WO2013103181A1

WO2013103181A1 - Method of moving cursor of text editor using motion sensor, and computer-readable recording medium having program thereon for moving cursor of text editor by using motion sensor

Info

Publication number: WO2013103181A1
Application number: PCT/KR2012/005008
Authority: WO
Inventors: 고용운
Original assignee: 주식회사 인프라웨어
Priority date: 2012-01-04
Filing date: 2012-06-25
Publication date: 2013-07-11
Also published as: KR20130080218A; KR101538941B1

Abstract

The present invention relates to a technology to move a cursor of a text editor by using a motion sensor and to stand by for the reception of a text input signal from a mobile terminal user to a text editor window implemented by a UI screen on a touch screen or a motion sensor moving signal of a user to a motion sensor. Thus, the motion sensor moving signal is received and analyzed to sense the direction of rotation of a mobile terminal by a user and create directional information, and a rotation angle of the mobile terminal is sensed to create angle information. Subsequently, a moving direction of the cursor implemented on the text editor window is determined based on the directional information and whether to move the cursor is determined based on the angle information to implement movement according to the motion sensor moving signal as a UI screen. Thus, since even a user with relatively large fingers may move between texts on the text editor window implemented on the mobile terminal, the present invention enables the user to conveniently perform an editing operation.

Description

Cursor movement method of text editor using motion sensor and cursor movement program of text editor using motion sensor

The present invention relates to a method of moving a cursor in a text editor using a motion sensor, and to a computer-readable recording medium recording a program of moving a cursor in a text editor using a motion sensor, and more particularly to moving a cursor in a text editor using a motion sensor. The present invention relates to a computer-readable recording medium for recording a cursor movement program of a text editor using a motion sensor.

To move the cursor in the text editor window on a mobile device based on the Android operating system, click the location to move directly. On the other hand, in a mobile terminal such as an iOS-based iPhone, to move the cursor in a text editor window, press and hold the position to be moved for a predetermined time to realize a magnifying glass UI screen, and select a precise position in this state. Move to.

However, in order to move the cursor in the text input window on the Android operating system-based device, the user must click the location with a finger. However, the smaller the text size is, the easier it is. There is a problem that the correct position is input only when the change position is input several times when the cursor moves.

In addition, in case of an Apple iOS-based mobile terminal, in order to solve an uncomfortable situation such as an Android operating system-based terminal, the cursor movement position is selected while the part to be moved is enlarged and displayed for a preset time (for example, about 1 second). It is adopted, but still has a problem that is difficult to use for those who are thick fingers or people with hand shake.

Accordingly, in the technical field, even if a user has a relatively thick finger on the mobile terminal, the editor cursor can be moved between the small texts in the text editor window of the terminal so that there is an urgent need for technology development to assist the text editing operation. It is becoming.

SUMMARY OF THE INVENTION An object of the present invention is to provide a computer-readable recording medium recording a cursor moving method of a text editor using a motion sensor for conveniently moving a cursor between texts in a text editor window, and a cursor moving program of a text editor using a motion sensor. In providing.

Cursor movement method of the text editor using a motion sensor according to the present invention for achieving the above object, the text input signal or motion sensor of the mobile terminal user to the text editor window implemented as a UI screen on the touch screen (11) Waiting for reception of a user's motion sensor movement signal to; When receiving the motion sensor movement signal, analyzing the motion sensor movement signal to detect the rotational direction of the mobile terminal 10 by the user to generate the directional information; Analyzing the motion sensor movement signal to detect an angle of rotation of the mobile terminal 10 to generate angle information; Determining a moving direction of a cursor implemented in the text editor window using the directional information; And determining whether the cursor is moved from the angle information to implement the movement according to the motion sensor movement signal of the cursor as a UI screen.

At this time, the step of implementing the movement according to the motion sensor movement signal of the cursor to the UI screen, by determining whether or not the operation of rotating the mobile terminal 10 by the user by exceeding a predetermined angle or more from the angle information When the rotation operation is performed over an angle greater than or equal to the threshold, it is preferable to implement a UI screen in which the cursor is moved by one space in the direction corresponding to the directional information.

The computer-readable recording medium recording the cursor movement program of the text editor using the motion sensor according to the present invention for achieving the above object, the UI implementation means for implementing a text editor window implemented as a UI screen on the touch screen 11 (14a); A motion sensor movement signal is received by waiting for a text input signal of the mobile terminal user or a motion sensor movement signal of the user to the motion sensor 12, and a motion sensor movement signal is analyzed to rotate the mobile terminal 10 by the user. And a motion sensor-sensing means (14b) for generating directional information by detecting a direction and generating angle information by detecting a rotation angle of the mobile terminal (10). At this time, the motion sensor-sensing means 14b determines the movement direction of the cursor embodied in the text editor window with the directional information, and determines whether the cursor is moved from the angle information to move the movement according to the motion sensor movement signal of the cursor. Implement with

At this time, the motion sensor-sensing means 14b determines whether the rotation of the mobile terminal 10 is performed by the user by exceeding an angle greater than or equal to a preset threshold value from the angle information, and the rotation operation exceeds an angle greater than or equal to the threshold value. In this case, it is preferable to implement a UI screen in which the cursor is moved by one space in the direction corresponding to the directional information.

