JP6057637B2 - Portable information terminal device, function switching method, and function switching program - Google Patents

Description

  The present invention relates to a portable information terminal device that switches functions based on current location information, and more particularly to a portable information terminal device that includes wireless communication means.

  Conventionally, a portable information terminal device having a display with a touch panel, a GPS reception function, a mobile communication function, and a wireless LAN function is known.

  The portable information terminal device is designed and manufactured so as to be portable so that the capacity of the battery is limited. Therefore, in a state where all the functions of the portable information terminal device are activated, the battery is consumed immediately. In particular, communication functions such as a wireless LAN function require relatively large power consumption among the functions, and consume a battery quickly.

  The user can stop the wireless LAN function by giving an instruction to the portable information terminal device through the touch panel. However, giving an instruction each time depending on whether an access point capable of communication is located nearby requires a user to perform a complicated operation.

  Therefore, Patent Document 1 describes that when a GPS signal is received from a GPS satellite by the GPS reception function, it is determined that the mobile terminal is located outdoors and the wireless LAN function is stopped to reduce power consumption. Yes.

JP 2009-94827 A

  However, in the invention of Patent Document 1, the current location information is not effectively used. For example, even if a GPS signal can be received outdoors, the user may want to connect to a public wireless LAN spot using the wireless LAN function.

  Therefore, the present invention uses a current location information of a portable information terminal device, a portable terminal device that suppresses power consumption by automatically switching between enabling and disabling a predetermined function at a required place, It is an object to provide a function switching method and a function switching program.

  The portable information terminal device according to the present invention includes a current location information acquisition unit that acquires current location information of the own device, and whether or not the own device is located at a predetermined location based on the current location information acquired by the current location information acquisition unit. And a control means for switching between enabling and disabling a predetermined function based on the determination result of the current position determination means.

  The predetermined place is a concept including not only a position composed of latitude, longitude, and altitude but also a certain range centered on the position.

  The current location information acquisition unit acquires current location information including latitude, longitude, and altitude, for example, by receiving a GPS signal. The current location determination means determines, for example, whether the latitude, longitude, and altitude of the current location information match a predetermined threshold value. The current location determination means determines that the current location is, for example, home if the latitude, longitude, and altitude match the predetermined threshold values, and otherwise determines that the location is outside the home. The control means validates (or invalidates) the predetermined function when it is determined that the own device is located at the predetermined location. On the other hand, the control means disables (or enables) the predetermined function when it is determined that the own device is not located at the predetermined location. Predetermined functions include large consumption such as wireless communication functions (for example, wireless LAN function and mobile communication), high backlight brightness, long display timeout time, speaker volume increase, and CPU clock speed increase. This function requires electric power.

  A user can enjoy rich content at high speed communication, a bright screen, and a high processing speed by automatically enabling the wireless LAN function of the portable terminal device at home. In addition, the user can suppress the power consumption of the portable information terminal device by disabling the wireless LAN function or the like while out.

  The portable information terminal device further includes a display unit, and the control unit causes the current location information acquisition unit to acquire the current location information when the display unit changes from an OFF state to an ON state. And

  In general, an organic EL or a liquid crystal display (display unit) is in an OFF state (for example, sleep mode) when it does not accept an instruction from a user through a touch panel or the like within a certain period of time in order to reduce power consumption of the portable information terminal device. Mode). When receiving any instruction from the user, the control unit turns on the display unit. The display is turned on when the user intends to use the portable information terminal device. Conversely, the display is turned off when the user does not use the portable information terminal device. Therefore, when the display unit changes from the OFF state to the ON state, the control unit acquires the current location information of the own device by GPS or the like.

  The portable information terminal device acquires the current location information only when the display unit changes from the OFF state to the ON state (only when the user tries to use the portable information terminal device). Since the portable information terminal device does not acquire a GPS signal when the user is not using the portable information terminal device, such as while sleeping, power consumption necessary for acquiring the GPS signal can be saved.

