in the memory information storage step,
  The memory information storage step compares the identification information acquired in the first identification information acquisition step and the second identification information acquisition step, and stores the identification information in the portable terminal when the identification information is different. A portable terminal connection method characterized by acquiring and storing stored memory information.

Images