KR20160057363A - A method for adjusting moving direction of displaying object and a terminal thereof - Google Patents

Abstract

According to one embodiment of the present invention, a method for adjusting a moving direction of an object to be displayed comprises: a touch location detection step of detecting a touch location of a touch inputted on a touch screen; a scroll mode determination step of determining whether or not the touch satisfies an entry condition for a scroll mode; a moving direction configuration step of setting the moving direction of the object to be displayed on the touch screen as a direction corresponding to the touch location when the touch satisfies the entry condition for the scroll mode; and a display step of displaying, on the touchscreen, the object displayed on the touch screen moving in the moving direction. According to one embodiment of the present invention, when intending to scroll a screen, the terminal can adjust the scroll with a single touch instead of a drag action.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a method and a terminal for moving a display object,

The present invention relates to a method and a terminal for adjusting a moving direction of a display object.

Today, electronic systems such as TVs, smart phones, MP3 players, PMPs, notebooks and PDAs are equipped with various input and output devices. Various input / output devices are provided to allow the user to conveniently control the above systems. Among electronic systems, devices such as mobile phones, MP3 players, PMPs, notebooks, PDAs and the like are small in size, Recently, as a part of efforts to improve the user interface, touch panels, touch screens, navigation pads, and the like are being installed in these devices. In addition, various types of user interfaces are required due to the spread of the integrated computer and the tablet computer employing the touch screen.

In recent years, it has replaced the mouse and keyboard inputs in a typical PC by employing a touch screen that allows the user to enter data and enter commands in a variety of ways, even in a tight space. Accordingly, a variety of user interfaces for touch screens are being developed.

However, the conventional touch screen is used when it is used in various user interfaces, but there are many restrictions on the input of devices without a user interface, and the user may feel inconvenience as much. For example, when playing a game or surfing the web, it is difficult to precisely manipulate as much as a mouse or a keyboard by touching. More specifically, in the past, a finger that is touched on a touch screen was dragged in a direction that the user wanted to scroll, thereby scrolling the screen displayed on the touch screen. Therefore, in the conventional scroll method, the user has to drag the touch. Therefore, in order to change the scroll direction, the drag direction has to be changed and it has been inconvenient to repeatedly drag the finger to scroll continuously. A fast finger drag was required to scroll, and there was a problem of inconvenience because a slow slow finger drag was required to change the scroll speed to scroll at a slower speed.

SUMMARY OF THE INVENTION It is an object of the present invention to provide a method of adjusting a moving direction of a display object and a terminal in which a user can operate the display object with a single touch instead of dragging when scrolling the screen.

According to another aspect of the present invention, there is provided a method of adjusting a moving direction of a display object, the method comprising: a touch position detection step of detecting a touch position of a touch input to the touch screen; A scroll mode determination step of determining whether the touch satisfies a scroll mode entry condition; A moving direction setting step of setting a moving direction of an object displayed on the touch screen to a direction corresponding to the touch position when the touch satisfies a scroll mode entry condition; And a display step of displaying on the touch screen that an object to be displayed on the touch screen moves in the moving direction; .

Here, the scroll mode entry condition may be a condition that the touch time of the touch is equal to or longer than a predetermined time.

Here, the moving direction setting step may set the moving direction of the object displayed on the touch screen to a direction from the touch position to the center of the touch screen.

Here, the moving direction setting step may include a scroll region determining step of determining whether the touch position is located within a scroll input area set in a partial area of the touch screen, and when the touch position is located within the scroll input area , The moving direction of the object to be displayed on the touch screen may be set to a direction from the touch position to the center of the touch screen.

Here, the touch screen is divided into a plurality of direction areas, and the moving direction setting step may set a moving direction of an object displayed on the touch screen to a direction corresponding to a direction area in which the touch position is located.

And a scroll region determination step of determining whether the touch position is located within a scroll input area set in each of a plurality of directional areas of the plurality of directional areas, The moving direction of the object displayed on the touch screen can be set to a direction corresponding to the direction area in which the touch position is located.

Here, the scroll input area may be disposed in an edge area of the touch screen.

The plurality of direction areas include a first direction area positioned in a first direction of the touch screen and a second direction area positioned in a second direction opposite to the first direction, When the touch position is within the first direction area, sets the moving direction of the object to be displayed on the touch screen in the second direction, and when the touch position is located in the second direction area, The moving direction of the object to be moved can be set in the first direction.

