JP2006333505A - Mobile-mounted device and portable device - Google Patents

Mobile-mounted device and portable device Download PDF

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Publication number
JP2006333505A
JP2006333505A JP2006199517A JP2006199517A JP2006333505A JP 2006333505 A JP2006333505 A JP 2006333505A JP 2006199517 A JP2006199517 A JP 2006199517A JP 2006199517 A JP2006199517 A JP 2006199517A JP 2006333505 A JP2006333505 A JP 2006333505A
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driver
operator
unit
mobile
device
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JP2006199517A
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JP4404077B2 (en
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Hitoshi Okubo
仁 大久保
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Sony Corp
ソニー株式会社
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Abstract

<P>PROBLEM TO BE SOLVED: To improve availability of devices for a fellow passenger other than a driver while ensuring safety during moving and traveling. <P>SOLUTION: A potential of an electrode part 26 detected by a potential detection part 25 of a portable device 3 is compared with a potential of a steering electrode part 12 detected by a potential detector 8 of an on-vehicle device 2, and the identity of the driver and an operator of the portable device 3 is judged. By transmitting a result of the judgement to the portable device 3, it is judged in the portable device 3 whether an input operation is valid or invalid. The identity of the operator of the portable device 3 and the driver can also be judged at the side of the portable device 3. Furthermore, the portable device 3 transmits, to the on-vehicle device 2, information for an inquiry of the identity of its operator and the automobile driver together with potential data, the on-vehicle device 2 judges the identity of the operator and the driver and redirects the result to the portable device 3 and in the portable device 3, operation of call arrival or the like is restricted based on a result of the reply. <P>COPYRIGHT: (C)2007,JPO&INPIT

Description

  The present invention relates to a mobile unit mounted device mounted on a mobile unit such as an automobile, or a mobile unit mounted device system for operating the mobile unit, and in particular, the operation is controlled by an operation on a portable device, a remote controller, etc. About.

  When the vehicle is running, it is dangerous for the driver to operate a portable device such as a car stereo, a car navigation device, or a mobile phone, which prevents the driver from concentrating on the driving operation. In view of this, there has been proposed a technique for making such devices inoperable when the vehicle is running (for example, Japanese Patent Laid-Open Nos. 10-294970 and 57-160234).

However, with such technology, the operation of the mobile device etc. is completely stopped when the vehicle is traveling, so even if a passenger other than the driver wants to operate the mobile device etc., communication is not possible. However, there was a problem that the usability of the equipment by passengers was reduced.
The present invention has been made based on such a technical problem, and is capable of improving the usability of passengers other than the driver while ensuring safety during traveling. The main purpose is to provide on-board equipment systems.

For this purpose, the mobile device mounting system of the present invention includes an operation input means for performing an operation input of the mobile device mounted on the mobile object, a driver of the mobile object, and an operator in the operation input means. Identity determining means for determining the identity of the input device, and operation validity determining means for determining the validity / invalidity of the input operation in the operation input means based on the determination in the identity determining means. Yes.
With such a configuration, when the operator of the operation input means and the driver are different, the operation of the mobile body mounted device can be made effective.
In addition, a mobile body here points out a motor vehicle, an aircraft, and others, for example.

Here, the mobile body-mounted device system further includes a movement state determination unit that determines the movement state of the mobile body, and the operation effectiveness determination unit operates based on the identity determined by the identity determination unit. The input operation by the operation input means may be invalidated when it is determined that the operator and the operator are the same and the moving body is determined to be moving based on the movement state obtained by the movement state determination means. preferable.
As a result, when the automobile is stopped, the driver can also operate.

  Further, specifically, the mobile body-mounted system has a driver potential detecting means for detecting the driver's potential and an operator potential detecting means for detecting the operator's potential. If the potentials of the driver and the operator are compared to determine the identity, the identity between the driver and the operator can be easily determined.

  In addition, here, if the identity determination means determines the identity based on the temporal change in the potentials of the driver and the operator, the identity can be determined more accurately.

