KR101188871B1 - Touch screen apparatus for patients with low vision and the method of displaying the same - Google Patents

Abstract

PURPOSE: A touch screen device for farsighted people and a displaying method thereof are provided to enable a user to easily confirm the whole area of an expanded image. CONSTITUTION: A view screen calling unit(130) activates each of elements for expansion and movement of an image object according to user selection. An object state recording unit(150) stores object state information is about resolution and output coordinates of a view screen and the image object. A screen image storing unit(140) stores a displayed view screen image. A view screen manipulating unit(120) changes at least one of a display scale and a display position of the image object. [Reference numerals] (100) Touch screen device; (110) View screen outputting unit; (120) View screen operating unit; (122) Magnification operating unit; (124) Moving operating unit; (130) View screen calling unit; (140) Screen image storing unit; (150) Object state recording unit

Description

TOUCH SCREEN APPARATUS FOR PATIENTS WITH LOW VISION AND THE METHOD OF DISPLAYING THE SAME}

The present invention relates to a touch screen device for low vision and a display method thereof, and more particularly, to a structure in which the image object enlarged in the view screen is infinitely circulated in an eight-direction region based on up, down, left, and right sides of the image object that has already passed. A touch screen device for low vision persons that can easily check the entire area of the enlarged image by maximizing the efficiency of operation and reducing eye fatigue by allowing the user to check all the image areas without going back to the moving path. It relates to a display method.

In general, when a touch screen touches an input means such as a human hand without using a separate input device, a touch screen grasps a position and a gesture where the input means touches an input signal. It is a combined input and output device that can be processed with. Using the touch screen can save space for installing the input device, thereby increasing the display area and allowing the user to operate intuitively. Accordingly, the use area of the touch screen is expanding.

The input and output functions provided by these touchscreens depend on the information displayed. Accordingly, touch screen devices that provide a screen magnification function are also used for the convenience of the elderly or low vision people with poor vision.

Currently, the screen magnification function provided by the touch screen device is limited to enlarging an image object at a predetermined ratio and correcting color and image quality according to the magnification ratio. As such, when the object displayed on the screen is enlarged, the recognition range of the screen serving as the view is narrowed. Therefore, in order to recognize all the enlarged image areas, objects outside the screen recognition range must be individually moved within the screen range to identify the objects.

However, since the conventional screen movement pattern moves from left to right, it is necessary to return to the movement path already passed in order to focus the next lower image object, which causes considerable inconvenience. In other words, it is necessary to repeatedly go through an undesired magnification section, and this unnecessary manipulation is inevitably accompanied, thereby increasing eye fatigue during use.

As such, when a user uses an enlarged image object, a conventional touch screen device needs to repeatedly pass an unwanted enlargement section in the object identification process, causing eye fatigue and increasing the number of manipulations, thereby increasing the user's fatigue. There is this.

The present invention has been made to solve the above-described problem, and forms a structure to infinitely circulate the enlarged image object in the eight-direction region of the top, bottom, left, and right on the view screen without returning to the moving path of the image object that has already passed The present invention provides a touch screen device for low vision and a display method thereof for maximizing the efficiency of operation and reducing eye fatigue so that the entire area of the enlarged image can be easily identified.

According to an aspect of the present invention for solving the above problems, a view screen call unit for activating each component for the enlargement and movement of the image object according to the user selection; An object state recorder which stores object state information including a resolution and an output coordinate of a view screen and an image object; A screen image storage unit for capturing and storing a view screen image being displayed and transmitting the stored image to a view screen output unit; A view screen manipulation unit which changes at least one of a display magnification and a display position of the image object according to a user's gesture and stores the changed information in the object state recording unit; And a view screen output unit configured to output the view screen image stored in the screen image storage unit according to the object state information.

The object state information may include at least one of view screen resolution, individual multiple view screen coordinate states, original image object resolution, extended image object count, current image output coordinate state, and individual multiple image output coordinate state information. have.

The view screen manipulation unit may include: a magnification manipulation unit configured to change an enlargement / reduction ratio of an image object according to a gesture of a user; And a movement manipulation unit to change the display position of the image object and the view according to the gesture of the user.

The magnification operation unit may change the magnification / reduction ratio of the original image stored in the screen image storage unit according to the gesture of the user and store the original image resolution in the object state recording unit.

The moving operation unit may update and store the current image output coordinate state stored in the object state recording unit based on a previously stored current image output coordinate state according to the user's gesture.