Here, if the touch satisfies the scroll mode entry condition, the scroll mode screen may be displayed on the touch screen.

Here, the scroll mode screen may be a screen in which at least one of brightness and saturation of the entire or a part of the area of the touch screen is changed.

Detecting a touch pressure or area detecting at least one of a magnitude of the pressure of the touch and an area of the touch; And a moving speed setting step of setting a moving speed of an object displayed on the touch screen to a speed corresponding to at least one of a magnitude of the pressure of the touch and an area of the touch, It is possible to display on the touch screen that an object displayed on the touch screen moves in the moving direction and the moving speed.

According to another aspect of the present invention, there is provided a terminal comprising: a touch screen; A processor for detecting a touch position of a touch input to the touch screen; And a controller for setting a moving direction of an object displayed on the touch screen to a direction corresponding to the touch position when the touch satisfies a scroll mode entry condition.

According to an embodiment of the present invention, there is an advantage that, when the user desires to scroll the screen, the user can operate the display object by one touch instead of the drag operation.

1 is a structural diagram of a terminal according to an embodiment of the present invention.
2A and 2B are diagrams for explaining the amount of change in capacitance according to the magnitude of the touch pressure.
FIGS. 3A and 3B are diagrams for explaining the amount of change in capacitance according to the touch area.
4A and 4B are diagrams for explaining the touch time.
5 is a flowchart of a moving direction adjusting method of a display object according to an embodiment of the present invention.
6A and 6B illustrate a method of adjusting a moving direction of a display object according to the first embodiment.
7A to 7I illustrate a method of adjusting a moving direction of a display object according to the second embodiment.

The following detailed description of the invention refers to the accompanying drawings, which illustrate, by way of example, specific embodiments in which the invention may be practiced. These embodiments are described in sufficient detail to enable those skilled in the art to practice the invention. It should be understood that the various embodiments of the present invention are different, but need not be mutually exclusive. For example, certain features, structures, and characteristics described herein may be implemented in other embodiments without departing from the spirit and scope of the invention in connection with one embodiment. It is also to be understood that the position or arrangement of the individual components within each disclosed embodiment may be varied without departing from the spirit and scope of the invention. The following detailed description is, therefore, not to be taken in a limiting sense, and the scope of the present invention is to be limited only by the appended claims, along with the full scope of equivalents to which such claims are entitled, if properly explained. In the drawings, like reference numerals refer to the same or similar functions throughout the several views.

Hereinafter, a method and a terminal for adjusting a moving direction of a display object according to an embodiment of the present invention will be described with reference to the accompanying drawings.

FIGS. 2A and 2B are diagrams for explaining the amount of change in capacitance according to the magnitude of the touch pressure, and FIGS. 3A and 3B are views for explaining the structure of the terminal according to the embodiment of the present invention. FIGS. 4A and 4B are views for explaining the touch time. FIG.

1 is a structural diagram of a terminal according to an embodiment of the present invention. A terminal 100 according to an embodiment of the present invention may include a touch screen 110 and a processor 120.

A terminal 100 according to an embodiment of the present invention is a device including a touch screen 110 and can be input to the terminal 100 through a touch to the touch screen 110 . The terminal 100 according to an embodiment of the present invention may be a portable electronic device such as a notebook computer, a PDA (Personal Digital Assistant), and a smart phone. Also, the terminal 100 according to an embodiment of the present invention may be a non-mobile electronic device such as a desktop computer, smart television.

The touch screen 110 according to an embodiment of the present invention may include a touch sensor panel 111 and a display panel 112. [ For example, the touch screen 110 may include a touch sensor panel 111, which may be a transparent panel having a touch-sensitive surface, And the touch-sensitive surface may be attached to the front surface of the panel 112 to cover the visible surface of the display panel 112. The display panel 112 is a panel capable of displaying a screen so that the sender can visually confirm the contents. At this time, the display for the display panel 112 may be performed through a display driver. The display driver (not shown) is a kind of device driver as software for the operating system to manage and control the display adapter.

For example, the touch sensor panel 111 according to the embodiment of the present invention may include two electrodes whose mutual capacitances change when a touch occurs to the touch sensor panel 111.

