WO2017149681A1 - Portable terminal, portable terminal control system, portable terminal control method, and portable terminal control program - Google Patents

Abstract

Authentication is performed to ascertain whether an external control system is a system that can issue a function restriction request to a portable terminal, the authenticated external control system transmits a restriction command signal including a function restriction command to the portable terminal, the portable terminal receives the restriction command signal, the portable terminal determines whether the received restriction command signal is a restriction command signal sent from the authenticated external control system, and the portable terminal restricts the functions of the portable terminal in accordance with the restriction command signal. By supplying the portable terminal with function restriction content corresponding to the situation, from the authenticated external control system, it becomes possible to exclude only restriction command signals from unauthenticated and invalid apparatuses and to dynamically supply a function restriction command in a safe state.

Description

Portable terminal, portable terminal control system, portable terminal control method, and portable terminal control program

The present invention relates to a mobile terminal, a mobile terminal control system, a mobile terminal control method, and a mobile terminal control program, and more particularly to a technique for dynamically limiting the functions of a mobile terminal.

As a technique for temporarily restricting the function of the mobile terminal, Patent Document 1 states that “When the user enters the entrance gate, the non-contact media unit 30 communicates with a communication device installed at the entrance gate. When the contactless media control unit 28 determines that the user has entered the entrance gate based on the entrance data, the location information acquisition unit 24 acquires location information about the current location of the mobile terminal, The control unit 26 determines a function that needs to be restricted based on the position information, restricts the operation of the predetermined function, and determines that the non-contact media control unit 28 determines that the user has entered from the entry gate. The configuration in which the function control unit 26 releases the restriction of the operation of each function (summary excerpt) is disclosed.

JP 2006-114959 A

However, in the technique described in Patent Document 1, if the positions are the same, the content of the function restriction does not change. For this reason, even in the scene where the contents to be restricted change over time, the restriction during this period is constant. In addition, there is a problem that it cannot be applied in an environment where position information cannot be acquired correctly.

The present invention has been made in view of such a problem, and provides a technique capable of dynamically giving an optimum restriction to a mobile terminal even in a situation where contents to be restricted are changed with a place or time. The purpose is to do.

In order to solve the above-described problems, the present invention has, for example, the structure described in the claims. As an example, the present invention authenticates whether the external control system is a system capable of making a function restriction request to the mobile terminal, and the authenticated external control system sends a function restriction command to the mobile terminal. The portable terminal receives the restriction instruction signal, and determines whether the restriction instruction signal received by the portable terminal is a restriction instruction signal transmitted from the authenticated external control system. Then, the portable terminal restricts the function of the mobile device according to the restriction instruction signal, and the external instruction reception unit receives a restriction instruction signal instructing a different function restriction.

According to the present invention, it is possible to provide a technique capable of dynamically giving an optimum restriction to a mobile terminal even in a situation where contents to be restricted change with place and time. Problems, configurations, and effects other than those described above will become apparent from the following description of embodiments.

The figure which shows the structural example of the portable terminal which implement | achieves 1st embodiment. The figure which shows the example which applied the portable terminal control system which concerns on 1st embodiment to the function restriction | limiting in the plane of an airplane The figure which shows an example of ON / OFF control in the function restriction object hardware and function restriction software which concern on 1st embodiment, and those each internal mode The flowchart which shows the flow of the process which concerns on 1st embodiment. The figure which shows the structure of the portable terminal control system which concerns on 2nd embodiment. The figure which shows the example which applied the portable terminal control system which concerns on 2nd embodiment to the function restriction | limiting in the plane of an airplane The figure which shows an example of ON / OFF control in the function restriction object hardware and function restriction software which concern on 2nd embodiment, and those each internal mode The flowchart which shows the flow of the process which concerns on 2nd embodiment. The figure which shows the example which applied the portable terminal control system which concerns on 3rd embodiment to the function restriction | limiting in a passenger aircraft Flowchart showing the flow of processing according to the third embodiment The figure which shows the state of the concert hall which applied the portable terminal control system which concerns on 4th embodiment. The figure which shows the example which applied the portable terminal control system which concerns on 4th embodiment to the functional restriction in a concert hall The figure which shows an example of ON / OFF control in the function restriction object hardware and function restriction software which concern on 4th embodiment, and those each internal mode The figure which shows the state of the exhibition hall where the portable terminal control system which concerns on 5th embodiment is applied. The figure which shows the example which applied the portable terminal control system which concerns on 5th embodiment to the function restriction | limiting in an exhibition hall The figure which shows the state of the classroom which applied the portable terminal control system which concerns on 6th embodiment. The figure which shows the structural example of the portable terminal control system which implement | achieves 6th embodiment. The figure which shows the example applied to the function restriction | limiting in the classroom which applied the portable terminal control system which concerns on 6th embodiment.

Recent mobile terminals have a large number of functions such as a schedule management function, an address book function, a camera function, a media player function, and an electronic book browsing function. On the other hand, there are many cases where the use of mobile terminals is prohibited in passenger planes, museums, theaters, and the like. However, the functions and levels that really need to be restricted differ for each scene where the use of the mobile terminal is prohibited, and it is convenient if the functions that do not need to be restricted can be allowed to operate. The present embodiment is characterized in that the function of the mobile terminal is dynamically limited for each scene. Hereinafter, embodiments of the present invention will be described with reference to the drawings.

<First embodiment>
The first embodiment is an example of a mobile terminal, a mobile terminal control system, and a mobile terminal control method that can safely and automatically switch the operation of the mobile terminal from the outside in a passenger aircraft. According to this, it becomes possible to appropriately switch the restriction range of the function of the mobile terminal according to the state of the passenger plane, and in the state where no restriction is necessary, there is an effect that the function can be removed and used by the user. can get.

FIG. 1 shows a configuration example of a mobile terminal that realizes the first embodiment. The mobile terminal control system 1 includes a mobile terminal 100, an authentication information generation device 113, an authentication request device 114, an external instruction device 115, and an authentication cancellation request device 116. The mobile terminal 100 is communicatively connected to the authentication request device 114, the external instruction device 115, and the authentication cancellation request device 116 via a network such as a wireless communication line. Each of the authentication requesting device 114, the external instruction device 115, and the authentication cancellation requesting device 116 is connected to the authentication information generating device 113. Each of the authentication request device 114, the external instruction device 115, and the authentication cancellation request device 116 may be configured by different devices and installed in different locations. For example, in the first embodiment, the authentication requesting device 114 may be installed at an airport entrance gate, the authentication cancellation requesting device 116 may be installed at an exit gate, and the external pointing device 115 may be installed in an airplane.

The mobile terminal 100 includes a control unit 101, an operation unit 103, an application software processing unit 104, function restriction target hardware 105, a display unit 106, a system authentication unit 108, an external instruction reception unit 110, and a signal determination unit 111.

The control unit 101 includes a main control unit 102 and a function restriction control unit 112, and is a part responsible for control of each software and hardware in the mobile terminal 100 and cooperation thereof.

The main control unit 102 is mainly responsible for overall control of software and hardware in the mobile terminal other than the part for function restriction control.

The operation unit 103 is a part for the user to input information for operating the mobile terminal. Applicable to touch panels and keyboards.

The application software processing unit 104 is a part that processes application software used on the mobile terminal 100, and may include a function restriction target application that requires a function restriction depending on the state of the mobile terminal 100.

The function restriction target hardware 105 is hardware that requires a function restriction depending on the state of the mobile terminal. For example, hardware for a wireless communication function or a photographing function is applicable.

The display unit 106 is a part for transmitting information related to portable terminals including application software to the user, and corresponds to a liquid crystal display, for example.

Numeral 107 is an authentication request signal which is given from the outside in order to obtain the authority of the function restriction request to the portable terminal 100 from the outside. The authentication request signal includes information for identifying a mobile terminal control system (corresponding to an external control system) or information for identifying a device that is included in the mobile terminal control system and transmits a restriction instruction signal.

The system authentication unit 108 is connected to the authentication requesting device 114 via a network such as a wireless communication line. Then, the authentication request signal 107 is received from the authentication requesting device 114, and it is determined whether or not the authentication request source is a legitimate system that can accept the function restriction request.

Numeral 109 is a restriction instruction signal, which is a signal for requesting a function restriction to the mobile terminal 100 from the outside. The restriction instruction signal includes information for identifying the portable terminal control system (or information for identifying a device that transmits the restriction instruction signal, information indicating a function to be restricted, and these systems or devices included in the authentication request signal. Including instructions for requesting authentication.

The external instruction receiving unit 110 receives the restriction instruction signal 109 and transmits the data to the subsequent stage. The signal determination unit 111 receives the authentication result determined by the system authentication unit 108 and the data related to the restriction instruction from the external instruction reception unit 110, and transmits the restriction request contents to the subsequent stage if the request is from the authenticated system.

The function restriction control unit 112 performs control in response to an external function restriction request in the processing of the control unit 101. Based on the restriction request contents passed through the signal determination unit 111, information on the restriction contents for the function restriction target application and the function restriction target hardware 105 is transmitted to the main control unit 102. As a function subject to the function restriction, for example, there is at least one or any combination of a call function, a data communication function, a photographing function, a flash emission function, and a recording function. In response to this, the main control unit 102 performs the function restriction corresponding to the request to the function restriction target application and the function restriction target hardware 105 and releases the function restriction.

