KR102113525B1 - Apparatus and Method for User Interface for Controlling Lists Based on Acceleration Type Jog-Shuttle - Google Patents

Abstract

The present invention provides a user interface device for accelerating jog shuttle based list control that provides a user with a jog shuttle by providing a jog shuttle on the screen when the movement acceleration of the content is recognized through navigation of the device screen when scrolling, and It's about how. The user interface device for controlling the list based on the accelerated jog shuttle of the present invention includes a direction detection unit that detects a direction of movement in connection with a screen movement of a portable terminal screen through a user's drag, and the direction detection unit Acceleration sensing unit for sensing the movement acceleration of the screen moving in one direction in association with the detected movement direction, UI information stored in advance corresponding to the movement acceleration detected by the acceleration sensing unit and the screen movement direction detected by the direction sensing unit According to the jog shuttle generation unit for generating a jog shuttle to perform a screen movement function for the application running on the portable terminal, and the jog shuttle generated by the jog shuttle generation unit is displayed on the portable terminal screen, set in the jog shuttle It includes a screen processing unit for processing the movement of the screen in response to the rotation direction of the jog shuttle based on the UI information.

Description

Apparatus and Method for User Interface for Controlling Lists Based on Acceleration Type Jog-Shuttle}

The present invention relates to electronic devices and their user interfaces. Specifically, when an acceleration of content through scrolling of a device screen is recognized when scrolling, a jog shuttle is provided on the screen to allow the user to easily move the content. The present invention relates to a user interface device and method for accelerating jog shuttle based list control.

The portable terminal is a generic term for a portable computing system such as a mobile communication terminal, a PDA, a tablet PC, and a smart phone, and is widely used and widely used by the general public.

Such a portable terminal has a display unit as a display means for providing information generated in an operation process to a user, and the display unit is limited in information that can be displayed by the size of the portable terminal itself.

Accordingly, function buttons such as a jog button, a scroll bar, and an up and down button are provided so that a user can easily check and access a lot of information displayed through a limited display unit with displayable information. It is provided in a portable terminal.

These function buttons are used to move the screen while touching or dragging in the up / down direction, and the user moves the screen vertically or horizontally to the left or right to find the desired item or content. These are features that allow users to search and pull large amounts of information that are not displayed on one screen on the screen.

These function buttons are effective when there is little content to navigate and move accurately, but as the content and contents increase rapidly with the mobile environment, the action of screen touch when moving up and down or left and right using limited movement speed and function buttons As it requires a large number of repetitive actions, there is a problem that causes inconvenience in use.

On the other hand, in recent years, for miniaturization and weight reduction of a portable terminal, a portable terminal that replaces a keypad is commercialized as a touch screen that allows a user to directly enter a key while directly touching the display unit by removing a portion of a keypad having a large number of hardware keys. have.

In general, a user interface provided through a touch screen is configured in such a way that a plurality of menus corresponding to various functions are displayed on the screen in the form of icons, and among them, a user searches for and touches a menu icon of a specific function, and the corresponding function is executed. . In addition, menus corresponding to functions frequently used in a specific mode or a specific application are configured to be displayed on the screen by including them in a softkey bar located at the bottom of the touch screen in the form of a key.

However, the soft key bar, which is always displayed on the display unit, hides the information displayed on the portable terminal, thereby creating a feeling of refusal or regret for the user.

In order to solve this, some portable terminals apply a soft key bar hiding function, but the soft key bar hiding function requires a separate key operation for a user to activate the soft key in order to use the hidden soft key. It is causing discomfort to perform touch.

In addition, a function button provided to find an item or content that is desired information is configured to be always displayed on the screen in the form of a key on one side of the list, which does not effectively solve these problems.

In order to solve this problem, the present invention provides an jog shuttle on the screen when the movement acceleration of the content is recognized through the navigation of the device screen when scrolling, so that the user can easily provide the content movement. It is an object of the present invention to provide a user interface device and method for controlling a list based.

Another object of the present invention is to provide a jog shuttle on the screen only when the user needs a jog shuttle in a vertical, horizontal, or left-to-right movement mode, which is familiar to the user, thereby accelerating the jog shuttle-based list control to increase user's navigation and usability. It provides a user interface device and method for.