The view screen output unit may include a plurality of instantaneous values corresponding to an output start coordinate value of a current image object obtained from a current image output coordinate state by a multiple of 0 including a value obtained by dividing the original image object resolution by the number of extended image objects. An image object in which the same image is generated may be newly displayed with a predetermined initial coordinate value.

The view screen output unit may determine a division structure of the view screen output unit based on individual multi-view screen coordinate states stored in the object state recording unit, and each divided view area may be configured to output individual multi-image output coordinates of the object state recording unit. You can display image objects based on their state.

On the other hand, according to another aspect of the present invention, generating and storing the original image object by correcting the image of the current screen to the predetermined view screen resolution, and storing the corrected resolution as the original image object resolution; Displaying the original image object at a view screen point at which the view screen resolution matches the resolution of the original image object, and storing output coordinate information of the displayed image object as a current image output coordinate state; Changing at least one of a display magnification and a display position of the image object according to a gesture of a user and storing the changed information; And applying the changed information to the original image object and displaying the changed information. The display method of the touch screen device for low vision is provided.

Herein, the changing of at least one of the display magnification and the display position of the image object and storing the changed information according to the gesture of the user includes: view screen resolution, individual multiple view screen coordinate states, original image object resolution, and extended image. And storing at least one of object number, current image output coordinate state, and individual plurality of image output coordinate state information.

The changing of at least one of the display magnification and the display position of the image object according to the user's gesture and storing the changed information may include: changing an enlargement / reduction ratio of the image object according to the user's gesture; And changing a display position of the image object and the view according to the gesture of the user.

The changing of the magnification of the image object according to the gesture of the user may include changing the magnification of the original image stored in the screen image storage unit according to the gesture of the user to change the magnification of the original image to the object state recording unit. And storing at the image resolution.

The changing of the display position of the image object and the view according to the gesture of the user may be based on a current image output coordinate state stored in the current image output coordinate state stored in the object state recording unit according to the gesture of the user. It may include adding and subtracting and storing.

The displaying of the changed image by applying the changed information to the original image object may include displaying a multiple of a value obtained by dividing the resolution of the original image object by the number of extended image objects and obtaining a multiple value including 0 from a current image output coordinate state. The method may further include newly displaying an image object in which a plurality of identical images are generated at a moment coinciding with the output start coordinate value with a predetermined initial coordinate value.

The displaying of the changed information by applying the changed information to the original image object may include determining a partition structure of the view screen on the basis of the stored state of the individual multiple view screen coordinates, and each of the divided view areas outputs the previously stored individual multiple image. The image object can be displayed based on the coordinate state.

As described above, the touch screen device for low vision and the display method thereof according to the present invention form a structure for infinitely circulating the enlarged image object in an eight-direction region based on the top, bottom, left, and right sides of the view screen to move the image object that has already passed. By checking all the image areas without going back to, there is an effect of maximizing the efficiency of the operation and reducing the fatigue of the eye to easily check the entire area of the enlarged image.

1 is a control block diagram of a touch screen device for low vision according to an embodiment of the present invention,
2 is a display state diagram of a touch screen device for low vision according to a first embodiment of the present invention;
3 is a display state diagram of a touch screen device for low vision according to a second embodiment of the present invention;
4 is a state diagram of a touch screen device for low vision according to a third embodiment of the present invention;
5 is a flowchart of a display method of a touch screen device for low vision according to an exemplary embodiment of the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. In the description with reference to the accompanying drawings, the same or corresponding components will be given the same reference numerals and redundant description thereof will be omitted.

1 is a control block diagram of a touch screen device 100 for low vision in accordance with an embodiment of the present invention.

As illustrated in FIG. 1, the touch screen device 100 may include a view screen call unit 130, a screen image storage unit 140, an object state recording unit 150, a view screen operation unit 120, and a view screen output unit ( 110).

The view screen caller 130 provides a user interface for enlarging / moving an image object and activates other components for providing a zoom / move function.

The screen image storage unit 140 captures and stores the current screen image and transmits it to the view screen output unit 110 as requested.

The object status recorder 150 may include 'view screen resolution', 'individual multiple view screen coordinate status', 'original image object resolution', 'extended image object count', 'current image output coordinate status', 'individual multiple image output coordinate'Status' information.
Here, the number of extended image objects means the number of identical images expanded in a process of generating and displaying two or more identical images on one unsplit view screen. In addition, the 'individual multi-view screen coordinate state' is logically divided into two or more, and each view screen copied in the process of creating and displaying the same image in each divided view area by copying a plurality of original image objects is displayed. It means the coordinate state to be located.
In addition, the 'individual multiple image output coordinate state' is logically divided into two or more, and each of the divided view areas is individually generated in the process of creating and displaying the same image in each divided view area by copying a plurality of original image objects. The coordinate state in which a plurality of images are to be displayed.