Moreover, this invention can also be grasped | ascertained also as invention of a mobile body mounting apparatus. That is, the mobile body mounted device to which the present invention is applied is a mobile body mounted device mounted on the mobile body, and includes a moving state detection unit that detects the moving state of the mobile body, and human body information in the driver of the mobile body. A driver information detecting unit for detecting the human body information, an operator information acquiring unit for acquiring human body information in the operator of the mobile device, and the identity of the driver and the operator from the human body information of the driver and the human body information of the operator When the identity determination unit and the identity determination unit determine that the driver and the operator are the same, and the moving state detection unit detects that the moving body is moving, this operation is performed for the operator. And an operation invalidity notification unit for notifying the invalidity of the operation by the user.
With such a configuration, when the driver operates the mobile body mounted device, it is possible to notify the driver of the invalid operation.
In this case, as the human body information, for example, the potentials of the driver and the operator can be used.

Further, the present invention can be grasped as the invention of the following mobile unit mounted device. That is, the mobile body mounted device to which the present invention is applied is a mobile body mounted device mounted on the mobile body, and is provided in the mobile body with a driver information detection unit that detects human body information in the driver of the mobile body. From an operator information acquisition unit that acquires human body information in an operator of another device, and the human body information of the driver detected in the driver information detection unit and the human body information of the operator obtained in the operator information acquisition unit, An identity determination unit that determines the identity of the driver and the operator, and a data transmission unit that transmits predetermined data to another device based on the determination result of the identity in the identity determination unit. It is a feature.
With such a configuration, it is possible to determine whether or not the operator and the driver are the same in another device in the moving body based on the transmitted predetermined data.

Furthermore, the present invention can be understood as the invention of the following mobile device. That is, the mobile body-mounted device to which the present invention is applied is a mobile body-mounted device mounted on the mobile body, and includes a driver information detection unit that detects human body information of the driver of the mobile body, and the detected driving And a driver information transmitting unit that transmits the human body information of the driver as data to the moving body.
With such a configuration, the driver's human body information can be transmitted to a portable device or the like in the moving body.
In this case, it is desirable that the portable device is as follows. That is, the mobile device to which the present invention is applied is a driver that acquires human body information in a driver of a moving body from an operator information detection unit that detects human body information of the operator and a data signal transmitted to the moving body. An information acquisition unit, an identity determination unit that determines the identity of the operator and the driver based on the human body information of the operator and the driver, and an operation control unit that performs operation control based on the determination result of the identity. It is characterized by having prepared.
Here, the mobile device is preferably a mobile phone, a PHS (Personal Handy-phone System), a remote controller, or a PDA (Personal Digital Assistant).

The present invention can also be understood as the following portable device invention. That is, the mobile device to which the present invention is applied transmits inquiry information for inquiring whether or not the operator is driving the mobile body together with the human body information of the operator to the mobile body mounted device mounted on the mobile body. And an operation control unit that performs operation control based on reply data from the mobile unit-equipped device with respect to the inquiry information.
In this case, the mobile device may be a mobile phone, and the operation control unit may perform operation control of data transmission / reception. Here, the mobile phone includes a PHS (Personal Handy-phone System).

  As described above, according to the present invention, it is possible to improve the usability of passengers other than the driver while ensuring safety during traveling.

Hereinafter, the present invention will be described in detail based on embodiments shown in the accompanying drawings.
FIG. 1 is a block diagram for explaining the overall configuration of the in-vehicle device system according to the present embodiment. As shown in the figure, an in-vehicle device system (mobile body mounted device system) 1 is mounted on an automobile (movable body) and is integrally mounted on the automobile, such as a car stereo or a car navigation system (mounted on a mobile body). Device) 2 and a portable device (operation input means) 3 such as a mobile phone owned by a passenger of the automobile.
The in-vehicle device 2 includes an operation unit 5 for a user to perform an operation, and a central processing unit (identity determining unit, an arithmetic processing unit for controlling each unit of the in-vehicle device 2 according to an operation input from the operation unit 5. Identity determining unit) 6. The central processing unit 6 is connected to a vehicle speed detection determination unit (moving state determination unit) 7 and a potential detection unit (driver potential detection unit, driver information detection unit) 8. The vehicle speed detection determination unit 7 is connected to a speed signal generation unit 10 and a side brake sensor 11 provided in the automobile. Here, the speed signal generation unit 10 detects the traveling speed of the automobile and generates the speed signal as a vehicle speed pulse, and the side brake sensor 11 determines whether or not the side brake of the automobile is pulled (ON and Detected or turned off). The vehicle speed detection determination unit 7 determines whether the vehicle is running or stopped based on the speed signal output from the speed signal generation unit 10 and the side brake detection signal output from the side brake sensor 11. The result is output to the central processing unit 6. The potential detection unit 8 is connected to a steering electrode unit 12 provided for the steering wheel of the automobile and a shift lever electrode unit 13 provided for the shift lever of the automobile. When the driver holds it, the potential of the driver is detected. Further, the potential detection unit 8 sequentially outputs the driver potential detected in this manner to the central processing unit 6.
The central processing unit 6 is connected to the voice generation / screen display unit 14 and the data transmission / reception unit 15 and transmits a signal for controlling the operation of the voice generation / screen display unit 14 based on the calculation result. In addition, data can be transmitted / received to / from the mobile device 3 via the data transmission / reception unit 15.