  Further, the current location information acquisition unit of the portable information terminal device periodically acquires the current location information of the own device, and the control unit determines that the current location determination unit is located at a predetermined location. In this case, the present location information acquisition unit is periodically stopped from acquiring the current location information of the own device.

  The present invention uses the current location information as a function switching trigger. Therefore, there is no need to continuously acquire the current location information as in the navigation system, and it is only necessary to acquire it once. Therefore, once it is determined that the portable information terminal device is located at a predetermined location, it is possible to save power consumption necessary for GPS reception and the like by stopping subsequent GPS reception.

  Further, the control means of the portable information terminal device comprising a display means stops the current location information acquisition means from acquiring the current location information when the display means changes from an ON state to an OFF state. To do.

  The user does not use the portable information terminal device when the display of the organic EL or liquid crystal display is in the OFF state. Therefore, in this case, the control unit can stop processing such as GPS reception and suppress power consumption of the portable information terminal device.

  In addition, the current location information acquisition unit performs a first acquisition process of acquiring current location information with coarse accuracy of the own device based on position information of the other device received by the wireless communication function, and the current location acquisition unit includes: When the current location determination means determines that the own device is located at a predetermined location based on the first acquisition processing, the current location determination means performs second acquisition processing for acquiring current location information with high accuracy, and the control means When the current location determination means determines that the own device is located at a predetermined location based on the second acquisition process, the current location determination means switches between enabling and disabling a predetermined function.

  The latitude and longitude indicating the current location information can also be obtained from position information of a base station that can be connected by mobile communication (for example, 3G communication). The accuracy of the current location information of the own device based on the location information of the base station connected by 3G communication is coarser than the accuracy of the current location information based on the received GPS signal. However, in many cases, the 3G communication function is always enabled for receiving mail. Therefore, the current location determination means first determines whether or not the current location is located at a predetermined location based on the current location information with coarse accuracy that can be acquired by the wireless communication function. For example, if the latitude and longitude indicating the current location information obtained by the wireless communication function are within one minute from the latitude and longitude of the home, for example, the current location determination means makes an initial determination that it is located at home. Then, the current location acquisition means acquires current location information with high accuracy by GPS or the like when the current location determination means determines that it is located at home in the first determination. Thereafter, the current location determination means determines whether or not the own device is located at home based on highly accurate current location information. For example, if the latitude and longitude of the current location information with high accuracy are within 1 second from the latitude and longitude of the home, the current location determination means determines that the own device is located at home, and the control means responds to the home. Switch the predetermined function.

  When it is determined that the portable information terminal device is not located at home based on the current location information with low accuracy, the portable information terminal device does not receive a GPS signal in order to obtain accurate current location information. As a result, the power consumption necessary for acquiring the GPS signal is omitted. If the portable information terminal device is not clearly connected to the access point at home (for example, when the user is out to the neighboring town), even if the GPS signal is not received, the current location of the device is not at home Therefore, the portable information terminal device can save power consumption necessary for receiving the GPS signal.

  According to the present invention, the function of the portable information terminal device is enabled at a place set by the user, and while making the convenience high, the unnecessary function is invalidated at another place and the power consumption is suppressed. Can do.

It is a figure which shows the environment where the portable terminal 1 is utilized. 1 is a block diagram of a mobile terminal 1. FIG. It is a figure which shows the flowchart of the process in which the portable terminal 1 switches a function. It is a figure which shows location DB which defines the function switched with position information. It is a figure which shows the flowchart of the process which stops reception of a GPS signal after switching a function. It is a figure which shows location DB which defines position information using a place name instead of latitude and longitude. It is a figure which shows location DB which defines position information with the acquired IP address.

  FIG. 1 is a diagram illustrating an environment in which the mobile terminal 1 is used. The mobile terminal 1 receives a GPS signal from the GPS satellite 2 and acquires current location information of the mobile terminal 1 composed of latitude and longitude. The mobile terminal 1 is connected to the base station 3 by mobile communication. The mobile terminal 1 is also connected to the access point 4 by wireless LAN communication.

