JP5743951B2 - Position information notification system, portable electronic device, and communication program - Google Patents

Description

  The present application relates to a position information notification system, a portable electronic device, and a communication program.

  A portable electronic device such as a cellular phone can receive a notification-type message distributed simultaneously from a base station of a contracting telecommunications carrier (see Patent Document 1). For example, notification type messages that can be received by a portable electronic device include emergency earthquake warnings and tsunami warnings distributed by the Japan Meteorological Agency, disaster information and evacuation information transmitted by local governments, and the like.

  The notification type message described above is described in a service called BCSMS (Broad Cast Short Message Service) that broadcasts broadcast messages to the target devices, or by a number of characters within a predetermined number for the devices in the target area. It is distributed to mobile electronic devices by the service of a telecommunications carrier that distributes emails simultaneously.

JP 2007-148837 A

  Incidentally, some portable electronic devices such as mobile phones have a function of notifying specific devices of position information measured using GPS (Global Positioning System). For example, in view of a special situation such as at the time of a disaster, there is room for improvement in a method for notifying a specific device of its own location information.

  From the above, there is a need for a position information notification system, a portable electronic device, and a communication program that can easily notify their position information.

  A position information notification system according to one aspect is a position information notification system including a first portable electronic device and a second portable electronic device that can communicate with each other via a communication network, wherein the first portable electronic device The device includes a communication unit that performs communication, and a control unit that controls processing related to communication using the communication unit that is executed between the second portable electronic device, and the control unit includes the communication unit When a predetermined notification is received by the unit, the communication unit transmits a message requesting the positioning of the second portable electronic device to the second portable electronic device, and the second portable electronic device When a message for informing position information is received from the device, a position measurement process is executed, and a message for informing the position information is sent to the second portable electronic device by the communication unit. The second portable electronic device includes a communication unit that performs communication, and a control unit that controls processing related to communication using the communication unit that is performed between the first portable electronic device. The control unit included in the second portable electronic device uses the communication unit included in the second portable electronic device to request the predetermined positioning or the position measurement transmitted from the first portable electronic device. When at least one of the above is received, a position measurement process is executed, and a message for notifying information on the measured position is transmitted to the first portable electronic device by the communication unit included in the second portable electronic device. Send.

  A portable electronic device according to one aspect includes a communication unit that performs communication, and a control unit that controls processing related to communication using the communication unit that is executed between specific devices, and the control unit includes: When a predetermined notification is received by the communication unit, a message requesting the positioning of the specific device is transmitted to the specific device by the communication unit, and the position information is notified from the specific device. When a message for receiving is received, a position measurement process is executed, and a message for notifying information on the position of the position is transmitted to the specific device by the communication unit.

  A communication program according to one aspect includes a step of receiving a predetermined notification by the communication unit to a portable electronic device having a communication unit that performs communication, and a specific device when receiving the predetermined notification. The step of transmitting a message for requesting the positioning of the specific device by the communication unit, and when receiving the message for informing the position information from the specific device, executing the positioning processing, And a step of transmitting a message for informing information on the position of positioning to the specific device by the communication unit.

FIG. 1 is a diagram illustrating a conceptual configuration of a system according to an embodiment. FIG. 2 is a front view showing a schematic configuration of the appearance of the mobile phone 1 according to the embodiment. FIG. 3 is a side view showing a schematic configuration of the appearance of the mobile phone 1 shown in FIG. FIG. 4 is a front view showing a schematic configuration of the appearance of the mobile phone 3 according to the embodiment. 5 is a block diagram showing an example of the functional configuration of the mobile phone 1 shown in FIGS. 2 and 3 and the functional configuration of the mobile phone 3 shown in FIG. FIG. 6 is a diagram illustrating an example of processing executed between the mobile phone 1 and the mobile phone 3. FIG. 7 is a diagram illustrating an example of a processing procedure corresponding to FIG. FIG. 8 is a diagram illustrating another example of the functional configuration of the mobile phone 1 and the functional configuration of the mobile phone 3. FIG. 9 is a diagram illustrating another example of processing executed between the mobile phone 1 and the mobile phone 3. FIG. 10 is a diagram illustrating an example of a processing procedure corresponding to FIG. FIG. 11 is a diagram illustrating another example of processing executed between the mobile phone 1 and the mobile phone 3. FIG. 12 is a diagram illustrating an example of a processing procedure corresponding to FIG. FIG. 13 is a diagram illustrating an example of a processing procedure when the mobile phone 1 and the mobile phone 3 transmit messages to each other. FIG. 14 is a diagram illustrating another example of a processing procedure when the mobile phone 1 and the mobile phone 3 transmit messages to each other.

  Embodiments for implementing a position information notification system, a portable electronic device, and a communication program according to the present application will be described in detail with reference to the drawings. The following description does not limit the position information notification system, portable electronic device, and communication program according to the present application. The constituent elements in the following description include those that can be easily assumed by those skilled in the art, those that are substantially the same, and those in a so-called equivalent range. In the following, a mobile phone is taken as an example of a mobile electronic device, but the application target of the present invention is not limited to a mobile phone, and can be applied to other devices capable of communication. For example, the present invention can also be applied to a multi-function mobile phone (smart phone) having a touch screen, a PHS (Personal Handy-Phone System), a PDA (Personal Digital Assistant), a portable navigation device, a notebook computer, a game machine, and the like.

(Embodiment)
FIG. 1 is a diagram illustrating a conceptual configuration of a system according to an embodiment. As shown in FIG. 1, the system according to the embodiment includes a mobile phone 1 and a mobile phone 3 that can communicate with each other via a communication network 10. The communication network 10 is, for example, the Internet or a public telephone network (circuit switching network).

