JP6372154B2 - Mobile terminal device, operation control program thereof, and operation control method thereof - Google Patents

Description

  The technology of the present disclosure relates to operation control according to a user's input operation to the mobile terminal device or a contact state with the mobile terminal device.

  In portable terminal devices, the temperature of internal components during processing operations has increased with the increase in functionality and speed of processing. Some mobile terminal devices have thin exterior members to make them thinner and lighter, and some devices such as touch panels are operated by the user directly touching the components. It tends to be easy to communicate with.

  In addition, the mobile terminal device includes application programs that are used for a long time, such as a telephone call and browsing of a WEB site, as well as browsing of electronic books and games. When using these application programs, the user holds the mobile terminal device for a long time. Therefore, in the mobile terminal device, it is necessary to prevent the user from being affected by the heat generated by the internal components.

  Regarding such a rise in component temperature, there are some which set a plurality of temperature thresholds, change the thresholds when the user contacts for a certain period of time, and perform operation control based on the detected temperatures and thresholds ( For example, Patent Document 1). In addition, when the detected temperature is equal to or higher than a threshold value, there is one that warns and limits processing during operation (for example, Patent Document 2).

JP 2010-124246 A JP 2007-43422 A

  By the way, in the portable terminal device in which the application program is running, for example, it is detected as an input operation that the living body part of the user has touched the touch panel or the housing is tilted, and processing is executed according to the operation. There is something to be done. Such an input operation may be performed by detecting a touch on a touch panel unintended by the user or an unintentional displacement of the casing. That is, the mobile terminal device may be contacted or displaced by the living body part of the user while being stored in a pocket of a bag or clothes, for example. In addition, the portable terminal device may be contacted by a user while left on a desk or the like, or may be contacted by a biological part of a user who has fallen asleep while using an application program.

  In such an operation that is not intended by the user, a state of touching the touch panel or the like may continue. At this time, for example, the mobile terminal device determines that the input operation is continuously performed, and repeatedly executes the processing operation according to the operation, and this repeated processing increases the load on the functional component. The fever will progress.

  Further, in the portable terminal device, the internal heat generation temperature becomes high even when an application program requiring high-speed processing is being executed or during charging. It is not preferable that the same part of the user's body is in contact with the portable terminal device in such a heat generation state for a long time, which is unintentionally affected by heat. In a mobile terminal device, when the user unintentionally touches the casing or other exterior parts, it is difficult to inform the user of the contact state or stop the unintentional contact. .

  In addition, in a mobile terminal device, it is difficult to directly determine whether an input operation or contact with a housing is intended by the user. For example, in order to increase safety against heat generation, a function being executed However, there is a problem in that convenience is reduced, such as hindering responsiveness to input if the confirmation process is performed.

  Therefore, in view of the above-described problems, an object of the technology of the present disclosure is to determine a contact intention from a contact state with respect to the mobile terminal device, and to suppress the influence of heat on the user.

  There is no disclosure or suggestion of such a problem, and the configuration disclosed in Patent Documents 1 and 2 cannot solve such a problem.

In order to achieve the above object, one aspect of the technology of the present disclosure includes a sensor, a timer, and a control unit. The sensor monitors the contact state of the user with the parts arranged on the exterior side. The timer keeps track of elapsed time. Control unit, based on the monitoring information of the sensor, the wider than the contact range setting for components, and wherein when a state where the range from the center of a predetermined distance in the contact area is in contact is continued a predetermined time, the operation Stop the functional components in the middle and the application program being executed.

  According to the technique of the present disclosure, any of the following effects can be obtained.

  (1) Since the functional component and application program are stopped by determining whether the input operation is intended based on the contact state of the user, the user can avoid the influence of heat generation regardless of the internal temperature of the mobile terminal device. be able to.

  (2) By improving the accuracy of determining whether or not the input operation is intended, the convenience of the mobile terminal device is not lowered for the user when the functional component or application program is stopped.

(3) By not continuing unintended operations, wasteful power consumption can be reduced, and the heat generation load of functional components can be reduced.

It is a figure which shows the structural example of the portable terminal device which concerns on 1st Embodiment. It is a flowchart which shows the operation control process example of a portable terminal device. It is a figure which shows the external appearance structural example of the portable terminal device which concerns on 2nd Embodiment. It is a figure which shows an example of the contact state of the user's hand with respect to a touch panel. It is a figure which shows an example of the hardware of a portable terminal device. It is a figure which shows an example of the hardware constitutions of a portable terminal device, and an example of an electric power feeding circuit. It is a flowchart which shows the operation control process example of a portable terminal device. It is a figure which shows the contact area of the user with respect to a touchscreen. It is a figure which shows the contact state of the contact center with respect to a touch panel, and its circumference | surroundings. It is a figure which shows an example of the process of the portable terminal device which concerns on 3rd Embodiment. It is a figure which shows the state of telephone call use. It is a flowchart which shows the operation control process example of a portable terminal device. It is a figure which shows the portable terminal device which concerns on 4th Embodiment. It is a figure which shows the AA line partial cross section of FIG. It is a figure which shows an example of a process of a portable terminal device. It is a flowchart which shows the operation control process example of a portable terminal device. It is a figure which shows the back side of the portable terminal device which concerns on 5th Embodiment. It is a figure which shows the user's contact state example with respect to a portable terminal device. It is a figure which shows an example of the hardware constitutions of a portable terminal device, and an example of an electric power feeding circuit. It is a flowchart which shows the operation control process example of a portable terminal device. It is a figure which shows an example of the stop instruction | indication information table of the portable terminal device which concerns on other embodiment. It is a figure which shows the example of a state of the contact position of the portable terminal device which concerns on other embodiment. It is a figure which shows the calculation result of the distance of a user's contact position and the installation position of a functional component. It is a flowchart which shows the operation control process example of a portable terminal device.

  [First Embodiment]

  A first embodiment of the technology of the present disclosure will be described with reference to FIG. FIG. 1 shows a configuration example of a mobile terminal device according to the first embodiment. The mobile terminal device 2 in FIG. 1 is an example of the mobile terminal device of the present disclosure.