The view screen manipulation unit 120 recognizes a user gesture on a touch screen basis and changes the state of the image object according to the user gesture. The view screen manipulation unit 120 may include a magnification manipulation unit 122 for adjusting the display magnification of the image object according to a user's manipulation, and a movement manipulation unit 124 for changing the state of the image object and the view according to the manipulation of the user. have.

The view screen output unit 110 displays the captured image object on the screen. The view screen output unit 110 has a structure in which the view screen manipulation unit 120 layer is overlaid on the upper surface, so that the view screen output unit 110 and the view screen manipulation unit 120 are simultaneously activated.

The touch screen device 100 having such a configuration can be applied to a smartphone, a tablet PC, an ATM device, and the like.

2 is a display state diagram of the touch screen device 100 for low vision according to the first exemplary embodiment of the present invention, which illustrates a process of enlarging and moving an image object.

(a) shows the initial screen in which the image object is displayed in the normal mode. When the user touches a specific area of the touch screen on the initial screen, the view screen caller 130 is called to activate the remaining components for display control. The view screen calling unit 130 stores the resolution information of the current view screen in the object state recording unit 150 and then calls the screen image storage unit 140. Accordingly, the screen image storage unit 140 generates an image object by capturing the current screen image, corrects the generated image object according to the view screen resolution of the object state recording unit 150, and stores the image image as an original image object. The resolution is stored in the object state recording unit 150.

(b) shows a screen in which an image object is enlarged. When the user takes a gesture defined as selecting a zoom, the magnification control unit 122 enlarges / reduces the original image resolution stored in the screen image storage unit 140 according to the input gesture, and the result is the object state. Record at the original image resolution of the recording unit 150.

The view screen output unit 110 changes the current image output coordinate state of the object state recording unit 150 resulting from the changed image resolution as a reference point of the existing current image output coordinate state, and the view screen output unit 110 itself. Update only to the area that can be displayed.

(c) illustrates a screen moving in an enlarged state of the image object. When the user takes a gesture defined as selecting the movement of the image object, the current image output coordinate state of the object state recording unit 150 is based on the existing current image output coordinate state according to the gesture input by the movement manipulation unit 124. Add and subtract and record the update. The view screen output unit 110 displays a screen in which the changed result is reflected. In the screen shown in (c), the upper right part and the upper left part of the screen captured as the original image are displayed at the same time. That is, since the same screen is scrolled in succession to an empty spot generated by moving the enlarged screen to the left or the right, it is possible to check the image area not confirmed without changing the moving direction of the screen.

3 is a display state diagram of the touch screen device 100 for low vision according to the second embodiment of the present invention, which illustrates a process of generating and displaying two or more identical images on one unviewed view screen. .

When capturing the current screen image from the screen image storage unit 140, one image is generally generated. By generating two or more images based on the left, right, up, and down directions, the image size is enlarged by the number, and the image itself is 1. It becomes a dog. Here, the expanded number of identical images is recorded in the extended image object number of the object state recording unit 150 to know the original size.

When the user makes a gesture that is arbitrarily defined, the movement manipulation unit 124 adds or subtracts the current image output coordinate state of the object state recording unit 150 according to the input gesture. Here, the instantaneous view screen output unit 110 that matches the output start coordinate value of the current image object obtained from the current image output coordinate state from a value obtained by dividing the original image object resolution by the number of extended image objects One image object in which two identical images are generated is newly displayed with a predetermined initial coordinate value. Here, the coincidence point with the output start coordinate value of the current image object may be the X axis or the Y axis.

4 is a display state diagram of the touch screen device 100 for low vision according to a third embodiment of the present invention, wherein a view screen is logically divided into two or more, and one original image object is copied in plural and each divided. This is an example of creating and displaying the same image in the view area.

In the divided view screen, the area width of each view is variably changed by the movement manipulation unit 124, and thus may be exposed or out of view of the view screen output unit 110.

  When the gesture is arbitrarily defined in the movement manipulation unit 124, the number of times is updated and recorded in the individual multiple view screen coordinate state and the individual multiple image output coordinate state of the object state recording unit 150 in proportion to the number of times.

  Subsequently, the result is immediately reflected in the view screen output unit 110. The division structure of the view screen output unit 110 is determined based on the individual multi-view screen coordinate states of the object state recording unit 150, and each divided view. The region is filled with image objects based on the individual multiple image output coordinate states of the object state recorder 150.