Reference numeral 117 denotes an authentication cancellation signal, which is a signal for requesting the mobile terminal 100 to cancel the authentication from the outside. Information for identifying the mobile terminal control system (corresponding to an external control system) included in the authentication request signal or the device that transmits the restriction instruction signal included in the mobile terminal control system is included in the authentication cancellation signal. Information and instructions to deauthorize these systems or devices.

When the system authentication unit 108 receives the authentication cancellation signal 117 from the authentication cancellation requesting device 116, the system authentication unit 108 cancels the authentication.

In the first embodiment, information used for authentication includes, for example, identification information that uniquely identifies the mobile terminal control system 1 and the external instruction device 115 that transmits the restriction instruction signal 109, and an encryption key (decryption key) of the restriction instruction signal 109. But you can. However, the information used for authentication needs to be acquired from the same generation device and ensure identity or pairing. However, if the authentication requesting device 114, the external instruction device 115, and the authentication cancellation requesting device 116 can ensure the consistency of information used for authentication, the external instruction device 115 and the authentication information generating device 113 are always connected. There is no need. For example, it is only necessary to match the authentication information by connecting the external instruction device 115 and the authentication information generating device 113 only at the time of manufacture or when the airplane is parked.

FIG. 2 is a diagram showing an example in which the mobile terminal control system according to the first embodiment is applied to function restriction in an airplane. In the figure, the state of the owner of the mobile terminal 100, the signal reception state of the mobile terminal 100, the action of the mobile terminal 100 that received the received signal, and the state of the mobile terminal 100 after the action of the mobile terminal 100 are shown in order from the top ing. Further, these flows along the time series are shown in the horizontal direction.

Boarding gate 201 is installed at the departure airport of passenger aircraft 203, and arrival gate 204 is installed at the arrival airport. The holder of the portable terminal 100 causes a two-dimensional barcode reader (not shown) of the boarding gate 201 to read information such as a two-dimensional barcode displayed on the display unit 106 of the portable terminal 100 in addition to a paper ticket. Thus, the boarding gate 201 can be passed. *

The authentication request transmitter 202 is installed at or near the boarding gate 201. The passenger aircraft 203 is provided with a restriction instruction signal transmitter 218 for transmitting a restriction instruction signal 109 to the mobile terminal 100. The function restriction acceptance release request transmitter 205 is installed at or near the arrival gate 204.

The authentication request transmitter 202 issues an authentication request signal 107 for authenticating the mobile terminal 100 to receive a signal from the restriction instruction signal transmitter 218 in the passenger aircraft 203. By providing the authentication request transmitter 202 between the boarding gate 201 or between the boarding gate and the seat of the passenger aircraft, the risk of authenticating passenger aircraft other than boarding can be reduced. In particular, when it is provided in the boarding gate 201, since it can be performed simultaneously with the boarding check by the portable terminal, it is possible to reliably authenticate the correct boarding machine.

In addition, it is possible to simultaneously check the information of the passenger aircraft to be boarded and to make an authentication request (for example, an apparatus having both a part for judging the boarding machine from the information displayed on the display unit 106 of the mobile terminal 100 and the authentication request transmitter 202). If there is, the authentication request transmitter 202 can reliably authenticate the correct boarding machine without necessarily integrating with the boarding gate 201, and the same effect can be obtained.

The arrival gate 204 is installed at a position where the boarding machine must pass between the arrival at the destination and the airport exit. By providing the function restriction acceptance release request transmitter 205 inside the arrival gate 204, the function restriction acceptance can be automatically canceled without fail.

Numeral 206 indicates a state where the holder of the mobile terminal 100 passes through the boarding gate 201 before boarding the passenger aircraft 203. Reference numeral 207 denotes a state in which the passenger aircraft 203 is parked before taking off after boarding the passenger aircraft 203. Reference numeral 208 denotes a state in which the passenger aircraft 203 is taking off and rising after boarding the passenger aircraft 203. Reference numeral 209 denotes a state in which the passenger aircraft 203 has taken off and is in steady flight after boarding the passenger aircraft 203. Reference numeral 210 denotes a state in which the passenger aircraft 203 takes off and is landing after boarding the passenger aircraft 203. Reference numeral 211 denotes a state in which the passenger aircraft 203 has landed and is parked after boarding the passenger aircraft 203. Reference numeral 212 denotes a state where the passenger aircraft 203 is exited and passed through the arrival gate. In each of the states 207 to 211 after boarding the passenger aircraft 203, the limit range of the functions that can be allowed for the mobile terminal is different, and is more strictly limited particularly during the ascending 208 and the landing 210, and during the steady flight 209 The allowable width is large.

The authentication request transmitter 202 transmits an authentication request signal 107.

Numeral 214 is an in-flight mode request signal which is emitted from a restriction instruction signal transmitter 218 in the passenger aircraft 203 and received by the portable terminal 100 as a restriction instruction signal 109. Airplane mode request signal 214 is a type of restriction instruction signal 109.

Numeral 215 is a function stop mode request signal, which is issued from the restriction instruction signal transmitter 218 in the passenger aircraft 203 and received by the portable terminal 100 as the restriction instruction signal 109.

Numeral 216 is a normal mode request signal, which is issued from the restriction instruction signal transmitter 218 in the passenger aircraft 203 and received by the portable terminal as the restriction instruction signal 109.

First, when the portable terminal 100 holder receives the authentication request signal 107 from the authentication request transmitter 202 when the holder of the portable terminal 100 passes the boarding gate 201 in the state 206 of passing the boarding gate before boarding, the portable terminal 100 Performs authentication to accept request signals from the restriction instruction signal transmitter 218 in the passenger aircraft 203 and the function restriction acceptance release request transmitter 205 in the arrival gate 204, and starts accepting the function restriction.

As a second state, in the state 207 where the passenger aircraft 203 is parked before takeoff, an in-flight mode request signal 214 is issued from a restriction instruction signal transmitter (corresponding to an external instruction device) 218 in the passenger aircraft 203. The portable terminal 100 receives this at the external instruction receiving unit 110 and confirms that it is authenticated by the signal determination unit 111, and then notifies the function restriction control unit 112 to switch the internal state to the airplane mode. Further, the function restriction control unit 112 gives restrictions according to the allowable range of the in-flight mode to the function restriction target hardware 105 and the function restriction target application in the application software processing unit 104 via the main control unit 102. Thereafter, the restriction instruction signal transmitter 218 transmits a new restriction instruction signal at a timing for updating the restriction contents to be given to the mobile terminal, for example, when parked, rising, during steady flight, and landing, and the function restriction control unit Until the new restriction instruction signal is received, 112 holds the function restriction state based on the restriction instruction signal received immediately before.

As a third state, in the state 208 where the passenger aircraft 203 is taking off and rising, if the function stop mode request signal 215 is issued from the restriction instruction signal transmitter 218 in the passenger aircraft 203 before and after transitioning to this state, the portable terminal 100 receives this from the external instruction reception unit 110 and confirms that it is authenticated by the signal determination unit 111, and then notifies the function restriction control unit 112 to switch the internal state to the function stop mode. In addition, the function restriction control unit 112 is stricter than the in-flight mode according to the allowable range of the function stop mode for the function restriction target hardware 105 and the function restriction target application in the application software processing unit 104 via the main control unit 102. Give limits.

As a fourth state, in the state 209 in which the passenger aircraft 203 is in steady flight, if the in-plane mode request signal 214 is issued from the restriction instruction signal transmitter 218 in the passenger aircraft 203 before and after transitioning to this state, the mobile terminal 100 After receiving this at the external instruction receiving unit 110 and confirming that it is authenticated by the signal determining unit 111, it notifies the function restriction control unit 112 and switches the internal state to the in-flight mode. In addition, the function restriction control unit 112 uses the main control unit 102 to restrict the function restriction target hardware 105 and the function restriction target application in the application software processing unit 104 according to the allowable range of the in-flight mode. To do.

As a fifth state, in the state 210 in which the passenger aircraft 203 is landing, if the function stop mode request signal 215 is issued from the restriction instruction signal transmitter 218 in the passenger aircraft 203 before and after transitioning to this state, the portable terminal The instruction receiving unit 110 receives this and confirms that the signal determining unit 111 is authenticated, and then notifies the function restriction control unit 112 to switch the internal state to the function stop mode. In addition, the function restriction control unit 112 is stricter than the in-flight mode according to the allowable range of the function stop mode for the function restriction target hardware 105 and the function restriction target application in the application software processing unit 104 via the main control unit 102. Give limits.

As a sixth state, in the state 211 in which the passenger aircraft 203 is parked after landing, if the normal mode request signal 216 is issued from the restriction instruction signal transmitter 218 in the passenger aircraft 203 before and after the transition to this state, The terminal 100 receives this at the external instruction receiving unit 110 and confirms that it is authenticated by the signal determination unit 111, and then notifies the function restriction control unit 112 to switch the internal state to the normal mode. In addition, the function restriction control unit 112 has no particular restriction on the function restriction target hardware 105 and the function restriction target application in the application software processing unit 104 via the main control unit 102 according to the allowable range of the normal mode. Return to.