  A plurality of base stations 3 are provided, and the mobile terminal 1 is connected to the base station 3 at many locations on the go. Since the installation location of the access point 4 is limited to the user's home, office, public wireless LAN spot, and the like, the mobile terminal 1 may not be connected to the access point 4 depending on the current location.

  The base station 3 and the access point 4 are connected to the Internet (not shown).

  Accordingly, the mobile terminal 1 is connected to the Internet through the base station 3 or the access point 4 and performs data communication with other devices via the Internet.

  The mobile terminal 1 according to the present invention acquires its current location by communicating with the base station 3 or the GPS satellite 2 and switches a predetermined function depending on the current location.

  FIG. 2 is a block diagram of the mobile terminal 1. The mobile terminal 1 includes a CPU 10, a ROM 11, a RAM 12, a display 13, a touch panel 14, a wireless LAN communication unit 15, a 3G communication unit 16, and a GPS communication unit 17.

The CPU 10 is a functional unit that comprehensively controls the mobile terminal 1, and reads various programs stored in the ROM 11 and develops the programs in the RAM 12 to realize various operations (current location determination, function switching, etc.). . In addition to the program, the ROM 11 stores a database for defining function switching for the current location. The display 13 displays current location information received from the GPS communication unit 17 or displays content acquired from the Internet. The touch panel 14 is disposed integrally with the display 13 and accepts user operations. CPU10 controls the display content of the display 13 according to the received operation content. In this way, the mobile terminal 1 realizes a GUI (: Graphical User Interface).
The touch panel 14 is not an essential configuration of the present invention.

  The wireless LAN communication unit 15 transmits / receives data to / from the access point 4 under the control of the CPU 10.

  The 3G communication unit 16 transmits / receives data to / from the base station 3 under the control of the CPU 10.

  As described above, the base station 3 is used for relaying data communication with the Internet or the like of the mobile terminal 1. In addition to the relay purpose, the base station 3 sends the location information of the base station 3 to the connected mobile terminal 1. The position information of the base station 3 is composed of latitude and longitude given in advance when the base station is established. Usually, the distance from the connected base station 3 to the portable terminal 1 is within 2 km. Therefore, when the mobile terminal 1 can communicate with the base station 3, the CPU 10 acquires the position information of the base station 3 from the base station 3, so that the mobile terminal 1 is located within 2 km around the base station 3. If you are, you can roughly recognize your current location.

  The GPS communication unit 17 receives a GPS signal from the GPS satellite 2. The GPS signal includes position information of the GPS satellite 2 and a transmission time of the GPS signal. The GPS communication unit 17 receives GPS signals from a plurality of GPS satellites 2, calculates the current location information of the mobile terminal 1 composed of latitude and longitude using the position information and transmission time of the plurality of GPS satellites 2, and sends it to the CPU 10. send.

  In general, the latitude and longitude of the current location information obtained from the GPS signal only includes an error of a unit of several meters, and the accuracy is higher than the latitude and longitude of the current location information that can be acquired by mobile communication.

  Next, an example in which the mobile terminal 1 acquires current location information, determines whether or not the mobile terminal 1 is located at a predetermined location, and switches functions depending on the determination result will be described with reference to FIGS. 3 and 4.

First, the state of the mobile terminal 1 before the function is switched will be described.
The portable terminal 1 is used in the state where the wireless LAN communication function is always enabled and the screen brightness of the display 13 is at the maximum value near the home where the access point 4 is installed or near the free spot. The portable terminal 1 is used in a state where the wireless LAN communication function is always invalidated and the screen brightness is at a minimum value in the vicinity of the company where the access point 4 is not installed. Further, when the mobile terminal 1 is located at a home, office, or outside place that is not a free spot, the wireless LAN function is turned on only when the sleep mode is canceled, and the screen brightness is used at a minimum value.