The objects of the present invention are not limited to the above-mentioned objects, and other objects and advantages of the present invention not mentioned can be understood by the following description, and will be more clearly understood by embodiments of the present invention. In addition, it will be readily appreciated that the objects and advantages of the present invention can be realized by means of the appended claims and combinations thereof.

In order to achieve the above object, the user interface device for controlling the accelerating jog shuttle based list of the present invention detects the direction of movement in association with the screen movement of the portable terminal screen through the user's drag. A sensing unit, an acceleration sensing unit sensing a moving acceleration of a screen moving in one direction in association with a movement direction detected by the direction sensing unit, a moving acceleration detected by the acceleration sensing unit, and a screen movement direction detected by the direction sensing unit In response to the UI information stored in advance, a jog shuttle generating unit for generating a jog shuttle performing a screen movement function for an application running on the portable terminal, and the jog shuttle generated by the jog shuttle generating unit on the portable terminal screen And a screen processing unit that processes the movement of the screen in response to the rotation direction of the jog shuttle based on UI information set in the jog shuttle.

In addition, the jog shuttle generating unit generates a jog shuttle when the movement acceleration sensed by the acceleration sensing unit is faster than a preset reference acceleration.

In addition, the jog shuttle generation unit maps the screen movement direction according to the left / right (counterclockwise / clockwise) rotation of the jog shuttle generated corresponding to the screen movement direction detected by the direction detection unit.

In addition, in response to the screen movement direction detected by the direction detection unit, a storage unit for storing in advance UI information for adjusting the screen movement direction according to the rotation direction of the jog shuttle driven in the portable terminal further includes.

In addition, the screen processing unit senses the rotational acceleration of dragging the jog shuttle through the acceleration sensing unit, and controls the movement speed of the screen in conjunction with this.

In order to achieve this object, the user interface method for accelerating jog shuttle-based list control of the present invention, (A) it is determined whether the screen movement through the user's drag (drag) on the screen of the portable terminal on which the application is driven Step (B) when the result of the determination, screen motion occurs, detecting the direction of the motion in association with the screen motion of the portable terminal screen using the direction sensor, (C) detecting the motion using the acceleration sensor Detecting the movement acceleration of the screen moving in one direction in association with the movement direction, (D) in the portable terminal according to the detected movement acceleration and UI information stored in advance in response to the screen movement direction using the jog shuttle generator Generating a jog shuttle that performs a screen movement function for a running application, and (E) displaying the generated jog shuttle on a portable terminal screen using a screen processing unit, based on UI information set in the jog shuttle. And processing the movement of the screen in response to the rotation direction of the jog shuttle.

In addition, the step (B) is characterized in that when the user moves the screen in a straight direction up or down or right and left, the moving direction of the moving screen corresponding to the screen is sensed.

In addition, the UI information is characterized in that the information for adjusting the screen movement direction according to the rotation direction of the jog shuttle driven in the portable terminal corresponding to the sensed screen movement direction.

In addition, the step (D) includes comparing the sensed movement acceleration with a preset reference acceleration, and generating a jog shuttle when the sensed movement acceleration is faster than a preset reference acceleration, and the sensed screen movement direction And mapping the screen movement direction according to the left / right (counterclockwise / clockwise) rotation of the generated jog shuttle.

In addition, the step (E) is characterized in that when the jog shuttle is rotated by the user's drag, the item displayed on the screen is moved either up, down, left or right.

In addition, the step (E) controls the movement speed of the screen in conjunction with the detected rotational acceleration of the jog shuttle.

According to the present invention as described above, the user interface device and method for controlling the accelerated jog shuttle based list of the present invention provides a jog shuttle on the screen to search for a plurality of contents produced and flowed in a mobile environment. Ease of use can be provided to the user.

In addition, there is an effect that the user can conveniently access the information displayed through the terminal using the jog shuttle as an interface means.

In addition, by providing a jog shuttle on the screen when the acceleration of the content is recognized through the navigation of the device screen when scrolling, it is possible to eliminate the objection or regret to the user according to the soft key bar that is always displayed on the display unit. The jog shuttle can be activated only at the moment when the jog shuttle is needed without performing a separate key operation or touch for activation, thereby providing convenience in using the jog shuttle.