  FIG. 2 is a front view showing a schematic configuration of the appearance of the mobile phone 1 according to the embodiment. FIG. 3 is a side view showing a schematic configuration of the appearance of the mobile phone 1 shown in FIG. As shown in FIGS. 2 and 3, the mobile phone 1 has a foldable housing. Specifically, the housing 1C of the mobile phone 1 is configured to be openable and closable by a first housing 1CA and a second housing 1CB as shown in FIG. The housing of the mobile phone 1 is not limited to such a structure. For example, the housing of the mobile phone 1 is a sliding housing that allows one housing and the other housing to slide from each other in a state in which two housings constituting the mobile phone 1 are overlapped. May be. Alternatively, the casing of the mobile phone 1 is one in which one casing is rotated around the axis line along the overlapping direction of the two casings constituting the mobile phone 1, and both of the two casings are connected via the biaxial hinge. What connected the housing | casing may be used. Or as shown in FIG.2 and FIG.3, the mobile telephone 1 is not limited to what connected the some housing | casing, A housing | casing may be a single structure like a smart phone.

  As shown in FIG. 2, the first housing 1CA and the second housing 1CB are connected by a hinge mechanism 8 that is a connecting portion. When the first housing 1CA and the second housing 1CB are connected by the hinge mechanism 8, the first housing 1CA and the second housing 1CB rotate together around the hinge mechanism 8 as shown in FIG. It is comprised so that it can rotate in the direction shown by the arrow R. That is, the first casing 1CA and the second casing 1CB can be rotated in a direction away from each other or a direction approaching each other. As shown by the dotted line in FIG. 3, when the mobile phone 1 is in the folded state, when the first casing 1CA and the second casing 1CB are rotated away from each other, as shown by the solid line in FIG. 3. In addition, the mobile phone 1 is opened. As shown by the solid line in FIG. 3, when the cellular phone 1 is in the open state, the first casing 1CA and the second casing 1CB are rotated in the direction approaching each other, as shown by the dotted line in FIG. In addition, the mobile phone 1 is folded.

  The first housing 1CA is provided with a display 2 shown in FIG. 2 as a display unit. The display 2 displays a standby image when the mobile phone 1 is waiting for reception, or displays a menu image used to assist the operation of the mobile phone 1. The first housing 1CA is provided with a receiver 13 that is an output means for outputting voice when the mobile phone 1 is talking. The first housing 1CA is provided with a camera 17 for taking an image.

  The second housing 1CB is provided with an operation key 14A and a direction and determination key 14B. The operation key 14A is used to input a telephone number of a call partner or characters when creating a mail. The direction and determination key 14B is used to easily execute selection and determination of a menu displayed on the display 2 or scrolling of the screen. The operation key 14 </ b> A and the direction and determination key 14 </ b> B constitute the operation unit 14 of the mobile phone 1. In addition, the second casing 1CB is provided with a microphone 11 that acquires various sounds such as a voice during a call, a voice uttered by a user when using voice search, and a sound used during noise cancellation processing. The operation unit 14 is provided on the operation surface 1PC of the second housing 1CB shown in FIG. The surface opposite to the operation surface 1PC is the back surface 1PB of the mobile phone 1. Note that the operation unit 14 may be a touch sensor arranged on the display unit instead of the key configuration described above.

  FIG. 4 is a front view showing a schematic configuration of the appearance of the mobile phone 3 according to the embodiment. As shown in FIG. 4, the mobile phone 3 is provided with an antenna 31 for transmitting and receiving radio waves, a display 32 for displaying various images, an operation unit 33 used for operation input, and a receiver 36 for outputting sound. Yes.

  FIG. 5 is a diagram showing an example of the functional configuration of the mobile phone 1 shown in FIGS. 2 and 3 and the functional configuration of the mobile phone 3 shown in FIG.

  As illustrated in FIG. 5, the mobile phone 1 includes a microphone 11, a speaker 12, a receiver 13, an operation unit 14, an acceleration sensor 15, a display unit 16, a camera 17, a communication unit 18, and audio processing. Unit 20, storage unit 40, and control unit 100.

  The microphone 11 inputs an audio signal such as audio during a call. The speaker 12 is disposed, for example, in the housing 1C of the mobile phone 1 and outputs a ringtone, a mail transmission sound, and the like. The receiver 13 outputs, for example, voice during a call.

  As described above, the operation unit 14 includes the operation keys 14A and the direction and determination keys 14B, and is provided on the operation surface 1PC of the second housing 1CB illustrated in FIG. Functions such as a power key, a call key, a numeric key, a character key, a direction key, a determination key, and a call key are assigned to the operation key 14A, and a direction key, a determination key, and the like are assigned to the direction and determination keys 13B, for example. Function is assigned. When these keys are input by a user operation, the operation unit 14 generates a signal corresponding to the operation content. The generated signal is input to the control unit 100 as a user instruction.

  The acceleration sensor 15 detects the direction and magnitude of acceleration applied to the mobile phone 1. The detection result of the acceleration sensor 15 can also be used, for example, when the orientation of the mobile phone 1 is known and when the change of the orientation of the mobile phone 1 or the presence or absence of movement of the mobile phone 1 is determined.

  As described above, the display unit 16 includes the display 2 and displays a video corresponding to the video data supplied from the control unit 100 and an image corresponding to the image data on the display panel. The display 2 is configured by a display panel configured by, for example, a liquid crystal display (LCD, Liquid Crystal Display), an organic EL (Organic Electro-Luminescence) panel, or the like. The display unit 16 may have a sub display in addition to the display 2. The camera 17 acquires a captured image.