  For example, as shown in FIG. 1, the portable terminal device 2 includes an exterior component 4 on a part of the front side or the back side, or on the entire surface. The exterior component 4 is an example of a component of the present disclosure, and is, for example, a housing that forms the exterior of the mobile terminal device 2 or a display that is exposed from a part of the housing and disposed on the exterior side of the mobile terminal device 2. It is formed of parts and input operation parts. The exterior component 4 comes into contact with the finger or hand of the user 6 or other living body part. The mobile terminal device 2 is formed of an information processing device such as a mobile phone, a smartphone, a tablet PC (Personal Computer), or a mobile game machine. The mobile terminal device 2 includes a sensor 8, a timer 10, a control unit 12, a functional component 14, and the like. In addition to a voice call function, a data communication function via the Internet, a mail function, a music / video playback function and a game Etc. are executed.

  The sensor 8 is an example of means for monitoring the contact state of the user 6 with respect to the exterior component 4, and is formed of, for example, a contact sensor that detects an electrical change or contact pressure due to contact. Sensor 8 may form a touch panel combined with exterior part 4 for displaying a display image, for example. In addition, the sensor 8 is not limited to being disposed inside the mobile terminal device 2 with respect to the exterior component 4, for example, and may be installed on the outer surface side of the exterior component 4.

  The timer 10 is an example of a time measuring unit, and measures the elapsed time of the contact state of the user with the exterior component 4 in the operation control of the mobile terminal device 2.

  The control unit 12 is an example of an operation control unit of the mobile terminal device 2. For example, the control unit 12 includes a memory 16 that is a computer component, and executes various application programs 18 in the memory 16, thereby enabling functions of the mobile terminal device 2. The operation control of the component 14 and each function are executed. Further, the control unit 12 performs operation control according to the usage state of the mobile terminal device 2 based on the contact state of the user 6 with respect to the exterior component 4 based on the monitoring information from the sensor 8.

  The control unit 12 determines whether the gripping or touching operation on the exterior component 4 is an operation intended by the user 6 as the usage state of the mobile terminal device 2. The usage state of the mobile terminal device 2 is determined based on whether or not the contact range of the user 6 with respect to the exterior component 4 is a predetermined area and the contact continues for a certain time. When determining that the operation is not intended by the user, the control unit 12 stops the functional component 14 being operated and the application program 18 being executed as the operation control process.

  The functional component 14 is an example of a component mounted on the mobile terminal device 2, and is a heat source that heats the exterior component 4 such as a housing of the mobile terminal device 2 by generating heat according to the driving operation. The user 6 who uses the portable terminal device 2 is affected by heat through the exterior component 4 whose surface temperature has risen due to heat generated by the functional component 14 in response to an increase in driving load.

  <About the operation control process of the portable terminal device 2>

  FIG. 2 shows an example of operation control processing of the mobile terminal device. This operation control process shows an example of an operation control program or an operation control method of the mobile terminal device 2 of the present disclosure. Regarding the operation control process shown in FIG. 2, the processing content and the processing procedure are not limited thereto.

  The operation control processing includes contact state monitoring processing, usage state determination processing, and function restriction processing. The mobile terminal device 2 acquires monitoring information indicating user contact (S1). Moreover, based on the acquired monitoring information, the time for which a predetermined contact state is continued is measured (S2).

  The control unit 12 estimates and determines whether or not the operation (contact) is intended by the user 6 based on the monitoring information detected by the sensor 8 (S4) as the use state determination of the mobile terminal device 2 (S3). In this estimation determination, for example, determination is made based on the size of the contact range of the user 6 with respect to the exterior component 4 and the elapsed time of the contact state. When the operation is not intended (YES in S4), the process proceeds to a stop process for the functional component 14 or the specific application program 18 (S5). Further, when the mobile terminal device 2 determines that the operation is not an unintended operation based on the detected monitoring information (NO in S4), the display function being executed on the mobile terminal device 2 and the display of the WEB site are maintained. Status, and continue the usage status monitoring process.

  [Effect of the first embodiment]

  According to such a configuration, any of the following effects can be obtained.

  (1) Since the functional component 14 and the application program 18 are stopped by determining whether the intended input operation is based on the contact state of the user 6, the influence of heat generation on the user 2 regardless of the internal temperature of the mobile terminal device 2 Can be avoided.

  (2) The convenience of the portable terminal device 2 is not lowered with respect to the user 6 by improving the accuracy of determining whether or not the input operation is intended by combining the contact width and the elapsed time.

  (3) By not continuing unintended operations, wasteful power consumption can be suppressed, and the heat generation load of the functional component 14 can be suppressed.

[Second Embodiment]

  FIG. 3 shows an external configuration example of the mobile terminal device according to the second embodiment.

  The mobile terminal device 20 is formed, for example, such that the side surface and the back surface portion are covered with a case 22 and the touch panel 24 is exposed on one surface of the front surface side. The case 22 is formed of a resin material, for example, and covers the periphery of functional parts and computer parts that form the mobile terminal device 20.

  The touch panel 24 is an example of an exterior component and a sensor of the present disclosure, and an input operation is performed by detecting a contact position, a contact range, a pressing force, and the like by bringing a finger of a user of the mobile terminal device 20 into contact therewith. The touch panel 24 has, for example, a plurality of touch sensors arranged on the front surface side, and detects a change in electrostatic capacitance caused by an electric circuit formed between the finger 6 of the user 6 that is in contact with the touch panel 24 and grasps the contact position. A capacitance type may be used.

  The mobile terminal device 20 is inside the case 22, and the display unit 28 is accommodated according to the arrangement position of the touch panel 24, and displays an image through the touch panel 24. The display unit 28 is formed of, for example, an LCD (Liquid Crystal Display) unit. In addition, the mobile terminal device 20 is equipped with a receiver 30 used for voice calls, a notification display unit 32 for notifying incoming mails, a proximity sensor 34 for detecting the proximity of the user during a call, and the like. The display unit 28, the receiver 30, and the notification display unit 32 are examples of functional components of the present disclosure.

  <About the contact state of the user 6 with respect to the touch panel 24>

  For example, as illustrated in FIG. 4, the mobile terminal device 20 is operated by the user 6 touching the touch panel 24 with a finger or the like on an image displayed on the display unit 28. The touch panel 24 detects a finger contact position using a sensor (not shown). The control unit 40 (FIG. 5) of the mobile terminal device 20 calculates the contact area based on the monitoring information on the touch panel 24 and performs an operation process on the content of the display screen according to the contact position.

  Further, the touch panel 24 detects a contact input operation even when the user 6 makes an unintentional contact, for example. Unintentional contact input occurs when a part of the body touches the touch panel 24 unconsciously, for example, when sleeping while using the mobile terminal device 20 or when the mobile terminal device 20 is put in a pocket of clothes or clothes. . In such contact input, there are few cases where contact is made only with the fingertip, and there is a tendency for contact over a wide range (area) and for a long time, for example, with a palm surface, an arm, or a plurality of fingers.