  Further, the portable terminal 1 is controlled so that the display 13 is turned on when the sleep mode is canceled so that the display 13 and the GPS reception function are turned off in order to reduce power consumption in the sleep mode. .

  FIG. 3 is a diagram illustrating a flowchart of processing in which the portable terminal 1 is carried from the outside to the home in the sleep mode and the wireless LAN function is activated. FIG. 4 is a diagram showing a location DB stored in the ROM 11 of the mobile terminal 1.

  The location DB is a database that associates position information including latitude and longitude with location name, determination method 1, determination method 2, wireless LAN function operation, and screen brightness adjustment processing. For example, the latitude / longitude of the location name “home” is 35 degrees / 135 degrees as shown in FIG. 4, and the determination method 1 is that the latitude and longitude are within ± 30 seconds, respectively.

  When the portable terminal 1 is in the sleep mode, the CPU 10 continues to wait until receiving some operation from the user (S10: NO).

  Here, when the user operates the portable terminal 1 (S10: YES), the CPU 10 controls the display 13 to be in an ON state (S11). Then, the CPU 10 controls the 3G communication unit 16 in order to obtain rough current location information (S12). The 3G communication unit 16 acquires the position information (latitude and longitude) of the communicating base station 3 and sends the position information to the CPU 10 (S12).

  Then, the CPU 10 uses the acquired position of the base station 3 as the current location of the mobile terminal 1, and determines whether the mobile terminal 1 is located at a predetermined location (S13). Specifically, the CPU 10 reads all the records in the location DB and obtains the distance from the location (latitude and longitude) of each location to the current location (latitude and longitude) of the mobile terminal 1. Then, the location closest to the mobile terminal 1 is selected, and it is determined whether or not the current location of the mobile terminal 1 satisfies the location determination method 1. For example, in FIG. 4, when the current location is latitude 35 degrees 0 minutes 20 seconds and longitude 134 degrees 59 minutes 50 seconds, the location closest to the current location is “home”. Then, since the latitude and longitude of the current location are within ± 30 seconds from the latitude and longitude of “home”, the CPU 10 determines that the mobile terminal 1 is located at “home” (S13: YES), and step Proceed to S14. If the condition of the determination method 1 is not satisfied (S13: NO), the CPU 10 determines that the mobile terminal 1 is not located at “home” and waits to accept another operation.

  When proceeding to step S14, the CPU 10 activates the GPS communication unit 17 to receive a GPS signal, and obtains current location information with higher accuracy than the current location information obtained in step S12. Then, the CPU 10 determines whether or not the mobile terminal 1 is located at a predetermined location (S15). For example, if the CPU 10 determines in step S13 that the mobile terminal 1 is located at “home”, the mobile terminal 1 uses the highly accurate current location information and the location “home” determination method 2 sent from the GPS communication unit 17. It is determined whether 1 is located at “home”. The specific determination method is the same as the determination method 1, and the threshold values for latitude and longitude are different. When the CPU 10 determines that the mobile terminal 1 is located at “home” (S15: YES), the CPU 10 proceeds to step S16. When it is determined that the mobile terminal 1 is not located at “home” (S15: NO), the CPU 10 waits to accept another operation.

  Finally, the CPU 10 switches the function indicated by the location DB according to the location determined to be located (S16). For example, if the CPU 10 determines in step S15 that the mobile terminal 1 is located at “home”, the CPU 10 controls each functional unit so that the wireless LAN communication function is turned on and the screen brightness is maximized. To do. When the CPU 10 determines that the mobile terminal 1 is located at “home”, the CPU 10 does not set the screen brightness to the maximum value, but the ambient brightness (for example, an illuminance sensor provided in the mobile terminal 1). The brightness of the screen may be adjusted according to the output value.