  The communication unit 18 includes an antenna 18a, establishes a radio signal line by a CDMA (Code Division Multiple Access) method or the like with a base station via a channel assigned by the base station, Then, telephone communication and information communication are performed with a mobile phone 3 to be described later. Further, the communication unit 18 receives a radio signal in a predetermined frequency band from a GPS satellite, performs demodulation processing on the received radio signal, and sends the processed signal to the control unit 100. In addition to the communication unit 18, a communication unit that performs only communication with GPS satellites may be provided.

  The audio processing unit 20 performs processing of an audio signal input to the microphone 11 and an audio signal output from the speaker 12 and the receiver 13. That is, the audio processing unit 20 amplifies the audio input from the microphone 11 and performs analog-digital conversion, and then performs signal processing such as encoding to convert the digital audio data to the control unit 100. Output. In addition, the audio data sent from the control unit 100 is subjected to processing such as decoding, digital-analog conversion, amplification, and the like, converted into an analog audio signal, and output to the speaker 12 and the receiver 13.

  The storage unit 40 stores various programs and various data used for processing in the control unit 100 such as an operating system program and an application program. For example, the storage unit 40 includes a task for operating an application program for controlling the operation of the display unit 16, a task for operating an application program for controlling the operation of the communication unit 18, and an application program for controlling the operation of the audio processing unit 20. Tasks to be activated are stored. In addition to these tasks, the storage unit 40 describes, for example, downloaded voice data, a program used by the control unit 100 to control the storage unit 40, at least a telephone number and an e-mail address assigned to the mobile phone 3. The stored address book, voice files such as dial tone and ring tone, temporary data used in the process based on the program are stored.

  In the present embodiment, the storage unit 40 stores at least a program for controlling processing related to communication executed with another mobile phone. Alternatively, in the storage unit 40, when a notification type predetermined message such as an earthquake early warning and a tsunami warning distributed by the Japan Meteorological Agency, a disaster information and an evacuation information transmitted by a local public organization, or the like is received, A program for automatically generating a message for requesting positioning and transmitting it to the mobile phone 3 is stored. Alternatively, when a message for informing position information is received from the mobile phone 3, the storage unit 40 executes position positioning processing using GPS and automatically generates a message for informing the position information. And the program for performing the process transmitted with respect to the mobile telephone 3 is memorize | stored.

  The control unit 100 executes processing based on various programs stored in the storage unit 40. The control unit 100 includes, for example, a microprocessor unit (MPU: Micro Processing Unit), sequentially reads instruction codes from a program stored in the storage unit 40, and follows the procedure instructed by the read instruction codes. The various processes are executed. That is, the control unit 100 displays the display unit so that various processes of the mobile phone 1 are executed in an appropriate procedure according to the operation of the operation unit 14 and the program stored in the storage unit 40 of the mobile phone 1. 16, the operation of the communication unit 18 and the voice processing unit 20 is controlled.

  As illustrated in FIG. 5, the control unit 100 includes a position positioning request unit 110 and a position information notification unit 120.

  The position positioning requesting unit 110 requests position positioning when receiving a notification type predetermined message such as an emergency earthquake warning and tsunami warning distributed by the Japan Meteorological Agency, disaster information and evacuation information transmitted by a local government, etc. Is automatically generated and transmitted to the mobile phone 3.

  More specifically, when the position measurement requesting unit 110 receives a message via the communication unit 18, the received message is a notification-type predetermined message such as emergency earthquake warning, tsunami warning, disaster information, or evacuation information. It is determined whether or not. For example, in the case of a broadcast message of simultaneous delivery type using BCSMS or the like, the positioning requesting unit 110 determines whether or not the broadcast area of the extended system parameter of the received message is set in the paging channel. Subsequently, when the area for broadcasting the received message is set to the paging channel, the positioning requesting unit 110 confirms the signal described in the area, thereby notifying the emergency earthquake bulletin etc. Determine if it is a message of the type. Alternatively, if the area positioning request unit 110 is an area mail that is simultaneously distributed by a communication carrier, the position measurement requesting unit 110 checks the parameters of the system area provided in the header of the area mail, thereby providing a notification type such as an emergency earthquake warning. It is determined whether the message is a predetermined message.

  As a result of the determination, if it is a notification type predetermined message such as an emergency earthquake warning, the positioning request unit 110 reads the mail address of the mobile phone 3 from the storage unit 40 and A message for requesting positioning is automatically generated and transmitted by the communication unit 18. At this time, the position measurement requesting unit 110 transmits a message after inserting a parameter indicating that the message is a message for requesting position measurement into the header of the automatically generated message.

  When the location information notification unit 120 receives a message for notifying location information from the mobile phone 3, the location information notification unit 120 executes location positioning processing and transmits a message for notifying the location information to the mobile phone 3. .

  Specifically, the position information notification unit 120 determines whether or not the message received from the mobile phone 3 via the communication unit 18 is a message for notifying position information. For example, it is determined whether or not a parameter indicating that it is a message for notifying position information is embedded in the header of a message received from the mobile phone 3. When the message received from the mobile phone 3 is a message for notifying the position information, the position information notification unit 120 executes the position measurement process based on the radio wave signal from the GPS satellite and determines the position of the own device. Measure. The location information notification unit 120 reads the mail address of the mobile phone 3 from the storage unit 40, automatically generates a message for notifying the measured location, and transmits the message to the mobile phone 3 by the communication unit 18. At this time, the position information notification unit 120 transmits a message after inserting a parameter indicating the message for notifying position information in the header of the message to be automatically generated.