In addition to the above-described effects, the concrete effects of the present invention will be described together while describing the specific matters for carrying out the invention.

1 is a block diagram showing a user interface device for accelerating jog shuttle based list control according to an embodiment of the present invention
2 is a flowchart illustrating a user interface method for accelerating jog shuttle based list control according to an embodiment of the present invention
3 is a diagram illustrating a form in which a user sequentially searches for a desired item through dragging up and down on a portable terminal screen in an embodiment of the present invention
4 is a diagram showing a form in which a jog shuttle is displayed on a portable terminal screen according to an embodiment of the present invention, and a desired item is sequentially searched through rotation of the jog shuttle.

The above-described objects, features, and advantages will be described in detail below with reference to the accompanying drawings, and accordingly, a person skilled in the art to which the present invention pertains can easily implement the technical spirit of the present invention. In the description of the present invention, when it is determined that detailed descriptions of known technologies related to the present invention may unnecessarily obscure the subject matter of the present invention, detailed descriptions will be omitted. Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. The same reference numerals in the drawings are used to indicate the same or similar components.

Hereinafter, a user interface device and method for controlling an accelerating jog shuttle based list according to a preferred embodiment of the present invention will be described in detail with reference to the drawings.

1 is a block diagram showing a user interface device for accelerating jog shuttle based list control according to an embodiment of the present invention. The user interface device illustrated in FIG. 1 is according to an embodiment, and its components are not limited to the embodiment illustrated in FIG. 1, and some components may be added, changed, or deleted as necessary.

As shown in FIG. 1, the interface device of the present invention includes a direction detecting unit 10, an acceleration detecting unit 20, a jog shuttle generating unit 30, a storage unit 40, and a screen processing unit 50. .

The direction detection unit 10 detects the direction of the movement in association with the screen movement of the screen of the portable terminal through the user's drag. That is, the direction detection unit 10 detects a moving direction of the screen when the user moves the screen by dragging vertically or horizontally in a straight direction.

For example, when the user drags from the top to the bottom, the direction detecting unit 10 becomes a downward direction, and conversely, when a function button is dragged from the bottom to the upper, the direction of the movement is upward. In addition, when the user drags the function button from left to right, the direction detecting unit 10 becomes the right direction, and when the function button is dragged from right to left, the direction of the movement is left.

As described above, in the direction detecting unit 10, a direction opposite to a user's dragging direction is sensed as a direction of movement.

The acceleration sensing unit 20 detects the movement acceleration of the screen moving in one direction in association with the movement direction detected by the direction sensing unit. That is, the acceleration sensing unit 20 detects a change in the movement of the screen during a unit time when it is moved in one direction in association with the screen movement on the screen of the portable terminal through the user's drag.

For example, when the user drags from the top to the bottom, the acceleration sensing unit 20 moves the mobile terminal screen according to the speed of the touched touch means (finger, touch pen) when dragging from the top to the bottom while touching. Change will be different. When the movement speed of the touch means is fast, the screen movement is also faster. When the movement speed of the touch means is slow, the movement of the screen is also slow.

The acceleration sensing unit 20 detects an instantaneous movement acceleration of the screen in conjunction with the movement of the screen.

At this time, the direction detecting unit 10 and the acceleration detecting unit 20 do not detect the direction and acceleration of screen movement through a hardware configuration such as a measurement sensor, but use a screen processing result generated through a screen change to program Detects enemies. However, it is not limited thereto.

The jog shuttle generation unit 30 is a portable terminal according to UI information stored in advance in the storage unit 40 in response to the movement acceleration sensed by the acceleration detection unit 20 and the screen movement direction detected by the direction detection unit 10 Creates a jog shuttle that performs a screen movement function for an application running in. That is, the jog shuttle generating unit 30 generates a jog shuttle when the movement acceleration sensed by the acceleration sensing unit 20 is faster than a preset reference acceleration. In addition, the jog shuttle generating unit 30 maps the screen movement direction according to the left / right (counterclockwise / clockwise) rotation of the jog shuttle generated corresponding to the screen movement direction detected by the direction detecting unit 10.