  As described above, when the mobile terminal 1 approaches a home (or a free spot) such as a front door of the home, the wireless LAN communication function is automatically enabled and the brightness of the screen reaches the maximum value. Can enjoy rich content on the Internet at home. If it is determined that the mobile terminal 1 is located at home, the wireless LAN communication function remains in the ON state even when the display 13 is in the OFF state. As a result, the user does not have to perform an operation to activate the wireless LAN communication function of the mobile terminal 1 at home.

  As shown in FIG. 4, when the mobile terminal 1 is carried by a company where no access point is installed, the wireless LAN communication function is always disabled even when the display 13 is turned on. As a result, the mobile terminal 1 can suppress power consumption. When the current location is a destination that is not defined in the location DB, the mobile terminal 1 enables the wireless LAN communication function only when the sleep mode is canceled, and disables the wireless LAN communication function in the sleep mode. Therefore, when an access point exists at a location that is not registered in the location DB, the mobile terminal 1 can connect to the access point by canceling the sleep mode.

  Therefore, the portable terminal 1 can suppress power consumption by enabling only the functions required by the user at a predetermined location and disabling unnecessary functions.

  Furthermore, since the current location information is acquired only when the user intends to use the mobile terminal 1 (when the display 13 changes to the ON state), power consumption can be suppressed. Further, when the mobile terminal 1 first acquires the current location information from the base station 3 by the 3G communication function and determines that the mobile terminal 1 is not located at any location in the location DB, that is, the mobile terminal 1 is in any location DB. When the location is far away from the place, the current location information is not acquired using the GPS communication unit 17, so that power consumption can be suppressed.

  Note that acquiring the current location information when the display 13 changes to the ON state is not an essential configuration of the present invention. In addition, it is not an essential configuration of the present invention to acquire the current location information with the GPS reception function after determining whether or not the vehicle is located at a predetermined location based on the location information acquired with the 3G communication function.

  In the above example, the wireless LAN communication function and the screen brightness are switched, but the 3G communication function and other functions may be switched. For example, the mobile terminal 1 is a company and invalidates the 3G communication function. For example, when it is determined that the mobile terminal 1 is located in a “free spot” or “company”, a speaker (not shown) provided in the mobile terminal 1 is provided so as not to disturb other people. ) May be reduced in volume, the vibration mode may be turned on (so-called manner mode), and may be vibrated by a built-in motor at the time of sound output. May be increased.

  In addition, a predetermined application program may be activated (or stopped) depending on the location. For example, when the mobile terminal 1 is located at “home”, the SNS (; Social Networking Service) program may be started, and when the mobile terminal 1 is located at “company”, the SNS program may be stopped.

  Further, even when the mobile terminal 1 is determined to be located at home and the wireless LAN communication function is turned on, when the display 13 is turned off, the mobile terminal 1 enters the sleep mode and has a predetermined function. The wireless LAN communication function may be turned off. In this case, the CPU 10 returns to step S10 shown in FIG. 3 and waits for the user's input operation.

  Next, an example of the operation of the mobile terminal 1 that stops acquiring current location information after switching functions will be described using the flowcharts of FIGS. 3 and 5. The flowchart shown in FIG. 5 shows a modified example of the processing after the case of YES in step S13 of the flowchart shown in FIG. In FIG. 5, the description of steps S14 to S16 that overlap with FIG. 3 is omitted.

  When it is determined that the CPU 10 is not located at a predetermined location (S15: NO), the CPU 10 proceeds to step S19 and waits for a first predetermined time (for example, 300 seconds). After waiting for the first predetermined time, the CPU 10 returns to step S14 and controls the GPS communication unit 17 to acquire current location information.

  As described above, the CPU 10 acquires the current location information by controlling the GPS communication unit 17 every first predetermined time until it is determined that the current location of the own device is located at the predetermined location.

  When the function is switched (S16), the CPU 10 waits until a second predetermined time (for example, 10 minutes) elapses (S17). Then, the CPU 10 invalidates the GPS signal reception function of the GPS communication unit 17 and stops the process of acquiring the current location information every first predetermined time (S18).

  Note that the GPS function may be stopped immediately when the display 13 changes from the ON state to the OFF state even if the second predetermined time has not elapsed since the function switching in step S16.