  As shown in FIG. 5, the mobile phone 3 includes an operation unit 33, a microphone 34, a speaker 35, a receiver 36, a display unit 37, a communication unit 38, an audio processing unit 50, a storage unit 70, And a control unit 200.

  The operation unit 33 includes a plurality of keys to which functions such as a numeric key, a direction key, a determination key, and a call key are assigned. When these keys are input by a user operation, the operation unit 33 generates a signal corresponding to the operation content. The generated signal is input to the control unit 200 as a user instruction.

  For example, the microphone 34 inputs an audio signal such as audio during a call. The speaker 35 is disposed, for example, in the housing 1C of the mobile phone 1, and outputs a ringtone, a mail transmission sound, and the like. The receiver 36 outputs, for example, voice during a call.

  The display unit 37 includes a display 32 and displays a video corresponding to the video data supplied from the control unit 200 and an image corresponding to the image data on the display panel.

  The communication unit 38 has an antenna 38a, establishes a radio signal line by a CDMA (Code Division Multiple Access) method or the like with a base station via a channel assigned by the base station, The telephone communication and the information communication are performed with the mobile phone 1 described above. Further, the communication unit 38 receives a radio signal in a predetermined frequency band from a GPS satellite, demodulates the received radio signal, and sends the processed signal to the control unit 100. In addition to the communication unit 38, a communication unit that performs only communication with GPS satellites may be provided.

  The audio processing unit 50 performs processing of an audio signal input to the microphone 34 and an audio signal output from the speaker 35 and the receiver 36.

  The storage unit 70 stores various programs and various data used for processing in the control unit 200 such as an operating system program and an application program. For example, the storage unit 70 includes a task for operating an application program for controlling the operation of the display unit 37, a task for operating an application program for controlling the operation of the communication unit 38, and an application program for controlling the operation of the audio processing unit 50. Tasks to be activated are stored. In addition to these tasks, the storage unit 70 includes, for example, communication, downloaded voice data, a program used by the control unit 200 to control the storage unit 70, at least a telephone number and a mail address assigned to the mobile phone 1, and the like. Are stored, such as an address book in which is written, voice files such as dial tone and ring tone, and temporary data used in the process based on the program.

  In the present embodiment, the storage unit 70 includes at least a program for controlling processing related to communication executed with other mobile phones, emergency earthquake warnings and tsunami warnings distributed by the Japan Meteorological Agency, and local governments. When at least one of notification-type predetermined messages such as disaster information and evacuation information or a message requesting positioning of the position transmitted from the mobile phone 1 is received, a position positioning process using GPS is executed. A program for automatically generating a message for informing the position information of the position and transmitting the information to the mobile phone 1 is stored.

  The control unit 200 executes processing based on various programs stored in the storage unit 70. The control unit 200 is composed of, for example, a microprocessor unit, sequentially reads instruction codes from a program stored in the storage unit 70, and executes various processes of the mobile phone 3 according to procedures instructed by the read instruction codes. .

  As shown in FIG. 5, the control unit 200 includes a position information notification unit 210. The location information notifying unit 210 performs a predetermined notification type message such as emergency earthquake warning and tsunami warning delivered by the Japan Meteorological Agency, disaster information and evacuation information sent by local public bodies, and positioning of the location transmitted from the mobile phone 1. When at least one of the requested messages is received, a position measurement process using GPS is executed, and a message for notifying information on the position of the position is transmitted to the mobile phone 1.

  Specifically, when the location information notification unit 210 receives a message via the communication unit 38, the received message is an emergency earthquake warning and tsunami warning distributed by the Japan Meteorological Agency, disaster information and evacuation information transmitted by a local public entity. It is determined whether the message is a predetermined notification type message or a message requesting the positioning of the position transmitted from the mobile phone 1. For example, in the case of a broadcast message of simultaneous delivery type using BCSMS or the like, the positioning requesting unit 110 determines whether or not the broadcast area of the extended system parameter of the received message is set in the paging channel. Subsequently, when the area for broadcasting the received message is set to the paging channel, the positioning requesting unit 110 confirms the signal described in the area, thereby notifying the emergency earthquake bulletin etc. Determine if it is a message of the type. Alternatively, if the area positioning request unit 110 is an area mail that is simultaneously distributed by a communication carrier, the position measurement requesting unit 110 checks the parameters of the system area provided in the header of the area mail, thereby providing a notification type such as an emergency earthquake warning. It is determined whether the message is a predetermined message. For example, the position information notification unit 210 determines whether or not a parameter indicating that the message is a message for requesting position measurement is embedded in the header of a message received from the mobile phone 1. When the received message is an emergency earthquake warning and tsunami warning, a predetermined notification type message such as disaster information and evacuation information transmitted by a local public body, or a message requesting positioning of the position transmitted from the mobile phone 1 The position information notification unit 210 executes a position positioning process based on a radio wave signal from a GPS satellite, and measures the position of the own device. The location information notification unit 210 reads the mail address of the mobile phone 1 from the storage unit 70, automatically generates a message for notifying the measured location, and transmits the message to the mobile phone 1 by the communication unit 38. At this time, the position information notifying unit 210 transmits a message after inserting a parameter indicating that it is a message notifying position information into a header of a message to be automatically generated.

