JP2012186599A - Portable terminal device, state notification method, and program - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a portable terminal device capable of transmitting safety information for a long time by suppressing power consumption.SOLUTION: Following processes are performed in a portable terminal device 1. An acceleration detection part 112 measures the acceleration of the portable terminal device 1. A time measurement part 114 measures a passage time from the last detection of the acceleration by the acceleration detection part 112, and a radio communication part 111 transmits safety information when a predetermined time elapses. The time measurement part 114 measures a passage time from the last transmission of the safety information, and the radio communication part 111 repeats the transmission of the safety information whenever the predetermined time elapses without the detection of the acceleration by the acceleration detection part 112. Here, when the reduction of a remaining battery level is detected, a battery part 103 stops power supply to the radio communication part 111. When the safety information is to be transmitted, the battery part 103 restarts the power supply to the radio communication part 111.

Description

  The present invention relates to a mobile terminal device, a status notification method for the mobile terminal device, and a program.

  Several techniques for notifying a user's safety using a mobile terminal device have been proposed. For example, the cell phone of the person to be protected shown in Patent Document 1 detects “no abnormality” to the information communication terminal of the guardian at regular time intervals by detecting the operation of the cell phone within a predetermined time. Send an email. Thereby, it is supposed that the possibility of occurrence of abnormality of the protected person can be detected in the information communication terminal of the guardian.

JP 2008-98744 A

  However, in the cellular phone of the person to be protected shown in Patent Document 1, the operation of the predetermined cellular phone is detected within a predetermined time, and “no abnormality” is notified to the information communication terminal of the guardian at regular time intervals. If the power of the mobile phone is always turned on in order to send an e-mail to be sent, power is consumed and notification without abnormality cannot be performed. On the other hand, when the power of the mobile phone is turned off, the operation of the mobile phone cannot be detected, and it becomes impossible to notify that there is no abnormality.

  An object of the present invention is to provide a mobile terminal device, a state notification method, and a program that can solve the above-described problems.

  The present invention has been made to solve the above-described problem. A mobile terminal device according to an aspect of the present invention includes a battery unit that includes a battery and supplies power to each unit of the mobile terminal device, and the battery unit. An acceleration measuring unit that operates using the power supplied from the mobile terminal device, and a wireless communication unit that operates using the power supplied from the battery unit and performs wireless communication; and the acceleration. A time measurement unit that measures an elapsed time from the occurrence of a predetermined event when a state in which the measurement unit does not detect acceleration continues, and the battery unit has a predetermined remaining battery level of the battery. When the power saving threshold battery remaining amount or less, the power supply to the wireless communication unit is stopped, and when the time measuring unit indicates that a predetermined time has elapsed, the power supply to the wireless communication unit is resumed, The wireless communication unit has the time measuring unit Indicates that has elapsed serial predetermined time, and, when the battery unit supplies power to the wireless communication unit transmits a signal indicating the acceleration is not detected, characterized in that.

  Further, a state notification method according to an aspect of the present invention is a state notification method of a mobile terminal device including a battery unit that has a battery and supplies power, using the power supplied from the battery unit, The acceleration measurement step for measuring the acceleration of the mobile terminal device, the wireless communication step for performing wireless communication using the power supplied from the battery unit, and the state in which no acceleration is detected in the acceleration measurement step continue. A time measurement step for measuring an elapsed time since the occurrence of a predetermined event, and power supply for the wireless communication step is stopped when the remaining battery level of the battery is equal to or less than a predetermined power saving threshold battery level And detecting the passage of a predetermined time in the time measurement step in a state where the power supply for the wireless communication step and the power supply for the wireless communication step are stopped. A power supply restarting step for restarting power supply for the step, wherein the wireless communication step detects that the predetermined time has elapsed in the time measuring step, and the battery unit When power for the communication step is supplied, an acceleration non-detection signal transmission step of transmitting a signal indicating non-detection of acceleration is provided.