  As described above, when the portable terminal 1 is carried near the home and the wireless LAN communication function is validated, the continuous reception of GPS signals is stopped. As a result, the portable terminal 1 can suppress power consumption without turning on the GPS function during use at home.

  In the above example, latitude and longitude are used as the current location information, but altitude may also be used. When the altitude is used as the current location information, the altitude is acquired from the GPS signal.

  Next, Modification 1 of the location DB that defines a predetermined place will be described with reference to FIG. The location DB shown in FIG. 6A defines the position information by the place name, without defining the position information by latitude and longitude, unlike the location DB shown in FIG. The location DB shown in FIG. 6A is a database that associates position information consisting of place names with location name and screen brightness adjustment processing. FIG. 6B illustrates an access point DB that is a database that associates predetermined settings and installation locations of access points. As predetermined settings, ESSID (: Extend Service Set ID) and BSSID (: Basic Service Set ID) are registered. Since the BSSID is provided with an ID unique to the access point, the access point can be specified even if there is a duplicate ESSID. The access point DB is stored in a server connected to the Internet and is referred to from a terminal connected to the Internet.

  Hereinafter, the mobile terminal 1 detects an access point connectable by the wireless LAN communication function, acquires the current location information of the mobile terminal 1 from the installation location of the access point, determines whether or not the mobile terminal 1 is located at a predetermined location, An example of switching screen brightness adjustment processing will be described.

  The CPU 10 causes the wireless LAN communication unit 15 to detect an access point that can be periodically connected regardless of whether an access point is installed near the mobile terminal 1. Specifically, the CPU 10 causes the wireless LAN communication unit 15 to receive the ESSID and BSSID transmitted from the access point 4. When the CPU 10 can acquire the ESSID and BSSID, the location of the access point corresponding to the acquired ESSID and BSSID is obtained from the access point DB on the Internet illustrated in FIG. 6B via the 3G communication unit 16. To get.

  Next, the CPU 10 uses the installation location as the current location of the mobile terminal 1 and searches the location DB shown in FIG. 6A for a record having a location name that matches the location name indicating the current location. If there is a matching record, the CPU 10 determines that the mobile terminal 1 is located at the place name of the record. Then, the CPU 10 sets the brightness of the display 13 to the maximum value or the minimum value based on the screen brightness adjustment process of the record. If there is no matching record, the CPU 10 determines that the mobile terminal 1 is not located in any location indicated by the location DB.

  For example, when the acquired ESSID is ID_OFFICE and the BSSID is MA_OFFICE, for example, the access location DB of the access point DB shown in FIG. It recognizes that it is connected to the point (AP_OFFICE). Then, the CPU 10 recognizes that the current location of the portable terminal 1 is Sakurada-cho Δ △ in Ishikawa Prefecture. Since Sakurada-cho Δ △ in Ishikawa Prefecture matches the place name of the company in the location DB shown in FIG. 6A, the CPU 10 determines that the mobile terminal 1 is carried by the company. Then, the CPU 10 sets the luminance of the display 13 to the minimum value.

  Instead of acquiring data from the access point DB using the 3G communication function, after connecting to the access point 4 using the wireless LAN communication function, the data is acquired from the access point DB using the wireless LAN communication function, and the current location information is acquired. May be.

As described above, the mobile terminal 1 can acquire the current location of its own device by a place name, determine whether or not it is located at a predetermined place from the place name, and switch functions.
The access point DB may be stored in the ROM 11.

  Further, when the acquired IP address is a global IP address, the mobile terminal 1 can recognize the current location of the own device from the global IP address. FIG. 7 is a diagram showing a global IP allocation DB, which is a database that associates a global IP address with an ISP that manages the global IP address and a region to which the global IP address is assigned. The global IP address assignment DB is stored in a server connected to the Internet and is referred to from a terminal connected to the Internet.