According to the present invention, a user whose finger is relatively thick in the text editor window implemented on the mobile terminal can move the cursor between small texts, thereby providing convenience for text editing.

1 is a view showing the configuration of a mobile terminal in which a cursor moving method of a text editor using a motion sensor according to the present invention is implemented.

2 is a flowchart illustrating a method of moving a cursor in a text editor using a motion sensor according to the present invention.

3 is a view for explaining that the mobile terminal is rolled by the user in the present invention.

Hereinafter, with reference to the drawings will be described in detail the present invention.

1 is a view showing the configuration of a mobile terminal 10 in which a cursor movement method of a text editor using a motion sensor according to the present invention is implemented. Referring to the drawings, the mobile terminal 10 includes a touch screen 11, a motion sensor 12, a control unit 13, and a cursor movement module 14. In the mobile terminal 10 such as a smartphone, Provided is a method for easily moving a cursor in a text editor window implemented on a touch screen 11 by a text editing application.

The touch screen 11 is an input unit in which an input unit (touch module) and an output unit (display) are integrally used and are widely used in a smart phone or a smart pad. In another embodiment, an input unit including a plurality of key buttons and a display output unit such as a CRT, an LCD, an LED, or a PDP may be separately formed.

The motion sensor 12 provides information on a physical action applied while the user grips the mobile terminal 10. For example, the degree of inclination (tilt) of the mobile terminal 10 according to the posture and action held by the user, the movement direction (movement direction) and the movement speed (movement speed) of the mobile terminal 10 in three axis directions, etc. Provides relevant information by detecting the state of movement. The motion sensor 12 may be implemented by using a hardware module such as a motion sensor, an accelerometer, a gyroscope, or the like.

The controller 13 generally controls the cursor movement module 14 formed on the touch screen 11, the motion sensor 12, and the system memory (not shown), and functions of the mobile terminal 10 by interworking with each other. To be performed.

The cursor movement module 14 includes a UI implementation means 14a and a motion sensor-sensing means 14b, which will be described in detail below.

The UI implementing means 14a implements a text editor window by executing a text editing application on the UI screen on the touch screen 11.

The motion sensor-sensing means 14b waits to receive a text input signal of a mobile terminal user through the touch screen 14 or a motion sensor movement signal of a user operation through the motion sensor 12. More specifically, when the cursor is to be moved during text editing, the editor cursor is moved by one unit by operating the motion sensor 12 by moving the mobile terminal 10. In this case, in order to prevent a malfunction, it is necessary to use a motion that is not easy to operate but is easy to operate. For this purpose, a roll operation is used.

For example, when the user of the mobile terminal 10 wants to move the cursor one space to the left on the UI screen, the user rotates the left end of the mobile terminal 10 by 45 degrees or more in the counterclockwise direction with respect to the center axis. On the contrary, if you want to move the cursor one space to the right, you can roll the right end of the mobile terminal 10 by 45 degrees or more clockwise (see B) about the center axis.

In another embodiment of the present invention, for moving the editor cursor up and down, for example, the mobile terminal 10 may be rolled in the direction in which the mobile terminal 10 is to be moved about its center axis.

The motion sensor-sensing means 14b receives a motion sensor movement signal by the motion sensor 12. The motion sensor movement signal is analyzed to generate directional information by detecting a rotation direction of the mobile terminal 10 by the user. In addition, the rotation angle is detected to generate angle information.

The motion sensor-sensing means 14b determines the moving direction of the cursor implemented on the UI screen by the text editing application with the directional information.

The motion sensor-sensing means 14b determines whether the operation of rotating the mobile terminal 10 by the user has been performed by exceeding an angle greater than or equal to the threshold value from the generated angle information.

When the rotation operation is performed in excess of an angle greater than or equal to the threshold value, the UI implementing means 14a implements the UI screen on which the cursor is moved by one space in the direction corresponding to the directional information on the touch screen 11.

2 is a flowchart illustrating a cursor moving method of a text editor using a motion sensor according to the present invention, and FIG. 3 is a mobile terminal 10 of the cursor moving method of the text editor using a motion sensor shown in FIG. 2. It is a figure for explaining conceptually what is rolled by a user. 1 to 3, the cursor movement module 14 implements a text editor window by executing a text editing application on the UI screen on the touch screen 11 (S11).

After the step S11, the cursor moving module 14 waits for receiving a text input signal of the mobile terminal user or the motion sensor movement signal of the user to the motion sensor 12 through the touch screen 14 (S12).