  In addition, a program according to an embodiment of the present invention uses a power supplied from the battery unit to a computer as a mobile terminal device including a battery unit that has a battery and supplies power. Predetermined when an acceleration measurement step for measuring acceleration, a wireless communication step for performing wireless communication using the power supplied from the battery unit, and a state in which no acceleration is detected in the acceleration measurement step are continued A time measurement step for measuring an elapsed time from the occurrence of the event, and a power supply stop step for stopping the power supply for the wireless communication step when the battery remaining amount of the battery is equal to or less than a predetermined power saving threshold battery remaining amount And detecting that a predetermined time has elapsed in the time measuring step in a state where power supply for the wireless communication step is stopped, A power supply restarting step for restarting power supply for the step, detecting that the predetermined time has elapsed in the time measuring step in the wireless communication step, and the battery unit This is a program for executing an acceleration non-detection signal transmission step of transmitting a signal indicating non-acceleration when power for the wireless communication step is supplied.

  According to the present invention, power consumption can be suppressed and safety information can be transmitted for a longer time.

It is a block diagram which shows schematic structure of the portable terminal device in one Embodiment of this invention. In the embodiment, it is explanatory drawing which shows the example of the setting information of the safety information notification function which the memory | storage part 122 memorize | stores. 4 is a flowchart illustrating a processing procedure for the mobile terminal device 1 to execute a safety information notification function in the embodiment. In the embodiment, in addition to notifying that acceleration is not detected, it is a flowchart showing a processing procedure of the mobile terminal device 1 when notifying that acceleration has been detected.

Embodiments of the present invention will be described below with reference to the drawings.
FIG. 1 is a configuration diagram showing a schematic configuration of a mobile terminal device according to an embodiment of the present invention. In the figure, the mobile terminal device 1 includes an operation unit 101, a display unit 102, a battery unit 103, a wireless communication unit 111, an acceleration detection unit 112, a position information acquisition unit 113, a time measurement unit 114, A control unit 121 and a storage unit 122 are provided.

The mobile terminal device 1 is a mobile phone that outputs information on the safety of the user (hereinafter referred to as “safety information”) based on the acceleration of the mobile terminal device 1.
Note that the scope of application of the present invention is not limited to mobile phones. The present invention can be applied to various portable terminal devices such as PDA (Personal Digital Assistant) and PHS (Personal Handy-phone System).

The operation unit 101 has operation buttons such as a numeric keypad, a direction key, and a determination button, receives a user operation input, and outputs information indicating the received operation input to the control unit 121.
The display unit 102 has a display screen such as a liquid crystal panel, and displays various data such as a moving image, a still image, and text under the control of the control unit 121.

The battery unit 103 is a power source of the mobile terminal device 1 and has a battery to supply power to each unit of the mobile terminal device. In addition, the battery unit 103 includes a battery monitoring device, measures the remaining battery level of the battery that the battery unit 103 itself has (hereinafter simply referred to as “the remaining battery level of the battery unit 103”), and measures the remaining battery level. Is output to the control unit 121.
The wireless communication unit 111 communicates by wirelessly connecting to a mobile phone communication network (a communication network for mobile phones provided by a mobile phone service provider). In particular, the wireless communication unit 111 transmits safety information according to the control of the control unit 121.

  The acceleration detection unit 112 includes a three-axis (XYZ axis) acceleration sensor that measures the acceleration of the mobile terminal device 1, and outputs an acceleration measurement value of the mobile terminal device 1 to the control unit 121. In the following, the acceleration detection unit 112 is an acceleration measurement value indicating a change in speed of the mobile terminal device 1 (that is, an acceleration measurement value other than gravitational acceleration, and the mobile terminal device 1 changes the position or posture (tilt). That the acceleration detection unit 112 “detects” the acceleration.

The position information acquisition unit 113 includes a GPS (Global Positioning System) device, and acquires position information of the mobile terminal device 1 using a signal transmitted from a GPS satellite.
Under the control of the control unit 121, the time measurement unit 114 measures the elapsed time since the acceleration detection unit 112 last detected acceleration and the elapsed time since the safety information was last transmitted.