The image object is output according to the coordinate value criteria of the method determined in the divided view area, respectively. For example, if four divided views enter the view of the 'view screen output unit 110', the output coordinate reference and the image object output coordinate of each view are as follows.

The horizontal starting point of the first quadrant (a) split view is inversely proportional to the horizontal starting point of the second quadrant (b).

The longitudinal starting point of the first quadrant (a) split view is inversely proportional to the longitudinal starting point of the third quadrant (c).

The vertical / horizontal starting point of the first quadrant (a) split view is inversely proportional to the quadrant (d) vertical / horizontal starting point and the image object vertical / horizontal length.

Each image object is output based on a proportional difference between the above-described divided view coordinates.

5 is a flowchart illustrating a display method of the touch screen device 100 for low vision according to an exemplary embodiment of the present invention.

The view screen calling unit 130 is executed according to the user's selection (S110). The view screen caller 130 may be executed by a user touching a specific area of the touch screen screen, performing a finger gesture arbitrarily defined, or selecting a physical button arbitrarily determined. The view screen caller 130 executed by the user activates the remaining components for display control.

The view screen calling unit 130 stores the resolution information of the current view screen in the object state recording unit 150 (S112). When the saving is completed, the view screen call unit 130 calls the screen image storage unit 140.

The called screen image storage unit 140 captures the current screen image to generate an image object (S114), and corrects the resolution of the image object to store the original image object resolution (S116). The screen image storage unit 140 corrects an image object generated by capturing an image of the current screen according to the 'view screen resolution' of the object state recording unit 150 and stores the image object as an original image object, and resolution of the original image object. The object state recorder 150 is stored. Thereafter, the screen image storage unit 140 calls the view screen output unit 110.

The view screen output unit 110 displays an image at a view screen point at which the view screen resolution and the image object resolution match. The view screen output unit 110 receives the image from the screen image storage unit 140, displays the view screen resolution of the object status recording unit 150 and the view screen point where the original image object resolution matches and displays the image output coordinate information thereof. To the current image output coordinate state of the object state recorder 150.

Subsequently, the magnification manipulation unit 122 of the view screen manipulation unit 120 enlarges / reduces the original image resolution according to the user's selection of the enlargement / reduction (S120). The gesture of the user selecting the zoom can be arbitrarily determined. Accordingly, when the user performs an arbitrarily defined zoom selection gesture, the magnification control unit 122 enlarges / reduces the original image resolution stored in the screen image storage unit 140 in proportion to the number of times and displays the result as the object state. It is recorded at the original image resolution of the recording unit 150.

An operation result of the magnification manipulation unit 122 is immediately reflected on the view screen output unit 110, and the view screen output unit 110 displays an enlarged / reduced image (S122). The view screen output unit 110 changes the current image output coordinate state of the object state recording unit 150 resulting from the changed image resolution as a reference point of the existing current image output coordinate state, and the view screen output unit 110 itself. Only the area that can be displayed is updated.

Then, the current image output coordinates are updated or subtracted from the previous output coordinates according to the gesture input by the user (S130). The user's gesture of selecting movement can be arbitrarily determined. Accordingly, when the user performs a gesture that is arbitrarily defined, the movement manipulation unit 124 updates and records the current image output coordinate state based on the existing current image output coordinate state according to the gesture.

An operation result of the movement manipulation unit 124 is immediately reflected on the view screen output unit 110, and the view screen output unit 110 displays an image according to the changed coordinates (S132).

As described above, the present invention allows the touch screen device to scroll by combining a plurality of identical image objects on one view screen, or to call one image object to each divided view screen in a plurality of divided view screens. In this way, a structure is formed in which the image object enlarged in the view screen is infinitely circulated in the eight-direction region of the top, bottom, left, and right.

This configuration eliminates the need to return to the movement path of the image object that has already passed in order to return to the starting position, so that the view screen narrowed by the enlarged image object can be efficiently operated. Thus, in identifying the enlarged image area, eye fatigue may be reduced and the entire image may be easily recognized.

Thus, those skilled in the art will appreciate that the present invention may be embodied in other specific forms without departing from the spirit or essential characteristics thereof. It is therefore to be understood that the embodiments described above are to be considered in all respects only as illustrative and not restrictive. The scope of the present invention is defined by the appended claims rather than the detailed description and all changes or modifications derived from the meaning and scope of the claims and their equivalents are to be construed as being included within the scope of the present invention do.

