KR101167782B1 - Method and device for supplemnet the difference of resolution - Google Patents

Abstract

The present invention relates to a method and a terminal for compensating for a difference in resolution, and more particularly, to determine whether a program is executed in a terminal, to compare a window resolution of a program with a monitor resolution of a terminal, and to determine a window resolution of the program. The present invention relates to a method and a terminal for compensating for a difference in resolution for adjusting a window area of a program displayed on a monitor of a terminal according to the position of a cursor by generating a virtual window when the monitor resolution is larger than the monitor resolution.
To this end, a method for compensating for the difference in resolution according to the present invention includes determining whether a program is executed in a terminal, extracting a window resolution of the executed program, and comparing the window resolution of the program and the monitor resolution of the terminal. And generating a virtual window when the comparison result shows that the window resolution of the program is larger than the monitor resolution of the terminal.
Accordingly, all program windows having a higher resolution than that of the monitor can be viewed.

Description

Method and device for supplemnet the difference of resolution}

The present invention relates to a method and a terminal for compensating for a difference in resolution, and more particularly, to determine whether a program is executed in a terminal, to compare a window resolution of a program with a monitor resolution of the terminal, and to determine a window resolution of the program. The present invention relates to a method and a terminal for compensating for a difference in resolution for adjusting a window area of a program displayed on a monitor of a terminal according to the position of a cursor by generating a virtual window when the monitor resolution is larger than the monitor resolution.

Resolution is a term that indicates how detailed the content is expressed in a certain unit. It is mainly used for output of computer display monitor, digital television, or printer. It refers to the number of pixels represented in 1 inch (25.4 mm), which is a certain physical length unit, and dpi (dots per inch) is used as a unit. For example, 72 dpi means 72 dots within an inch. This term is used in monitors, printers, and digital cameras, and high resolution means that images can be represented in more detail by displaying a large number of pixels on a display of the same area.

Netbook, meanwhile, is a compound word of 'Internet' and 'Notebook'. It is a relatively inexpensive and light laptop that aims to use basic Internet-oriented tasks such as browsing website content, e-mail, and chatting. . Because of its small size and low cost, its functionality is limited to basic performance, and its marketability is therefore limited compared to desktop or notebook computers. However, as more and more users want mini laptops that are small and easy to carry, and more and more users are dissatisfied with the increased performance or functionality of mobile phones and smartphones as Internet terminals for flash-enabled sites, netbooks The use of is continuing to increase in recent years.

However, despite the increase in the number of users of netbooks, the user may feel uncomfortable because the resolution of the netbook monitor is so low that all program windows are not visible. For example, most online games have a resolution of '1024x768' and most netbook monitors have a resolution of '1024x600', so if a netbook user runs an online game with '1024x768' resolution, the monitor will fill the game screen and play normally. It can't be done. In this case, the resolution can be increased by changing the liquid crystal, but the maximum resolution is determined for each inch of the monitor, and mounting of a larger liquid crystal does not become an efficient method by deforming the appearance.

In addition, there is a method of connecting and using a separate LCD monitor, but there is a problem that can not enjoy the advantages of the netbook is small and easy to carry.

As described above, since a netbook generally has a resolution of 1024x600 or less on a screen of 10 inches or less, a program having a resolution of more than 1024x600 is often invisible. If the resolution of the monitor is lower than the resolution, the problem of not seeing all the program windows may occur.

The present invention has been made to solve the above-mentioned problems, and when using a low resolution monitor, such as when using a netbook, the resolution difference can be seen so that a program window higher than the monitor resolution can be seen without replacing the monitor. An object of the present invention is to provide a method and a terminal to supplement.

According to an aspect of the present invention, there is provided a method for compensating for a difference in resolution, comprising: determining whether a program is executed in a terminal, extracting a window resolution of the executed program, a window resolution of the program, and the terminal And comparing the monitor resolutions of the monitors and generating virtual windows when the window resolution of the program is greater than the monitor resolution of the terminal.