The control unit 121 controls each unit of the mobile terminal device 1. In particular, the control unit 121 causes the time measurement unit 114 to measure the elapsed time since the acceleration detection unit 112 last detected acceleration and the elapsed time since the safety information was last transmitted. Based on the time, the wireless communication unit 111 is made to transmit safety information. Further, the control unit 121 controls power supply to each unit by the battery unit 103 based on the remaining battery level of the battery unit 103.
In addition, the control unit 121 causes the wireless communication unit 111 to perform communication such as transmission / reception of e-mails and telephone calls. Further, the control unit 121 executes various applications according to user operation input information acquired from the operation unit 101, and provides the application function. For example, the control unit 121 reads the phone book data from the storage unit 122 and displays the phone book data on the display unit 102 in response to a phone book data display request operation by the user. In addition, when the control unit 121 receives a call operation of the pedometer application by the user, the control unit 121 detects the number of steps based on the acceleration measurement value of the acceleration detection unit 112 and causes the display unit 102 to display the number of steps. In addition, the control unit 121 performs vertical and horizontal detection of the mobile terminal device 1 based on the acceleration measurement value of the acceleration detection unit 112, and causes the display unit 102 to perform screen display based on the detection result.
Moreover, the control part 121 displays the battery level of the battery part 103 on the display part 102 with an indicator.
The storage unit 122 includes a storage device and stores various data. In particular, the storage unit 122 stores setting information of the safety information notification function.

FIG. 2 is an explanatory diagram illustrating an example of setting information of the safety information notification function stored in the storage unit 122. As shown in the figure, the storage unit 122 sets the name L11, the telephone number L12, the mail address L13, the safety information notification flag L14, the initial notification timing L15, and the power-off as setting information of the safety information notification function. Each information of the battery level L16 and the regular notification interval L17 is stored.
The name L11, the telephone number L12, and the mail address L13 indicate the name, telephone number, and mail address of the other party that notifies the safety information.
The safety information notification flag L14 is a flag for setting whether to execute the safety information notification function. In the safety information notification flag, “ON” indicates that the safety information notification function is executed, and “OFF” indicates that the safety information notification function is not executed.
The initial notification timing L15 indicates the time from when the acceleration detection unit 112 last detects acceleration until the safety information notification is performed. For example, in the case of “8 hours” set in FIG. 2, when the time during which the acceleration detection unit 112 does not detect acceleration continues for 8 hours, the mobile terminal device 1 transmits safety information.
The power-off battery level L16 indicates a battery level at which the mobile terminal device 1 is turned off (OFF). For example, in the case of “1” set in FIG. 2, the mobile terminal device 1 transmits the safety information after the time indicated in the initial notification timing has elapsed, and then the acceleration detection unit 112 detects the acceleration. If the battery level of the battery unit 103 is level 1 (the level with the least remaining battery level) among the five levels when the state of not being continued is continued, the power is turned off.
The regular notification interval L17 indicates the time from when the safety information is transmitted until the safety information is transmitted again. For example, in the case of “1 hour” set in FIG. 2, after the mobile terminal device 1 transmits the safety information, if the time during which the acceleration detection unit 112 does not detect acceleration continues for 1 hour, the mobile terminal device 1 Send safety information again.

Next, the operation of the mobile terminal device 1 will be described with reference to FIGS. 3 and 4.
FIG. 3 is a flowchart illustrating a processing procedure in which the mobile terminal device 1 executes the safety information notification function. When the mobile terminal device 1 is connected to the power source and the safety information notification flag is set to ON, the process of FIG.

First, the control unit 121 outputs a timer count start instruction for initial notification to the time measurement unit 114. Then, according to the instruction, the time measurement unit 114 resets the timer count value t1 to “0” and starts timer count (time measurement) (step S101).
Next, based on the timer count value t1 of the time measurement unit 114, the control unit 121 determines whether or not the first notification timing setting time (L15 in FIG. 2) has elapsed since the time measurement unit 114 started the timer count in step S101. Is determined (step S102).