  For example, if the location information notification unit 210 receives a message requesting positioning of a location transmitted from the mobile phone 1 after receiving a message such as an earthquake early warning, the location information notification unit 210 executes the reception of the earthquake early warning as a trigger. The position determined by the position determination process is transmitted to the mobile phone 1. Alternatively, when the position information notification unit 210 receives a message requesting the positioning of the position transmitted from the mobile phone 1 within a predetermined time after receiving the message such as the earthquake early warning, the positioning of the position is performed. The position measurement process may be executed again with the reception of a message requesting the message as a trigger, and the measured position may be transmitted to the mobile phone 1. Alternatively, the position information notification unit 210 receives an emergency earthquake warning message or the like and then receives a message requesting positioning of the position transmitted from the mobile phone 1 within a predetermined time. You may make it transmit the position measured by the position positioning process performed by reception of earthquake early warning to the mobile telephone 1 as a trigger. The position information notification unit 210 uses a message reception as a trigger regardless of whether the message received earlier is a message such as an earthquake early warning or a message requesting positioning of the position transmitted from the mobile phone 1. Execute the positioning process only once. Alternatively, the position information notification unit 210 executes position positioning processing using a message such as an earthquake early warning as a trigger, and performs position positioning processing using a message requesting positioning of the position transmitted from the mobile phone 1 as a trigger. It is also possible to transmit the information on both positions executed in each processing to the mobile phone 1.

  As a message transmitted by the mobile phone 1 and the mobile phone 3, for example, so-called carrier mail provided by a communication carrier may be used, or between the communication carrier subscribed by the user of the mobile phone 1 and the mobile phone 3. If the telecommunications carrier to which the user subscribes is the same, short mail may be used. If it is a smartphone, SMS, MMS, Web mail, etc. may be used in addition to carrier mail.

  FIG. 6 is a diagram illustrating an example of processing executed between the mobile phone 1 and the mobile phone 3. FIG. 6 shows an example of processing when the mobile phone 3 receives a message requesting the positioning of the position transmitted from the mobile phone 1 triggered by the reception of the earthquake early warning, prior to the earthquake early warning.

  As illustrated in FIG. 6, when the mobile phone 1 receives the earthquake early warning, the mobile phone 1 transmits a message requesting position measurement to the mobile phone 3 (step S11). When the mobile phone 3 receives at least one of the emergency self-report or the message requesting the positioning from the mobile phone 1, the mobile phone 3 executes the position positioning process of the own device (step S12). Subsequently, the mobile phone 3 automatically generates a message for notifying the information on the measured position and transmits it to the mobile phone 1 (step S13). When the mobile phone 1 receives a message for notifying the location information from the mobile phone 3, the mobile phone 1 executes a position positioning process of the own device (step S14). Subsequently, the mobile phone 1 automatically generates a message for notifying the position that has been measured, and transmits the message to the mobile phone 3 (step S15).

  An example of a processing procedure executed between the mobile phone 1 and the mobile phone 3 will be described with reference to FIG. FIG. 7 is a diagram illustrating an example of a processing procedure corresponding to FIG. The processing procedure illustrated in FIG. 7 is realized by the control unit 100 executing the program stored in the storage unit 40 and the control unit 200 executing the program stored in the storage unit 70. The processing procedure shown in FIG. 7 is repeatedly executed when both the mobile phone 1 and the mobile phone 3 are activated.

  As shown in FIG. 7, when receiving the earthquake early warning via the communication unit 18 in step S101, the position positioning requesting unit 110 automatically generates a message for requesting position positioning and carries it in step S102. Transmit to the telephone 3.

  When the position information notification unit 210 receives a message requesting the positioning of the position from the mobile phone 1 as step S103, the position information notification unit 210 executes a position positioning process as step S104. Subsequently, the position information notifying unit 210 automatically generates a message for notifying the information of the measured position and transmits it to the mobile phone 1 in step S105.

  When the position information notification unit 120 receives a message for notifying the position information from the mobile phone 3 at step S106, the position information notification unit 120 executes the position positioning process of the own device at step S107. Subsequently, the position information notifying unit 120 automatically generates a message for notifying the information on the measured position and transmits it to the mobile phone 3 in step S108.

  When the control unit 200 receives a message for notifying location information from the mobile phone 1 as step S109, the processing procedure shown in FIG.

  In the system according to the above-described embodiment, when the mobile phone 1 receives the earthquake early warning, the mobile phone 1 transmits a message requesting the positioning of the position to the mobile phone 3. When the mobile phone 3 receives at least one of the earthquake early warning or the message for requesting the positioning transmitted from the mobile phone 1, the mobile phone 3 executes the positioning process and notifies the information of the positioned position. Is transmitted to the mobile phone 1. The mobile phone 1 that has received the message for notifying the position information from the mobile phone 3 executes the position positioning process and transmits a message for notifying the position information to the mobile phone 1. That is, according to the above-described embodiment, for example, as shown in FIG. 6 or FIG. 7, when a predetermined message such as an earthquake early warning is received, the mobile phone 1 carries the mobile phone 3 from the mobile phone 1 side. It actively works to notify the current position of the telephone 3. Therefore, for example, even when the earthquake early warning is not received by the mobile phone 3, the mobile phone 1 can cause the mobile phone 3 to transmit the current position. In this way, the mobile phone 1 and the mobile phone 3 can easily notify their location information.

  In the above-described embodiment, when the mobile phone 1 receives the earthquake early warning, the mobile phone 3 transmits a message for requesting the positioning of the position to the mobile phone 3, and the mobile phone 3 receives the earthquake early warning or the mobile phone 1. The example of executing the position positioning process when at least one of the messages requesting the positioning of the position transmitted from is received has been described, but the present invention is not limited to this.

