JP4736910B2 - Wireless communication apparatus and profile detection method in wireless communication apparatus - Google Patents

Description

  The present invention relates to a wireless communication device, and more particularly to an in-vehicle wireless communication device using a Bluetooth communication function.

2. Description of the Related Art Conventionally, as a means for realizing voice call and data communication while driving a vehicle, a method of using a vehicle-mounted wireless communication device equipped with a hands-free function and using a mobile phone carried in the vehicle has been used. As a wireless communication method between such a vehicle-mounted wireless communication device and a mobile phone, a method of mounting a Bluetooth module on both sides, establishing a Bluetooth link, and performing Bluetooth communication is used.
In this wireless communication system using the Bluetooth communication function, two types of profiles, that is, voice communication using HFP (hands-free profile) and data communication using DUNP (dial-up networking profile) can be performed. it can. This type of prior art is disclosed in Patent Document 1, for example.
JP 2004-106801 A

There are two types of Bluetooth modules: one capable of multi-profile operation capable of controlling two or more profiles simultaneously and one single-profile operation capable of controlling two or more profiles simultaneously. In other words, two profiles of HFP and DUNP can be established (operable) at the same time when the multi-profile operation is possible, but the above two profiles cannot be established at the same time in the single profile operation.
For this reason, when establishing a Bluetooth link, it is necessary to determine whether the connection partner is capable of multi-profile operation or single profile operation. Therefore, the profile supported by the partner device by SDP (Service Discovery Profile) for the connection partner After confirming that it corresponds to the desired profile, a connection request was made and the application was started.
However, in the prior art, there is no mechanism to determine which profile can operate at the same time for profiles that return information that can be used in SDP, so it is possible to switch the combination of application operations accurately. There was a problem that was not possible.
The present invention has been made in order to solve the above-described problems. Based on the determination, it is determined whether or not multi-profile operation is supported and which combination of HFP, DUNP, and AVP is operable. An object of the present invention is to provide a wireless communication apparatus that enables application control.

To achieve the above object, in the present invention, HFP connection request transmission instructing means for instructing transmission of an HFP connection request to a mobile phone, DUNP connection request transmission instructing means for instructing transmission of a DUNP connection request, and AVP connection request transmission are performed. AVP connection request transmission instructing means for instructing; multi-profile operable combination determining means for determining whether the mobile phone is compatible with multi-profile operation and determining a combination operable with multi-profile; When establishing a B1uetooth link to a mobile phone, after establishing an HFP link by making an HFP connection request, whether or not the DUNP link can be established for the DUNP connection request while the HFP link is established, or AVP link By determining whether or not AVP can be established in response to a connection request, Talk is configured to determine whether operational with any combination of multi-profile operation corresponding to whether or not the determination and HFP and DUNP and AVP.
However, HFP stands for Hands Free Profile, DUNP stands for Dial Up Networking Profile, and AVP stands for Audio Video Profile.

When the Bluetooth of the other party's mobile phone is compatible with multi-profiles, the combination of profiles that can be operated simultaneously is detected, so that applications that can be operated simultaneously can be identified, and applications can be controlled based on that. .
In addition, since the HFP connection is established first, a hands-free call that is given priority as an in-vehicle device can be used.
Furthermore, the Bluetooth link established when the multi-profile detection is completed can be used as it is in subsequent applications.
In addition, if the Bluetooth of the other party's mobile phone is compatible with a single profile, abnormal operation caused by requesting connection of a profile that cannot be started during application operation is detected by detecting the profiles that can actually be used in advance. Occurrence can be prevented.

(First embodiment)
FIG. 1 is a block diagram showing the basic configuration of the first embodiment of the present invention.
In FIG. 1, reference numeral 40 denotes an in-vehicle device (an in-vehicle wireless communication device) disposed in the vehicle, and includes a main body unit 50, an operation microphone unit 55, and a power source 47. The main unit 50 includes a Bluetooth module 41 capable of multi-profile operation, a speaker 42 used as setting information transmission means during a hands-free call and wireless communication with a mobile phone, and a CPU 46 that controls the in-vehicle device 40.