The present invention forms a structure for infinitely circulating the enlarged image object in the eight-direction region of the top, bottom, left and right on the view screen, so that it is possible to check all the image areas without returning to the moving path of the image object that has already passed. It can be used in the touch screen device and the display method for the low vision person to maximize the and reduce the fatigue of the eye to easily check the entire area of the enlarged image.

100: touch screen device 110: view screen output unit
120: view screen operation unit 122: magnification operation unit
124: movement control unit 130: view screen call unit
140: screen image storage unit 150: object status recording unit

Claims (14)

A view screen caller for activating each component for enlarging and moving an image object according to a user selection;
An object state recorder which stores object state information including a resolution and an output coordinate of a view screen and an image object;
A screen image storage unit for capturing and storing a view screen image being displayed and transmitting the stored image to a view screen output unit;
A view screen manipulation unit which changes at least one of a display magnification and a display position of the image object according to a user's gesture and stores the changed information in the object state recording unit; And
And a view screen output unit configured to output a view screen image stored in the screen image storage unit according to the object state information.
The method of claim 1,
The object state information,
Touch for low vision, characterized in that it comprises at least one of the view screen resolution, individual multiple view screen coordinate state, original image object resolution, the number of extended image objects, the current image output coordinate state, the individual multiple image output coordinate state information Screen device.
The method of claim 1,
The view screen operation unit,
A magnification control unit for changing an enlargement or reduction ratio of the image object according to a gesture of the user; And
And a movement manipulation unit to change the display position of the image object and the view according to the gesture of the user.
The method of claim 3,
The magnification operation unit,
And changing an enlargement or reduction ratio of the original image stored in the screen image storage unit according to the user's gesture and storing the original image resolution in the object state recording unit.
The method of claim 3,
The moving operation unit,
And updating and storing the current image output coordinate state stored in the object state recording unit based on a previously stored current image output coordinate state according to a gesture of the user.
The method of claim 5,
The view screen output unit,
Preset an image object from which multiple identical images are generated at the moment when the original image object resolution is divided by the number of extended image objects and a multiple of zero is equal to the output start coordinate value of the current image object obtained from the current image output coordinate state. Touch screen device for low vision, characterized in that the newly displayed by the initial coordinate value set in the.
The method of claim 5,
The view screen output unit,
A division structure of the view screen output unit is determined based on individual multi-view screen coordinate states stored in the object state recording unit, and each divided view area displays an image object based on individual multi-image output coordinate states of the object state recording unit. Touch screen device for being low vision, characterized in that.
Correcting an image capturing the current view screen according to a preset view screen resolution to generate and store an original image object, and storing the corrected resolution as the original image object resolution;
Displaying the original image object at a view screen point at which the view screen resolution matches the resolution of the original image object, and storing output coordinate information of the displayed image object as a current image output coordinate state;
Changing at least one of a display magnification and a display position of the image object according to a gesture of a user and storing the changed information; And
And displaying the changed information by applying the changed information to the original image object.
9. The method of claim 8,
Changing at least one of the display magnification and the display position of the image object according to the gesture of the user and storing the changed information,
And storing at least one of view screen resolution, individual multiple view screen coordinate states, original image object resolution, extended image object count, current image output coordinate state, and individual multiple image output coordinate state information. Display method of touch screen device for phosphorus.
9. The method of claim 8,
Changing at least one of the display magnification and the display position of the image object according to the gesture of the user and storing the changed information,
Changing an enlargement ratio or a reduction ratio of the image object according to the gesture of the user; And
And displaying at least one of changing the display position of the image object and the view according to the gesture of the user.
The method of claim 10,
Changing the magnification or reduction ratio of the image object according to the gesture of the user,
And changing the magnification or reduction ratio of the original image stored in the screen image storage unit according to the user's gesture and storing the original image resolution in the object state recording unit. Display method.
The method of claim 10,
Changing the display position of the image object and the view according to the gesture of the user,
And updating and storing the current image output coordinate state stored in the object state recording unit based on a previously stored current image output coordinate state according to the user's gesture. Display method.
The method of claim 12,
Displaying by applying the changed information to the original image object,
The image object in which a plurality of identical images are generated at the instant of coinciding with the output start coordinate value of the current image object obtained from the current image output coordinate state by a multiple value including 0 from the original image object resolution divided by the number of extended image objects. The display method of the touch screen device for low vision, further comprising the step of newly displaying the predetermined initial coordinate value.
The method of claim 12,
Displaying by applying the changed information to the original image object,
The divided structure of the view screen is determined based on the stored state of the individual multiple view screen coordinates, and each divided view area displays an image object based on the stored state of the individual multiple image output coordinates. Display method of touch screen device.

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