KR20220029008A - Portable device and method for application operating control - Google Patents

Abstract

Disclosed are a portable terminal and a method for controlling an application driving in the portable terminal. The portable terminal includes: an acceleration sensor for outputting a sensor output value for acceleration generated by movement of the portable terminal in each of three axis directions; and a controller which blocks the operation of an application preset to be blocked from driving in a walking state among applications currently running in the portable terminal, when the sensor output value input from the acceleration sensor satisfies a predetermined condition. Accordingly, a user can safely use the portable terminal while the user stops moving.

Description

A portable terminal and a method for controlling application driving in a portable terminal {Portable device and method for application operating control}

The present invention relates to a portable terminal and a method for controlling application driving in the portable terminal.

With the development of communication technology, mobile terminals, which are portable information devices that combine information collection, storage, preparation, search and communication functions, such as smart phones and tablet PCs, have become widespread.

BACKGROUND OF THE INVENTION [0002] Portable terminals are widely used in a wide range of fields due to their ease of use and portability. In a portable terminal such as a smart phone, various applications may be installed and executed as well as basic communication services such as a call.

However, the convenience of portable terminals increases the possibility of new accidents.

For example, it is known that a smartphone zombie, which refers to people walking with their heads bowed while looking at a smartphone, has a 70% higher chance of being in an accident by a nearby person or car because they cannot look around.

Accordingly, there is a need for a method for allowing a user to safely use a portable terminal.

Republic of Korea Patent No. 10-1736003

An object of the present invention is to provide a portable terminal and a method for controlling application driving in the portable terminal by blocking the operation of an application while the user is walking, thereby inducing the user to safely use the portable terminal in a state in which movement is stopped.

The present invention provides a portable terminal and a method for controlling application operation in a portable terminal that prevent application operation from being improperly blocked by determining whether to block application operation by recognizing whether a user is walking or riding in a vehicle even while moving. it is for

Objects other than the present invention will be easily understood through the following description.

According to an aspect of the present invention, there is provided an acceleration sensor for outputting a sensor output value for an acceleration generated by a movement of a portable terminal in each of three directions; And when the sensor output value input from the acceleration sensor satisfies a predetermined condition, among the applications currently running in the portable terminal, the portable terminal comprising a controller for blocking the operation of the application set in advance so as to be blocked from driving in the walking state is provided. .

으로 산출되되, 상기 x, 상기 y, 상기 z 각각은 X축, Y축 및 Z축 방향의 센서 출력값일 수 있다.The condition is that the difference (ΔV) between the maximum output value (V_max) and the minimum output value (V_min) of the sensor output value or the calculated energy value in at least one axis direction input during a predetermined period is greater than or equal to a predetermined first threshold value In addition, it may be preset as being satisfied when the difference value equal to or greater than the first threshold value lasts for a time period equal to or greater than the second threshold value specified in advance. Here, the energy value (E) is

, wherein each of x, y, and z may be a sensor output value in an X-axis, Y-axis, and Z-axis direction.

The portable terminal further includes a GPS sensor for outputting sensed information about the GPS location coordinates of the portable terminal, wherein the controller calculates the location information of the portable terminal using the sensing information, and changes the calculated location information The moving speed of the portable terminal may be calculated using

According to another aspect of the present invention, there is provided a computer program stored in a computer-readable medium to perform an application driving control method in a portable terminal, the computer program causing the computer to perform the following steps, the steps comprising: , receiving a sensor output value for the acceleration generated by the movement of the portable terminal in each of the three axis directions; The difference value (ΔV) between the maximum output value (V_max) and the minimum output value (V_min) of the sensor output value or the calculated energy value in at least one axis direction input during the predetermined period is equal to or greater than the predetermined first threshold value, and determining whether a difference value equal to or greater than one threshold value satisfies a first blocking condition that lasts for a time period equal to or greater than a predetermined second threshold value; If the first blocking condition is satisfied, the movement speed of the portable terminal is calculated using the change in the location information calculated using the sensing information on the GPS location coordinates generated by the GPS sensor, and the calculated movement speed is set in advance. determining whether a second blocking condition that is less than or equal to a set third threshold is satisfied; and when the second blocking condition is satisfied, blocking the operation of an application preset to be blocked from driving in a walking state among applications currently running in the portable terminal, the computer program stored in the computer-readable medium is provided do.