Finally, as the seventh state, in the state 212 where the passenger terminal 203 gets off the passenger gate 203 and passes through the arrival gate, when the function restriction acceptance release request signal 117 is issued from the function restriction acceptance release request transmitter 205, the mobile terminal 100 performs an external instruction. Receiving this by the receiving unit 110 and confirming that it is authenticated by the signal determining unit 111, notifies the function restriction control unit 112 to turn off the reception of the function restriction and cancel the authentication. Close the reception.

In the example of the mobile terminal control system 1 in FIG. 2, even when the state where the function restriction levels of 207 to 211 change in time as described above, a restriction is applied from the passenger aircraft side as appropriate and authentication is performed on the mobile device side. By accepting while checking the correctness based on it, it is possible to dynamically give an appropriate function restriction.

FIG. 3 is a diagram showing an example of ON / OFF control in the function restriction target hardware and function restriction software and their respective internal modes. Here, the low output radio is a wireless communication means with a relatively small output for applications that do not require a relatively short distance and high transfer rate, such as device control, and the restriction instruction signal transmitter 218 and the function restriction acceptance release request. In this embodiment, these transmission methods are used because they are suitable for the transmitter 205. The high-speed communication radio is a high-frequency radio means mainly used for data transfer. In addition, positioning communication is a means for communicating with an artificial satellite for acquiring terminal position information. An offline application is software that can function on a single mobile terminal without connection to another information device. The online application is application software that requests execution in a state in which a communication connection with another information device via a mobile phone line or high-speed communication radio is maintained. In the example of FIG. 3, the low-power radio used for receiving signals from the restriction instruction signal transmitter 218 and the function restriction acceptance release request transmitter 205 in the passenger aircraft 203 maintains the ON state in any mode. In addition, offline applications are permitted and turned on in the in-flight mode, but are turned off in the function stop mode with the narrowest limit. For devices other than the small output radio and offline application, both the in-flight mode and the function stop mode are OFF. In addition, regarding the normal mode, it may be in an ON / OFF state at the time when the function restriction reception is turned ON. That is, the ON / OFF pattern data of each function restriction target hardware and function restriction target software at the time when the function restriction reception is turned ON is held in a memory (not shown) in the mobile terminal, and this pattern is restored when returning to the normal mode. Return to the ON / OFF state when the function restriction reception is turned ON according to the data.

FIG. 4 is a flowchart showing a process flow according to the first embodiment. When the process flow shown in FIG. 4 is applied to the mobile terminal shown in FIG. 1, the mobile terminal control system shown in FIG. 2 can be realized.

In FIG. 4, S401 is a step of determining whether or not the boarding gate 201 (entrance gate) has been passed. If the answer is No, the loop is repeated and the process moves to the next step when the answer is Yes.

S402 is a step in which entry through the boarding gate 201 is confirmed. In response to the request from the authentication request transmitter 202, S403 sends a function restriction request to the portable terminal control system 1 including the restriction instruction signal transmitter 218 and the function restriction acceptance release request transmitter 205 in the passenger aircraft 203 as constituent elements. This is a step of performing authentication regarding outgoing calls.

S404 is a step to start accepting function restrictions. S405 is a step of determining whether or not the arrival gate 204 has been passed. If Yes, the process exits the loop. If No, repeat the following loop. The passage confirmation of the arrival gate 204 can be confirmed by receiving the function restriction acceptance release request signal 117 via the small output radio. S406 is a step of determining whether or not a new restriction command has been received from the device of the mobile terminal control system 1 authenticated in S403. If Yes, the function restriction control process in accordance with the received new restriction command is performed by the function restriction control unit 112 in the mobile terminal 100 (S407).

S408 is a step of determining that the vehicle has passed the arrival gate 204 and has left. S409 is a step in which the reception of the function restriction signal is terminated upon receipt of the confirmation of the exit upon reception of the function restriction acceptance release request signal 117. If for some reason the function restriction acceptance release request signal 117 is received in a state other than the normal mode, the normal mode is set in S409. S410 is a step of canceling the authentication performed in step S403 for the control system. By applying the processing flow shown above to the mobile terminal control system 1 of FIG. 1, the function restriction control shown in FIG. 2 can be realized.

By constructing a portable terminal control system that combines the portable terminal and the restriction range instruction transmitter, the authentication information transmitting device, and the restriction releasing device, once the portable terminal performs authentication, until the authentication is canceled It is possible to identify a legitimate function restriction instruction from an authorized limit range instruction transmitter, and to exclude a function restriction instruction from an unauthorized device. As a result, a limited range indication transmitter with a ensured validity can safely and repeatedly give a function restriction instruction in accordance with the scene to the mobile terminal. Restrictions can be given dynamically even in situations where the contents to be restricted transition.

Then, by operating the mobile terminal control system 1 in an airport and a passenger aircraft, the restriction range of the function of the mobile terminal is appropriately switched according to the state of the passenger aircraft, while the restriction of the function is removed in a state where no restriction is necessary. As a result, the user can use it.

<Second embodiment>
The second embodiment is an example of a portable terminal, a portable terminal control system, and a portable terminal control method capable of safely and automatically switching the operation of the portable terminal from the outside in a passenger aircraft. A small change to the form. According to this, in addition to the effect of the first embodiment, it is possible to turn off the low-power radio that is always ON in the first embodiment in the function OFF mode, and further reduce the level of radio wave output in the space The effect that can be obtained.

FIG. 5 is a diagram showing the configuration of the mobile terminal control system according to the second embodiment. The mobile terminal 100a used in the mobile terminal control system 1a according to the second embodiment includes a Wake 携 帯 On communication unit 501 in addition to the configuration of the mobile terminal 100 according to the first embodiment. The portable terminal system 1a further includes a Wake On instruction device 506 that transmits a Wake On signal (activation command signal) 502 to the portable terminal 100a. The Wake On instruction device 506 is connected to the authentication information generation device 113 when necessary, and acquires and shares information used for authentication from the authentication information generation device 113. The Wake On signal 502 is a signal including a specific pattern determined to activate the function that has been stopped inside, and the Wake On communication unit 501 detects the Wake On signal 502 and passes the data to the subsequent stage.

Compared with the first embodiment, the external instruction receiving unit 503 is included in the function restriction control target hardware 504, and the signal determining unit 505 includes a function for receiving a signal from the Wake On communication unit 501 and an external instruction receiving unit. A signal for starting 503 is added. The other parts are the same as those in FIG.

FIG. 6 is a diagram illustrating an example in which the mobile terminal control system according to the second embodiment is applied to function restriction in an airplane. The passenger aircraft 601 includes a Wake203On instruction device 506 in addition to the configuration of the passenger aircraft 203 of the first embodiment. Receiving the function stop mode request signal 602, the mobile terminal 100a turns off the external instruction receiving unit 503 in addition to the processing after receiving the function stop mode request signal 215 of the first embodiment.

Also, when returning the mobile terminal 100a from the function stop state, the passenger aircraft 601 issues a Wake On signal 502, and the mobile terminal 100a receives the Wake で On communication unit 501 and turns on the external instruction receiving unit 503. Subsequently, an in-flight mode request signal 214 and a normal mode request signal 216 are issued. The portable terminal 100a receives this by the external instruction receiving unit 503 turned on, and controls the internal state to the airplane mode or the normal mode. The other parts are the same as those in FIG.

FIG. 7 is a view showing an example of ON / OFF control in the function restriction target hardware and function restriction software and their internal modes according to the second embodiment. Compared with the first embodiment shown in FIG. 3, Wake 信号 On signal communication is added and instead of being ON in any of the normal mode, the in-flight mode, and the function stop mode, an external instruction is issued in the function stop mode. It is possible to turn off the low-power radio used as the receiving unit.

FIG. 8 is a flowchart showing a flow of processing according to the second embodiment, which is an example of a processing flow of the mobile terminal for controlling the mobile terminal shown in FIG. 5 by the mobile terminal control system shown in FIG. is there. Changes have been made on the basis of the flow shown in FIG. 4, and the steps with the same numbering have the same processing contents as FIG. The steps to be changed or added will be described below. S801 is a step of determining whether or not the external instruction receiving unit 503 is activated. S802 is a step of determining whether the Wake On communication unit 501 has received a request to activate the external instruction receiving unit 503 from the authenticated device. Each step of S801, S803, and S803 makes it possible to activate the external instruction receiving unit 503 in response to an external Wake On signal from a state where the external instruction receiving unit 503 is not activated. S804 is a step of executing function restriction control by a new restriction command. In the second embodiment, the external instruction receiving unit 503 is stopped when a function stop is requested in addition to the process of step S407 for executing the function restriction control of the first embodiment.

According to the mobile terminal, the mobile terminal control system, and the mobile terminal control method described above, it is possible to safely and automatically switch the operation of the mobile terminal from the outside in the passenger aircraft, depending on the state of the passenger aircraft. By appropriately switching the limit width of the function of the mobile terminal, an effect that the function can be removed and used by the user in a state where the limit is not necessary can be obtained. Further, in the function OFF mode, it is possible to turn off the low-power radio that is always ON in the first embodiment, and the effect of further reducing the level of radio wave output in the space can be obtained.