  <Regarding Configuration Example of Portable Terminal Device 20>

  FIG. 5 shows an example of the hardware of the mobile terminal device.

  The mobile terminal device 20 is connected to each functional component with reference to a control unit 40 formed by a computer, and operation control is performed according to an instruction from the control unit 40. For example, as shown in FIG. 5, the mobile terminal device 20 includes a control unit 40, a touch panel control circuit 42, a display control circuit 46, operation keys 50, a voice input / output circuit 52, a timer 60, a power supply unit 62, a modem 64, an RF (Radio Frequency) part 66 is provided.

  The control unit 40 is an example of the control unit of the present disclosure, and performs overall control processing of the mobile terminal device 20 and restricts functions of the mobile terminal device 20 against unintended input operations due to user contact. Operation control is performed to reduce or stop heat generation. The control unit 40 includes, for example, a processor 70, a memory 72, and an I / O (Input / Output) 78 constituting a computer.

  The processor 70 is an example of a computing unit of a computer, and performs operation control of the mobile terminal device 20 by computing a program stored in a RAM (Random Access Memory) 76.

  The memory 72 is an example of a storage unit, and is formed of, for example, a ROM (Read Only Memory) 74, a RAM 76, or the like. The ROM 74 stores an OS (Operating System) and application programs for operating the mobile terminal device 20 as well as newly acquired programs and detected data. The ROM 74 is a non-volatile memory, for example, and is formed of a semiconductor memory such as an HDD (Hard Disk Drive) or an SSD (Solid State Drive) or a flash memory. The RAM 76 constitutes a work area where the processor 70 performs program calculation processing.

  The touch panel control circuit 42 is an example of a sensor according to the present disclosure that monitors power supply control to the touch panel 24 and a change in capacitance detected by the touch sensor. The touch panel control circuit 42 transmits monitoring information including the detected contact position to the control unit 40.

  The display control circuit 46 is a means for performing control such as generation and switching of a display image in addition to power supply control for the display unit 28, and is an example of a functional component of the mobile terminal device 20.

  The operation key 50 is an example of an input unit of the mobile terminal device 20, and is formed by a physical operation key mounted other than the touch panel 24, for example. The operation keys 50 include, for example, keyboard shortcut keys for programs set in the mobile terminal device 20, volume keys for adjusting volume, and the like.

  The voice input / output circuit 52 is an example of a functional component that performs reproduction or recording processing of voice call signals and voice data, and is connected to, for example, a receiver 30 and a microphone 54.

  The timer 60 is an example of a unit that measures the elapsed time of the input operation state when determining an unintended operation of the operation control of the mobile terminal device 20. For example, the timer 60 may be formed independently, or may be formed by a control circuit of each functional component or a watchdog timer incorporated in the control unit 40.

  The power supply unit 62 is an example of a power supply unit for the mobile terminal device 20, and includes, for example, a power supply control unit that controls power supply from a battery or an external commercial power source. In the mobile terminal device 20, for example, as illustrated in FIG. 6, the power supply unit 62 supplies power to each functional unit through the power supply circuit 80. For example, a switch circuit (not shown) may be provided between the power supply circuit 80 and each functional component that supplies power, or a power supply control unit that switches a power supply target may be provided between the power supply unit 62 and each functional component. Good. And the portable terminal device 20 may perform operation control with respect to a functional component by cut | disconnecting the specific electric power feeding circuit 80 with respect to operation which is not intended. The power feeding circuit 80 includes a charging circuit formed by a charging control IC (Integrated Circuit) that is charged by being connected to an external commercial power source, for example.

  The modem 64 and the RF unit 66 are examples of wireless communication means, and transmit and receive voice call signals and wireless data communication through the antenna 68. The modem 64, the RF unit 66, and the antenna 68 are examples of functional components of the present disclosure. The modem 64 is an example of means for modulating or demodulating data to be transmitted / received into an analog signal and a digital signal. The RF unit 66 is an example of a unit that modulates data to be transmitted on a carrier wave and demodulates received data from a carrier frequency.

  <Example of Operation Control Processing of Portable Terminal Device 20>

  FIG. 7 shows an example of operation control processing of the mobile terminal device. This operation control is an example of the operation control method or the operation control program of the mobile terminal device according to the present disclosure, and the processing content or the processing procedure is not limited thereto.

  The operation control process (F1) of the mobile terminal device 20 includes, for example, detection of a contact state of the user 6 by a sensor, determination of whether or not the operation is intended for the contact state, and a process of stopping a functional component or a program.

  The operation control process is performed, for example, in an operation state in which an input operation can be performed on the mobile terminal device 20 (S11). For example, when the mobile terminal device 20 is not operated for a certain period of time, the mobile terminal device 20 may shift to a suspend state, that is, a power saving mode. In this suspend state, the operation of the mobile terminal device 20 is stopped. Therefore, it becomes impossible to control the operation. The operation control process of the mobile terminal device 20 is used for the stop process when, for example, a specific functional component is operating or when there is an unintended contact operation while using an application program.

  As a specific example, the mobile terminal device 20 is in a state in which the hand of the user 6 is in contact with the touch panel 24 while executing an application program such as an online game while performing a charging process. The user 6 is in a sleep state while using the mobile terminal device 20, the operation state of the application program is maintained, and a continuous input operation is performed on the touch panel 24.

  Based on the monitoring information of the touch panel control circuit 42, the control unit 40 causes the timer 60 to count the contact time from the start of touching the touch panel 24 as the first time measurement process (S12). The control unit 40 determines whether or not the first time measurement time T1 has continuously passed, for example, 10 [seconds] or more as the specified time (S13). When the contact state continues for 10 seconds or more (YES in S13), the process proceeds to a determination as to whether or not the operation is unintentional, and monitoring of elapsed time is newly started as the second timing process (S14).

  <About judgment processing of unintended contact operation>

  In the control part 40, the contact range by the user 6 is determined as a first determination criterion for an unintended contact operation. Therefore, for example, the control unit 40 calculates the contact area of the user 6 with respect to the touch panel 24 (S15), and the contact area is, for example, 5% or more as a predetermined range with respect to the total area of the touch panel 24. Is determined (S16). When the touch panel 24 is an intended operation, for example, only one or a plurality of fingertips are in contact with each other, so that the contact range does not increase. However, in an unintended contact operation, for example, as shown in FIG. When contact is made in such a wide range, the user 6 is easily affected by the heat generation temperature due to the operation of the functional component.