  In the Bluetooth module 41, 39 is a Bluetooth CPU, 43 is an HFP connection request transmission instruction means, 44 is a DUNP connection request transmission instruction means, 45 is an AVP connection request transmission instruction means, and 51 is a multi-profile operable combination determination means. Each of the means 43, 44, 45, 51 is configured by software calculation in the Bluetooth CPU 39.

The Bluetooth module 41 includes, for example, an RF chip for frequency hopping spread spectrum communication that supports a 2.4 GHz band, and a BB chip as a link controller that controls transmission and reception of baseband (BB) signals with an RF transceiver. Etc., but not shown.
In the operation microphone unit 55, 56 is a Bluetooth antenna, 57 is a microphone during a hands-free call, and 58 is an operation unit of the in-vehicle device 40.

  Reference numeral 60 denotes a mobile phone having a Bluetooth communication function as a communication partner of the in-vehicle device 40. In the mobile phone 60, 61 is a Bluetooth module, 62 is a CPU for controlling the mobile phone, 63 is an operation unit, 64 is a monitor, and 65 is a Bluetooth antenna.

  The Bluetooth module 41 is a Bluetooth communication function realizing means for performing wireless communication with the mobile phone 60, and is equipped with a model having a multi-profile compatible function. The speaker 42 is an audio output device during a hands-free call.

  The HFP connection request transmission instructing unit 43 instructs the mobile phone 60 to transmit an HFP connection request before starting wireless communication using the Bluetooth communication function between the in-vehicle device 40 and the mobile phone 60. The DUNP connection request transmission instruction means 44 instructs the cellular phone 60 to transmit a DUNP connection request. The AVP connection request transmission instructing means 45 instructs the mobile phone 60 to transmit an AVP connection request. The multi-profile operable combination determining means 51 determines whether or not the mobile phone 60 is compatible with multi-profile operation (whether it is compatible with multi-profile operation or single-profile operation) depending on whether or not each link is established for each connection request. The combination that can be operated by the profile is determined. Details of this content will be described later.

  2 and 3 are flowcharts showing the calculation contents of the multi-profile operable combination determination in the present invention. FIG. 2 shows multi-profile determination and FIG. 3 shows single profile determination. 2 and 3, “DUNP” is abbreviated as “DUN”. In addition, in the determination completion step such as step S7, the determination is indicated by a circled number.

First, multi-profile determination shown in FIG. 2 will be described.
When establishing a Bluetooth link with a mobile phone with built-in Bluetooth (40 in FIG. 1) in the in-vehicle device with built-in Bluetooth communication function capable of multi-profile operation (60 in FIG. 1), the step is first performed from the in-vehicle device to the mobile phone. In S1, an HFP connection request (function of the HFP connection request transmission instructing means 43) is made, and it is determined in step S2 whether an HFP link has been established. If the HFP link cannot be established at this point (step S2 = no), the mobile phone's Bluetooth function is not activated, the mobile phone is not placed in the Bluetooth communication range, or the mobile phone is not turned on. The reason for this is considered.
In this case, the HFP link connection process is interrupted within a predetermined timer time (for example, 15 seconds), and the position of the mobile phone, whether the mobile phone's Bluetooth function is activated on the monitor of the vehicle-mounted device, etc. Prompt for confirmation that the phone is turned on.

If the mobile phone can perform Bluetooth communication, it correctly responds to the HFP connection request from the in-vehicle device, the HFP link is established, and the HFP link establishment notification is sent to the in-vehicle device (step S2 = yes).
If the HFP link is established, a DUNP connection request (function of the DUNP connection request transmission instructing means 44) is similarly made from the in-vehicle device to the mobile phone in step S3. If the Bluetooth function of the mobile phone supports multi-profile operation and both HFP and DUNP can be activated simultaneously, the DUNP link is established by correctly responding to this DUNP connection request, and On the other hand, a link establishment notification of DUNP is sent (step S4 = yes). In this case, the in-vehicle device determines that the Bluetooth function of the connected mobile phone can perform multi-profile operation of HFP and DUNP.