<Third embodiment>
The third embodiment is an example of a mobile terminal, a mobile terminal control system, and a mobile terminal control method capable of safely and automatically switching the operation of the mobile terminal from the outside in the passenger aircraft. Is a minor change. According to this, in addition to the effect described in the first embodiment, an effect that the function restriction acceptance end and the restriction issuer approval can be canceled more reliably can be obtained. The portable terminal shown in FIG. 1 can be applied.

FIG. 9 is a diagram showing an example in which the mobile terminal control system according to the third embodiment is applied to functional restriction in a passenger aircraft. Reference numeral 901 denotes a second function restriction acceptance release request transmitter. The function is the same as that of the function restriction acceptance release request transmitter 205, and is additionally provided. The installation location may be inside the arrival gate 204 or outside. Moreover, it may be installed at a position that passes before the arrival gate 204, or may be installed at a position that passes after the arrival gate 204. Here, it is illustrated as being installed at a position passing after the arrival gate 204.

Numeral 902 is a normal mode return / restriction end request signal, which is output from the restriction instruction signal transmitter 218 in the passenger aircraft 203 and received by the external instruction receiving unit 110 of the mobile terminal 100. In addition to the request for switching to the normal mode included in the normal mode request signal 216 in FIG. 1, the function restriction acceptance release request signal 117 has a function restriction acceptance OFF request and a function restriction device authentication release request. Since it is not necessary to issue a control request from the passenger aircraft and the mode is switched to the normal mode, the function restriction may be accepted and the authentication may be canceled together with the return to the normal mode, and the same effect as in the first embodiment can be obtained. In addition, even when the function restriction is not performed by the normal mode return / restriction termination request signal 902 for some reason, the function restriction can be performed by the function restriction acceptance release request signal 217 from the function restriction acceptance release request transmitter 205. It is.

Further, reference numeral 903 denotes a second function restriction acceptance release request signal which is issued from the second function restriction acceptance release request transmitter 901. As a result, even if the function restriction is not performed by the function restriction acceptance release request signal 117, the second function restriction acceptance release request transmitter 901 can perform the function restriction. By providing a plurality of function restriction acceptance release request means in this way, it is possible to obtain an effect that the function restriction acceptance end and restriction issuer approval can be canceled more reliably. Note that the same functions as those shown in FIG. 3 can be applied to the function restriction target hardware and the function restriction software in each state from 206 to 212 and ON / OFF control in each of these internal modes.

FIG. 10 is a flowchart showing a flow of processing according to the third embodiment, and an example of a processing flow of the mobile terminal for controlling the mobile terminal shown in FIG. 1 by the mobile terminal control system 1b shown in FIG. It is. Changes have been made on the basis of the flow shown in FIG. 4, and the steps with the same numbering have the same processing contents as FIG. The steps to be changed or added will be described below.

S1001 is a second exit (arrival) gate passage determination process, and is a step of determining the passage of the gate by the second function restriction acceptance release request signal 903 from the second function restriction acceptance release request transmitter 901. . This is a preliminary determination when it is not detected in the determination in S405. S1002 is a step of determining whether or not the command is a function restriction acceptance OFF command. In the case of YES, the process proceeds to a process for turning off the function restriction reception, executes the function restriction signal acceptance mode OFF (S409) and the control system authentication release (S410), and returns to the state before the function restriction acceptance.

According to the mobile terminal, the mobile terminal control system, and the mobile terminal control method described above, it is possible to safely and automatically switch the operation of the mobile terminal from the outside in the passenger aircraft, depending on the state of the passenger aircraft. By appropriately switching the restriction range of the function of the mobile terminal, it is possible to obtain the effect that the function can be used by removing the restriction of the function in the state where the restriction is not necessary, and the function is surely compared with the first embodiment. The effect that the restriction acceptance end and restriction issuer approval can be canceled is obtained.

<Fourth embodiment>
The fourth embodiment is an example of a mobile terminal, a mobile terminal control system, and a mobile terminal control method that can safely and automatically switch the operation of the mobile terminal from the outside at a concert venue. According to the performance of the concert, it is possible to appropriately switch the restriction range of the function of the portable terminal, and in the state where the restriction is not necessary, the function can be removed and used by the user.

For example, shooting and recording are often prohibited during a performance, but there are cases where you want to take a picture of the venue or make a mobile phone call during a break. The effect of controlling the release of is obtained. In addition, mobile phones are often required to turn off the power in order to avoid the generation of sounds such as ringtones and vibration sounds. However, there are cases in which the user forgets to disconnect and emits a sound during performance. On the other hand, I often forget to turn on the power after the show. On the other hand, the function control according to the present embodiment provides an effect that the sound and vibration during performance and the stop after the performance can be controlled. In the fourth embodiment, the portable terminal shown in FIG. 1 can be applied. Further, the same processing flow as that in FIG. 4 can be applied.

FIG. 11 is a diagram showing a state of a concert hall (concert hall) to which the mobile terminal control system according to the fourth embodiment is applied. In this embodiment, the mobile terminal control system 1c is applied to a venue 1101 such as a concert hall. An entrance gate 201 is installed at the entrance of the venue 1101. The same thing as the boarding gate 201 in FIG. 2 is applied. An exit gate 204 is installed at the exit. This is the same as the arrival gate 204 in FIG.

複数 If a single limit instruction signal transmitter 1102 cannot cover, install multiple. In the example of FIG. 11, restriction instruction signal transmitters 1102 are arranged in all the audience seats at the venue. As a result, the restriction instruction signal is arranged so as to be propagated through the venue 1101. The restriction instruction signal transmitter 1102 may be installed on the floor, or may be installed on each seat having a small distance to the subject. Moreover, you may arrange | position on a ceiling with few obstructions.

FIG. 12 is a diagram showing an example in which the portable terminal control system according to the fourth embodiment is applied to the function restriction in the concert hall. In the figure, the state of the owner of the mobile terminal, the signal reception state of the mobile terminal, the action of the mobile terminal that has received the received signal, and the state of the mobile terminal that has received the action of the mobile terminal are shown in order from the top. Further, these flows along the time series are shown in the horizontal direction.

201 is an entrance gate, which can be the same as the boarding gate 201 in FIG. In addition to a paper ticket, reading information such as a two-dimensional bar code displayed on the display unit 106 of the portable terminal allows passage through the venue 1101. Reference numeral 202 denotes an authentication request transmitter, which can be the same as that shown in FIG. The mobile terminal 100 issues an authentication request signal 107 for authenticating to accept a signal from the restriction instruction signal transmitter 1102 in the venue 1101. By providing in the entrance gate 201, it can be performed at the same time as the entrance check by the mobile terminal 100, so authentication can be performed without forgetting.

Numeral 204 is an exit gate, which can be the same as the arrival gate 204 in FIG. Reference numeral 205 denotes a function restriction acceptance release request transmitter, which can be the same as that shown in FIG. By providing the function restriction acceptance release request transmitter 205 inside the exit gate 204, the function restriction acceptance can be automatically released without fail.

In FIG. 12, reference numeral 206 denotes a state where the vehicle passes through the entrance gate before entering the venue 1101. Reference numeral 1201 denotes a state from the entrance to the venue 1101 until the performance starts. Reference numeral 1202 indicates a state in which the first half is being played. Reference numeral 1203 denotes a state of resting. Reference numeral 1204 denotes a state in which the second half is being played. Reference numeral 1205 denotes a state after the performance. Reference numeral 212 denotes a state of passing through the exit gate 204 in order to exit the venue 1101.

Reference numeral 1206 denotes a performance mode request signal, which is issued from the restriction instruction signal transmitter 1102 and received by the portable terminal as the restriction instruction signal 109. Reference numeral 1207 denotes a break mode request signal which is emitted from the restriction instruction signal transmitter 1102 and received by the portable terminal as the restriction instruction signal 109. Reference numeral 1208 denotes a normal mode request signal which is issued from the function restriction acceptance release request transmitter 205 and is received as a restriction instruction signal 109 by the portable terminal. Reference numeral 117 denotes a function restriction acceptance release request signal which is issued from the function restriction acceptance release request transmitter 205 and is received as a restriction instruction signal 109 by the portable terminal.

First, when the portable terminal 100 receives the authentication request signal 107 from the authentication request transmitter 202 when the owner of the mobile terminal 100 passes the entrance gate 201 in the state 206 that passes the entrance gate, the mobile terminal 100 receives the venue 1101. Authentication is performed so as to accept request signals from the restriction instruction signal transmitter 1102 and the function restriction reception release request transmitter 205 in the exit gate 204, and reception of the function restriction is started.

As the second state, in the state 1201 before the performance, the terminal state is the normal mode.

As a third state, in the state 1202 during the first half performance, when the performance mode request signal 1206 is issued from the restriction instruction signal transmitter 1102 before the transition to this state, the portable terminal 100 causes the external instruction reception unit 110 to In response to this, after confirming that the signal determination unit 111 is authenticated, the function restriction control unit 112 is notified, and the internal state is switched to the playing mode. The function restriction control unit 112 also restricts the function restriction target hardware 105 and the function restriction target application in the application software processing unit 104 via the main control unit 102.