For example, the jog shuttle generating unit 30 generates a jog shuttle when the movement acceleration sensed by the acceleration sensing unit 20 is faster than a preset reference acceleration. In addition, when the screen movement direction detected by the direction detection unit 10 moves the screen by dragging in a straight direction from side to side, the jog shuttle generation unit 30 rotates the generated jog shuttle in the left (counterclockwise) direction. Set the function so that the screen is moved from right to left and the screen is moved from left to right in case of right (clockwise) rotation.

As another example, when the screen movement direction sensed by the direction detection unit 10 moves the screen vertically and vertically by dragging the jog shuttle generation unit 30, the jog shuttle generation unit 30 generates the generated jog Set the function to move the screen from top to bottom when the shuttle is rotated left, and move the screen from bottom to top when rotated right.

As described above, the jog shuttle generating unit 30 enables the jog shuttle having a function corresponding to the screen movement direction sensed by the direction detecting unit 10 to be activated in correspondence with the moving acceleration sensed by the acceleration detecting unit 20.

The storage unit 40 may previously store UI information for adjusting the screen movement direction according to the rotation direction of the jog shuttle driven in the portable terminal in response to the screen movement direction detected by the direction detection unit 10.

For example, the storage unit 40 corresponds to a case in which the screen movement direction sensed by the direction detection unit 10 is a “left / right movement” direction, and when the jog shuttle is rotated left, the screen movement function for an application running in the portable terminal is provided. Moves from right to left and stores UI information for moving a screen moving function for an application running in a portable terminal from left to right when rotated right.

In addition, the storage unit 40 corresponds to a case in which the screen movement direction detected by the direction detection unit 10 is the “up and down” direction, and when the jog shuttle is rotated left, a screen movement function for an application running in the portable terminal It moves UI from top to bottom, and stores UI information for moving the screen moving function for the application running in the portable terminal from bottom to top when rotated right.

As described above, the storage unit 40 may specifically designate a screen movement function for an application running in the portable terminal in correspondence with the rotation direction of the jog shuttle.

The screen processing unit 50 displays the jog shuttle generated by the jog shuttle generation unit 30 on the portable terminal screen, and processes the screen movement in response to the rotation direction of the jog shuttle based on the UI information set in the jog shuttle. .

For example, when the screen movement direction of the generated jog shuttle is set to left and right, the screen processing unit 50 moves the screen from right to left when the jog shuttle is rotated to the left (counterclockwise), and to the right (clock Direction) to move the screen from left to right.

In addition, when the screen movement direction of the generated jog shuttle is set to up and down, the screen processing unit 50 moves the screen from top to bottom when the jog shuttle is rotated to the left (counterclockwise), and to the right (clockwise). If it is rotated by, it moves the screen from bottom to top.

Meanwhile, the screen processing unit 50 senses the rotational acceleration of dragging the jog shuttle through the acceleration sensing unit 20, and controls the movement speed of the screen in conjunction with this.

For example, the screen processor 50 changes the movement of the screen of the portable terminal according to the rotational speed of the touched means (finger, touch pen) when the user rotates the jog shuttle in a touched state. Therefore, in the movement change of the screen of the portable terminal, when the movement speed of the touch means is fast, the movement of the screen is rapidly controlled, and when the movement speed of the touch means is slow, the movement of the screen is controlled slowly.

The operation of the user interface device for accelerating jog shuttle based list control according to the present invention configured as described above will be described in detail with reference to the accompanying drawings. The same reference numerals as in Fig. 1 refer to the same members performing the same functions.

2 is a flowchart illustrating a user interface method for accelerating jog shuttle based list control according to an embodiment of the present invention.

Referring to FIG. 2, first, when an application of the portable terminal is driven by the user of the portable terminal (S10), the user interface device determines whether screen movement through the user's drag occurs on the screen of the portable terminal ( S20).

3 is a diagram illustrating a form in which a user sequentially searches for a desired item through dragging up and down on a portable terminal screen in an embodiment of the present invention.

Accordingly, when it is determined that the screen movement occurs, the direction detecting unit 10 in the user interface device detects the direction of the screen movement in association with the screen movement of the portable terminal screen (S30).

As illustrated in FIG. 3, when items are displayed up and down, drag is performed up and down, and when items are displayed left and right, drag is performed left and right.

At this time, as shown in FIG. 3, when the user drags from top to bottom, the direction of movement becomes downward, and when the function button is dragged from bottom to top, the direction of movement becomes upward. In addition, when the user drags the function button from left to right, the direction of movement becomes the right, and when the function button is dragged from right to left, the direction of movement becomes the left.