  In step S5, an AVP connection request (a function of the AVP connection request transmission instruction means 45) is made from the in-vehicle device to the mobile phone while maintaining the link between HFP and DUNP. If an AVP link can be established with HFP and DUNP established (step S6 = yes), in step S7, the mobile phone determines that HFP, DUNP, and AVP can be operated simultaneously (determination complete). 1). This determination can be reflected in whether the application can be activated or not, and in combination control. That is, the operation of the application after the above determination is set to perform simultaneous operation of HFP, DUNP, and AVP.

If the AVP link cannot be established with HFP and DUNP established (step S6 = no), the DUNP link is disconnected in step S8 to determine whether or not simultaneous operation of HFP and AVP is possible. In step S9, an AVP connection request is made.
If a link establishment notification is returned in response to this request (step S10 = yes), it is determined in step S11 that simultaneous operation of HFP and AVP is possible. In this case, since it is determined in step S4 that simultaneous operation of HFP and DUNP is possible, it is eventually determined that this mobile phone can perform multi-profile operation of HFP and DUNP or multi-profile operation of HFP and AVP. (Judgment completion 2). In this case, the application operation after the above determination is set to perform simultaneous operation of HFP and DUNP or simultaneous operation of HFP and AVP.

  If step S10 = no, it is determined in step S12 that simultaneous operation of HFP and AVP is not possible. In this case, since it is determined in step S4 that simultaneous operation of HFP and DUNP is possible, in this case, it can be determined that multi-profile operation of HFP and DUNP is possible (determination) Completion 3). In this case, the operation of the application after the above determination is set to perform simultaneous operation of HFP and DUNP.

If step S4 is no, that is, if a DUNP link establishment notification is not returned from the mobile phone within a predetermined timer time in response to a DUNP connection request, it is determined that simultaneous activation of HFP and DUNP is not possible. To do.
If DUNP cannot be established in the HFP established state as described above, an AVP connection request is issued in a state where the HFP link is established in step S13 in order to determine whether or not simultaneous operation of HFP and AVP is possible. Sent from the in-vehicle device to the mobile phone.
If an AVP link establishment notification is returned (step S14 = yes), it is determined in step S15 that the mobile phone can simultaneously operate HFP and AVP (determination completion 4). In this case, the operation of the application after the above determination is set so as to perform simultaneous operation of HFP and AVP.

  If step S14 = no, that is, if no other profile can be activated simultaneously with HFP, it is determined that the mobile phone can only perform a single profile operation, and the process proceeds to the single profile activation determination of FIG.

  In the single profile activation determination of FIG. 3, it is confirmed whether or not activation is possible if the profile returned by SDP (Service Discovery Profile) is individual. Therefore, first, in step S16, the HFP link is disconnected and a connection request for the DUNP link is made.

  If the DUNP link is established (step S17 = yes), it is determined in step S18 that the DUNP single operation is possible (decision 5), and then the DUNP link is disconnected to perform the AVP determination. . If the DUNP link cannot be established within the predetermined timer time (step S17 = no), it is determined in step S19 that the DUNP cannot be used (decision 6).

Next, in step S20, an AVP link connection request is made.
If an AVP link is established (step S21 = yes), it is determined in step S22 that an AVP single operation is possible (determination 7), and the AVP link is disconnected. If the AVP link cannot be established within the predetermined timer time (step S21 = no), it is determined in step S23 that the AVP cannot be used (decision 8).

Next, in step S24, an HFP link is requested and an HFP link is established. This HFP (hands-free profile) is a basic function and can generally be established by any mobile phone.
The determination so far is an operation when it is confirmed that the SDP supports HFP, DUNP, and AVP, and is supported when the mobile phone does not support any of these profiles. Profile determination may be performed for portions related to the profile.

  An application that uses Bluetooth communication performs different processing in each case as necessary according to the determination result. For example, when data communication using DUNP is performed, a mobile phone having a single profile operation temporarily disconnects the HFP link, requests connection of the DUNP link, and starts data communication after the DUNP link is established. After data communication is completed, DUNP is disconnected and HFP is connected.

  For a mobile phone of multi-profile operation, data communication is performed on the already established DUNP link while maintaining the HFP link as it is. Further, when HFP, DUNP, and AVP can be used at the same time, music playback by AVP can be performed while maintaining the link between HFP and DUNP.