As a fourth state, in the resting state 1203, when the normal mode request signal 1207 is issued from the restriction instruction signal transmitter 1102 after the transition to this state, the mobile terminal 100 uses the external instruction receiving unit 110 to After receiving and confirming that the signal determination unit 111 is authenticated, the function restriction control unit 112 is notified and the internal state is switched to the rest mode. Further, the function restriction control unit 112 relaxes the restriction range for the function restriction target hardware 105 and the function restriction target application in the application software processing unit 104 via the main control unit 102.

As the fifth state, in the state 1204 during the second half performance, like the state 1202 during the first half performance, when the performance mode request signal 1206 is issued from the restriction instruction signal transmitter 1102 before the transition to this state, The portable terminal 100 receives this at the external instruction receiving unit 110 and confirms that it is authenticated by the signal determination unit 111, and then notifies the function restriction control unit 112 to switch the internal state to the playing mode. The function restriction control unit 112 also restricts the function restriction target hardware 105 and the function restriction target application in the application software processing unit 104 via the main control unit 102.

As a sixth state, in the state 1205 after the performance, when the normal mode request signal 1207 is issued from the restriction instruction signal transmitter 1102 after transitioning to this state, the portable terminal 100 transmits it to the external instruction receiving unit 110. Then, after confirming that the signal determination unit 111 is authenticated, the function restriction control unit 112 is notified and the internal state is switched to the normal mode. In addition, the function restriction control unit 112 has no particular restriction on the function restriction target hardware 105 and the function restriction target application in the application software processing unit 104 via the main control unit 102 according to the allowable range of the normal mode. Return to.

Finally, as the seventh state, in the state 212 that leaves the venue 1101 and passes through the exit gate, when the function restriction acceptance release request signal 117 is issued from the function restriction acceptance release request transmitter 205, the mobile terminal 100 performs an external instruction. Receiving this by the receiving unit 110 and confirming that it is authenticated by the signal determining unit 111, notifies the function restriction control unit 112 to turn off the reception of the function restriction and cancel the authentication. Close the reception.

In the portable terminal control system of FIG. 12 described above, even in a situation where a state with different function restriction levels transits in time, such as a concert, the venue side restricts the situation as appropriate and the portable device side justifies based on authentication. By accepting while checking the sex, it is possible to dynamically give an appropriate function restriction.

FIG. 13 is a diagram showing an example of ON / OFF control in the function restriction target hardware and function restriction software and their internal modes according to the fourth embodiment. Examples of hardware to be restricted include the shooting / imaging function (camera), recording function (microphone), vibration, and speaker. Examples of the function restriction software include a game that tends to be fine in operation and loud, and text creation / editing. The text creation / editing includes creation of an e-mail and creation of a document for transmission to a social networking service. In normal mode, all items are ON. In the performance mode, all items are turned off. In the break mode, the speaker is turned off as a manner where many people gather, but other items are turned on and use is allowed. In addition, regarding the normal mode, it may be in an ON / OFF state at the time when the function restriction reception is turned ON. That is, the ON / OFF pattern data of each function restriction target hardware and function restriction target software at the time when the function restriction reception is turned ON is held in a memory (not shown) in the mobile terminal, and this pattern is restored when returning to the normal mode. Return to the ON / OFF state when the function restriction reception is turned ON according to the data.

According to the mobile terminal, the mobile terminal control system, and the mobile terminal control method described above, it is possible to safely and automatically switch the operation of the mobile terminal from the outside in a venue such as a concert, and no restriction is required. In the state, there is an effect that the function is removed and the user can use it. For example, shooting and recording are often prohibited during a performance, but there are cases where you want to take a picture of the venue or make a mobile phone call during a break. The effect of controlling the release of is obtained. In addition, mobile phones are often required to turn off the power in order to avoid the generation of sounds such as ringtones and vibration sounds. However, there are cases in which the user forgets to disconnect and emits a sound during performance. On the other hand, I often forget to turn on the power after the show. On the other hand, the function control according to the present embodiment provides an effect that it is possible to control stop of sound and vibration during performance and return after the performance.

<Fifth embodiment>
The present embodiment is an example of a mobile terminal, a mobile terminal control system, and a mobile terminal control method that can safely and automatically switch the operation of the mobile terminal from the outside in an exhibition hall. In the present embodiment, it is possible to appropriately switch the limit range of the function of the mobile terminal according to the exhibits of the exhibition, and in a state where the use can be permitted, the function can be used by removing the function limit. Is obtained.

For example, there are many cases where photography is uniformly prohibited in exhibition halls from the viewpoint of painting deterioration and copyright. On the other hand, some exhibits do not have to worry about deterioration due to shooting, such as sentences explaining the background of the times. In this embodiment, if some of the exhibits in the venue allow photography, it is possible to shoot for these exhibits and at the same time prohibit photography for other exhibits. The effect is obtained. In this embodiment, the portable terminal shown in FIG. 1 can be applied. In the present embodiment, the restriction target hardware 105 corresponds to a camera and a flash. Further, the same processing flow as that in FIG. 4 can be applied.

FIG. 14 is a diagram showing a state of the exhibition hall to which the mobile terminal control system according to the fifth embodiment is applied. In FIG. 14, the portable terminal control system 1d is applied to the exhibition hall 1401. An entrance gate 201 is installed at the entrance of the venue 1401. The same thing as the boarding gate 201 in FIG. 2 is applied. Also, an exit gate 204 is installed at the exit, and the same gate as the arrival gate 204 in FIG. 2 is applied. It is assumed that there are four exhibits at the venue 1401, and photography is prohibited for three points: picture 1, picture 2, and picture 3. For pictures that can be taken, photography without using a flash is allowed. In addition, it is assumed that photographing using a flash is permitted for a flash photographing permission object. Reference numeral 1402 denotes a flash-prohibited shooting area, and a limit instruction signal transmitter 1411 transmits a limit instruction signal in the vicinity of a shootable picture. Reference numeral 1403 denotes a flash-permitted photographing area, and a restriction instruction signal is transmitted in the vicinity of the explanatory text by a restriction instruction signal transmitter 1412. Each of the restriction instruction signal transmitters 1411 and 1412 is a radio wave output in which a restriction instruction signal including a function restriction command corresponding to the exhibit is delivered only to the local area in the exhibition hall, in the example of FIG. Then, a restriction instruction signal for instructing function restriction according to the local area is transmitted. While the portable terminal receives the restriction instruction signal that reaches only the local area, the portable terminal holds the function restriction state indicated by the restriction instruction signal.

FIG. 15 is a diagram showing an example in which the mobile terminal control system according to the fifth embodiment is applied to the function restriction in the exhibition hall. In the figure, the state of the owner of the mobile terminal, the signal reception state of the mobile terminal, the action of the mobile terminal that has received the received signal, and the state of the mobile terminal that has received the action of the mobile terminal are shown in order from the top. Further, these flows along the time series are shown in the horizontal direction.

201 is an entrance gate, which can be the same as the boarding gate 201 in FIG. In addition to a paper ticket, reading information such as a two-dimensional barcode displayed on the display unit 106 of the portable terminal 100 allows the user to pass through the venue 1401. Reference numeral 202 denotes an authentication request transmitter, which can be the same as that shown in FIG. The mobile terminal 100 issues an authentication request signal 107 for authenticating the mobile terminal 100 to accept a signal from the restriction instruction signal transmitter in the venue 1401. By providing in the entrance gate 201, it can be performed at the same time as the entrance check by the mobile terminal 100, so authentication can be performed without forgetting.

204 is an exit gate, which can be the same as the arrival gate 204 in FIG. Reference numeral 205 denotes a function restriction acceptance release request transmitter, which can be the same as that shown in FIG. By providing the function restriction acceptance release request transmitter 205 inside the exit gate 204, the function restriction acceptance can be automatically released without fail.

In FIG. 15, state 206 is a state in which the vehicle passes through the entrance gate before entering the venue 1401. State 1501 is a state in which picture 1 is being viewed after entering venue 1401. A state 1502 is a state in which a photographing permission picture is being appreciated. A state 1503 is a state in which the picture 2 is being viewed. A state 1504 is a state in the vicinity of the flash photographing permission object. A state 1505 is a state in which the picture 3 is being viewed. A state 212 is a state in which the user exits the exit gate 204 to exit the venue 1101.

Numeral 1506 is a flash prohibition photographing permission request signal which is received while the mobile terminal exists in the flash prohibition photographing region 1402. Reference numeral 1507 denotes a flash-permitted photographing permission request signal that is received while the mobile terminal 100 exists in the flash-permitted photographing region 1403.

First, in the state 206 of passing through the entrance gate, when the owner of the mobile terminal 100 passes the entrance gate 201 and receives the authentication request signal 107 from the authentication request transmitter 202 at the mobile terminal 100, the mobile terminal 100 Authentication is performed to accept request signals from the restriction instruction signal transmitters 1411 and 1412 and the function restriction acceptance release request transmitter 205 in the exit gate 204, and reception of the function restriction is started. At the same time, the photographing prohibit mode is entered, and the flash and photographing functions are prohibited.