As described above, when the user moves the screen through the direction detection unit 10 in a straight direction up or down or left and right, the moving direction of the moving screen is sensed corresponding to the screen.

In addition, the acceleration sensing unit 20 in the user interface device detects the movement acceleration of the screen moving in one direction in association with the detected movement direction (S40). The movement acceleration represents the change in the movement of the screen during the unit time.

For example, when a user drags from the top to the bottom, when the user drags from the top to the bottom in a touched state, the movement change of the screen of the portable terminal varies according to the speed of movement of the touched means (finger, touch pen). At this time, if the movement speed of the touch means is fast, the screen movement is also fast, and if the movement speed of the touch means is slow, the screen movement is also slowed down.

The acceleration sensing unit 20 detects an instantaneous movement acceleration of the screen in conjunction with the movement of the screen.

Subsequently, the jog shuttle generating unit 30 in the user interface device moves the screen for the application running in the portable terminal according to the UI information pre-stored in the storage unit 40 in response to the sensed movement acceleration and the screen movement direction. Create a jog shuttle that performs a function.

That is, the jog shuttle generating unit 30 compares the sensed movement acceleration with a preset reference acceleration (S50), and generates a jog shuttle when the sensed movement acceleration is faster than the preset reference acceleration (S60).

Then, the jog shuttle generation unit 30 maps the screen movement direction according to the left / right (counterclockwise / clockwise) rotation of the generated jog shuttle in response to the sensed screen movement direction (S70).

For example, the jog shuttle generating unit 30 generates a jog shuttle when the movement acceleration sensed by the acceleration sensing unit 20 is faster than a preset reference acceleration. In addition, when the screen movement direction detected by the direction detection unit 10 moves the screen by dragging in a straight direction from side to side, the jog shuttle generation unit 30 rotates the generated jog shuttle in the left (counterclockwise) direction. Set the function so that the screen is moved from right to left and the screen is moved from left to right in case of right (clockwise) rotation.

As another example, when the screen movement direction sensed by the direction detection unit 10 moves the screen vertically and vertically by dragging the jog shuttle generation unit 30, the jog shuttle generation unit 30 generates the generated jog Set the function to move the screen from top to bottom when the shuttle is rotated left, and move the screen from bottom to top when rotated right.

Then, the screen processing unit 50 in the user interface device displays the generated jog shuttle on the screen of the portable terminal, and processes the screen movement in response to the rotation direction of the jog shuttle based on the UI information set in the jog shuttle ( S80). That is, the screen processing unit 50 moves the screen in the screen movement direction according to the left / right rotation (counterclockwise / clockwise rotation) of the jog shuttle mapped in response to the screen movement direction in the jog shuttle generation unit 30. Process.

4 is a diagram illustrating a form in which a jog shuttle is displayed on a portable terminal screen according to an embodiment of the present invention, and a desired item is sequentially searched through rotation of the jog shuttle.

As illustrated in FIG. 4, the screen processing unit 50 sequentially searches for a desired item while rotating the jog shuttle while the user touches it.

At this time, the screen processing unit 50 is the screen movement direction of the generated jog shuttle is set up and down, so when the jog shuttle is rotated to the left (counterclockwise), the screen is moved from top to bottom, right (clockwise) If it is rotated by, it moves the screen from bottom to top.

However, the screen processing unit 50 is not limited thereto, and when the screen movement direction of the generated jog shuttle is set to the left and right, the screen is moved from right to left when the jog shuttle is rotated to the left (counterclockwise), When rotated to the right (clockwise), the screen is moved from left to right.

In addition, the screen processing unit 50 may detect the rotational acceleration of dragging the jog shuttle through the acceleration sensing unit 20 and control the movement speed of the screen in cooperation with the screen.

That is, when the user rotates the jog shuttle while the user touches, the screen processing unit 50 changes the movement of the screen of the portable terminal according to the rotation speed of the touched means (finger, touch pen). Therefore, in the movement change of the screen of the portable terminal, when the movement speed of the touch means is fast, the movement of the screen is rapidly controlled, and when the movement speed of the touch means is slow, the movement of the screen is controlled slowly.