The present invention also includes a computer readable medium having recorded thereon a program for executing the above method to compensate for the difference in resolution.

A terminal for compensating for the difference in resolution according to the present invention for achieving the above object, the execution determination unit for determining whether to execute the program in the terminal, the resolution extraction unit for extracting the window resolution of the executed program and the window of the program And a resolution comparison unit comparing the resolution and the monitor resolution of the terminal, and a virtual window generation unit that generates a virtual window when the window resolution of the program is larger than the monitor resolution of the terminal.

According to a method and a terminal for compensating for the difference in resolution according to the present invention,

First, you can see all the program windows that have higher resolution than the monitor's resolution.

Second, it is economical because you do not need to purchase a separate monitor to see all the program windows with higher resolution than the monitor resolution.

Third, when the program is executed, the resolution of the program window is compared with the resolution of the program window to compensate for the difference in the user's convenience.

Fourth, in terms of distributing a program having a high resolution, the user's convenience and service quality can be improved.

Fifth, in the case of a low resolution netbook, it is possible to execute a program that was difficult to run because all program windows are not displayed on the netbook monitor, thereby increasing the utilization of the netbook.

1 is a functional block diagram of a terminal to compensate for a difference in resolution;
2 illustrates an embodiment in which a virtual window is created to compensate for a difference in resolution;
3 is a flowchart of a method for compensating for the difference in resolution.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. Prior to this, terms and words used in the present specification and claims should not be construed as limited to ordinary or dictionary terms, and the inventor should appropriately interpret the concepts of the terms appropriately The present invention should be construed in accordance with the meaning and concept consistent with the technical idea of the present invention.

Therefore, the embodiments described in the specification and the drawings shown in the drawings are only one of the most preferred embodiments of the present invention and do not represent all of the technical idea of the present invention, various modifications that can be replaced at the time of the present application It should be understood that there may be equivalents and variations.

FIG. 1 is a functional block diagram of a terminal that compensates for a difference in resolution. Referring to FIG.

First, the resolution refers to the number of pixels included in the display monitor, which is usually represented by multiplying the number of pixels in the horizontal direction by the number of pixels on the vertical axis. The sharpness of the screen image depends on the resolution and the size of the monitor. At the same resolution, the sharper and smaller monitors on smaller monitors become less sharp because of the larger area and the same number of pixels.

Usually any computer system has the ability to represent the highest resolution and several lower resolutions, depending on the physical ability to focus the light. For example, display systems with the highest resolution of 1280x1024 also support lower 1024x768, 800x600 and 640x480 resolutions.

However, display systems with low resolution have difficulty expressing high resolution. For example, you can only have one program on one screen, or you can't see the full screen of the program, so you have to select it on the taskbar and switch to another program.

In particular, if you are trying to run an online game program on a netbook, most online games have a resolution of 1024x768 and most netbook monitors have a resolution of 1024x600, so if a netbook user runs an online game program with a resolution of 1024x768, You may not be able to play normally because the game screen is full on the monitor. Therefore, in such a case, it is necessary to compensate for the difference in resolution so that all online game programs can be viewed on a netbook to allow normal play.

Accordingly, the terminal 100 to compensate for the difference in resolution according to an embodiment of the present invention includes an execution determining unit 110, a resolution extracting unit 120, a resolution comparing unit 130, a virtual window generating unit 140, and a cursor. The tracking unit 150 and the area adjusting unit 160 is included.

The execution determining unit 110 determines whether there is a program to be executed in the terminal 100. That is, it is necessary to compare the resolution for each program executed in the terminal 100 to determine whether there is a need for supplementation. Therefore, the operation of determining whether there is a newly executed program should be preceded, and the execution determining unit 110 polls whether there is a program to be executed (polling-one device or program is used for the purpose of collision avoidance or synchronization processing, etc.). It periodically checks the program status and processes data such as transmission and reception when certain conditions are satisfied.