Other aspects, features and advantages other than those described above will become apparent from the following drawings, claims, and detailed description of the invention.

According to an embodiment of the present invention, by blocking the operation of the application while the user is walking, there is an effect of inducing the user to safely use the mobile terminal in a state where the movement is stopped.

In addition, even if the user is moving, by recognizing whether the user is walking or riding in a vehicle to determine whether to block the application driving, there is an effect of preventing the application driving from being inappropriately blocked.

1 is a block diagram of a portable terminal according to an embodiment of the present invention;
2 is a diagram illustrating a sensor output value of an acceleration sensor according to an embodiment of the present invention;
3 is a view for explaining a method of determining whether to block an application according to an embodiment of the present invention;
4 is a flowchart illustrating an application driving control method in a portable terminal according to an embodiment of the present invention.

Since the present invention can have various changes and can have various embodiments, specific embodiments are illustrated in the drawings and described in detail in the detailed description. However, this is not intended to limit the present invention to specific embodiments, it should be understood to include all modifications, equivalents, and substitutes included in the spirit and scope of the present invention.

1 is a block diagram of a portable terminal according to an embodiment of the present invention, FIG. 2 is a diagram illustrating a sensor output value of an acceleration sensor according to an embodiment of the present invention, and FIG. 3 is an embodiment of the present invention It is a diagram for explaining a method of determining whether to block an application according to

Referring to FIG. 1 , the portable terminal may include a communication unit 110 , an acceleration sensor 120 , a GPS sensor 125 , a touch screen 130 , a memory 140 , and a controller 150 .

The communication unit 110 performs communication for calls and data communication performed by the controller 150 .

The acceleration sensor 120 outputs sensing information on the acceleration generated by the movement of the portable terminal. As illustrated in (a) to (c) of FIG. 2 , the acceleration sensor 120 may be provided to output sensing information about acceleration in the X-axis, Y-axis, and Z-axis directions, respectively.

The GPS sensor 125 communicates with the GPS satellite and outputs sensing information regarding the GPS location coordinates of the portable terminal.

The touch screen 130 is disposed on one side of the portable terminal, and has a display function that displays what is to be displayed on the controller 150 (eg, a driving screen of an arbitrary application, an application blocking message, etc.), and a user's touch. It functions as an input device to input a signal through

The memory 140 stores data for driving the controller 150 and data related to an application to be executed in the portable terminal. For example, data related to first to n-th applications that can be driven in the portable terminal may be stored in the memory 140 , and one or more of these applications may be controlled to block driving by the controller 150 as will be described later. It can be preset so that it can be

The memory 140 may further store sensing information generated by the acceleration sensor 120 and the GPS sensor 125 .

The memory 110 may further include, for example, an external memory, and may further include a storage device such as a hard disk drive.

The controller 150 may not only control the portable terminal to operate as a general portable information device, but may further perform a driving blocking control function for one or more applications driven in the portable terminal.

An application to be controlled to block driving may be preset by a user or an administrator, and the corresponding application may be, for example, an application executed in a background state or an application executed in a normal operating state.

A driving cutoff control for an application performed by the controller 150 will be briefly described.

As illustrated in (a) to (c) of FIG. 2 , the controller 150 inputs sensing information (ie, sensor output value) that is acceleration values in the X-axis, Y-axis, and Z-axis directions from the acceleration sensor 120 . In response, the maximum output value (V_max) and the minimum output value (V_min) are detected during a preset period (T, see FIG. 3 ) for the sensor output values in each axis direction to calculate a difference value (ΔV), respectively.

As illustrated in FIG. 3 , each of the sensor output values in the X-axis, Y-axis, and Z-axis directions generally represents a waveform representing a peak representing the maximum output value and a valley representing the minimum output value in each cycle, and the output value between the peaks and the valleys. A difference value ΔV may be calculated.