  For example, the control unit 40 stores in advance the total area information A1 of the effective operation area of the touch panel 24 in the ROM 74 or the like. And the control part 40 acquires the contact area Ax based on the total value of the electrostatic capacitance change which arises by contact, and the electric energy which flows by contact detection as monitoring information from the touch panel control circuit 42, for example. Alternatively, the control unit 40 may calculate the contact area Ax by performing an integration process on the coordinate information of the contact position, for example. And the control part 40 should just calculate the ratio of the contact area Ax with respect to the total area information A1.

  When the contact area is a predetermined value of the total area of the touch panel 24, for example, 5% or more (YES in S16), the control unit 40 determines the second judgment criterion for the unintended contact operation from the center of the contact portion. A contact state in which the radius n is within a range of, for example, 5 mm is determined (S17). For example, even when the mobile terminal device 20 is in a contact state with a certain contact area or more, if the user 6 does not stay at a certain location and moves, the influence of heat generation tends to be reduced. Further, when performing an operation such as coloring a wide range with a single operation using a painting application or the like, the intended operation is performed even if the contact range is wide. Therefore, in this operation control, a case where the contact state is maintained within a substantially constant range is monitored while maintaining a wide contact area.

  For example, the contact state is monitored by setting the contact center Ot from the contact portion as shown in FIG. 9 and determining the contact state around the contact center Ot from the detection result of the touch panel 24. For example, the contact center Ot may be set to a position where the contact state is first detected or a strong pressure position in the palm of the user 6, or the center position may be calculated from the coordinate information of the contact portion.

  When the control unit 40 monitors the contact state within the range of the radius n from the contact center Ot and confirms the contact state (YES in S18), for example, has 5 minutes passed as the second time measurement time T2? Is determined (S19). When the contact state continues for 5 minutes or more (YES in S19), the control unit 40 determines that the user 6 is performing the contact operation unintentionally, and stops the application program 18 that is running, The functional component of the terminal device 20 is stopped (S20). In this stop process, for example, reading of the application program 18 being executed in the RAM 76 may be stopped in accordance with an instruction from the processor 70, and the power supply unit 62 may be stopped or the power supply circuit 80 may be disconnected.

  In this stop process, for example, the game application used immediately before the operation control is stopped, the communication function is stopped, the display unit 28 is turned off, and the charging process to the power supply unit 62 is stopped. In stopping the communication function, for example, in addition to stopping the power supply to the modem 64 and the RF unit 66, the ongoing communication may be ended in order to maintain the reception of a call or mail.

  Further, in the determination of an unintended contact operation, when the contact area Ax is less than 5% of the total area information A1 (NO in S16), or when the contact state is displaced from the contact center Ot (NO in S18). Based on the monitoring result of the touch panel control circuit 42, it is determined whether or not the contact state is maintained (S21). When the contact state is maintained (YES in S21), the process returns to S14. If the contact state is not maintained (NO in S21), the operation control process ends or the contact monitoring process continues.

  For example, when there is no input operation for a certain period of time, the mobile terminal device 20 turns off the input operation on the touch panel 24. In this case, the mobile terminal device 20 is not determined to be in the suspended state, and the operation of the present disclosure What is necessary is just to perform control processing. That is, when the mobile terminal device 20 performs, for example, a charging process, the battery that is the power supply unit 62 and its peripheral portion become high temperature. In this case, when the user 6 unintentionally contacts the mobile terminal device 20 for a long time, there is a possibility of being affected by this heat. Therefore, in the mobile terminal device 20, even when only the input operation is turned off, for example, the touch detection function of the touch panel control circuit 42 may be operated to monitor a contact unintended by the user 6.

  [Effects of Second Embodiment]

  According to such a configuration, any of the following effects can be obtained.

  (1) Since it is determined whether or not the input operation is intended from the contact state of the user 6 and the specific functional component or application program 18 is stopped, the heat generation to the user 6 is generated regardless of the internal temperature of the portable terminal device 20. The influence can be avoided.

  (2) By determining the contact state based on the contact area, the elapsed time, and the change in the contact position, it is possible to improve the determination accuracy of whether or not the intended contact operation is performed, and to the user 6 The convenience of the device 20 is not lowered.

  (3) By not continuing unintended operations, wasteful power consumption can be suppressed, and the heat generation load of the functional components can be reduced, so that the surface temperature of the mobile terminal device 20 can be lowered.

  (4) By stopping the operation of the cause of heat generation based on the monitoring of the contact state, the influence of heat generation on the user 6 can be suppressed. That is, even if the threshold temperature is set for the internal temperature of the mobile terminal device 20, the way of being affected by heat may differ depending on the constitution and physical condition of the user 6. Further, in the case where the temperature of the mobile terminal device 20 does not increase suddenly even if there is a continuous operation, the user 6 may not be aware of the contact state, and the user 6 will be able to reach that temperature, There is a possibility of unintentionally touching the heat generation part for a long time. On the other hand, in this operation control, since it does not depend on the internal temperature, it can respond quickly to the contact state.

[Third Embodiment]

  FIG. 10 illustrates an example of processing of the mobile terminal device according to the third embodiment. The processing content shown in FIG. 10 is an example.

  In the operation control process of the mobile terminal device 20 illustrated in FIG. 10, for example, in addition to the determination of the intended contact operation described above, the operation control process is performed depending on whether or not the user 6 has used the call function. The mobile terminal device 20 performs the monitoring process 90 of the contact state of the user 6 based on the detection result of the touch panel 24, for example. The control unit 40 performs an unintended human body contact determination process 92 based on the contact state monitoring process 90, and based on this determination, maintains the operation state 94 of the functional component of the mobile terminal device 20 or determines whether the functional component is stopped. Migrate to

  In the stop determination, a call state monitoring process 95 and a function OFF notice sound process 96 are performed. In a call using the mobile terminal device 20, for example, as shown in FIG. 11, the user 6 holds the same position of the case 22 with the hand 6A for a long time and uses the touch panel 24 in contact with the face 6B. Therefore, in the mobile terminal device 20 using the call function, it is necessary to determine the use state of the call function in addition to the determination of the contact range, elapsed time, and contact center.

  In the mobile terminal device 20, for example, when the user 6 approaches during a call by the proximity sensor 34, processing for turning off the touch panel 24 is performed. In the portable terminal device 20, for example, the monitoring function of the contact state is maintained for the touch panel 24 and the touch panel control circuit 42 in order to prevent the influence of heat through the touch panel 24 in contact with the user's face 6 </ b> B.