  In addition, the mobile device 3 includes an operation unit 20 for a user to perform an operation, and a central processing unit (operation validity determination unit, operation control unit) for controlling each unit of the device in accordance with an operation input from the operation unit 20. 21) In addition to the sound generation / screen display unit 22 controlled by the control signal from the central processing unit 21, the data transmission / reception unit (inquiry information transmission unit) 24, the potential detection unit (operator potential detection means, operator An information acquisition unit) 25 and an electrode unit 26 are provided. The data transmission / reception unit 24 can communicate with not only the other portable device 3 but also the in-vehicle device 2. The potential detection unit 25 is connected to the electrode unit 26 provided in the casing of the mobile device 3. When the operator grips the casing of the mobile device 3, the potential detection unit 25 detects the potential of the operator, The detection result can be output to the central processing unit 21.

Next, the operation of the in-vehicle device system 1 will be described with reference to FIG.
The operation of the in-vehicle device system 1 described below performs an operation input of the in-vehicle device 2 using the mobile device 3, and whether or not the person who performed the operation input on the in-vehicle device 2 side is a driver. This is an operation for determining the validity / invalidity of the operation input in the portable device 3 based on the determination result.
FIG. 2 is a flowchart showing the operation in the in-vehicle device system 1, in which the left column shows the operation in the mobile device 3 and the right column shows the operation in the in-vehicle device 2.
First, in the in-vehicle device system 1, the portable device 3 determines whether or not there is an operation input every predetermined time (step Sa1). That is, the mobile device 3 is in a state of waiting for an output signal from the operation unit 20. When it is determined that an operation input has been made based on an output signal from the operation unit 20, the central processing unit 21 of the portable device 3 detects that the potential of the electrode unit 26 is detected by the potential detection unit 25. An instruction is given (step Sa2). Based on this, the potential detection unit 25 detects the potential of the electrode unit 26 (step Sa3). Thereby, the electric potential which the operator of the portable apparatus 3 has is detected. This potential detection is performed by sampling, for example, 100 potential data in a predetermined period (for example, 1 second).

  In step Sa2, the central processing unit 21 of the mobile device 3 is connected to the central processing unit 6 of the in-vehicle device 2 via the data transmitting / receiving unit 24 and the data transmitting / receiving unit 15 of the in-vehicle device 2. Also, an instruction signal for detecting the potential is transmitted. As a result, the central processing unit 6 of the in-vehicle device 2 outputs an instruction signal for detecting the potential to the potential detection unit 8, and the potential detection unit 8 outputs the steering electrode unit 12 and the shift lever electrode unit 13. The potential is detected and output to the central processing unit 6. Thus, the potential of the driver is detected when the driver is holding the steering wheel or the shift lever, that is, when the driver is driving (step Sb1). This potential detection is also performed by sampling, for example, 100 potential data in a predetermined period (for example, 1 second), similarly to the detection of the potential in the portable device.