  FIG. 8 is a diagram illustrating another example of the functional configuration of the mobile phone 1 and the functional configuration of the mobile phone 3. The example of the functional configuration illustrated in FIG. 8 is different from the functional configuration illustrated in FIG. 5 in that the control unit 100 includes only the position information notification unit 120 and the points described below.

  The storage unit 40 of the mobile phone 1 uses GPS when receiving notification-type predetermined messages such as emergency earthquake warnings and tsunami warnings distributed by the Japan Meteorological Agency, disaster information and evacuation information transmitted by local governments, etc. A program for executing a position measurement process, automatically generating a message for notifying information of the position that has been measured, and transmitting the message to the mobile phone 3 is stored.

  The location information notification unit 120 of the mobile phone 1 uses GPS when receiving a predetermined notification-type message such as an earthquake early warning and tsunami warning distributed by the Japan Meteorological Agency, disaster information and evacuation information transmitted by local governments, etc. The position positioning process is executed, a message for notifying the information of the position that has been positioned is automatically generated and transmitted to the mobile phone 3.

  In the storage unit 70 of the mobile phone 3, an emergency earthquake warning and tsunami warning distributed by the Japan Meteorological Agency, notification-type predetermined messages such as disaster information and evacuation information transmitted by local governments, or positions transmitted from the mobile phone 1 When at least one of the messages for notifying the information is received, the position measurement processing is executed based on the radio wave signal from the GPS satellite, and a message for notifying the information of the positioned position is automatically generated to the mobile phone 1 A program for executing processing to be transmitted is stored.

  The location information notification unit 120 of the mobile phone 3 is transmitted from the mobile phone 1 as a notification type predetermined message such as an emergency earthquake warning and tsunami warning delivered by the Japan Meteorological Agency, disaster information and evacuation information sent by local governments, or the like. When at least one of the messages notifying the position information is received, a position positioning process is executed based on the radio wave signal from the GPS satellite, and a message for notifying the position information is sent to the mobile phone 1. Send. The position information notification unit 210 uses the message reception as a trigger regardless of whether the previously received message is a message such as an earthquake early warning or a message requesting positioning of the position transmitted from the mobile phone 1. Execute the positioning process.

  FIG. 9 is a diagram illustrating another example of processing executed between the mobile phone 1 and the mobile phone 3. FIG. 9 shows an example of processing in the case where the mobile phone 3 receives a message notifying the location information transmitted from the mobile phone 1 triggered by the reception of the earthquake early warning, before the earthquake early warning.

  As shown in FIG. 9, when the mobile phone 1 receives the earthquake early warning, the mobile phone 1 executes a position positioning process of its own device (step S21). Subsequently, the mobile phone 1 automatically generates a message for notifying the information of the measured position and transmits it to the mobile phone 3 (step S22). When the mobile phone 3 receives at least one of the earthquake early warning or the message notifying the location information transmitted from the mobile phone 1, the mobile phone 3 executes the position positioning process of the own device (step S 23). Subsequently, the mobile phone 3 automatically generates a message for notifying the information of the measured position and transmits it to the mobile phone 1 (step S24).

  FIG. 10 is a diagram illustrating an example of a processing procedure corresponding to FIG. The processing procedure illustrated in FIG. 10 is realized by the control unit 100 executing the program stored in the storage unit 40 and the control unit 200 executing the program stored in the storage unit 70. The processing procedure shown in FIG. 10 is repeatedly executed when both the mobile phone 1 and the mobile phone 3 are activated.

  As illustrated in FIG. 10, when the location information notification unit 120 receives the earthquake early warning via the communication unit 18 as step S201, the location information notification unit 120 executes the location measurement process of its own device as step S202. Subsequently, the position information notifying unit 120 automatically generates a message for notifying the information of the measured position and transmits it to the mobile phone 3 in step S203.

  When the position information notification unit 210 receives a message for notifying the position information from the mobile phone 1 in step S204, the position information notification unit 210 executes position positioning processing in step S205. Subsequently, the position information notification unit 210 automatically generates a message for notifying the position information of the measured position and transmits it to the mobile phone 1 in step S206.

  When the control unit 100 receives a position notification message from the mobile phone 3 as step S207, the processing procedure shown in FIG.

  As described above, according to FIGS. 8 to 10, the processing procedure executed by the mobile phone 1 is less than that shown in FIG. 6 or FIG. And share each other's location information.

  In the case shown in FIG. 6, FIG. 7, FIG. 9, or FIG. 10, a message for requesting positioning from the mobile phone 1 to the mobile phone 3 or location information is triggered by the reception of the earthquake early warning. An example of processing when a message for notification is transmitted has been described. 11 and 12, an example of processing when a message for notifying location information is transmitted from the mobile phone 3 to the mobile phone 1 using the reception of the earthquake early warning as a trigger will be described.

  FIG. 11 is a diagram illustrating another example of processing executed between the mobile phone 1 and the mobile phone 3. FIG. 11 shows an example of processing when the mobile phone 1 receives a message notifying the location information transmitted from the mobile phone 3 with the reception of the earthquake early warning as a trigger before the earthquake early warning.

  As shown in FIG. 11, when the mobile phone 3 receives the earthquake early warning, the mobile phone 3 executes a position positioning process of its own device (step S31). Subsequently, the mobile phone 3 automatically generates a message for notifying the information of the measured position and transmits it to the mobile phone 1 (step S32). When the mobile phone 3 receives the message notifying the position information transmitted from the mobile phone 1, the mobile phone 3 executes the position positioning process of the own device (step S33). Subsequently, the cellular phone 1 automatically generates a message for notifying the information of the measured position and transmits it to the cellular phone 3 (step S34).