A touch screen 110 according to an embodiment of the present invention allows a sender to manipulate the computing system by touching (touching) the screen with objects such as fingers. Generally, the touch screen 110 recognizes touches on the panel and the computing system can interpret the touches to perform calculations accordingly.

The processor 120 according to an embodiment of the present invention can detect whether the touch sensor panel 111 is touched and the position (or coordinate) of the touch when the touch sensor panel 111 is touched. In addition, the processor 120 according to the embodiment of the present invention can measure the amount of change in capacitance caused by a touch when a touch is input to the touch sensor panel 111. [

For example, the magnitude of the mutual capacitance change amount can be changed according to the magnitude and / or the touch area of the touch pressure at the time of touch. Accordingly, when a touch is input to the touch sensor panel 111, the processor 120 can measure the magnitude of the capacitance change according to the touch pressure and / or the touch area. Here, the smaller the touch pressure is, the smaller the capacitance change amount, and the larger the touch pressure is, the larger the capacitance change amount can be. In addition, the smaller the touch area, the smaller the capacitance change amount, and the larger the touch area, the larger the capacitance change amount.

Specifically, the capacitance change amount generated by the object 50 touched to the sensor touch panel 111 can be measured as the sum of the capacitance change amounts of the plurality of sensing cells. 2A, the sum of the amounts of capacitance change when touching the sensor touch panel 111 without pressure (simple contact) with the object 50 touching the sensor touch panel 111 is 90 ( = 50 + 10 + 10 + 10 + 10). 2B, when the object 50 is touched to the sensor touch panel 111 by applying a predetermined pressure, the sum of the capacitance change amounts is 570 (= 90 + 70 + 70 + 70 + 70 + 50 + 50 + 50 + 50).

As shown in FIG. 3A, when the area of the object 50 touched to the sensor touch panel 111 is a, the sum of the capacitance change amounts is 90 (= 50 + 10 + 10 + 10 + 10). 3B, when the area of the object 50 touched by the sensor touch panel 111 increases from a to b (b> a), the sum of the capacitance change amounts is 310 (= 50 + 45 + 45 + 45 + 45 + 20 + 20 + 20 + 20).

Particularly, although the processor 120 according to the embodiment of the present invention does not directly touch the touch sensor panel 111, an object such as a finger is sufficiently close to cause a change in capacitance in the touch sensor panel 111, A hover close to the panel 111 can be recognized.

For example, when the object is located within approximately 2 cm from the surface of the touch sensor panel 111, the processor 120 may detect the position of the object along with the presence or absence of the object through a change in capacitance. In this case, in order to prevent the motion of the meaningless object from being mistaken as hovering with respect to the touch sensor panel 111, hovering with respect to the touch sensor panel 111 is performed by recognizing the hovering when the motion of the object satisfies predetermined condition .

For example, if the object is held for a predetermined time or less within a predetermined distance from the touch sensor panel 111 in a stopped state, the existence of the object may be recognized as hovering. At this time, 'an object has a stopped state with respect to the touch sensor panel 111' may mean that the two-dimensional movement relative to the two-dimensional surface of the touch sensor panel 111 is within a predetermined range, Can be set differently according to the embodiment. Likewise, the predetermined time at which the object is stopped may also be set differently according to the embodiment. In order that the movement of the object is recognized as hovering with respect to the touch sensor panel 111, the amount of change in capacitance generated in the touch sensor panel 111 due to hovering is larger than the error in capacitance generated in the general touch sensor panel 111 desirable.

The magnitude of the mutual capacitance change amount in the touch sensor panel 111 generated during the hovering of the object may be smaller than the magnitude of the direct touch capacitance change with respect to the touch sensor panel 111. [ Hereinafter, the touch may include hovering in the sensibility transmission method according to the magnitude of the touch pressure on the touch sensor panel 111. [ For example, in the case of hovering, the size of the touch pressure and / or the touch area may be classified into the smallest case.

Accordingly, the processor 120 detects the amount of change in capacitance generated in the touch sensor panel 111 to determine whether there is a touch enough to be recognized as being touched or hovering, and the amount of capacitance change with respect to the touch position and touch .