More specifically, when the user wants to move the editor cursor during text editing, the user moves the mobile terminal 10 to operate the motion sensor 12 to move the editor cursor by one space. In this case, in order to prevent a malfunction, it is necessary to use a motion that is not usually generated and easy to operate. For this purpose, a rolling operation is used.

For example, when the user of the mobile terminal 10 wants to move the cursor one space to the left on the UI screen, the user rotates the left end of the mobile terminal 10 by 45 degrees or more in the counterclockwise direction (A, FIG. 3A) with respect to the center axis. Let's do it.

On the contrary, if the user of the mobile terminal 10 wants to move the cursor one space to the right on the UI screen, the user may roll the right end of the mobile terminal 10 in the clockwise direction (B, see FIG. 3B) by 45 degrees or more.

In another embodiment of the present invention, in order to move the cursor up and down on the UI screen, the mobile terminal 10 may be rolled in a direction to move the top / bottom to the center axis.

After step S12, when the cursor movement module 14 waits for and receives a motion sensor movement signal, the cursor movement module 14 analyzes the motion sensor movement signal and detects the rotation direction and the rotation angle of the mobile terminal 10 by the user (S13). ).

As a result of the detection, when it is determined that the mobile terminal 10 is rotated more than the threshold value, the directional information is generated from the rotation direction and the angle information is generated from the rotation angle and provided to the controller 13 (S14).

After the step S14, the cursor moving module 14 determines the moving direction of the cursor on the UI screen on which the text editor is implemented with the directional information (S15).

After the step S15, the cursor moving module 14 determines whether the operation of rotating the mobile terminal 10 by the user by exceeding an angle greater than or equal to the threshold value from the angle information of the step S13 is performed (S16).

When the rotation operation is performed in excess of an angle greater than or equal to a threshold in step S16, the cursor moving module 14 implements a UI screen on which the cursor is moved one space in a direction corresponding to the directional information on the touch screen 11. (S17).

The invention can also be embodied in the form of computer readable codes on a computer readable recording medium. At this time, the computer-readable recording medium includes all kinds of recording devices in which data that can be read by a computer system is stored.

Examples of computer-readable recording media include ROM, RAM, CD-ROM, magnetic tape, floppy disks, optical data storage devices, and the like, including those implemented in the form of carrier waves (eg, transmission over the Internet). . The computer readable recording medium can also store and execute computer readable code in a distributed manner over networked computer systems. And functional programs, codes, and code segments for implementing the present invention can be easily inferred by programmers in the technical field to which the present invention belongs.

Claims

A first step of waiting for a text input signal of a mobile terminal user to a text editor window implemented as a UI screen on the touch screen 11 or a motion sensor movement signal of the user to the motion sensor 12;

A second step of generating directional information by detecting the rotation direction of the mobile terminal by the user by analyzing the motion sensor movement signal when receiving the motion sensor movement signal;

A third step of generating angle information by detecting a rotation angle of the mobile terminal by analyzing the motion sensor movement signal;

A fourth step of determining a moving direction of a cursor implemented in the text editor window based on the directional information;

A fifth step of determining whether the cursor is moved from the angle information to implement the movement according to the motion sensor movement signal of the cursor as the UI screen;

Cursor movement method of the text editor using a motion sensor configured to include.
The method according to claim 1,

The process of implementing the movement according to the motion sensor movement signal of the cursor on the UI screen may include performing an operation of rotating the mobile terminal 10 by the user by exceeding an angle greater than or equal to a preset threshold from the angle information. When the rotation operation is performed by exceeding the angle greater than or equal to the threshold, determining whether or not to implement a UI screen in which the cursor is moved one space in a direction corresponding to the directional information. How to move the cursor.
UI implementation means 14a for implementing a text editor window implemented as a UI screen on the touch screen 11;

Waiting to receive a text input signal of a mobile terminal user or a motion sensor movement signal of the user to the motion sensor 12, the motion sensor movement signal is received, and analyzes the motion sensor movement signal to the mobile terminal by the user Motion sensor-sensing means (14b) for generating directional information by sensing the rotational direction of the device (10), and generating angle information by detecting the rotational angle of the mobile terminal (10);

It is made with

The motion sensor-sensing means 14b determines the direction of movement of the cursor embodied in the text editor window with the directional information, and determines whether the cursor is moved from the angle information to the motion sensor movement signal of the cursor. A computer-readable recording medium recording a cursor movement program of a text editor using a motion sensor, characterized in that the movement is implemented as the UI screen.
The method according to claim 3,

The motion sensor-sensing means 14b determines whether the operation of rotating the mobile terminal 10 is performed by the user by exceeding an angle greater than or equal to a preset threshold value from the angle information, thereby exceeding the angle greater than or equal to the threshold value. When a rotation operation is performed, a computer-readable recording medium recording a cursor movement program of a text editor using a motion sensor, characterized by implementing a UI screen in which the cursor is moved one space in a direction corresponding to the directional information. .