In addition, when the execution determining unit 110 determines that there is a newly executed program, program window related information including a window handle (a kind of serial number used to distinguish a window) of the program is included in the resolution extractor 120. Send it.

The resolution extractor 120 extracts a window resolution of the executed program. Looking at an embodiment of the method for extracting the window resolution of the executed program, the program through a method using an application programming interface (API) through the window handle of the program received from the execution determination unit 110 You can extract the window resolution of.

The API is an interface made to control functions provided by an operating system or a programming language for use in an application program, and mainly provides an interface for file control, window control, image processing, character control, and the like. The extracted resolution is transmitted to the resolution comparison unit 130.

The resolution comparison unit 130 compares the window resolution of the program extracted by the resolution extraction unit 120 with the monitor resolution of the terminal 100 on which the program is executed. Since the monitor resolution of the terminal 100 can also be known using an API, it can be compared with the program resolution transmitted from the resolution extractor 120.

The virtual window generation unit 140 generates a virtual window when the resolution of the program window is greater than the resolution of the monitor as a result of the comparison of the resolution comparison unit 130.

The virtual window is a virtual window created to view the remaining area of the program window that cannot be seen on the monitor due to the difference between the monitor resolution and the window resolution of the program. The virtual window has the same resolution as the window resolution of the executed program. . Therefore, high-resolution program windows are not visible on the monitor but are visible in the virtual window.

However, when the monitor resolution and the program resolution of the terminal 100 are significantly different, there is a difficulty in viewing the window of the program even if the virtual window is created to be the same as the resolution of the program window. Therefore, the virtual window may be generated by converting the resolution of the executed program window. In other words, if the virtual window is generated by lowering the resolution of the program window when the virtual window is created, the difference with the monitor resolution is reduced, so that the user may be inconvenient in using the virtual window. The method of lowering the resolution of the program window may be performed through various methods such as omitting the same pixel value.

2 illustrates an embodiment in which a virtual window is created to compensate for the difference in resolution.

When a program having a resolution of 1024x768 is executed on a netbook monitor having a resolution of 1024x600, a virtual window having a resolution of 1024x768 is created. In FIG. 2, areas A, B, C, and D represent areas that are invisible on the monitor of the terminal 100 due to the difference between the program resolution and the monitor resolution, but are generated in the actual virtual window.

The cursor tracker 150 tracks the position of the cursor after the program execution. By tracking the position of the cursor in real time, it is possible to determine whether the cursor is positioned within the position adjustment area where the virtual window should be adjusted. Therefore, the cursor is tracked in real time, and when the cursor is located in the position adjusting area, the signal is transmitted to the area adjusting unit 160.

The position adjustment area will be described again below as an area in which a predetermined portion before reaching the boundary of the monitor of the terminal 100 is set.

The area adjusting unit 160 adjusts the window area of the program displayed on the monitor of the terminal 100 according to the result of the cursor tracking unit 150. The position adjusting area is an area in which a predetermined portion is set before reaching the boundary line of the monitor of the terminal 100. The area designation may be changed according to a setting.

In FIG. 2, the area E is a position adjusting area. When the cursor moves to the area E, the cursor tracking unit 150 sends a signal. Then, the area adjusting unit 160 identifies the area in the virtual window according to the movement of the cursor, newly sets the area shown on the monitor, and outputs the corresponding content on the monitor.

A method of adjusting an area of a program window visible on a monitor by using a virtual window will be described with reference to the virtual window of FIG. 2.

X coordinate (Window_PosX), Y coordinate (Window_PosY), the number of horizontal pixels (Window_Width), and the number of vertical pixels (Window_Height) of one of four vertices of the screen (rectangular) of the virtual window shown in the monitor of the terminal 100 among the virtual windows. And the horizontal resolution (Monitor_Width) and the vertical resolution (Monitor_Height) of the monitor resolution. Thus, the Window_PosY value of the program window is adjusted by the Y coordinate moved in the E area, the position adjustment area of the virtual window, and the Window_PosX value of the program window is adjusted by the X coordinate moved by the cursor in the E area of the virtual window area. That is, the area A or B is adjusted by the Y coordinate of the cursor movement, and the area C or D is adjusted by the X coordinate of the cursor movement. By doing so, you can see areas of the program window that are invisible to the monitor, to compensate for the difference in resolution.