The terminal 100 according to the embodiment of the present invention may further include a controller 130 and a memory 140. [

In addition, the controller 130 may calculate the touch time using the capacitance change amount transmitted from the processor 140. [

Specifically, when the touch to the touch sensor panel 111 is hovering, the controller 130 measures the time at which the capacitance change amount is maintained above the first predetermined value and below the second predetermined value, The time touched by the user 111 can be calculated. Here, the first predetermined value may be a minimum value of the capacitance change amount that can be recognized as hovering, and the second predetermined value may be the maximum value of the capacitance change amount that can be recognized as hovering. For example, when the first predetermined value is 20 and the second predetermined value is 50, as shown in FIG. 4A, the time for which the capacitance change amount is 20 or more and 50 or less is 8t, Time is 8t.

When the touch on the touch sensor panel 111 is a direct touch, the controller 130 measures the time when the capacitance change amount exceeds the second predetermined value, so that the object is displayed on the touch sensor panel 111 The touched time can be calculated. For example, when the second predetermined value is 50, as shown in FIG. 4B, since the time for which the capacitance change amount exceeds 50 is 2t, the touch time by direct touch is 2t.

The controller 130 can set the moving direction of the object displayed on the touch screen 110 using the touch position transmitted from the processor 120. [

The controller 130 may determine the touch level of the touch on the touch screen 130 according to the amount of change in capacitance transferred from the processor 120.

Specifically, the controller 130 can determine the stepwise touch level and / or the non-stepwise touch level according to at least one of the magnitude of the touch pressure and the touch area.

First, the controller 130 can calculate the stepwise touch level according to the magnitude interval of the capacitance change amount depending on at least one of the magnitude of the touch pressure and the touch area. For example, if it is assumed that the capacitance change amount has a value between 0 and 400, the capacitance change amount in the range from more than 0 to 100 with the smallest value is set to the first level, To a second level for a capacitance change over a range of 200 to 200, to a third level for a capacitance change over a range of greater than 200 to 300 with a next larger value, and to a third level for a capacitance change Can be calculated at the fourth level.

Therefore, for example, the capacitance change amount of the object 50 touched to the sensor touch panel 111 shown in FIG. 3A is 90, so that the sensor touch panel 111 shown in FIG. The amount of change in capacitance of the object 50 that is touched by the object 50 is 310, so that it can be calculated as the fourth level.

 Here, according to the embodiment, the first level may be a level according to hovering. At this time, the step of the level according to at least one of the magnitude of the touch pressure and the touch area may be different according to the embodiment. For example, hovering and direct touch may be distinguished, or hovering may be applied to various touch levels.

In addition, the non-step-like touch level may be calculated by the controller 130. The controller 130 may calculate the non-step-like touch level according to the amount of capacitance change according to at least one of the magnitude of the touch pressure and the touch area. For example, the non-step-like touch level may have a capacitance change amount or a touch time value as it is, or may have a normalized value to a predetermined maximum value.

The correlation between at least one of the magnitude of the touch pressure and the touch area and the stepwise touch level and / or the non-stepwise touch level may be stored in the memory 140.

The memory 140 according to an embodiment of the present invention may store moving speed information corresponding to a stepwise touch level and / or a non-stepwise touch level. At this time, the controller 130 receives the movement speed corresponding to at least one of the detected touch pressure and the touch area from the memory 140, and changes the movement speed of the object displayed on the touch screen. At this time, the controller 130 may control the display driver to display through the display panel 112 of the terminal 100 that the object displayed on the touch screen moves at the changed moving speed.

5 is a flowchart of a moving direction adjusting method of a display object according to an embodiment of the present invention.

Referring to FIG. 5, a method for adjusting a moving direction of a display object according to an embodiment of the present invention includes a touch position detecting step (S100) of detecting a touch position of a touch input to a touch screen, a step of determining whether the touch satisfies a scroll mode entry condition A moving direction setting step (S300) of setting a moving direction of the object displayed on the touch screen to a direction corresponding to the touch position, and a moving direction setting step (S300) of moving the object displayed on the touch screen in a set moving direction (S400) for displaying on the touch screen.