As the second state, in the state 1501 during the viewing of the picture 1, the photographing prohibit mode is maintained without receiving the restriction instruction signal.

As a third state, in the state 1502 during appreciation of a picture permitted to shoot, while the mobile terminal 100 is in the vicinity of the picture permitted to shoot, the mobile terminal 100 receives the flash prohibition photographing permission request signal 1506 by the external instruction receiving unit 110, After confirming that the signal determination unit 111 is authenticated, the function restriction control unit 112 is notified, and the internal state is switched to the flash prohibition photographing permission mode. In response to this, the function restriction control unit 112 turns off the flash as the function restriction target hardware 105 via the main control unit 102 and permits the camera.

While the external instruction receiving unit 110 receives the flash prohibition photographing permission request signal 1506, the function restriction control unit 112 turns off the flash as the function restriction target hardware 105 and permits the camera. When the owner leaves the flash prohibited shooting area 1402 and the mobile terminal 100 cannot receive the flash prohibited shooting permission request signal 1506, the set mode when passing through the entrance gate 206, that is, the shooting prohibited mode in the present embodiment. The function of both the flash and the camera is performed. That is, in this embodiment, the restriction imposed by the restriction instruction signal transmitters 1411 and 1412 is more lenient than the restriction imposed on the function of the mobile terminal by the basic operation mode in the venue, so the restriction imposed by the basic operation mode The same operation is performed as partly canceling. The same applies to a fifth state to be described later.

As the fourth state, in the state 1503 during viewing picture 2, the camera enters the shooting prohibition mode without receiving the restriction instruction signal, and the camera is turned off with the flash turned off.

As a fifth state, in the state 1504 in the vicinity of the permitted flash photographing object, the mobile terminal receives the flash permitted photographing permission request signal 1507 in the external instruction receiving unit 110 while in the vicinity of the permitted flash photographing object. After confirming that the signal determination unit 111 is authenticated, the function restriction control unit 112 is notified, and the internal state is switched to the flash permission photographing permission mode. In response to this, the function restriction control unit 112 permits a flash and a camera as the function restriction target hardware 105 via the main control unit 102.

As a sixth state, during the viewing of picture 3, in 1505, the camera enters the shooting prohibition mode without receiving the restriction instruction signal, and turns off the flash and the camera. Finally, as the seventh state, in the state 212 that exits the venue 1401 and passes through the exit gate, when the function restriction acceptance release request signal 117 is issued from the function restriction acceptance release request transmitter 205, the mobile terminal 100 performs an external instruction. Receiving this by the receiving unit 110 and confirming that it is authenticated by the signal determining unit 111, notifies the function restriction control unit 112 to turn off the reception of the function restriction and cancel the authentication. When the reception is finished, the mode is changed to the normal mode so that the camera and the flash can be used.

According to the mobile terminal and the mobile terminal control system described above, it becomes possible to appropriately switch the limit of the photographing function of the mobile terminal according to the exhibition exhibits, and in the state where the use can be permitted, The effect that the user can use it by removing the restriction is obtained.

In addition, the basic operation mode set when passing the entrance gate (shooting prohibited mode in the above example) will be changed to a more lenient function restriction in the limited area of the venue. It is possible to execute the function restriction process corresponding to the local situation change. Furthermore, at the exhibition hall, the exhibits are replaced for each exhibition. In other words, in the next exhibition, there may be an exhibit that prohibits shooting at the location where the permitted photographs were displayed. In this way, when there is a desire to apply different function restrictions at different times even in the same local area in the same venue, according to the present embodiment, the restriction instruction transmitted by the restriction instruction signal transmitters 1411 and 1412 By changing the content of the signal, the above-mentioned demand can be satisfied. Also, when the restriction instruction signal transmitter is composed of a downsized device and has portability, the restriction instruction content transmitted by the restriction instruction signal transmitter is changed by changing the position of the restriction instruction signal transmitter. The same effect can be achieved.

<Sixth embodiment>
The sixth embodiment is an example of a mobile terminal, a mobile terminal control system, and a mobile terminal control method capable of safely and automatically switching the operation of the mobile terminal from the outside in a classroom such as a school. In this embodiment, the effect that the user can use the mobile terminal by removing the restriction on the function of the mobile terminal according to the school lesson or the like can be obtained. Although the use of a mobile terminal is often prohibited during a class, it is convenient if, for example, a blackboard can be photographed with a mobile terminal during the class. In addition, it is convenient to be able to browse websites on a mobile terminal in situations where you do research during class. In this embodiment, the portable terminal can be used limitedly in such a scene. In this embodiment, the portable terminal shown in FIG. 1 can be applied. In the present embodiment, the restriction target hardware 105 corresponds to a camera and a flash. Further, the same processing flow as that in FIG. 4 can be applied.

FIG. 16 is a diagram showing a state of a classroom to which the mobile terminal control system according to the sixth embodiment is applied. An entrance gate 201 is installed at the entrance of the classroom 1601 in the school. The same thing as the boarding gate 201 in FIG. 2 is applied. Also, an exit gate 204 is installed at the exit, and the same gate as the arrival gate 204 in FIG. 2 is applied. In the classroom 1601, a repeater 1606 and a seat 1607 on which a student 1608 sits are arranged. The teacher brings the teacher portable terminal 1605 into the classroom 1601. The student 1608 also has a student portable terminal 1611. A restriction request signal 1609 is transmitted from the teacher terminal device 1605 to the repeater 1606, and a restriction instruction signal 109 is transmitted from the repeater 1606 to the mobile terminal possessed by each student 1608 in response to the restriction request signal 1609.

The repeater 1606 receives the restriction request signal 1609 from the teacher portable terminal 1605 authenticated by the instruction transmission authentication device 1603, and transmits a restriction instruction signal 109 to each student portable terminal 1611 in the classroom 1601. The restriction request signal 1609 is a signal that the teacher transmits to the repeater 1606 according to the content of requesting the function restriction to the student mobile terminal 1611. The restriction instruction signal 109 is a signal that the repeater 1606 receives the restriction request signal 1609 and instructs each student mobile terminal 1611 in the classroom 160 to restrict the function.

The school staff room 1602 is provided with an instruction transmission authentication device 1603 and an instruction transmission authentication release device 1604. The staff room 1602 is a space in which internal devices can not be freely handled except for some persons such as teachers, and may be a place other than the staff room such as a dedicated space as long as this condition is satisfied. The instruction transmission authentication device 1603 is an apparatus that performs authentication for granting the authority to request the function restriction to the student portable terminal (the authority to transmit the restriction request signal 1609) to the teacher portable terminal 1605. The instruction transmission authentication canceling device 1604 cancels authentication by the instruction transmission authentication device 1603. The instruction transmission authentication device 1603 and the instruction transmission authentication cancellation device 1604 may have an integrated device configuration.

FIG. 17 is a diagram illustrating a configuration example of a mobile terminal control system that realizes the sixth embodiment. The teacher terminal 1605 includes a control unit 1701, an instruction transmission side authentication information holding unit 1702, an instruction transmission authentication request unit 1703, an external instruction transmission unit 1704, an instruction transmission authentication release request unit 1705, a function restriction command generation unit 1706, and an operation unit. 103 and a display unit 106. A control unit 1701 performs overall control of the teacher terminal 1605. The instruction transmission side authentication information holding unit 1702 holds information uniquely indicating the teacher terminal as authentication information. The instruction transmission authentication request unit 1703 generates an instruction transmission authentication request signal by adding a request signal for authenticating itself as a device for transmitting a restriction instruction signal to information uniquely indicating the teacher terminal, and transmits the instruction transmission authentication request signal. It transmits to the authentication device 1603. The function restriction command generation unit 1706 generates a function restriction command indicating the function restriction contents of the student terminal, and outputs the function restriction command to the external instruction transmission unit 1704. The external instruction transmission unit 1704 adds information indicating the teacher terminal uniquely to the function restriction instruction, generates a restriction instruction signal, and transmits the restriction instruction signal to the repeater 1708. The instruction transmission authentication cancellation request unit 1705 adds an instruction transmission authentication cancellation signal by adding a request signal for canceling the state in which the terminal is authenticated as the transmission device of the restriction instruction signal to information uniquely indicating the teacher terminal. It is generated and transmitted to the instruction transmission authentication canceling device 1604.

The repeater 1606 includes an instruction transmission reception device 1708 and an external instruction device 115. When the instruction transmission authentication device 1603 authenticates the teacher terminal 1605 as a transmitter for the restriction instruction signal, the instruction transmission authentication device 1603 outputs information uniquely indicating the teacher terminal 1605 to the instruction transmission reception device 1708. When the instruction transmission receiving device 1708 receives the restriction instruction signal from the external instruction transmission unit 1704 of the teacher terminal 1605, the information uniquely indicating the teacher terminal 1605 included therein uniquely indicates the teacher terminal 1605 acquired in advance. It is determined whether or not the information matches, and if it matches, a restriction instruction signal is output to the external instruction device 115. At this time, if the control instruction signal is not necessary for system authentication of the student terminal 1611, the information uniquely indicating the teacher terminal 1605 may be omitted from the control instruction signal.