Embodiments of the present invention include computer readable media including program instructions for performing various computer-implemented operations. The computer-readable medium may include program instructions, data files, data structures, or the like alone or in combination. The media may be program instructions specially designed and constructed for the present invention, or may be known and usable by those skilled in computer software. Examples of computer-readable recording media include magnetic media such as hard disks, floppy disks, and magnetic tapes, optical media such as CD-ROMs, DVDs, and magnetic media such as floptical disks. Includes hardware devices specifically configured to store and execute program instructions such as magneto-optical media, and ROM, RAM, flash memory, and the like. Examples of program instructions include high-level language codes that can be executed by a computer using an interpreter, etc., as well as machine language codes produced by a compiler.

The above-described present invention, the above-described embodiments and the accompanying drawings because it is possible for a person having ordinary knowledge in the technical field to which the present invention pertains to various substitutions, modifications and changes without departing from the technical spirit of the present invention It is not limited by.

10: direction sensor 20: acceleration sensor
30: jog shuttle generation unit 40: storage unit
50: screen processing unit

Claims (11)

A direction detection unit that detects a direction of movement in association with a screen movement of a portable terminal screen through a user's drag;
An acceleration detecting unit detecting a moving acceleration of a screen moving in one direction in association with a moving direction detected by the direction detecting unit;
A jog generating a jog shuttle that performs a screen movement function for an application running in a portable terminal according to the movement acceleration sensed by the acceleration detection unit and UI information stored in advance in response to the screen movement direction detected by the direction detection unit A shuttle generator; And
And a screen processing unit displaying the jog shuttle generated by the jog shuttle generating unit on a portable terminal screen, and processing the screen movement in response to the rotation direction of the jog shuttle based on UI information set in the jog shuttle,
Further comprising a storage unit for storing in advance the UI information for adjusting the screen movement direction according to the rotation direction of the jog shuttle driven in the portable terminal and set the reference acceleration in response to the screen movement direction detected by the direction detection unit,
The jog shuttle generating unit
When the movement acceleration sensed by the acceleration sensing unit is higher than the preset reference acceleration, a jog shuttle is generated,
The screen processor detects a rotational acceleration of dragging a jog shuttle through the acceleration detection unit, and interworking with this, a user interface device for controlling a movement speed of the screen according to the rotational acceleration.
delete According to claim 1,
The jog shuttle generating unit is a user interface device that maps a screen movement direction according to left / right (counterclockwise / clockwise) rotation of the jog shuttle generated corresponding to the screen movement direction detected by the direction detection unit.
delete delete (A) determining whether screen movement through a user's drag occurs on a portable terminal screen on which the application is driven;
(B) when a screen motion occurs as a result of the determination, detecting a direction of the motion in association with the screen motion of the portable terminal screen using the direction detection unit;
(C) detecting a movement acceleration of a screen moving in one direction in association with the detected movement direction using an acceleration detection unit;
(D) generating a jog shuttle that performs a screen movement function for an application running in a portable terminal according to UI information stored in advance in response to the sensed movement acceleration and screen movement direction using the jog shuttle generation unit; And
(E) using the screen processing unit to display the generated jog shuttle on the screen of the portable terminal, and processing the movement of the screen in response to the rotation direction of the jog shuttle based on the UI information set in the jog shuttle,
Step (D) is
Comparing the sensed movement acceleration with a preset reference acceleration;
Generating a jog shuttle when the sensed movement acceleration is higher than a preset reference acceleration;
And mapping a screen movement direction according to left / right (counterclockwise / clockwise) rotation of the generated jog shuttle in response to the detected screen movement direction,
In step (E), the movement speed of the screen is controlled according to the rotational acceleration in association with the detected rotational acceleration of the jog shuttle,
The UI information is information for adjusting a screen movement direction according to a rotation direction of a jog shuttle driven in a portable terminal and setting a reference acceleration in response to the sensed screen movement direction.
The method of claim 6,
Step (B) is
A user interface method characterized in that when the user moves the screen vertically or horizontally by dragging in a straight direction, the moving direction of the moving screen is correspondingly sensed.
delete delete The method of claim 6,
In step (E), when the jog shuttle is rotated by the user's drag, the item displayed on the screen is moved to either the top, bottom, left, or right.
delete

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