  In the mobile terminal device 20, for example, when there is no response from the user 6 after a predetermined time has passed with respect to the function OFF notice, it is determined that the call function is not used, and the OFF processing 98 of each function is performed. .

  <Regarding Operation Control of Mobile Terminal Device 20 Including Confirmation of Call State>

  FIG. 12 shows an example of the operation control process of the mobile terminal device.

  In the operation control process, when the mobile terminal device 20 is in the operation state (S31), when the touch panel 24 detects the contact of the user 6, the timer 60 starts the first time measurement process (S32). When the contact state continues for a predetermined time, for example, 10 [seconds] or longer (YES in S33), the control unit 40 determines the operation state of the call function (S34). The operation state of the call function may be determined based on, for example, execution of a voice signal generation process of the modem 64 or the RF unit 66, or the execution state of a call application program may be monitored.

  When the call function is in operation (YES in S34), the control unit 40 acquires the detection information of the proximity sensor 34 as the determination of the usage state of the voice communication function (S35), and determines the proximity state of the user's face 6B. It is determined whether or not it has been detected (S36). In this operation control, for example, even when the voice call function is in operation, when the user's face 6B is not in proximity, such as when using a headset or speaker (NO in S36). May determine the contact range and the center of contact with the touch panel 24 described above. The processing shown in S43 to S50 of this operation control is the same as the processing shown in S14 to S21 described above, and a description thereof will be omitted.

  If the control unit 40 determines that the proximity state is detected based on the detection result of the proximity sensor 34 (YES in S36), the control unit 40 proceeds to a call state confirmation process. The control unit 40 causes the timer 60 to start the third timing process (S37), and determines the contact area with the touch panel 24 (S38). When the contact area Ax is, for example, 5% or more as a predetermined range with respect to the total area information A1 of the touch panel 24 (YES in S38), the control unit 40 determines whether the call is ongoing. to decide.

  The control unit 40 monitors the modem 64 when, for example, 10 [minutes] has elapsed, for example, by the third time measurement, and determines whether the transmission voice rate is a predetermined value, for example, 5 [%] or less. (S39). When the transmission voice rate is low, for example, the user 6 of the mobile terminal device 20 may not emit a voice and the communication state may be maintained.

  In this case, for example, there is a possibility that the user 6 is sleeping while the mobile terminal device 20 is in a talking posture. Therefore, the control unit 40 performs a confirmation process using a notification sound for notifying that the function is turned off as a process for confirming the use of the voice call function. In this confirmation process, for example, as a predetermined input operation, an announcement is output from the receiver 30 so as to press the volume key once. This announcement is output, for example, three times per minute (S40).

  When a predetermined input operation is performed by confirming the usage state of the call function (YES in S41), the control unit 40 maintains at least the call function (S42), and when there is no input operation (NO in S41), the control unit 40 is activated. The running application or functional component is stopped (S49).

  The control unit 40 determines that the contact area Ax is not a predetermined range with respect to the total area information A1 of the touch panel 24 (NO in S38), or the transmission voice rate is greater than or equal to a predetermined value (S39). NO), the call is continued (S42).

  According to such a configuration, even when an unintended contact state continues with respect to the mobile terminal device 20, when a call is being used, at least the call function is maintained based on the result of the call monitoring. It is possible to avoid forcibly shutting down the functions inside. In addition, by confirming the use state of the call function in response to a request for an input operation, it is possible to increase the estimation accuracy of an unintended operation and reduce power consumption.

  [Fourth Embodiment]

  FIG. 13 shows a mobile terminal device according to the fourth embodiment.

  In the portable terminal device 110, the contact pressure with respect to the components arranged on the exterior side is monitored and the operation control is performed by monitoring the contact pressure of the user. The influence received from the heat generated from the mobile terminal device 110 that has generated heat tends to be stronger when it is in strong contact with the exterior component. Therefore, in the portable terminal device 110, when the contact is unintended and the contact state is at a certain pressure or higher, the functional component is stopped or the application program process is stopped.

  For example, as shown in FIG. 13, the mobile terminal device 110 includes a plurality of pressure sensors 112 on the back side of the touch panel 24 exposed on the exterior side. The pressure sensor 112 is an example of a sensor of the present disclosure, and detects a pressing force of a contact operation applied to the touch panel 24. For example, as shown in FIG. 14, the pressure sensor 112 is installed in contact with the touch panel 24 inside the case 22, and detects the amount of displacement or deformation of the touch panel by pressing to monitor the pressing force or a strain gauge. Etc. are formed.

  In the operation control of the mobile terminal device 110, for example, as shown in FIG. 15, an unintended human body contact determination process 122 is performed based on the result of the contact state monitoring process 120 by the pressure sensor 112. When it is determined by the human body contact determination including the contact pressure that the operation is not an unintended contact, the control unit 40 maintains the operation state 124 of the mobile terminal device 110, and when it is determined that the contact is not intended. Then, OFF processing 126 of each function is performed.

  <Operation control processing>

  FIG. 16 shows an example of the operation control process of the mobile terminal device including the contact pressure monitoring process. With respect to the processing shown in FIG. 16, the processing contents and processing procedures of each step are examples.

  In the operation control process, for example, when the mobile terminal device 110 is in an operating state (S61), and it is determined from the monitoring information from the pressure sensor 112 that the contact operation by the user 6 is greater than or equal to the set pressure value (S62). ), Shift to contact monitoring process. This contact monitoring process S63 to S72 may be performed in the same manner as S12 to S21 described above, and detailed description thereof is omitted.

  Thereby, in the portable terminal device 110, when a predetermined pressure or more is applied to the operation target such as the touch panel 24 in a similar range in a certain time, the contact state of the human body not intentionally operated is determined. Judgment is made and the operation process of the functional component or program is stopped.

  In this embodiment, the case where the magnitude of the contact pressure and the contact state of the user 6 are determined in the operation control process is shown, but the present invention is not limited to this. The control unit 40 may combine the use state monitoring process of the voice call function shown in the above embodiment together with the contact pressure magnitude monitoring process.

  According to such a configuration, the influence of heat on the user is suppressed or avoided by determining whether or not the intended contact operation is based on the contact state of the user 6 with respect to the mobile terminal device 110 and performing a function operation restriction. It is possible to improve safety. In the mobile terminal device 110, it is possible to avoid the influence of thermal deformation or the like on the touch panel 24 or the like by not pressing the touch panel or the like strongly toward the internal functional component that generates heat.