When it is determined that the initial notification timing setting time has not elapsed (step S102: NO), the control unit 121 determines whether or not the acceleration detection unit 112 has detected acceleration (step S111).
If it is determined that the acceleration is detected (step S111: YES), the process returns to step S101, and the process of FIG.
On the other hand, if it is determined in step S111 that acceleration is not detected (step S111: NO), the process returns to step S102 and waits for the elapse of the initial notification timing setting time or detection of acceleration.

On the other hand, when it is determined in step S102 that the initial notification timing setting time has elapsed (step S102: YES), the control unit 121 controls the wireless communication unit 111 to transmit safety information (step S121).
Specifically, the control unit 121 first acquires the position information of the mobile terminal device 1 from the position information acquisition unit 113. Next, the control unit 121 does not detect the acceleration of the mobile terminal device 1 as the safety information, and therefore there is a possibility that the user of the mobile terminal device 1 cannot move, and the mobile terminal device. A mail addressed to a pre-registered notification destination (mail address L13 in FIG. 2) indicating the position information 1 is generated. Then, the control unit 121 outputs the generated mail to the wireless communication unit 111. The wireless communication unit 111 transmits the mail output from the control unit 121.

In addition, you may make it the portable terminal device 1 notify safety information by means other than e-mail, such as notifying safety information by voice.
For example, the control unit 121 first controls the wireless communication unit 111 to connect (establish a call) to a telephone having a telephone number registered in advance as a notification destination. When the wireless communication unit 111 is connected to the notification destination, the control unit 121 does not detect the acceleration of the mobile terminal device 1, and thus there is a possibility that the user of the mobile terminal device 1 cannot move, and Then, the control unit 121 transmits a voice message notifying the location information of the mobile terminal device 1.

When the transmission of the safety information in step S121 is completed, the control unit 121 outputs a timer count start instruction for re-notification to the time measurement unit 114. Then, according to the instruction, the time measuring unit 114 resets the timer count value t2 to “0” and starts timer counting (step S122).
Next, the control unit 121 determines whether or not the remaining battery level of the battery unit 103 is equal to or lower than the power-off battery level (L16 in FIG. 2) (step S123).

When it determines with it being larger than a power-off battery level (step S123: YES), the control part 121 outputs the signal which instruct | indicates to cut | disconnect the power supply of the portable terminal device 1 to the battery part 103, and the battery part 103 is a portable terminal. The apparatus 1 is powered off (step S131).
In a power-off state (a state in which the mobile terminal device 1 is powered off), the battery unit 103 supplies power to the acceleration detection unit 112, the time measurement unit 114, the control unit 121, and the storage unit 122. . On the other hand, in the power OFF state, the battery unit 103 does not supply power to the wireless communication unit 111, the position information acquisition unit 113, the operation unit 101, and the display unit 102 (stops supplying power). .

Next, based on the timer count value t2 of the time measurement unit 114, the control unit 121 determines whether or not the regular notification interval (L17 in FIG. 2) has elapsed since the time measurement unit 114 started the timer count in step S122. Determination is made (step S132).
When it determines with the regular notification interval not having passed (step S132: NO), the control part 121 determines whether the acceleration detection part 112 detected the acceleration (step S141).

When it determines with having detected the acceleration (step S141: YES), the control part 121 outputs the signal which instruct | indicates to connect the power supply of the portable terminal device 1 to the battery part 103, and the battery part 103 is the portable terminal device 1. Are connected (step S151).
In the power-on state (state in which the power source of the mobile terminal device 1 is connected), the battery unit 103 includes each unit (the acceleration detection unit 112, the time measurement unit 114, the control unit 121, and the storage unit) of the mobile terminal device 1. In addition to 122, power is supplied to the wireless communication unit 111, the position information acquisition unit 113, the operation unit 101, and the display unit 102).
Thereafter, the process returns to step S101 to repeat the process of FIG.