  Conventionally, it has been determined that the profile detected by SDP can be used as it is. However, some Bluetooth devices return profiles that can be used by SDP, but there are profiles (applications) that cannot be used (cannot be activated) due to the settings of the device. In some cases, however, the desired profile of the connection source cannot be used. In the present invention, the multi-profile operable combination determination is performed as described above, and processing according to the result is performed. It is possible to operate only with reliable judgment.

As described above, in the first embodiment, when the Bluetooth of the connection partner mobile phone is compatible with the multi-profile, a combination of profiles that can be operated simultaneously can be detected, so that an application that can operate simultaneously can also be determined. Application control.
In addition, since the HFP connection is established first, a hands-free call that is given priority as an in-vehicle device can be used.
Furthermore, the Bluetooth link established when the multi-profile detection is completed can be used as it is in subsequent applications.
In addition, if the Bluetooth of the other party's mobile phone is compatible with a single profile, abnormal operation caused by requesting connection of a profile that cannot be started during application operation is detected by detecting the profiles that can actually be used in advance. Occurrence can be prevented.

(Second embodiment)
FIG. 4 is a block diagram showing the basic configuration of the second embodiment of the present invention. In this embodiment, a car navigation system 70 is equipped with a Bluetooth module 41 capable of multi-profile operation.
In FIG. 4, 72 is a CPU that controls the Bluetooth module 41 in addition to the control of the car navigation system 70. Reference numerals 73 to 76 denote devices constituting the arithmetic unit in the car navigation system 70, 73 denotes an HDD drive, 74 denotes a DVD drive, 75 denotes a DSP (Digital Signal Processor) which is a processor for digital signal processing, and 76 denotes a map. This is a memory for a database of information and the like. Reference numeral 77 is a monitor for displaying map information, 78 is an operation switch, 79 is a GPS antenna, 80 is a microphone for voice input, 81 is a speaker for voice output, and 82 is a Bluetooth antenna.

  By installing the Bluetooth module 41 capable of multi-profile operation in such a car navigation system 70 and having the function described in the first embodiment, the car navigation system 70 can communicate with the mobile phone 60 of the communication partner. It is possible to identify the function and perform control according to the communication function. That is, as in the first embodiment, according to the function of the Bluetooth module 61 of the mobile phone 60, a hands-free call and data communication can be performed by a multi-profile operation or a single profile operation.

In the present embodiment, even if the mobile phone 60 is a model of single profile operation, when data communication is not performed, an incoming call can be accepted and a hands-free call can be made possible.
In addition, by installing the Bluetooth module 41 in the car navigation system 70, information related to wireless communication transmitted from the in-vehicle device 40 to the user can be displayed on the monitor 77 of the car navigation system 70, which is more convenient to use. It becomes. Furthermore, it is not necessary to equip the vehicle with two devices, the car navigation system 70 and the in-vehicle device 40, so that the devices can be made compact and contribute to the effective use of the space in the vehicle.

The block diagram which shows the basic composition in the 1st Example of this invention. The flowchart which shows the calculation content of the multi-profile operable combination judgment in this invention. The flowchart which shows the calculation content of single profile judgment. The block diagram which shows the basic composition of the 2nd Example of this invention.

Explanation of symbols

39 ... Bluetooth CPU 40 ... In-vehicle device 41 ... Bluetooth module 42 ... Speaker 43 ... HFP connection request transmission instruction means 44 ... DUNP connection request transmission instruction means 45 ... AVP connection request transmission instruction means 46 ... CPU
DESCRIPTION OF SYMBOLS 47 ... Power supply 50 ... Main-body part 51 ... Multi profile operation possible combination judgment means 55 ... Operation microphone part 56 ... Bluetooth antenna 57 ... Microphone 58 ... Operation part 60 ... Mobile phone 61 ... Bluetooth module 62 ... CPU 63 ... Operation part 64 ... Monitor 65 ... Bluetooth antenna 70 ... Car navigation system 72 ... CPU
73 ... HDD drive 74 ... DVD drive 75 ... DSP 76 ... Memory 77 ... Monitor 78 ... Operation switch 79 ... GPS antenna 80 ... Microphone 81 ... Speaker 82 ... Bluetooth antenna