  FIG. 12 is a diagram illustrating an example of a processing procedure corresponding to FIG. The processing procedure illustrated in FIG. 12 is realized by the control unit 100 executing the program stored in the storage unit 40 and the control unit 200 executing the program stored in the storage unit 70.

  As illustrated in FIG. 12, when the location information notification unit 210 receives the earthquake early warning via the communication unit 38 as step S <b> 301, the location information notification unit 210 executes the location measurement process of the own device as step S <b> 302. Subsequently, the position information notification unit 210 automatically generates a message for notifying the information of the measured position and transmits it to the mobile phone 1 in step S303.

  When the position information notification unit 120 receives a message notifying the position information from the mobile phone 1 in step S304, the position information notification unit 120 executes position positioning processing in step S305. Subsequently, the position information notification unit 120 automatically generates a message for notifying the information of the measured position and transmits it to the mobile phone 1 in step S306.

  When the control unit 200 receives a message notifying location information from the mobile phone 1 as step S307, the processing procedure shown in FIG.

  In the case shown in FIG. 11 and FIG. 12, the mobile phone 1 is actively notified of the current position from the mobile phone 3 side in response to reception of a predetermined message such as an earthquake early warning, and reacts to this. Thus, the current position is notified from the mobile phone 1 to the mobile phone 3. For this reason, for example, even when the earthquake early warning is not received by the mobile phone 1, the mobile phone 3 can cause the mobile phone 1 to transmit information on the current position. In this way, the mobile phone 1 and the mobile phone 3 can easily notify their location information.

  Hereinafter, an example of a processing procedure when both the mobile phone 1 and the mobile phone 3 transmit messages for notifying position information to each other using the reception of the earthquake early warning as a trigger will be described with reference to FIG. FIG. 13 is a diagram illustrating an example of a processing procedure when the mobile phone 1 and the mobile phone 3 transmit messages to each other. The processing procedure illustrated in FIG. 13 is realized by the control unit 100 executing the program stored in the storage unit 40 and the control unit 200 executing the program stored in the storage unit 70.

  As illustrated in FIG. 13, when the location information notifying unit 120 receives the earthquake early warning via the communication unit 18 as step S <b> 401, the location information notifying unit 120 executes the location measurement process of its own device as step S <b> 402. Subsequently, the position information notification unit 120 automatically generates a message for notifying the information of the measured position and transmits it to the mobile phone 3 in step S403. When the position information notification unit 120 receives a message for notifying the position information from the mobile phone 3 at step S404, the position information notifying unit 120 at step S405 transmits a message for notifying the position information of its own device. It is determined whether or not transmission to the mobile phone 3 has been completed. As a result of the determination, when the message for notifying the position information has been transmitted to the mobile phone 3 (step S405, Yes), the position information notifying unit 120 ends the processing procedure. On the contrary, as a result of the determination, if the message for notifying the position information has not been transmitted to the mobile phone 3 (step S405, No), the position information notifying unit 120 described above The position positioning process of step S402 is executed.

  On the other hand, when the location information notification unit 210 receives the earthquake early warning via the communication unit 38 as step S406, the location information notification unit 210 executes the location measurement process of its own device as step S407. Subsequently, in step S <b> 408, the location information notification unit 210 automatically generates a message for notifying the location information and transmits the message to the mobile phone 1. When the position information notification unit 210 receives a message for notifying the position information from the mobile phone 1 at step S409, the position information notification unit 210 transmits a message for notifying the position information of its own device at step S410. It is determined whether or not transmission to the mobile phone 1 has been completed. As a result of the determination, if the message for notifying the position information has been transmitted to the mobile phone 1 (step S410, Yes), the position information notifying unit 210 ends the processing procedure. On the other hand, if the determination result shows that the message for notifying the location information has not been transmitted to the mobile phone 1 (No at Step S410), the location information notification unit 210 described above. The position positioning process of step S407 is executed.

  In the case shown in FIG. 13, since both the cellular phone 1 and the cellular phone 3 transmit messages for notifying location information to each other triggered by the reception of the earthquake early warning, both the cellular phone 1 and the cellular phone 3 are urgent. If the mobile phone 1 and the mobile phone 3 are ready to receive the earthquake early warning, both the mobile phone 1 and the mobile phone 3 can notify their location information quickly and easily after the earthquake occurs. Further, if at least one of the mobile phone 1 and the mobile phone 3 can receive the earthquake early warning, both the mobile phone 1 and the mobile phone 3 notify their location information without much delay from the occurrence of the earthquake. it can.

  Hereinafter, with reference to FIG. 14, the mobile phone 1 transmits a message for notifying information on the position and a message for requesting the position measurement, triggered by the reception of the earthquake early warning, and the mobile phone 3. However, an example of a processing procedure in the case of transmitting messages for notifying position information will be described. FIG. 14 is a diagram illustrating another example of a processing procedure when the mobile phone 1 and the mobile phone 3 transmit messages to each other. The processing procedure illustrated in FIG. 14 is realized by the control unit 100 executing the program stored in the storage unit 40 and the control unit 200 executing the program stored in the storage unit 70.