On the other hand, if it is determined in step S141 that acceleration is not detected (step S141: NO), the process returns to step S132 and waits for the elapse of a regular notification interval or detection of acceleration.
On the other hand, when it is determined in step S132 that the regular notification interval has passed (step S132: YES), the control unit 121 outputs a signal instructing to connect the power supply of the mobile terminal device 1 to the battery unit 103, and the battery Unit 103 connects the power supply of portable terminal device 1 (step S181). And similarly to the case of step S121, the control part 121 controls the wireless communication part 111, and safety information (the safety information based on the fact that the acceleration detection part 112 does not detect acceleration as in the case of step S121. , Referred to as “safety information due to non-detection of acceleration”) (step S182).
Thereafter, the process returns to step S122.

  On the other hand, if it is determined in step S123 that the battery level is greater than the power-off battery level (step S123: NO), the control unit 121 causes the time measurement unit 114 to set the timer in step S122 based on the timer count value t2 of the time measurement unit 114. It is determined whether the regular notification interval (L17 in FIG. 2) has elapsed from the start of counting (step S161).

When it is determined that the regular notification interval has not elapsed (step S161: NO), the control unit 121 determines whether the acceleration detection unit 112 has detected acceleration (step S171).
If it is determined that acceleration has been detected (step S171: YES), the process returns to step S101, and the process of FIG.

On the other hand, if it is determined in step S171 that no acceleration is detected (step S171: NO), the process returns to step S123.
On the other hand, if it is determined in step S161 that the regular notification interval has elapsed (step S161: YES), the process proceeds to step S182.

As described above, the battery unit 103 stops power supply to the wireless communication unit 111 when the remaining battery level of the battery is equal to or lower than the power-off battery level (power saving threshold battery remaining amount). When the time measurement unit 114 indicates that the regular communication interval (predetermined time) has elapsed, the battery unit 103 resumes power supply to the wireless communication unit 111, and the wireless communication unit 111 determines whether the safety is detected due to acceleration non-detection. Send information.
Thereby, the portable terminal device 1 stops the power supply to the wireless communication unit 111 in a state where the remaining battery level is reduced, and suppresses power consumption, and transmits safety information to the wireless communication unit 111. Safety information can be transmitted for a longer time by restarting the power supply.

  In addition, since the battery unit 103 supplies power to the acceleration detection unit 112 regardless of whether the remaining battery level is equal to or lower than the power-off battery level, the acceleration detection unit 112 continues to measure the acceleration of the mobile terminal device 1. be able to. Thereby, the portable terminal device 1 can transmit safety information more accurately.

Note that the mobile terminal device 1 may notify that the acceleration has been detected in addition to the notification that the acceleration is not detected (transmission of safety information based on the non-detection of acceleration).
FIG. 4 is a flowchart showing a processing procedure of the mobile terminal device 1 when notifying that the acceleration is not detected but also notifying that the acceleration is detected.

In FIG. 3, the same parts as those in FIG. Description is omitted.
In the process of FIG. 4, the control unit 121 writes the value of the state notification flag into the storage unit 122, and the wireless communication unit 111 transmits the safety information based on the acceleration detection according to the value of the state notification flag. Different from processing.

Here, the state notification flag is a flag indicating whether or not safety information based on acceleration non-detection has been transmitted, and the storage unit 122 stores the state notification flag. The value “Done” of the status notification flag indicates that transmission has been completed, and “Not yet” indicates that transmission has not yet been performed. In the initial state (at the start of processing in FIG. 4), the value of the state notification flag is not set.
The safety information based on the acceleration detection is a notification that the acceleration has been detected, and is transmitted to the same destination (the mail address L12 or the telephone number L11 in FIG. 2) as the destination of the safety information based on the non-acceleration detection. .