When the potential is detected on the portable device 3 side and the on-vehicle device 2 side in this way, the central processing unit 21 of the portable device 3 transmits the potential of the electrode unit 26 of the portable device 3 to the on-vehicle device 2. An inquiry is made as to whether this potential is the same as the driver's potential, that is, whether the operator of the portable device 3 is the same as the driver. In response to this, the central processing unit 6 of the in-vehicle device 2 compares the potentials detected by the potential detection unit 8 and the potential detection unit 25 to determine whether the operator of the portable device 3 and the driver are the same. It is determined whether or not (step Sb2). Here, as a criterion for determining that the operator and the driver of the portable device 3 are the same, (1) both potentials are substantially equal during a predetermined time when the potentials are sampled, and (2) It is conceivable that the state continues for a predetermined time or a predetermined number of sampling times, or (2) even if both potentials are different, their temporal changes are substantially the same.
Further, here, the potential data is compared in consideration of a slight time lag due to wireless communication between the mobile device 3 and the in-vehicle device 2. For this purpose, the correlation is calculated by shifting the potential data to be compared by a predetermined shift time, and the shift time when the correlation becomes maximum is set as a time lag to be considered. When comparing the potential data, the time lag data is shifted in time and the comparison is performed.

Furthermore, the central processing unit 6 of the in-vehicle device 2 returns the determination result in step Sb2 to the mobile device 3 side. The central processing unit 21 of the mobile device 3 determines whether or not the determination result indicates that the operator and the driver of the mobile device 3 are the same (step Sa4). If it is determined that the operation is performed, a signal indicating that the vehicle is running or stopped is transmitted to the in-vehicle device 2 (step Sa5). In response to this, the central processing unit 6 of the in-vehicle device 2 detects whether the vehicle is running or stopped based on the output from the vehicle speed detection determination unit 7 and carries determination information about it. Transmit to the device (step Sb3).
The vehicle speed detection / determination unit 7 determines whether the vehicle is running or stopped as follows.
First, as a condition for determining that the automobile is stopped, any one or a plurality of determination criteria such as the following (1) to (4) are used.
(1) When the speed signal indicates a low speed (for example, 4 km / h).
(2) When the side brake detection signal indicates an ON state, that is, when it indicates that the side brake is applied.
(3) When the speed signal is in a state indicating 0 km / h.
(4) When the speed signal is in a state indicating 0 km / h and this state continues for several seconds (for example, 2 seconds).
Furthermore, any one or more of the following criteria (5) to (8) are used as the conditions for determining the vehicle from the stopped state to the traveling state.
(5) When the speed signal is in a state indicating 0 km / h or more.
(6) When the side brake detection signal indicates an OFF state, that is, when the side brake is released.
(7) When the speed signal reaches a predetermined speed (for example, 4 km / h) or more.
(8) When the speed signal becomes 0 km / h or more and this state continues for several seconds (for example, 2 seconds).

Further, on the mobile device 3 side, it is determined whether or not the vehicle is stopped based on the determination information transmitted from the in-vehicle device 2 (step Sa6). In this case, if it is determined that the vehicle is not stopped, the driver has operated the portable device 3 while the vehicle is running. Therefore, the central processing unit 21 of the portable device 3 is operated by the operator of the portable device 3. An operation invalidity notification is made (step Sa7). This operation invalidation notification is performed by the sound generation / screen display unit 22 operating based on the output signal from the central processing unit 21. On the other hand, if it is determined in step Sa6 that the automobile is stopped, the driving operation is not hindered even if the operator of the portable device 3 and the driver are matched. It is determined that the operation is valid (step Sa8), whereby the portable device 3 and the in-vehicle device 2 perform transmission / reception of various data by wireless communication. Thereby, it becomes possible to perform an operation input to the in-vehicle device 2 using the portable device 3.
Further, if it is determined in step Sa4 that the operator of the mobile device 3 and the driver are not the same, the process proceeds to step Sa8, whereby the mobile device 3 and the in-vehicle device 2 transmit and receive various data. It is performed by wireless communication, and operation input of the in-vehicle device 2 using the mobile device 3 is enabled.

  As described above, in the present embodiment, the identity of the driver of the car and the operator of the mobile device 3 is determined, and the validity / invalidity of the input operation in the mobile device 3 is determined based on this determination. Therefore, when the operator and the driver are different, the input operation can be validated. As a result, it is possible to improve the usability of passengers other than the driver while ensuring safety during traveling.

  Further, based on the moving state of the vehicle determined by the vehicle speed detection determination unit 7 and the identity of the driver of the vehicle and the operator of the portable device 3 determined by the central processing unit 6 of the in-vehicle device 2, the portable device 3. The central processing unit 21 disables the operation input when it is determined that the driver and the operator are the same and the vehicle is moving. The driver can also perform operations, and the usability is good.