In the scroll mode determination step (S200), various functions can be performed such as executing an icon corresponding to a touched position of a touch input on a touch screen, linking a link, and the like. It is possible to judge whether or not to perform the function of moving. Specifically, the scroll mode entry condition may be a condition that the touch time of the input touch is equal to or longer than a predetermined time. When the input touch satisfies the scroll mode entry condition, the touch input on the touch screen moves the object to be displayed on the touch screen. Accordingly, the movement direction setting step (S300) and the display step (S400) . At this time, the scroll mode screen may be displayed on the touch screen so that the user can know that the scroll mode entry condition is satisfied. Specifically, the scroll mode screen may be a screen in which at least one of the brightness and the saturation of the entire or a part of the touch screen is changed, and a part of the touch screen in which at least one of the brightness and the saturation is changed may be a scroll May be an input area.

At this time, the method for adjusting the moving direction of the display object according to the embodiment of the present invention includes: a touch pressure or area detecting step of detecting at least one of the magnitude of the touch pressure and the touch area; Further comprising a moving speed setting step of setting a moving speed of the object to be displayed on the touch screen at a speed corresponding to at least one of a magnitude of a touch pressure and a touch area, It can be displayed on the touch screen.

More specifically, the embodiments will be described below.

6A and 6B illustrate a method of adjusting a moving direction of a display object according to the first embodiment.

Referring to FIGS. 6A and 6B, when a touch is input to the touch screen 110, the touch position 160 of the input touch is detected (S100).

Then, it is determined whether the touch input to the touch screen 110 satisfies the scroll mode entry condition (S200). When the touch input to the touch screen 110 satisfies the scroll mode entry condition, the moving direction of the object displayed on the touch screen 110 is set to a direction corresponding to the touch position 160 (S300). 6A, the moving direction of the object to be displayed on the touch screen 110 can be set in a direction from the touch position 160 to the center 150 of the touch screen 110. [ At this time, there is no restriction on the touch position 160 of the touch input to set the moving direction of the object to be displayed on the touch screen 110, and it is possible to input in the entire area of the touch screen 100.

Then, it is displayed on the touch screen 110 that the object displayed on the touch screen 110 moves in the moving direction (S400). Thus, when a touch is input to the touch screen 110, an object displayed on the touch screen 110 moves in a direction from the touch position 160 toward the center 150 of the touch screen 110, The screen of the touch screen is scrolled in the direction of the touch position 160 based on the center 150 of the touch screen.

At this time, the scroll input area 300 may be set in a part of the area of the touch screen 110. Specifically, when the touch position 160 is positioned at the center of the touch screen 110, since the error in the movement direction due to the error of the touch position 160 is relatively large, The scroll input area 300 may be set in an area other than the center part of the touch screen 110 as shown in FIG. 6B.

In this case, the touch position 160 of the touch input to set the moving direction of the object to be displayed on the touch screen 110 is limited to the scroll input area 300 and the touch position 160 is limited to the scroll input area 300 An object to be displayed on the touch screen 110 is moved from the touch position 160 to the touch screen 160 in the case where the display object does not move and the touch position 160 is located in the scroll input area 300 The touch screen is scrolled in the direction of the touch position 160 with respect to the center 150 of the touch screen 110. [

Also, when a touch is input to the touch screen 110, at least one of the magnitude and the area of the pressure of the input touch can be detected. Thereafter, the moving speed of the object displayed on the touch screen 110 can be set to a speed corresponding to at least one of the magnitude of the touch pressure and the touch area. Specifically, a stepwise touch level and / or a non-stepwise touch level corresponding to at least one of the magnitude of the touch pressure and the touch area is calculated and the movement speed of the object displayed on the touch screen 110 is calculated And a non-step-like touch level.

Then, it is displayed on the touch screen 110 that the object displayed on the touch screen 110 moves to the moving direction and the moving speed (S400). Here, when the movement speed of the object to be displayed is changed, the movement speed of the object to be displayed can be changed by adjusting the size and / or the touch area of the touch pressure.

Since the object to be displayed can be scrolled in an arbitrary direction according to the touch position 160 as described above, the present embodiment is applicable to an application capable of scrolling in an arbitrary direction like a map.

7A to 7I illustrate a method of adjusting a moving direction of a display object according to the second embodiment.

7A to 7I, when a touch is input to the touch screen 110, the touch position 160 of the input touch is detected (S100).

Then, it is determined whether the touch input to the touch screen 110 satisfies the scroll mode entry condition (S200). When the touch input to the touch screen 110 satisfies the scroll mode entry condition, the moving direction of the object displayed on the touch screen 110 is set to a direction corresponding to the touch position 160 (S300). At this time, the touch screen 110 may be divided into a plurality of direction areas.