In the process of FIG. 4, after the initial notification timing set time elapses, the control unit 121 performs the first safety information notification (here, transmitting safety information based on non-detection of acceleration) in step S <b> 121, The state notification flag value to be stored is set to “done”. Thereafter, the process proceeds to step S122.
Further, after determining that the acceleration is detected (step S111: YES, step S171: YES), or after determining that the acceleration is detected, the control unit 121 sets the mobile terminal device 1 in the power ON state (step). S151), it is determined whether or not the value of the acceleration notification flag is “not yet” (step S211). If it is determined that “completed” (step S211: NO), the process returns to step S101, and the process of FIG.
On the other hand, if it is determined in step S211 that it is “not yet” (step S211: YES), the control unit 121 controls the wireless communication unit 111 to transmit safety information based on acceleration detection (step S121).
Specifically, the control unit 121 detects the acceleration of the mobile terminal device 1, and thus indicates that the user of the mobile terminal device 1 seems to have left the state where it cannot move (pre-registered notification destination ( A mail addressed to the mail address L13) in FIG. 2 is generated. Then, the control unit 121 outputs the generated mail to the wireless communication unit 111. The wireless communication unit 111 transmits the mail output from the control unit 121.

  As in the case of the safety information based on the non-detection of acceleration, the mobile terminal device 1 notifies the safety information based on the acceleration detection using means other than e-mail, such as a notification that the acceleration is detected by voice. May be.

When the transmission of the safety information by the acceleration detection in step S221 is completed, the control unit 121 sets the value of the state notification flag stored in the storage unit 122 to “not yet” (step S222).
Then, it returns to step S101 and repeats the process of the figure.

As described above, when the acceleration detection unit 112 detects acceleration, the wireless communication unit 111 transmits safety information based on the acceleration detection. A person who has received the safety information based on the acceleration detection (for example, a guardian of the user of the mobile terminal device 1) can know that the user of the mobile terminal device 1 seems to have left the state incapable of moving.
Further, the wireless communication unit 111 only transmits safety information based on non-detection of acceleration,
Since safety information by acceleration detection is transmitted, unnecessary signal transmission can be suppressed, and battery consumption can be suppressed. That is, the safety information based on the acceleration detection indicates that the user of the mobile terminal device 1 receives the safety information based on the acceleration non-detection and recognizes that the user of the mobile terminal device 1 may be unable to move. Is information indicating that it is assumed that the state has been removed. Therefore, it may be transmitted only after the safety information based on the non-detection of acceleration is transmitted. The portable terminal device 1 can transmit safety information by acceleration detection when appropriate.

  Note that the safety information based on non-detection of acceleration and the safety information based on acceleration detection indicate that the mobile terminal device 1 is in a state where no acceleration is detected, and is an example of state information. Therefore, the transmission of safety information by non-acceleration detection and the transmission of safety information by acceleration detection are examples of status notifications.

  3 and 4, the pattern in which the mobile terminal device 1 is turned off according to the battery level only after the first transmission of safety information by non-detection of acceleration (step S121) is the power in the present invention. It is an example of a control pattern, and the power control pattern in the present invention is not limited to this. For example, the mobile terminal device 1 may be in a power-off state according to the battery level even before the first transmission of the safety information by non-acceleration detection.

A program for realizing all or part of the functions of the portable terminal device 1 is recorded on a computer-readable recording medium, and the program recorded on the recording medium is read into a computer system and executed. You may perform the process of each part. Here, the “computer system” includes an OS and hardware such as peripheral devices.
Further, the “computer system” includes a homepage providing environment (or display environment) if a WWW system is used.
The “computer-readable recording medium” refers to a storage device such as a flexible medium, a magneto-optical disk, a portable medium such as a ROM and a CD-ROM, and a hard disk incorporated in a computer system. Furthermore, the “computer-readable recording medium” dynamically holds a program for a short time like a communication line when transmitting a program via a network such as the Internet or a communication line such as a telephone line. In this case, a volatile memory in a computer system serving as a server or a client in that case, and a program that holds a program for a certain period of time are also included. The program may be a program for realizing a part of the functions described above, and may be a program capable of realizing the functions described above in combination with a program already recorded in a computer system.