  The CPU 10 sets the wireless LAN communication unit 15 so as to perform data transmission / reception for searching the global IP address assignment DB in order to acquire a region corresponding to the global IP address acquired from the network connection by the wireless LAN communication unit 15. Control. As a result, the CPU 10 can acquire the region where the mobile terminal 1 is located.

  Thereafter, the CPU 10 refers to the location DB shown in FIG. 6A and switches the function corresponding to the acquired area.

DESCRIPTION OF SYMBOLS 1 ... Portable terminal 2 ... GPS satellite 3 ... Base station 4 ... Access point 10 ... CPU
11 ... ROM
12 ... RAM
13 ... Display 14 ... Touch panel 15 ... Wireless LAN communication unit 16 ... 3G communication unit 17 ... GPS communication unit

Claims (7)

Current location information acquisition means for acquiring current location information of the aircraft,
Current location determination means for determining the position of the own machine based on the current location information acquired by the current location information acquisition means;
When it is determined that the own device is located at the first predetermined location based on the determination result of the current location judging means, the wireless LAN function is enabled, and the own device is determined to be located at the second location Control means for invalidating the function of the wireless LAN;
Display means,
In the case where the control unit determines that the own device is not located in the first predetermined location or the second predetermined location,
When the display means changes from the ON state to the OFF state, the wireless LAN function is disabled,
A portable information terminal device that activates the function of the wireless LAN when the display means changes from an OFF state to an ON state . The portable terminal device according to claim 1 ,
The portable information terminal device, wherein the control means acquires the current location information to the current location information acquisition means when the display means changes from an OFF state to an ON state. The portable information terminal device according to claim 1 or 2 , wherein
When the display means changes from an ON state to an OFF state, the control means causes the current position information acquisition means to stop acquiring the current position information. A portable information terminal device according to any one of claims 1 to 3 ,
The current location information acquisition means periodically acquires the current location information of the own machine,
When the current location determination unit determines that the device is located at the first predetermined location or the second predetermined location, the control unit periodically sends the current location information acquisition unit to the current location information acquisition unit. A portable information terminal device that stops acquiring current location information. A portable information terminal device according to any one of claims 1 to 4 ,
The current location information acquisition means performs a first acquisition process for acquiring current location information with coarse accuracy of the own device based on position information of another device,
The current location determination means determines the position of the own device based on the current location information acquired by the first acquisition process,
The current location information acquisition means, when the current location determination means determines that the device is located at the first predetermined location or the second predetermined location based on the first acquisition processing, the current location information with high accuracy. Perform a second acquisition process to acquire information,
The current location determination means outputs the determination result based on the current location information acquired by the second acquisition process.
Portable information terminal device. A current location information acquisition step for acquiring current location information of the aircraft;
A current location determination step of determining the position of the own machine based on the current location information acquired by the current location information acquisition step;
When it is determined that the own device is located at the first predetermined location based on the determination result of the current location determination step, the wireless LAN function is enabled, and the own device is determined to be located at the second location A switching step for disabling the wireless LAN function;
When it is determined that the aircraft is not located in the first predetermined location or the second predetermined location,
When the display state of the device changes from the ON state to the OFF state, the wireless LAN function is disabled,
When the display state changes from an OFF state to an ON state, a function switching method is executed , wherein a step of enabling the function of the wireless LAN is executed. A current location information acquisition step for acquiring current location information of the aircraft;
A current location determination step of determining the position of the own machine based on the current location information acquired by the current location information acquisition step;
When it is determined that the own device is located at the first predetermined location based on the determination result of the current location determination step, the wireless LAN function is enabled, and the own device is determined to be located at the second location A switching step for disabling the wireless LAN function;
When it is determined that the aircraft is not located in the first predetermined location or the second predetermined location,
When the display state of the device changes from the ON state to the OFF state, the wireless LAN function is disabled,
A function switching program for causing a portable information terminal device to execute a step of enabling the function of the wireless LAN when the display state changes from an OFF state to an ON state .

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