Looking at another embodiment of the method for adjusting the virtual window area visible on the monitor, there is a method of adjusting the virtual window so that the virtual window is shown when the cursor is moved to the edge of the monitor without setting the position adjustment area.

When the cursor approaches the upper border of the monitor, the area of the virtual window shown on the monitor is adjusted upward. When the cursor approaches the border of the right side of the monitor, the area of the virtual window shown on the monitor is adjusted to the right. The same principle applies when the cursor approaches the bottom and left boundaries of the monitor. The user can feel as if the screen moves with the speed of the cursor.

3 is a flowchart illustrating a method of compensating for the difference in resolution, and a method for compensating for the difference in resolution will be described with reference to FIG. 3.

The terminal determines whether the program is executed by polling (S10), and extracts the window resolution of the executed program when the program is executed (S20). When the window resolution of the program is compared with the monitor resolution of the terminal (S30), when the window resolution of the program is larger than the monitor resolution of the terminal (S40-Yes), a virtual window is generated (S50). In order to compensate for the difference in resolution, the position of the cursor on the program window is tracked in real time (S60), and the window area of the program displayed on the monitor of the terminal is adjusted according to the position of the tracked cursor (S70). The process is repeated until the program ends (S80).

The present invention also includes a computer readable medium having recorded thereon a program for executing the above method to compensate for the difference in resolution.

As described above, although the present invention has been described by way of limited embodiments and drawings, the present invention is not limited thereto and is intended by those skilled in the art to which the present invention pertains. Of course, various modifications and variations are possible within the scope of equivalents of the claims to be described.

100 Terminal 110 Execution Decision Unit
120 Resolution Extraction 130 Resolution Comparison
140 Virtual window generator 150 Cursor tracker
160 Area Control

Claims (9)

Determining whether to execute the program in the terminal;
Extracting a window resolution of the executed program;
Comparing the window resolution of the executed program with the monitor resolution of the terminal; And
Generating a virtual window when the window resolution of the executed program is greater than the monitor resolution of the terminal as a result of the comparison. The method of claim 1,
And the virtual window has the same resolution as the window resolution of the executed program. The method of claim 1,
The virtual window compensates for the difference in resolution, characterized in that for converting the window resolution of the executed program. The method of claim 1,
Tracking the position of the cursor after executing the program; And
And adjusting the window area of the program displayed on the monitor of the terminal according to the position of the tracked cursor. The method of claim 4, wherein
Adjusting the window area of the program,
And adjusting the window area of the program displayed on the monitor of the terminal using the virtual window when the cursor enters the position adjusting area. The method of claim 5, wherein
The position adjustment area,
Comprising a resolution portion, characterized in that for setting a portion before reaching the border of the monitor of the terminal. An execution determining unit determining whether the program is executed in the terminal;
A resolution extractor for extracting a window resolution of the executed program;
A resolution comparison unit comparing the window resolution of the executed program with the monitor resolution of the terminal; And
Comparing the resolution comparison unit, a virtual window generation unit for generating a virtual window when the window resolution of the executed program is greater than the monitor resolution of the terminal; Compensation for a resolution difference comprising a. The method of claim 7, wherein
Cursor tracking unit for tracking the position of the cursor after the program execution; And
And an area adjusting unit for adjusting a window area of a program displayed on the monitor of the terminal according to the result of the cursor tracking unit. Determining whether to execute the program in the terminal;
Extracting a window resolution of the executed program;
Comparing the window resolution of the executed program with the monitor resolution of the terminal; And
And generating a virtual window when the window resolution of the executed program is greater than the monitor resolution of the terminal as a result of the comparison. The computer-readable medium having recorded thereon a program for executing the program.

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