In the present embodiment, the potential detection unit 8 of the in-vehicle device 2 detects the potential of the steering electrode unit 12 and the shift lever electrode unit 13, and the electrode unit 26 of the portable device 3 is an operator of the portable device 3. Is transmitted from the data transmission / reception unit 24 to the in-vehicle device 2, and the central processing unit 6 of the in-vehicle device 2 is operated by the driver and the operator of the portable device 3. Therefore, it is possible to easily determine the identity of the driver and the operator. Furthermore, since identity can be determined based on temporal changes in the potentials of the driver and the operator, it is possible to determine identity more accurately.
In addition, the portable device 3 transmits the potential of its own operator to the in-vehicle device 2 and also queries the in-vehicle device 2 for the identity of the own operator and the driver. It is possible to realize a safe portable device 3 in which the operation becomes invalid.

In the above embodiment, other configurations can be adopted without departing from the spirit of the present invention.
For example, in the above embodiment, the mobile device 3 is a mobile phone, but is not limited thereto, and may be a remote controller attached to the in-vehicle device 2 or the like.
Further, in the above embodiment, the determination as to whether or not the operator of the portable device 3 and the driver are the same is made on the in-vehicle device 2 side. You may make it carry out in the apparatus 3 side. In this case, the in-vehicle device 2 detects the potential of the steering electrode unit 12 or the shift lever electrode unit 13 based on a potential detection instruction on the portable device 3 side, and transmits this potential data to the portable device 3. The portable device 3 compares the detected potential of the steering electrode portion 12 or the shift lever electrode portion 13 with the potential data transmitted from the in-vehicle device 2, and based on the result, the validity / invalidity of the operation of the operator is determined. To be judged.

  Moreover, although the said embodiment was an example in the case of operating the vehicle equipment 2 using the portable apparatus 3, you may make it apply this invention not only to this but to operate a vehicle equipment directly. Good. An example of the in-vehicle device in this case is shown in FIG. The in-vehicle device 2 ′ shown in FIG. 3 is provided with an electrode unit 5a with respect to the operation unit 5, so that the potential is detected by the electrode unit 5a when a vehicle occupant touches the in-vehicle device 2 ′. Is something that can be done. In this in-vehicle device 2 ′, the operator detected by the electrode unit 5a is compared with the potential detected by the steering electrode unit 12 or the shift lever electrode unit 13 so that the operator and the driver of the in-vehicle device 2 ′ are the same. Only when it is determined that the in-vehicle device 2 ′ is not valid, the in-vehicle device 2 ′ determines that the input operation performed in the operation unit 5 is valid, and when the operator and the driver are the same, the voice generation / screen display unit 14 The operator (driver) is notified of the invalid operation.

Moreover, although the said embodiment judged whether operation input to the vehicle equipment 2 by the portable device 3 was valid / invalid, it is not limited to this, The validity / invalidity of the incoming / outgoing operation of the portable device 3 May be determined in the same manner as in the above embodiment. In this case, for example, the mobile device 3 transmits information for inquiring whether the operator is the same as the driver of the vehicle to the in-vehicle device 2 together with the potential data detected in the potential detection unit 25, and the in-vehicle device 2, the identity of the operator of the mobile device 3 and the driver is determined, and the result is returned to the mobile device 3. The mobile device 3 restricts operations such as incoming / outgoing calls based on the return result. You just have to do it.
In this case, data relating to the potential detected by the potential detection unit 8 is transmitted from the in-vehicle device 2 side, and this data is compared with the potential data of the electrode unit 26 detected by the mobile phone 3 side. Then, the identity of the operator and the driver may be determined, and the validity / invalidity of incoming / outgoing calls may be determined in the portable device 3 based on the result.
By adopting such a configuration, when a plurality of passengers have the portable device 3 in the vehicle, only the driver's portable device 3 can restrict incoming calls and outgoing calls. .
Also in this case, the portable device 3 notifies the operator that the operation is invalid by the voice generation / screen display unit 22 when the operation such as the generation of the ringing tone or the transmission is invalidated. It is desirable to do so.