  The embodiment of the present invention has been described in detail with reference to the drawings. However, the specific configuration is not limited to this embodiment, and includes design changes and the like without departing from the gist of the present invention.

DESCRIPTION OF SYMBOLS 1 Portable terminal device 101 Operation part 102 Display part 103 Battery part 111 Wireless communication part 112 Acceleration detection part 113 Position information acquisition part 114 Time measurement part 121 Control part 122 Storage part

Claims (6)

A portable terminal device,
A battery unit having a battery and supplying power to each unit of the mobile terminal device;
An acceleration measuring unit that operates using electric power supplied from the battery unit and measures acceleration of the mobile terminal device;
A wireless communication unit that operates using electric power supplied from the battery unit and performs wireless communication;
A time measuring unit that measures an elapsed time from occurrence of a predetermined event when the acceleration measuring unit does not detect acceleration; and
Comprising
The battery unit stops power supply to the wireless communication unit when the remaining battery level of the battery is equal to or less than a predetermined power saving threshold battery level, and indicates that the predetermined time has elapsed. , Restart the power supply to the wireless communication unit,
The wireless communication unit transmits a signal indicating acceleration non-detection when the time measuring unit indicates that the predetermined time has elapsed and the battery unit supplies power to the wireless communication unit.
The portable terminal device characterized by the above-mentioned.   2. The mobile terminal according to claim 1, wherein the battery unit supplies power to the acceleration measurement unit regardless of whether or not a battery remaining amount of the battery is equal to or less than the power saving threshold battery remaining amount. apparatus.   The radio communication unit transmits a signal indicating acceleration detection when the acceleration measurement unit detects acceleration and the battery unit supplies power to the radio communication unit. 2. The mobile terminal device according to 2.   The mobile terminal device according to claim 3, wherein the wireless communication unit transmits a signal indicating the acceleration detection only when the signal indicating the non-detection of the acceleration has been transmitted. A state notification method for a portable terminal device including a battery unit that has a battery and supplies power,
Using the power supplied from the battery unit, an acceleration measuring step of measuring the acceleration of the mobile terminal device;
A wireless communication step for performing wireless communication using the power supplied from the battery unit;
A time measurement step of measuring an elapsed time since occurrence of a predetermined event when a state in which no acceleration is detected is continued in the acceleration measurement step;
A power supply stop step of stopping power supply for the wireless communication step when the battery remaining amount of the battery is equal to or less than a predetermined power saving threshold battery remaining amount;
In a state where power supply for the wireless communication step is stopped, when detecting that a predetermined time has passed in the time measurement step, a power supply restarting step for restarting power supply for the wireless communication step;
Comprising
The wireless communication step detects that the predetermined time has elapsed in the time measurement step, and transmits a signal indicating non-acceleration when the battery unit supplies power for the wireless communication step. An acceleration non-detection signal transmission step;
A state notification method characterized by that. A computer as a portable terminal device having a battery unit that has a battery and supplies power,
Using the power supplied from the battery unit, an acceleration measuring step of measuring the acceleration of the mobile terminal device;
A wireless communication step for performing wireless communication using the power supplied from the battery unit;
A time measurement step of measuring an elapsed time since occurrence of a predetermined event when a state in which no acceleration is detected is continued in the acceleration measurement step;
A power supply stop step of stopping power supply for the wireless communication step when the battery remaining amount of the battery is equal to or less than a predetermined power saving threshold battery remaining amount;
In a state where power supply for the wireless communication step is stopped, when detecting that a predetermined time has passed in the time measurement step, a power supply restarting step for restarting power supply for the wireless communication step;
And execute
When the wireless communication step detects that the predetermined time has passed in the time measurement step, and the battery unit supplies power for the wireless communication step, a signal indicating acceleration non-detection is transmitted. An acceleration non-detection signal transmission step is executed,
Program for.

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