  [Fifth Embodiment]

  FIG. 17 shows a configuration example of the back side of the mobile terminal device according to the fifth embodiment.

  For example, the portable terminal device 130 is provided with a rear case 132 that can be integrated with or separated from the case on the side surface on the rear side. The back case 132 is provided with a sensor 134 formed with a certain size, for example, on the surface side of the back case 132 or on the inner wall surface side of the back case 132. This sensor 134 is an example of the sensor of the present disclosure, and monitors the contact state of the user 6 with the back case 132. The sensor 134 is formed of, for example, an electrostatic sensor that electrically detects contact of the living body part of the user 6 or a pressure sensor that detects pressing force due to contact.

  In the mobile terminal device 130, for example, a camera module 136, an infrared communication port 138, a fingerprint authentication sensor 140, a flash function 142, and the like are arranged on the back side. These components are examples of the functional component of the present disclosure, and may be a target of a function stop process in the operation control of the mobile terminal device 130. For example, a part of the camera module 136 or the like protrudes from the planar portion of the back case 132 to the outside. Therefore, the sensor 134 may be arranged avoiding these exposed parts, for example.

  The mobile terminal device 130 monitors an unintended contact state of the user 6 with respect to the back side and performs operation control. In the mobile terminal device 130, for example, as shown in FIG. 18, there is a case where a battery 144 is mounted in a wide range inside the back case 132. The battery 144 is an example of the power supply unit 62 described above, and is in a heat generating state when a heat generating component under the battery is operating. Therefore, in the mobile terminal device 130, a contact state unintended by the user 6 is prevented from continuing for a long time in the vicinity of the component in the heat generation state.

  In this operation control process, for example, when the back case 132 faces the direction of the user 6 and the user 6 does not hold the mobile terminal device 130, the contact is monitored, and a functional component or the like is monitored. Perform stop processing. Specifically, the user 6 sleeps in a state where an online game or the like is used while being charged, for example, and the heated back case 132 faces upward as a user's direction. Assume that the body is in contact with the hand.

  In order to determine such a usage state, the mobile terminal device 130 is connected with a sensor 134 via a sensor circuit 133 as shown in FIG. The acceleration sensor 150 is an example of a unit that detects the orientation and inclination of the mobile terminal device 130. As the acceleration sensor 150, for example, an acceleration sensor or an angular velocity sensor such as a gyroscope that is used for switching the orientation of the display screen of the mobile terminal device 130 may be used.

  <Operation control processing>

  FIG. 20 shows an example of operation control processing for the contact state with the back case.

  The operation control process is, for example, a case where the mobile terminal device 130 is in an operation state (S81), and the operation control process is started when the contact state with the back case 132 is started by the detection of the sensor 134 (S82). The control unit 40 determines whether or not the rear surface of the set including the back case 132 and the sensor 134, that is, the back surface of the mobile terminal device 130 is facing upward toward the user 6 (S83). When the control unit 40 determines that the rear surface is facing upward based on the monitoring information of the acceleration sensor 150 (YES in S83), the control unit 40 starts measuring time by the timer 60 (S84).

  The control unit 40 uses the monitoring information of the acceleration sensor 150 to calculate the level of the mobile terminal device 130 (S85). Then, it is determined whether the calculated horizontality is within ± 5 [%], for example, as a predetermined value for the horizontality at the time of first detection, which is a reference value (S86). This determination process is distinguished from the case where the mobile terminal device 130 is used while the user is sleeping, for example, as the usage state of the mobile terminal device 130.

  When the level of the mobile terminal device 130 is within the predetermined value range (YES in S86), the control unit 40 proceeds to a monitoring process for a contact state unintended by the user with respect to the back case 132. The processes shown in S87 to S93 in FIG. 20 are the same as S15 to S21 described above, and detailed description thereof is omitted. Further, the control unit 40 determines that the rear surface is not facing upward based on the monitoring information of the acceleration sensor 150 (NO in S82), or the level of the mobile terminal device 130 is less than the reference value (S86). NO), repeatedly monitoring whether the mobile terminal device 130 is in an operating state.

  In this embodiment, the case where the operation control is performed based on the detection information of the acceleration sensor 150 when the user 6 is in contact with the mobile terminal device 130 placed upward is shown. Absent. For example, the control unit 40 changes the threshold value of the inclination with respect to the detection information of the acceleration sensor 150 so that the contact state such as the user 6 grips the back side of the mobile terminal device 130 being charged continues. It is also possible to monitor operation and control operation.

  In portable terminal device 130, for example, it may be determined whether or not the voice call function is being used, together with the process of monitoring the state of contact with back case 132. Furthermore, in the operation control process, for example, the pressing force on the sensor 134 may be determined.

  According to such a configuration, it is possible to avoid an unintended contact state with respect to the back case 132 where the user 6 has become high temperature in accordance with the use state of the mobile terminal device 130.

  Examples of modifications described above are listed below.

  (1) In the above embodiment, as the operation control process, the mobile terminal device 20 indicates that the functional component or the application program is stopped when it is determined that the contact or operation is not intended. For example, the control unit 40 may set priorities for the functional components and application programs to be stopped, and may stop only a part thereof. For example, as illustrated in FIG. 21, the control unit 40 may perform an operation control process based on a stop instruction information table 160 stored in the memory 72.

  In this stop instruction information table 160, for example, priority order information 162 and target information 164 are stored for the target to be stopped. The priority order of the stop targets may be set to a higher priority, for example, in the mobile terminal device 20 that has a heavy operation or processing load or a high heat generation temperature. In this priority setting, the functional components necessary for operating the mobile terminal device 20 are set low. In the operation control process, for example, some or all of the listed functional parts and application programs may be stopped in order of priority.

  According to such a configuration, the mobile terminal device 20 performs the operation intended by the user by reducing the influence of heat on the user and reducing the load on the functional components and maintaining the minimum functions. If this happens, the responsiveness of the process can be maintained.

  (2) In the above embodiment, the functional components and application programs of the mobile terminal device 20 are stopped regardless of the position of the unintended contact or operation on the case 22, the touch panel 24, or the back case 132. However, the present invention is not limited to this. Absent. In the operation control process, for example, a functional component or an application program to be stopped or not to be stopped may be determined according to a position of an unintended contact or operation of the user.