Further, as a criterion for determining the identity of the driver and the operator of the portable device 3, it is also possible to use other human body information such as a fingerprint, an iris, or a vein pattern instead of the potential of the driver and the operator. It is done.
In addition, other configurations may be adopted within a range not departing from the gist of the present invention, and a combination of the above modifications may be adopted.

1 is a block diagram of an in-vehicle device system schematically showing an embodiment of the present invention. It is a flowchart which shows an example of operation | movement of the vehicle equipment system shown in FIG. It is a block diagram of the vehicle equipment which shows other embodiment of this invention.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 ... In-vehicle apparatus system (mobile body mounted apparatus system) 2, 2 '... In-vehicle apparatus (mobile body mounted apparatus), 3 ... Portable apparatus (operation input means), 6 ... Central processing unit (identity judgment means, the same) Sex determination unit), 7 ... vehicle speed detection determination unit (moving state determination unit), 8 ... potential detection unit (driver potential detection unit, driver information detection unit), 14 ... voice generation / screen display unit, 21 ... center Arithmetic processing unit (operation validity judgment unit, operation control unit), 22 ... sound generation / screen display unit, 24 ... data transmission / reception unit (inquiry information transmission unit), 25 ... potential detection unit (operator potential detection unit, operator Information acquisition department)

Claims (5)

  1. A mobile body-mounted device mounted on a mobile body,
    A driver information detection unit for detecting human body information in the driver of the moving body;
    An operator information acquisition unit for acquiring human body information in an operator of another device in the moving body;
    Identity for determining the identity of the driver and the operator from the human body information of the driver detected in the driver information detection unit and the human body information of the operator obtained in the operator information acquisition unit A determination unit;
    A data transmission unit that transmits predetermined data to the other device based on the determination result of the identity in the identity determination unit;
    A mobile device equipped with a mobile device.
  2. A mobile body-mounted device mounted on a mobile body,
    A driver information detection unit for detecting human body information of the driver of the moving body;
    A driver information transmitting unit for transmitting the detected human body information as data to the moving body;
    A mobile device equipped with a mobile device.
  3. A portable device that can be used in a mobile body,
    An operator information detector for detecting human body information of the operator;
    A driver information acquisition unit that acquires human body information in a driver of the mobile body from a data signal sent to the mobile body,
    An identity determination unit that determines the identity of the operator and the driver based on the human body information of the operator and the driver;
    An operation control unit that performs operation control based on the determination result of the identity;
    A portable device comprising:
  4. A mobile device that communicates with a mobile unit mounted on a mobile unit,
    Inquiry information for inquiring whether or not the operator is driving the mobile body, together with the human body information of the operator, an inquiry information transmission unit for transmitting to the mobile body mounted device,
    A portable device comprising: an operation control unit configured to perform operation control based on reply data from the mobile unit-equipped device with respect to the inquiry information.
  5.   The mobile device according to claim 4, wherein the mobile device is a mobile phone, and the operation control unit performs operation control of data transmission / reception.
JP2006199517A 2006-07-21 2006-07-21 Mobile equipment and mobile devices Expired - Fee Related JP4404077B2 (en)

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Cited By (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JP2011077632A (en) * 2009-09-29 2011-04-14 Nec Corp On-board portable terminal system, method and program for controlling on-board portable terminal
JP2013225799A (en) * 2012-04-23 2013-10-31 Denso Corp Running restriction program, mobile terminal, vehicle device and vehicle communication system
JP2013249005A (en) * 2012-06-01 2013-12-12 Toyota Motor Corp Information identification system and information identification method

Cited By (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JP2011077632A (en) * 2009-09-29 2011-04-14 Nec Corp On-board portable terminal system, method and program for controlling on-board portable terminal
JP2013225799A (en) * 2012-04-23 2013-10-31 Denso Corp Running restriction program, mobile terminal, vehicle device and vehicle communication system
WO2013161220A1 (en) * 2012-04-23 2013-10-31 株式会社デンソー Operation control method, operation control program product, mobile terminal, device for vehicle use, and communication system for vehicle use
US9313716B2 (en) 2012-04-23 2016-04-12 Denso Corporation Operation regulation method, operation regulation program product, mobile terminal, vehicular apparatus, and vehicular communication system
JP2013249005A (en) * 2012-06-01 2013-12-12 Toyota Motor Corp Information identification system and information identification method

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