When the calculated difference value with respect to the sensor output value in at least one direction is equal to or greater than a predetermined first threshold, and the difference value equal to or greater than the first threshold continues for a period of time greater than or equal to a predetermined second threshold, the portable terminal Recognizes that the user is walking, and, among applications currently running in the portable terminal, the application set to be blocked from driving in the walking state is controlled to be blocked from driving.

The controller 150 may display a guide message about blocking the driving of the corresponding application on the touch screen 130 so that the user can recognize the driving blocking control of the corresponding application.

Alternatively, the controller 150 may determine whether to block the driving of the application by using the energy value E obtained by converting the sensor output value in each direction, rather than the sensor output value in the X-axis, Y-axis, and Z-axis directions itself.

와 같은 SVM(Signal Vector Magnitude)을 적용하여 하나의 에너지 값(E)으로 산출할 수도 있다(도 2의 (d) 참조). 여기서 x, y, z 값 각각은 X축, Y축 및 Z축 방향의 센서 출력값이다. In order to process as one representative value without considering the rotation component included in the output of the acceleration sensor 120, the controller 150, for example,

It is also possible to calculate one energy value E by applying a signal vector magnitude (SVM) such as (refer to (d) of FIG. 2). Here, each of the x, y, and z values is a sensor output value in the X-axis, Y-axis, and Z-axis directions.

The controller 150 calculates the difference value ΔV by detecting the maximum output value V_max and the minimum output value V_min during the preset period T from the waveform shown as the calculated energy value. By applying the calculated difference value in the above-described manner, it is possible to determine whether to block the driving of the application.

As described above, the controller 150 of the portable terminal according to the present embodiment has a feature of inducing the user to use the corresponding application in a safe state in which the user stops moving by preventing the preset application from running while the user is walking.

However, even if the user is moving, if the situation is that the user is moving in a vehicle, the controller 150 may allow the application to be maintained in the portable terminal.

To this end, the controller 150 calculates the location information of the portable terminal by using the sensing information about the GPS location coordinates of the portable terminal provided from the GPS sensor 125, and uses the change in the location information of the portable terminal to calculate the location information of the portable terminal. Calculate the movement speed of

If the moving speed of the portable terminal is greater than a third threshold value (eg, 10 km/h) set to be relatively large compared to a normal walking speed (eg, 4 km/h), the user of the portable terminal moves to the vehicle It may be set so that the controller 150 does not block the operation of the application, which is a block control target, by recognizing that it is in a state of moving on board.

As such, the controller 150 of the portable terminal according to the present embodiment determines whether to block the application driving by recognizing whether the user is walking or riding a vehicle even though the user is moving, thereby preventing the application driving from being improperly blocked. there is also

4 is a flowchart illustrating an application driving control method in a portable terminal according to an embodiment of the present invention.

Referring to FIG. 4 , in step 410 , the controller 150 of the portable terminal receives sensing information (ie, a sensor output value) output from the acceleration sensor 120 . In this case, the controller 150 may be set to receive sensor output values in the X-axis, Y-axis, and Z-axis directions from the acceleration sensor 120 .

In step 420 , the controller 150 determines whether a sensor output value input from the acceleration sensor 120 or an energy value calculated by applying the SVM satisfies a first blocking condition previously designated for blocking the driving of the application.

으로 산출될 수 있다. 여기서 x, y, z 값 각각은 X축, Y축 및 Z축 방향의 센서 출력값이다. The energy value (E) is for example

can be calculated as Here, each of the x, y, and z values is a sensor output value in the X-axis, Y-axis, and Z-axis directions.

In addition, the first blocking condition is a first predetermined difference value (ΔV) between the maximum output value (V_max) and the minimum output value (V_min) of the sensor output value in at least one axial direction input during a predetermined period or the calculated energy value It may be preset as being satisfied when it is equal to or greater than a threshold, and a difference value equal to or greater than the first threshold continues for a period of time equal to or greater than a predetermined second threshold.