Specifically, as shown in FIGS. 7A and 7C, the plurality of directional regions are divided into a first direction region 210 located in a first direction of the touch screen 110 and a second direction region 210 located in a second direction opposite to the first direction, And may include a two-way region 220. Specifically, as shown in FIG. 7A, the first direction area 220 may be located on the upper side and the second direction area 220 may be located on the lower side with respect to the horizontal center axis of the touch screen 110. In addition, as shown in FIG. 7C, the first direction area 220 may be located on the left side and the second direction area 220 may be located on the right side, with respect to the longitudinal center axis of the touch screen 110.

7E, the plurality of directional areas may include a third directional area 230 located in a third direction of the touch screen 110 and a fourth directional area 230 located in a fourth direction opposite to the third direction, (240). At this time, the first direction area 220 is upward, the second direction area 220 is downward, the third direction area 230 is at the left side, and the second direction area 220 is downward, with respect to the center 150 of the touch screen 110, And the fourth direction area 240 may be respectively located on the right side.

The moving direction of the object displayed on the touch screen 110 can be set to a direction corresponding to the direction area in which the touch position 160 is located. Specifically, when the touch position 160 is positioned in the first direction area 210, the moving direction of the object displayed on the touch screen 110 can be set to the second direction, and the touch position 160 can be set in the second direction The movement direction of the object displayed on the touch screen 110 can be set to the first direction. Similarly, when the touch position 160 is positioned within the third direction area 230, the moving direction of the object to be displayed on the touch screen 110 can be set to the fourth direction, The moving direction of the object displayed on the touch screen 110 can be set to the third direction. At this time, there is no restriction on the touch position 160 of the touch input to set the moving direction of the object to be displayed on the touch screen 110, and it is possible to input in the entire area of the touch screen 100.

Then, it is displayed on the touch screen 110 that the object displayed on the touch screen 110 moves in the moving direction (S400). Thus, when a touch is input to the touch screen 110, the object displayed on the touch screen 110 moves in a direction opposite to the direction area in which the touch position 160 is located, The screen will scroll.

At this time, the scroll input area 300 may be set in a part of the area of the touch screen 110. Specifically, when the touch position 160 is located at the boundary of a plurality of directional areas, the screen of the touch screen may not be scrolled in a desired direction due to the error of the touch position 160, 7D and 7F, the scroll input area 300 may be set in an area other than the boundary of the plurality of direction areas of the touch screen 110. [

In this case, the touch position 160 of the touch input to set the moving direction of the object to be displayed on the touch screen 110 is limited to the scroll input area 300 and the touch position 160 is limited to the scroll input area 300 When the display object does not move and the touch position 160 is positioned within the scroll input area 300, the object displayed on the touch screen 110 is positioned in the direction area 160 where the touch position 160 is located, The touch screen is scrolled in the direction in which the touch position 160 is located.

At this time, the scroll input area 300 may be disposed in the edge area 400 of the touch screen 110. When the scroll input area 300 is not disposed in the edge area 400 of the touch screen 110, The scroll input area 300 may be disposed within the edge area 400 of the touch screen 110 as shown in Figures 7G to 7I, .

Also, when a touch is input to the touch screen 110, at least one of the magnitude and the area of the pressure of the input touch can be detected. Thereafter, the moving speed of the object displayed on the touch screen 110 can be set to a speed corresponding to at least one of the magnitude of the touch pressure and the touch area. Specifically, a stepwise touch level and / or a non-stepwise touch level corresponding to at least one of the magnitude of the touch pressure and the touch area is calculated and the movement speed of the object displayed on the touch screen 110 is calculated And a non-step-like touch level.

Then, it is displayed on the touch screen 110 that the object displayed on the touch screen 110 moves to the moving direction and the moving speed (S400). Here, when the movement speed of the object to be displayed is changed, the movement speed of the object to be displayed can be changed by adjusting the size and / or the touch area of the touch pressure.

Since the display target can be scrolled in a predetermined direction according to the touch position 160 as described above, the present embodiment is applicable to an application capable of scrolling in a predetermined direction such as a general document or a telephone directory.