  As illustrated in FIG. 14, when the location information notification unit 120 receives the earthquake early warning via the communication unit 18 as step S501, the location information notification unit 120 executes the location measurement process of the own device as step S502. Subsequently, in step S <b> 503, the position information notification unit 120 automatically generates a message for notifying the position information and a message for requesting the position measurement, and transmits them to the mobile phone 3. When the position information notification unit 120 receives a message for notifying position information from the mobile phone 3 at step S504, the position information notifying unit 120 requests a message for notifying position information and positioning at step S505. It is determined whether or not a message has been transmitted to the mobile phone 3. As a result of the determination, when the message for notifying the position information and the message for requesting the position positioning have already been transmitted to the mobile phone 3 (Yes in step S505), the position information notifying unit 120. Ends the processing procedure. On the contrary, as a result of the determination, if the message for notifying the position information and the message for requesting the position positioning have not been transmitted to the mobile phone 3 (No in step S505). The position information notification unit 120 executes the position positioning process in step S502 described above.

  On the other hand, when the location information notification unit 210 receives the earthquake early warning via the communication unit 38 as step S506, the location information notification unit 210 executes the location measurement process of its own device as step S507. Subsequently, in step S508, the position information notification unit 210 automatically generates a message for notifying the position information of the position, and transmits the message to the mobile phone 1. When the location information notification unit 210 receives a message for notifying location information and a message for requesting location positioning from the mobile phone 1 in step S509, the location information notifying unit 210 determines whether the location information notification unit 210 has performed positioning in step S510. It is determined whether or not a message for notifying the location information has been transmitted to the mobile phone 1. As a result of the determination, when the message for notifying the position information has been transmitted to the mobile phone 1 (step S510, Yes), the position information notifying unit 210 ends the processing procedure. On the other hand, if the determination result shows that the message for notifying the location information has not been transmitted to the mobile phone 1 (No in step S510), the location information notification unit 210 described above. The position positioning process of step S507 is executed.

  In the case illustrated in FIG. 14, the mobile phone 1 transmits a message for notifying information on a position and a message for requesting position measurement, triggered by reception of the earthquake early warning. For this reason, for example, when at least one of a predetermined message such as an earthquake early warning and a message for requesting a position transmitted from the mobile phone 1 is received, the position positioning process is implemented. Even if the mobile phone 3 is not in a situation where it can receive the earthquake early warning, the location information can be notified as quickly as possible by transmitting a message requesting the positioning from the mobile phone 1.

  The characterizing embodiments have been described in order to fully and clearly disclose the technology according to the appended claims. However, the appended claims should not be limited to the above-described embodiments, but all modifications and alternatives that can be created by those skilled in the art within the scope of the basic matters shown in this specification. Should be embodied by a simple configuration.

DESCRIPTION OF SYMBOLS 1, 3 Mobile phone 1C Case 11, 34 Microphone 12, 35 Speaker 13, 36 Receiver 14, 33 Operation part 15 Acceleration sensor 16, 37 Display part 17 Camera 18, 38 Communication part 20, 50 Audio | voice processing part 40, 70 Memory | storage Unit 100, 200 control unit 110 position positioning request unit 120 position information notification unit 210 position information notification unit

Claims (4)

A position information notification system including a first portable electronic device and a second portable electronic device that can communicate with each other via a communication network,
The first portable electronic device is:
A communication unit for communication;
A control unit that controls processing related to communication using the communication unit that is executed with the second portable electronic device;
The controller is
When a predetermined notification is received by the communication unit, a message requesting positioning of the second portable electronic device is transmitted by the communication unit to the second portable electronic device,
When a message for informing position information is received from the second portable electronic device, a position positioning process is executed, and a message for informing the position information is sent to the second portable electronic device. Transmitted by the communication unit,
The second portable electronic device is
A communication unit for communication;
A control unit that controls processing related to communication using the communication unit that is executed with the first portable electronic device;
The control unit included in the second portable electronic device is:
When at least one of the predetermined notification or the message requesting the positioning transmitted from the first portable electronic device is received by the communication unit of the second portable electronic device, the position positioning process is executed. Then, a position information notification system for transmitting a message for notifying the information of the measured position to the first portable electronic device by a communication unit included in the second portable electronic device. A position information notification system including a first portable electronic device and a second portable electronic device that can communicate with each other via a communication network,
The first portable electronic device is:
A communication unit for communication;
A control unit that controls processing related to communication using the communication unit that is executed with the second portable electronic device;
The controller is
When a predetermined notification is received by the communication unit, a position measurement process is performed, and a message for notifying information on the position of the position is transmitted to the second portable electronic device by the communication unit,
The second portable electronic device is
A communication unit for communication;
A control unit that controls processing related to communication using the communication unit that is executed with the first portable electronic device;
The control unit included in the second portable electronic device is:
When the communication unit included in the second portable electronic device receives the predetermined notification or a message notifying the position information from the first portable electronic device, the position measurement process is executed, and the position information obtained by positioning is executed. A position information notification system for transmitting a message for informing the first portable electronic device to the first portable electronic device using a communication unit included in the second portable electronic device. A communication unit for communication;
A control unit that controls processing related to communication using the communication unit executed with a specific device;
The controller is
When a predetermined notification is received by the communication unit, a message for requesting the positioning of the specific device is transmitted to the specific device by the communication unit,
A portable electronic device that, when receiving a message notifying position information from the specific device, executes a position measurement process and transmits a message for notifying information on the position determined by the communication unit to the specific device. machine. In a portable electronic device having a communication unit for communication,
Receiving a predetermined notification by the communication unit;
A step of transmitting a message for requesting position measurement of the specific device to the specific device when the predetermined notification is received;
A step of executing a position measurement process when receiving a message notifying position information from the specific device, and transmitting a message for notifying the position information by the communication unit to the specific device; A communication program that executes and.

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