  In the mobile terminal device 20, for example, as shown in FIG. 22, the arrangement positions of the internal functional components 170, 172, and 174 are different with respect to the contact center Ot of the living body part and the fixed range W around the contact center Ot. The amount of influence on users is different. Therefore, in this operation control process, for example, the distance between the contact center Ot and each functional component 170, 172, 174 is calculated, the functional component close to the contact center Ot is stopped, and the far functional component is not stopped.

  For example, coordinate information set for a sensor such as the touch panel 24 may be used to calculate the distance to the contact center Ot. That is, the coordinate of the contact center Ot is pc (xc, yc), the coordinate of the functional component 170 is p1 (x1, y1), the coordinate p2 of the functional component 172 is (x2, y2), and the coordinate of the functional component 174 is p3 (x3). , Y3). Functional components for which coordinates are set include, for example, an application processor, a power supply IC, a power amplifier, and a charging IC as main heat generating devices.

  And in the control part 40, what is necessary is just to calculate the distance on a coordinate about each distance L1, L2, L3 to the contact center Ot and each functional component. The installation position coordinates of each functional component are stored in the memory 72, for example. In calculating the distance between the detected contact center Ot and the functional component, for example, a separation distance calculation table 180 for the contact position is generated as shown in FIG. The separation distance calculation table 180 includes, as position information, for example, coordinate information 182 of the contact center Ot, coordinate information of functional parts, and information 184 of the calculated distance L to the contact center Ot. The control unit 40 may perform the operation control process with reference to the set separation distance calculation table 180.

  <Operation control processing>

  FIG. 24 shows an example of an operation control process for setting a stop target in accordance with the separation distance from the contact center.

  In this operation control, for example, a contact state determination process is performed (S101), and it is determined whether or not an unintended contact or operation is performed by the user. In the determination of the contact state, the above-described operation control process F1 (FIG. 7) may be performed. When the control unit 40 determines that the contact state is not intended, the control unit 40 extracts contact position information (S102), reads the functional component arrangement position information (S103), and calculates the distance between the contact center Ot and the functional component. (S104). This calculated value is stored in the separation distance calculation table 180.

  The control unit 40 determines whether or not each functional component is separated from the contact center Ot by a certain range W or more as the selection process of the functional component to be stopped (S105). In the operation control process, the operation is maintained for the functional component (YES in S105) that is separated by a certain range W or more (S106), and the operation stop process is performed for the functional component in the certain range W (NO in S105) (S107). ).

  In this operation control, for example, for all the functional components of the mobile terminal device 20, the function stoppage or the operation maintenance selection may be performed based on the distance calculation, or an unintended contact or operation regardless of the distance. In this case, a functional component that is always stopped may be set. In this selection process, for example, the timer 60 may be used as a trigger for the contact state determination process, and it may be determined whether or not the functional component has entered the fixed range W in a predetermined time period of, for example, 5 minutes. That is, the fixed range W may be determined on the assumption of the displacement of the contact position of the user 6.

  As a specific example, the following processing may be performed.

  A) When the application processor, the power supply IC or the power amplifier is within a certain range W within a predetermined time and the charging IC is outside the certain range W, the game application, the communication function component, and the display unit 28 are stopped. But let me maintain the charge.

  B) If the charging IC is within a certain range W for a predetermined time and the application processor, the power supply IC, and the power amplifier are separated by a set distance W or more, the charging function is stopped, but the other functional components operate. To maintain.

  C) When the application processor, the power supply IC, the power amplifier, and the charging IC are always separated by a certain range W or more during a predetermined time, these functional components are maintained in operation.

  D) When the application processor, power supply IC, power amplifier, and charging IC are always within a certain range W during a predetermined time, the game application, communication function, display unit 28 and charging are stopped.

  According to such a configuration, by grasping the arrangement position of each functional component with respect to the contact position of the user, each function of the mobile terminal device 20 can be selectively maintained according to the contact position, and all the functional components are uniformly set. Convenience is not impaired as compared with the case of stopping.

  (3) In the above embodiment, when the contact pressure is equal to or higher than the set pressure value, and the contact range equal to or greater than the predetermined value continues for a certain time, it is determined that the contact is not intended, but the present invention is not limited to this. For example, the control unit 40 determines whether or not the contact is unintentional based on the contact range and the contact time, and reduces the contact state determination time when the pressing force is large based on the acquired contact pressure monitoring information. Also good. Moreover, the control part 40 may increase / decrease the number of the functional components and application programs to stop according to the magnitude | size of contact pressure.

  (4) In the above embodiment, the case where the acceleration sensor 150 is used to monitor the orientation and the inclination direction of the component has been shown to monitor an unintended contact or operation to the back case 132, but is not limited thereto. Absent. For example, when monitoring unintentional contact or operation with respect to the touch panel 24 and other components arranged on the front side, the mobile terminal device 130 determines the orientation and inclination state of the monitoring target based on the detection result of the acceleration sensor 150. May be.

  Thereby, in the portable terminal device 110, in addition to being able to quickly perform an operation control process for the contact in a state in which the user 6 is likely to be affected by heat, the contact temperature can be further reduced, so that safety can be reduced. Enhanced.

  Next, the following additional notes are disclosed with respect to the embodiment described above. The technical idea related to the technology of the present disclosure can be grasped by various levels and variations from the superordinate concept to the subordinate concept, and the technology of the present disclosure is not limited to the following supplementary notes.

(Supplementary note 1) a sensor for monitoring the contact state of the user with respect to the parts arranged on the exterior side;
A timer for measuring elapsed time,
Based on the monitoring information of the sensor, when the contact range with respect to the component is wider than a set value and is continuously in contact for a certain period of time, a functional unit that is operating, a control unit that stops the running application program,
A portable terminal device comprising:

  (Additional remark 2) The said control part calculates the contact area of the said user with respect to the said components based on the monitoring information of the said sensor, and judges whether this contact area is more than the said setting value, It is characterized by the above-mentioned. The mobile terminal device according to 1.

  (Additional remark 3) The said control part sets the contact center to the said components based on the monitoring information of the said sensor, and monitors that the contact position of a user is maintained within the setting range from this contact center. The portable terminal device according to Supplementary Note 1 or Supplementary Note 2, wherein the contact range is determined, and the contact continuation time within the set range is monitored based on timing information from the timer.

  (Supplementary Note 4) The functional part or the application program for stopping the operation is set in the control unit, and the power supply to the functional part is stopped according to the determination result of the contact state of the user, or a specific application The portable terminal device according to any one of supplementary notes 1 to 3, wherein reading of the program is stopped.