The features, structures, effects and the like described in the embodiments are included in one embodiment of the present invention, and are not necessarily limited to only one embodiment. Further, the features, structures, effects, and the like illustrated in the embodiments can be combined and modified by other persons having ordinary skill in the art to which the embodiments belong. Therefore, it should be understood that the present invention is not limited to these combinations and modifications.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is clearly understood that the same is by way of illustration and example only and is not to be taken by way of illustration, It can be seen that various modifications and applications are possible. For example, each component specifically shown in the embodiments can be modified and implemented. It is to be understood that all changes and modifications that come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein.

50: object
100: terminal
110: Touch screen
111: Touch panel
112: display panel
120: Processor
130:
140: Memory
150: Center of touch screen
160: Touch position
210: first region
220: second region
230: third region
240: fourth region
300: Scroll input area
400: Touch screen edge area

Claims (12)

A touch position detecting step of detecting a touch position of a touch input to the touch screen;
A scroll mode determination step of determining whether the touch satisfies a scroll mode entry condition;
A moving direction setting step of setting a moving direction of an object displayed on the touch screen to a direction corresponding to the touch position when the touch satisfies a scroll mode entry condition; And
A display step of displaying on the touch screen that an object to be displayed on the touch screen moves in the moving direction; / RTI >
A method of adjusting a moving direction of a display object. The method according to claim 1,
Wherein the scroll mode entry condition is a condition that the touch time of the touch is equal to or longer than a predetermined time,
A method of adjusting a moving direction of a display object. The method according to claim 1,
Wherein the moving direction setting step includes:
And setting a moving direction of an object displayed on the touch screen to a direction from a touch position to a center of the touch screen,
A method of adjusting a moving direction of a display object. The method of claim 3,
Wherein the moving direction setting step includes:
And a scroll region determining step of determining whether the touch position is located within a scroll input region set in a partial area of the touch screen,
Setting a moving direction of an object displayed on the touch screen to a direction from the touch position to a center of the touch screen when the touch position is located within the scroll input area,
A method of adjusting a moving direction of a display object. The method according to claim 1,
Wherein the touch screen is divided into a plurality of direction areas,
Wherein the moving direction setting step includes:
And setting a moving direction of an object displayed on the touch screen to a direction corresponding to a direction area in which the touch position is located,
A method of adjusting a moving direction of a display object. 6. The method of claim 5,
Wherein the moving direction setting step includes:
And a scroll region determining step of determining whether the touch position is located within a scroll input region set in each of a plurality of direction regions,
And setting a moving direction of an object displayed on the touch screen to a direction corresponding to a direction area in which the touch position is located when the touch position is located within the scroll input area,
A method of adjusting a moving direction of a display object. The method according to claim 6,
Wherein the scroll input area is disposed within an edge area of the touch screen,
A method of adjusting a moving direction of a display object. 8. The method according to any one of claims 5 to 7,
Wherein the plurality of directional areas comprise a first directional area located in a first direction of the touch screen and a second directional area located in a second direction opposite to the first direction,
Wherein the moving direction setting step includes:
When the touch position is within the first direction area, sets the moving direction of the object to be displayed on the touch screen in the second direction, and when the touch position is located in the second direction area, The moving direction of the object to be moved is set in the first direction,
A method of adjusting a moving direction of a display object. The method according to claim 1,
Wherein the scroll mode screen is displayed on the touch screen when the touch satisfies the scroll mode entry condition,
A method of adjusting a moving direction of a display object. 10. The method of claim 9,
The scroll mode screen displays,
Wherein at least one of brightness or saturation of all or a part of the area of the touch screen is changed,
A method of adjusting a moving direction of a display object. The method according to claim 1,
A touch pressure or area detecting step of detecting at least one of a magnitude of the pressure of the touch and an area of the touch; And
Further comprising a moving speed setting step of setting a moving speed of an object displayed on the touch screen to a speed corresponding to at least one of a magnitude of the pressure of the touch and an area of the touch,
The display step may include:
And displaying on the touch screen that an object displayed on the touch screen moves in the movement direction and the movement speed,
A method of adjusting a moving direction of a display object. touch screen;
A processor for detecting a touch position of a touch input to the touch screen; And
And a controller for setting a moving direction of an object displayed on the touch screen to a direction corresponding to the touch position when the touch satisfies a scroll mode entry condition,
terminal.

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