Claims (6)

In a wireless communication device that has a Bluetooth module capable of multi-profile operation and establishes a Bluetooth link with a mobile phone with a built-in Bluetooth communication function to perform wireless communication,
HFP connection request transmission instruction means for instructing transmission of an HFP connection request to the mobile phone, DUNP connection request transmission instruction means for instructing transmission of a DUNP connection request, AVP connection request transmission instruction means for instructing transmission of an AVP connection request, A multi-profile operable combination determination means for determining whether the mobile phone is compatible with multi-profile operation and determining a combination operable with the multi-profile,
When the vehicle-mounted device establishes the B1uetooth link to the mobile phone, after establishing the HFP link performing HFP connection request, while keeping establish this HFP link, or alone, DUNP link establishment for DUNP connection request And whether or not the mobile phone is capable of multi-profile operation by sequentially determining whether or not AVP can be established in response to an AVP link connection request and whether or not any combination of HFP, DUNP, and AVP is operable A wireless communication apparatus configured to perform:   When the in-vehicle device establishes a B1uetooth link to the mobile phone, first, after establishing an HFP link by making an HFP connection request, a DUNP connection request is made while maintaining the connection, and a DUNP link is established Determines that the simultaneous operation of HFP and DUNP is possible, and further makes an AVP connection request while maintaining the link between HFP and DUNP. When the AVP link is established, simultaneous operation of HFP, DUNP and AVP is possible. If the DUNP link cannot be established, an AVP connection request is made while maintaining the HFP connection. If the AVP link is established, it is determined that the simultaneous operation of HFP and AVP is possible. If the link could not be established, disconnect the HFP link, make a DUNP connection request, and establish the DUNP link Determines that DUNP single profile operation is possible, disconnects the DUNP link, makes an AVP connection request, and if the AVP link is established, determines that the AVP single profile operation is possible, The wireless communication apparatus according to claim 1, wherein a determination is made as to whether the telephone is compatible with a multi-profile operation and a combination capable of operating with the multi-profile is determined.   The operation of the application after the determination of the combination that can operate in the multi-profile is set so as to perform the simultaneous operation of the application that is determined to be operable according to the determination result. 2. A wireless communication device according to 2.   The wireless communication apparatus according to claim 1, wherein the Bluetooth module is mounted on a car navigation system, and the car navigation system is used as the in-vehicle device. A profile detection method in a wireless communication apparatus that has a Bluetooth module capable of multi-profile operation and establishes a Bluetooth link with a mobile phone having a built-in Bluetooth communication function to perform wireless communication,
When the vehicle-mounted device establishes the B1uetooth link to the mobile phone, after establishing the HFP link performing HFP connection request, while keeping establish this HFP link, or alone, DUNP link establishment for DUNP connection request And whether or not the mobile phone is compatible with the multi-profile operation and the combination of HFP, DUNP, and AVP can be determined by sequentially determining whether or not AVP can be established in response to an AVP link connection request. A profile detection method in a wireless communication device.   When the in-vehicle device establishes a B1uetooth link to the mobile phone, first, after establishing an HFP link by making an HFP connection request, a DUNP connection request is made while maintaining the connection, and a DUNP link is established Determines that the simultaneous operation of HFP and DUNP is possible, and further makes an AVP connection request while maintaining the link between HFP and DUNP. When the AVP link is established, simultaneous operation of HFP, DUNP and AVP is possible. If the DUNP link cannot be established, an AVP connection request is made while maintaining the HFP connection. If the AVP link is established, it is determined that the simultaneous operation of HFP and AVP is possible. If the link could not be established, disconnect the HFP link, make a DUNP connection request, and establish the DUNP link Determines that DUNP single profile operation is possible, disconnects the DUNP link, makes an AVP connection request, and if the AVP link is established, determines that the AVP single profile operation is possible, 6. The method of detecting a profile in a wireless communication apparatus according to claim 5, wherein a determination is made as to whether or not the telephone is compatible with a multi-profile operation and a combination capable of operating in the multi-profile is determined.

Images