(Additional remark 5) Furthermore, the proximity sensor which monitors the approach state of the user with respect to the said components is provided,
The control unit determines a use state of the voice call function based on an operation state of the voice call function and monitoring information of the proximity sensor, requests a specific input operation for use of the voice call function, and The mobile terminal device according to any one of appendix 1 to appendix 4, wherein at least an operation of the voice call function is maintained when an input operation is performed.

(Additional remark 6) The said component is formed with the touch panel which displays an image, and input operation is performed by a user's contact,
The sensor is formed by a contact sensor that detects contact position information with respect to the touch panel, and uses the contact position information to monitor a user's contact state with respect to the functional component. The mobile terminal device according to any one of the above.

(Appendix 7) The sensor is formed of a pressure sensor that monitors a contact pressure of a user with respect to the component,
The control unit according to any one of appendix 1 to appendix 5, wherein the control unit determines that the contact state is established when a contact pressure with respect to the component is a predetermined value or more based on a detection result of the pressure sensor. Mobile terminal device.

  (Additional remark 8) The said sensor is formed with the electrostatic sensor installed in the said component exterior side, The portable terminal device as described in any one of Additional remark 1 thru | or Additional remark 6 characterized by the above-mentioned.

(Additional remark 9) Furthermore, it has an acceleration sensor which monitors the direction and inclination state of the parts,
The control unit is configured to maintain the operation of the functional component being operated and the application program being executed when the exterior surface of the component is facing a user side and the inclination thereof is equal to or greater than a predetermined value. The mobile terminal device according to any one of appendices 1 to 6.

(Additional remark 10) Furthermore, the memory | storage part which memorize | stores the installation position information of the said functional component is provided,
The control unit selects the functional component to be stopped from the set position of the contact center and the stored installation position information of the functional component, according to any one of appendix 2 to appendix 9, Mobile terminal device.

(Supplementary Note 11) A mobile terminal device operation control program to be executed by a computer,
Get monitoring information of the user's contact status with the parts placed on the exterior side,
Based on the monitoring information, when the contact range with respect to the component is wider than a set value and is continuously in contact for a certain period of time, the portable device that causes the computer to execute a process of stopping the functional component being operated and the application program being executed A terminal device operation control program.

(Additional remark 12) Based on the monitoring information, the contact area of the user to the part is calculated,
Determining whether the contact area is greater than or equal to the set value;
The operation control program for a portable terminal device according to appendix 11, which causes the computer to execute processing.

(Additional remark 13) The process which monitors the contact state of the user with respect to the components arrange | positioned at the exterior side with a sensor,
A process of measuring elapsed time;
Based on the monitoring information of the sensor, when the contact range with respect to the component is wider than a set value and is in contact for a certain period of time, a process in which the control unit stops the functional component in operation and the application program being executed,
An operation control method for a mobile terminal device, comprising:

  The preferred embodiments of the configuration of the present disclosure have been described above. However, the technology of the present disclosure is not limited to the description of the above embodiment. It goes without saying that various modifications and changes can be made by those skilled in the art based on the gist of the technology described in the claims or disclosed in the specification. Needless to say, such modifications and changes are included in the technology of the present disclosure.

2, 20, 110, 130 Mobile terminal device 4 Exterior component 6 User 8, 134 Sensor 10, 60 Timer 12, 40 Control unit 14, 170, 172, 174 Functional component 16 Memory 18 Application program 22 Case 24 Touch panel 28 Display unit 30 Receiver 34 Proximity Sensor 42 Touch Panel Control Circuit 46 Display Control Circuit 50 Operation Key 52 Voice Input / Output Circuit 62 Power Supply Unit 64 Modem 66 RF Unit 70 Processor 72 Memory 80 Power Supply Circuit 90 Contact State Monitoring Process 92 Unintentional Human Body Contact Determination Process 94 Operation state maintenance 95 Call state monitoring process 96 Function OFF notice pop-up process 98 Function OFF process 112 Pressure sensor 120 Contact state monitoring process by pressure sensor 112 122 Unintentional human body contact Constant process 124 maintains processing 126 each function of the operating state OFF processing 132 back case 133 sensor circuit 144 battery 150 acceleration sensor 160 stop instruction information table 180 a distance calculation table

Claims (5)

A sensor for monitoring a user's contact state with the parts arranged on the exterior side;
A timer for measuring elapsed time,
When the user's contact state with the part continues for a specified time or more, the timer for the elapsed time is counted, and the user for the part when the elapsed time is started based on the monitoring information of the sensor Calculating the area of the contact range, and setting the center of the contact range when the area is equal to or greater than a set value, based on the monitoring information of the sensor and the elapsed time, and a portion within the contact range, and A control unit that stops a functional component being operated and an application program being executed when a state in which the entire portion within a predetermined distance from the center is in contact has continued for a certain period of time;
A portable terminal device comprising: The mobile terminal device according to claim 1, wherein the control unit determines whether the area of the contact range is equal to or greater than the set value. And a proximity sensor for monitoring a user's proximity to the component,
The control unit determines a use state of the voice call function based on an operation state of the voice call function and monitoring information of the proximity sensor, requests a specific input operation for use of the voice call function, and The portable terminal device according to claim 1 or 2, wherein when the input operation is performed, at least the operation of the voice call function is maintained. An operation control program for a portable terminal device to be executed by a computer,
Get monitoring information of the user's contact status with the parts placed on the exterior side,
When the contact state of the user with respect to the part continues for a specified time or more, the elapsed time is counted,
Based on said monitoring information, to calculate the area of the contact area of the user with respect to the component at the start of counting of the elapsed time,
If the area is greater than or equal to a set value, set the center of the contact range,
Based on the monitoring information and the elapsed time, a functional component that is in operation when it is a part within the contact range and the entire part within a predetermined distance from the center is in contact for a certain period of time. An operation control program for a portable terminal device that causes the computer to execute processing for stopping an application program being executed. A process of monitoring the contact state of the user with the parts arranged on the exterior side with a sensor;
A process of counting the elapsed time when the user's contact state with respect to the part continues for a specified time or more ;
Based on the monitoring information of the sensor, a process of calculating the area of the user's contact range with respect to the component when the elapsed time is started,
A process of setting the center of the contact range when the area is equal to or greater than a set value;
Based on the monitoring information of the sensor and the elapsed time, it is in operation when it is a portion within the contact range and the entire portion within a predetermined distance from the center is in contact for a certain period of time. Processing that causes the control unit to stop the functional component and the running application program;
An operation control method for a mobile terminal device, comprising:

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