The authentication information generation device 113 generates authentication information for associating the teacher terminal 1605 and the student terminal 1611, and the external instruction device 115, the instruction reception authentication request device, and the instruction reception authentication release request device 116 Share the authentication information. The external instruction device 115 relays and transmits the authentication information added to the restriction instruction signal.

The student terminal 1611 has the same configuration as the portable terminal 100 shown in FIG. The student terminal 1611 receives an authentication request signal including the authentication information from the instruction reception authentication requesting device 114 provided at the entrance of the classroom, and the system authentication unit 108 authenticates the portable terminal control system. The system authentication unit 108 receives the authentication cancellation request signal including the authentication information from the instruction reception authentication cancellation request device 116 provided at the classroom exit, and cancels the authentication of the portable terminal control system. The signal determination unit 111 is based on whether the authentication information added to the restriction instruction signal received by the external instruction receiving unit 110 matches the authentication information received by the system authentication unit 108 from the instruction reception authentication requesting device 114. Then, it is determined whether the restriction instruction signal is a signal transmitted from the authenticated portable control system.

FIG. 18 is a diagram showing a configuration example of a mobile terminal control system that realizes the sixth embodiment. In the figure, the state of the classroom 1601, the status of the teacher portable terminal 1605, the transmission / reception processing of the repeater 1606, and the status of the student portable terminal are shown in order from the top. Further, these flows along the time series are shown in the horizontal direction.

Reference numeral 1801 indicates a class that can be photographed, and is a class that permits photographing without flash using the student mobile terminal 1611. Reference numeral 1802 is a class for conducting a survey, and reference numeral 1803, which is a class that permits a survey using data communication by the student mobile terminal 1611, is a class that does not permit photographing. Reference numeral 1804 denotes a break time.

The teacher portable terminal 1605 issues a restricted issue right authentication request signal 1805. The restriction issue right authentication request signal 1805 is a signal for requesting authentication for obtaining the authority to request restriction to the student mobile terminal 1611 via the repeater 1606.

The teacher mobile terminal 1605 issues a restricted issue right authentication release request signal 1806. The restriction issue right authentication release request signal 1806 is a signal for requesting release of authentication for obtaining the right to request restriction on the student mobile terminal 1611.

The teacher mobile terminal 1605 issues a shootable lesson mode request signal 1807. The shootable lesson mode request signal 1807 is a signal that requests the repeater 1606 to instruct the student portable terminal 1611 to restrict the range according to the allowable range of the shootable lesson 1801. In this embodiment, flash light emission and data communication are turned off, and camera shooting is permitted.

Therefore, the repeater 1606 receives the shootable lesson mode request signal 1807 and transmits a shootable lesson mode instruction signal 1808 for applying a restriction according to the allowable range of the shootable lesson 1801 to the student portable terminal 1611.

The survey lesson mode request signal 1809 is issued from the teacher portable terminal 1605 and requests the repeater 1606 to instruct the student portable terminal 1611 to limit the range allowed in the lesson state 1802 in which the investigation is performed. Signal. In this embodiment, flash light emission and camera shooting are turned off and data communication is permitted.

Therefore, the repeater 1606 receives the survey lesson mode request signal 1809 and transmits to the student mobile terminal 1611 a survey lesson mode instruction signal 1810 for applying a restriction according to the allowable range of the lesson 1802 to be investigated.

The non-photographable lesson mode request signal 1811 is issued from the teacher portable terminal 1605, and requests the repeater 1606 to instruct the student portable terminal 1611 to restrict the range according to the range allowed by the nonphotographable class 1803. It is. In this embodiment, data communication, flash emission, and camera shooting are all turned off.

Therefore, the repeater 1606 receives the non-photographable class mode request signal 1811, and transmits a non-photographable class mode instruction signal 1812 instructing the student portable terminal 1611 to perform a restriction corresponding to the allowable range of the photon-capable class 1801.

The break mode request signal 1813 is a signal that is issued from the teacher portable terminal 1605 and requests the repeater 1606 to instruct the student portable terminal 1611 to make a restriction according to the range that the break time 1804 allows. In the present embodiment, data communication, flash emission, and camera shooting are both allowed.

Therefore, the repeater 1606 receives the break mode request signal 1813 and transmits a break mode instruction signal 1814 for instructing the student portable terminal 1611 to set a limit corresponding to the allowable range of the break time 1804.

First, prior to the start of the class, when the student 1608 passes the entrance gate 201 to the classroom 1601 and receives the authentication request signal 107 from the authentication request transmitter 202 at the student mobile terminal 1611, the student mobile terminal 1611 Authentication is performed so as to accept an authentication release signal from the repeater 1606 in 1601 and the function restriction acceptance release request transmitter 205 in the exit gate 204, and acceptance of the function restriction is started. On the other hand, the teacher uses the instruction transmission authentication device 1603 installed in the staff room 1602 to give the teacher portable terminal 1605 the authority to request the function restriction to the student portable terminal 1611 via the repeater 1606. For authentication.

As a second state, in the shootable lesson 1801, when the shootable lesson mode request signal 1807 is issued from the teacher portable terminal 1605 before the start, the repeater 1606 receives this and the shootable lesson mode instruction signal 1808 is sent to each student. To the mobile terminal 1611. The student portable terminal 1611 turns off the data communication and the flash emission when it is determined that the signal is from the repeater 1606 that has received and authenticated the student portable terminal 1611.

As a third state, in the class 1802 for the survey, if the survey class mode request signal 1809 is issued from the teacher portable terminal 1605 before the start, the repeater 1606 receives the survey class mode request signal 1810 for each student. It transmits to the portable terminal 1611. When it is determined that the student portable terminal 1611 is a signal from the repeater 1606 that has received the authentication, the student portable terminal 1611 turns off the camera photographing and the flash emission and permits the data communication.

As a fourth state, in the non-photographable class 1803, when the non-photographable class mode request signal 1811 is issued from the teacher portable terminal 1605 before the start, the repeater 1606 receives the non-photographable class mode instruction signal 1812 in response to each of the students. To the mobile terminal 1611. When it is determined that the student portable terminal 1611 is a signal from the repeater 1606 that has received the authentication, the student portable terminal 1611 turns off data communication, camera shooting, and flash emission.

As a fifth state, in the break time 1804, when the break mode request signal 1813 is issued from the teacher portable terminal 1605 before the start, the repeater 1606 receives the break mode request signal 1814 to each student portable terminal 1611. Send. When it is determined that the student portable terminal 1611 is a signal from the repeater 1606 that has received the authentication, the student portable terminal 1611 permits data communication, camera photographing, and flash emission.

Finally, as a sixth state, when the function restriction acceptance release request signal 117 is issued from the function restriction acceptance release request transmitter 205 when exiting the classroom 1601 and passing through the exit gate, the student mobile terminal 1611 receives an external instruction. Receiving this by the receiving unit 110 and confirming that it is authenticated by the signal determining unit 111, notifies the function restriction control unit 112 to turn off the reception of the function restriction and cancel the authentication. When the reception is finished, the mode is changed to the normal mode, and the camera, the flash and the data communication are made usable. On the other hand, the teacher cancels authentication of the teacher portable terminal 1605 using the instruction transmission authentication canceling device 1604 installed in the staff room 1602. With the above processing, a series of function restriction control is completed.

As described above, according to the mobile terminal and the mobile terminal control system of the sixth embodiment, the effect that the user can use the mobile terminal by removing the restriction on the function of the mobile terminal in accordance with the contents of the class or the like in a school classroom or the like. Is obtained.

Each of the above embodiments is configured to receive a function restriction when a control program for restricting the function of the mobile terminal is downloaded via the Internet and the mobile phone is brought into a space to which the mobile terminal control system is applied. Also good. The control program to be downloaded includes the step of authenticating the external control system to which the mobile terminal is authorized to perform function restrictions on the own device, and receiving a restriction instruction signal including a function restriction command for the portable terminal from the external control system A step of determining whether the received restriction instruction signal is a restriction instruction signal transmitted from the authenticated external control system, and a step of restricting a function of the own device according to the restriction instruction signal When,
A step of canceling authentication of the external control system, and a control device mounted on the portable terminal. Further, it may be configured such that the control device can perform a process added as appropriate when a Wake On function or a command to stop function restriction reception is received.

According to the first to sixth embodiments described above, it is possible to realize that it is possible to dynamically provide an optimum restriction dynamically even in a situation in which the content to be restricted with respect to the function of the mobile terminal changes with the place and time Can be obtained. In addition, each said embodiment is not the meaning which limits this invention, Various modifications are included. For example, the above-described embodiment has been described in detail for easy understanding of the present invention, and is not necessarily limited to one having all the configurations described. Further, a part of the configuration of an embodiment can be replaced with the configuration of another embodiment, and the configuration of another embodiment can be added to the configuration of an embodiment. In addition, it is possible to add, delete, and replace other configurations for a part of the configuration of each embodiment.

Also, the control lines and information lines indicate what is considered necessary for the explanation, and not all the control lines and information lines on the product are necessarily shown. Actually, it may be considered that almost all the components are connected to each other.