If the first blocking condition is not satisfied, the flow proceeds to step 410 again.

However, if the first blocking condition is satisfied, in step 430, the controller 150 calculates the location information of the portable terminal by using the sensing information about the GPS location coordinates of the portable terminal provided by the GPS sensor 125, The movement speed of the portable terminal is calculated by using the change in the location information of the portable terminal.

In step 440 , the controller 150 determines whether the calculated movement speed satisfies a second blocking condition previously designated for blocking the driving of the application.

Here, the second blocking condition may be preset to be satisfied when the calculated moving speed is less than a predetermined third threshold value (eg, a value such as 10 km/h recognized as being in a vehicle).

If the second blocking condition is not satisfied, the flow proceeds to step 410 again.

However, if the second blocking condition is satisfied, in step 450 , the controller 150 blocks the driving of applications preset to be blocked from driving in the walking state among applications currently running in the portable terminal. In this case, by displaying a guide message about blocking the driving of the corresponding application on the touch screen 130, the user can recognize the driving blocking control of the corresponding application.

It goes without saying that the above-described application driving control method may be implemented as a software program or an application embedded in a digital processing device such as a portable terminal, and may be performed as an automated procedure according to a time series sequence. Codes and code segments constituting the program or the like can be easily inferred by a computer programmer in the art. In addition, the program is stored in a computer readable media, and is read and executed by the computer to implement the method.

Although the above has been described with reference to the embodiments of the present invention, those of ordinary skill in the art can variously modify the present invention within the scope without departing from the spirit and scope of the present invention described in the claims below. and may be changed.

110: communication unit 120: acceleration sensor
125: GPS sensor 130: touch screen
140: memory 150: controller

Claims (4)

an acceleration sensor for outputting a sensor output value for an acceleration generated by the movement of the portable terminal in each of the three axis directions; and
and a controller configured to block the operation of an application set in advance to block driving in a walking state among applications currently running in the portable terminal when the sensor output value input from the acceleration sensor satisfies a predetermined condition. The method of claim 1,
The condition is that the difference (ΔV) between the maximum output value (V_max) and the minimum output value (V_min) of the sensor output value or the calculated energy value in at least one axis direction input during a predetermined period is greater than or equal to a predetermined first threshold value , and is also preset as being satisfied when the difference value equal to or greater than the first threshold value lasts for a time period equal to or greater than the second threshold value specified in advance,
The energy value (E) is

Calculated as
Each of the x, y, and z is a sensor output value in the X-axis, Y-axis and Z-axis directions, a portable terminal. 3. The method of claim 2,
Further comprising a GPS sensor for outputting sensing information about the GPS position coordinates of the portable terminal,
The controller calculates the location information of the portable terminal by using the sensing information, calculates the movement speed of the portable terminal by using the change in the calculated location information, and a third threshold value to which the calculated movement speed is preset A portable terminal that is set to block the driving of the application only in the following cases. A computer program stored in a computer-readable medium to perform an application driving control method in a portable terminal, the computer program causing the computer to perform the following steps, the steps comprising:
receiving a sensor output value for acceleration generated by the movement of the portable terminal in each of the three axis directions;
The difference value (ΔV) between the maximum output value (V_max) and the minimum output value (V_min) of the sensor output value or the calculated energy value in at least one axis direction input during the predetermined period is equal to or greater than the predetermined first threshold value, and determining whether a difference value equal to or greater than one threshold value satisfies a first blocking condition that lasts for a time period equal to or greater than a predetermined second threshold value;
If the first blocking condition is satisfied, the movement speed of the portable terminal is calculated using the change in the location information calculated using the sensing information on the GPS location coordinates generated by the GPS sensor, and the calculated movement speed is set in advance. determining whether a second blocking condition that is less than or equal to a set third threshold is satisfied; and
When the second blocking condition is satisfied, blocking the operation of an application preset to be blocked from driving in a walking state among applications currently running in the portable terminal, a computer program stored in a computer-readable medium.

Images