105… Function restriction target hardware, 107… Authentication request signal, 108… System authentication unit, 109… Restriction instruction signal, 110… External instruction receiving unit, 111… Signal judgment unit, 112… Transmitter, 205… Function restriction acceptance release request transmitter, 213… Authentication request signal, 214… Airplane mode request signal, 215,… Function stop mode request signal, 216… Normal mode request signal, 502… Wake On signal, 1102… Restriction Instruction signal transmitter, 1603… Control device authentication device, 1604… Control device authentication release device, 1606… Repeater, 1705… Restricted issue right authentication request signal, 1806… Restricted issue right authentication release request signal

Claims (16)

1. A system authentication unit that receives an authentication request signal from an external control system that performs function restriction on a mobile terminal and authenticates whether the external control system is a system that can make a function restriction request to the mobile terminal When,
   An external instruction receiving unit that receives a restriction instruction signal including an instruction to restrict the function of the mobile terminal;
   A signal determination unit for determining whether the received restriction instruction signal is transmitted from the authenticated external control system;
   In response to the restriction instruction signal, a function restriction control unit that restricts the function of the own device indicated by the restriction instruction signal;
   With
   The external instruction receiving unit is capable of receiving a plurality of restriction instruction signals instructing different function restrictions.
   A portable terminal characterized by that.
2. In the mobile terminal according to claim 1,
   A start command processing unit for receiving a start command signal of the mobile terminal from the external control system and executing a start process based thereon;
   The signal determination unit determines whether the activation command signal is transmitted from the external control system,
   In response to the activation command signal, the activation command processing unit activates the stopped external instruction receiving unit.
   A portable terminal characterized by that.
3. An authentication request signal provided at an entrance of a space that restricts the function of the portable terminal from the external control system to the portable terminal, and for allowing the portable terminal to authenticate the external control system as a system that can accept function restriction. An authentication requesting device that transmits
   An external instruction device that is provided in the space and transmits a restriction instruction signal including a function restriction instruction for the mobile terminal;
   An authentication cancellation requesting device that is provided at the exit of the space and transmits an authentication cancellation signal for requesting cancellation of authentication of the external control system to the mobile terminal,
   The portable terminal is
   In response to the authentication request signal, the external control system authenticates whether the system is capable of making a function restriction request to the mobile terminal, and in response to the authentication release signal, the external control system is authenticated. The system authentication part to release
   An external instruction receiving unit for receiving the restriction instruction signal;
   A signal determination unit for determining whether the received restriction instruction signal is transmitted from the authenticated external control system;
   In response to the restriction instruction signal, a function restriction control unit that restricts the function of the own device indicated by the restriction instruction signal, and
   The external instruction device transmits a restriction instruction signal instructing different function restrictions.
   A portable terminal control system.
4. In the mobile terminal control system according to claim 3,
   The external instruction device transmits a restriction instruction signal for stopping at least one of a call function, a data communication function, a photographing function, a flash light emission function, and a recording function.
   A portable terminal control system.
5. In the mobile terminal control system according to claim 3,
   The authentication request device is installed at the departure airport of the passenger plane,
   The deauthorization request device is installed at the arrival airport of the passenger aircraft,
   The external instruction device is installed in the passenger aircraft, and has a calling function, a data communication function, and a photographing function according to at least one situation during parking, rising, steady flight, and landing posture of the passenger aircraft. Send a limit instruction signal to stop at least one,
   A portable terminal control system.
6. In the mobile terminal control system according to claim 3,
   Further comprising an activation instruction device for transmitting an activation command signal of the mobile terminal in the space;
   The portable terminal is
   A startup command processing unit that receives the startup command signal from the external control system and executes startup processing of the own machine based on the startup command signal;
   The signal determination unit determines whether the activation command signal is transmitted from the external control system,
   In response to the activation command signal, the activation command processing unit activates the stopped external instruction receiving unit.
   A portable terminal control system.
7. In the mobile terminal control system according to claim 3,
   The external instruction device transmits a new restriction instruction signal at a timing for updating the restriction content to be given to the mobile terminal,
   The function restriction control unit holds a function restriction state based on the restriction instruction signal received immediately before, until the new restriction instruction signal is received.
   The portable terminal control system characterized by having.
8. In the mobile terminal control system according to claim 7,
   The external instruction device transmits a restriction instruction signal including a command to restore all functions of the mobile terminal,
   The function restriction control unit restores all functions when receiving a restriction instruction signal including a command to restore all functions, and prohibits new function restriction acceptance processing,
   The system authentication unit cancels the authentication of the external control system.
   A portable terminal control system.
9. In the mobile terminal control system according to claim 3,
   The external instruction device emits a restriction instruction signal instructing a function restriction according to the local area, with a radio wave output in which the restriction instruction signal reaches only a local area in the space,
   While the portable terminal receives a restriction instruction signal that reaches only the local area, the portable terminal maintains a function restriction state indicated by the restriction instruction signal.
   The portable terminal control system characterized by having.
10. An instruction reception authentication requesting device that is provided at an entrance of a space that restricts the function of the first portable terminal, and that transmits an authentication request signal of the second portable terminal that restricts the function of the first portable terminal;
    A repeater that is provided in the space and relays a restriction instruction signal including a function restriction instruction for the first portable terminal transmitted by the second portable terminal;
    An instruction reception authentication cancellation requesting device that is provided at an exit of the space and that transmits an authentication cancellation signal for requesting an authentication cancellation by the instruction reception authentication requesting device;
    An instruction transmission authentication device for performing authentication for giving an authority to transmit a restriction instruction signal including an instruction to restrict the function of the first portable terminal to the second portable terminal;
    An instruction transmission authentication cancellation device for canceling authentication by the instruction transmission authentication device for the second portable terminal,
    The first portable terminal is
    System authentication for authenticating whether the repeater is included in an external control system capable of making a function restriction request to the portable terminal in response to an authentication request signal from the instruction reception authentication requesting device And
    An external instruction receiving unit that receives the restriction instruction signal transmitted by the second portable terminal via the repeater;
    A signal determination unit for determining whether the received restriction instruction signal is a signal transmitted from a device included in the system authenticated by the system authentication unit;
    In accordance with the restriction instruction signal, a function restriction control unit that restricts the function of the own device,
    In the first portable terminal, the system authentication unit authenticates the repeater in response to a request from the instruction reception authentication request device,
    The repeater relays the restriction instruction signal transmitted by the second mobile terminal authenticated by the instruction transmission authentication device to the first mobile terminal,
    The signal determination unit of the first portable terminal determines whether the received restriction instruction signal is transmitted from a repeater authenticated by the system authentication unit;
    The function restriction control unit restricts the function of the own machine according to the restriction instruction signal,
    The portable terminal control system characterized by having.
11. The mobile terminal authenticating whether the external control system is a system capable of making a function restriction request to the mobile terminal; and
    The external control system transmitting a restriction instruction signal including a function restriction command for the portable terminal;
    The portable terminal receiving the restriction instruction signal;
    Determining whether the restriction instruction signal received by the mobile terminal is a restriction instruction signal transmitted from the authenticated external control system;
    The portable terminal restricting the function of its own device according to the restriction instruction signal;
    De-authenticating the external control system;
    A mobile terminal control method comprising:
12. The mobile terminal control method according to claim 11,
    Receiving a start command signal of the mobile terminal after receiving a limit command signal including a command to stop the reception function of the limit command signal;
    Determining whether the activation command signal is a restriction instruction signal transmitted from the authenticated external control system;
    Returning the reception function of the restriction instruction signal based on the activation command signal;
    A mobile terminal control method comprising:
13. The mobile terminal control method according to claim 11,
    Receiving the restriction instruction signal including a command to stop the function restriction acceptance of the mobile terminal;
    The function restriction acceptance is stopped in response to the restriction instruction signal, the function of the own machine being stopped is restored, and the external in response to reception of the restriction instruction signal without receiving an authentication release signal from the external control system Deauthorizing the control system; and
    A portable terminal control method characterized by the above.
14. Authenticating whether the external control system is a system capable of making a function restriction request to itself;
    Receiving a restriction instruction signal including a function restriction command for the portable terminal from the external control system;
    Determining whether the received restriction instruction signal is a restriction instruction signal transmitted from the authenticated external control system;
    In response to the restriction instruction signal, limiting the function of the device itself;
    De-authenticating the external control system;
    Is executed by a control device mounted on the mobile terminal.
15. The mobile terminal control program according to claim 14,
    Receiving a start command signal of the mobile terminal after receiving a limit command signal including a command to stop the reception function of the limit command signal;
    Determining whether the activation command signal is a restriction instruction signal transmitted from the authenticated external control system;
    Returning the reception function of the restriction instruction signal based on the activation command signal;
    Is executed by a control device mounted on the mobile terminal.
16. The mobile terminal control program according to claim 14,
    Receiving the restriction instruction signal including a command to stop the function restriction acceptance of the mobile terminal;
    In response to receiving the restriction instruction signal without stopping the function restriction reception in response to the restriction instruction signal, returning the function of the stopped own machine, and without receiving an authentication release signal from the external control system De-authenticating the external control system;
    Is executed by a control device mounted on the mobile terminal.

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