KR100532094B1 - Noise decreasing apparatus and method of touch panel - Google Patents

Abstract

The present invention relates to a display apparatus and a method, and more particularly, to a noise reduction apparatus and method of a touch panel for reducing noise generated when data is input to the touch panel. The method for reducing noise of a touch panel is a display method in which a touch panel is mounted, the method comprising: sampling a predetermined number of data input to the touch panel with a time delay and converting the predetermined number of data into X and Y coordinate values; A second step of sorting the converted X, Y coordinate values in the step and grouping them into a predetermined number, and determining the difference in the number of X, Y coordinate data in the group grouped in the second step to determine the difference at the designated position of the touch panel. And a third step of filtering to output the adjacent data. According to the present invention, there is an effect of improving the reliability of the product by reducing the noise generated during data input by the touch panel to extract the correct coordinate value to minimize the malfunction when using the touch panel.

Description

Noise reducing apparatus and method of touch panel

The present invention relates to a display apparatus and a method, and more particularly, to a noise reduction apparatus and method of a touch panel for reducing noise generated when data is input to the touch panel.

In systems such as personal digital assistants (PDAs), electronic organizers, handheld computers, web phones, small terminals, information systems for general users, and cash dispensers, input devices are mostly made to use easy-to-use touch panels. . However, since the touch panel is mounted on the display device (LCD), the touch panel receives noise generated from the display device. Therefore, it is difficult to obtain an accurate input value of the touch panel that recognizes coordinates using the voltage difference. This may be a big reason for deteriorating the quality of a product using a touch panel.

1 is a flowchart illustrating an operation of data display input to a conventional touch panel.

FIG. 2 is a diagram illustrating coordinate values when data is applied to the flowchart illustrated in FIG. 1.

When an interrupt occurs in a system that processes a touch panel as an interrupt (step 100), X, Y coordinate values are generated by an interrupt first generated through an analog-to-digital converter (not shown) inside the touch panel controller (not shown). Read (step 110). After disabling the interrupt (step 120) and converting it to X and Y coordinate values (step 130), enabling the interrupt (step 140) and outputting the changed X and Y coordinate values use. 2 illustrates an X and Y coordinate value when data is input to the touch panel, which is a simple implementation. As shown in FIG. 2, the defined point and the returned point do not coincide, which is difficult to obtain an accurate value in the prior art due to noise.

Most touch panels are not used alone, but are mounted on a display device such as an LCD. The touch panel finds its position by calculating the voltage at the point where the two thin panels, X and Y, meet. However, when mounted and operated on the LCD, the noise generated from the LCD directly affects the touch panel, so it is difficult to obtain accurate coordinates. In particular, when applied to a small system such as an electronic notebook, a handheld computer, a portable information terminal, noise of the input through the touch panel has a problem of lowering the reliability of the entire system.

SUMMARY OF THE INVENTION The present invention has been made in an effort to provide a noise reduction device for a touch panel that extracts accurate coordinate values by reducing noise generated when data is input by the touch panel.

Another technical problem to be achieved by the present invention is to provide a noise reduction method of a touch panel which reduces noise generated when data is input by the touch panel to extract accurate coordinate values.

The noise reduction device of the touch panel for solving the technical problem to be achieved by the present invention is a display device equipped with a touch panel,

A storage unit which stores a predetermined number of data input to the touch panel;

A sampling unit for sampling a predetermined number of data stored in the storage unit;

A filter for outputting data closest to a designated position of the touch panel among the data sampled by the sampling unit; And

Preferably, the control unit includes a control unit for controlling the sampling of data input to the storage unit, converting the data into X, Y coordinate values, and sorting each of the data into a predetermined number and then controlling the output data of the filter.

The noise reduction method of the touch panel to solve the technical problem to be achieved by the present invention in the display method equipped with a touch panel,

A first step of sampling a predetermined number of data input to the touch panel with a time delay and converting the predetermined number of data into X and Y coordinate values;

A second step of sorting the number of X and Y coordinates converted in the first step and grouping the predetermined number; And

The method may further include a third step of determining the difference in the number of X and Y coordinate data in the group grouped in the second step and filtering to output the data closest to the designated position of the touch panel.

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

3 is a block diagram showing the configuration of a noise reduction device of a touch panel according to the present invention.

The apparatus shown in FIG. 3 includes a pen input unit 300 for inputting pen data, an interrupt processor 310 for generating and processing an interrupt simultaneously with the input of the pen input unit 300, and an interrupt generated from the interrupt processor 310. The control unit 320 converts the data input to the input unit 300 into digital and pen data control, the buffer 330 storing the data controlled by the control unit 320, and the data stored in the buffer of the control unit 320. Sampling unit 340 for sampling, median filter 350 for median filtering the data sampled from the sampling unit 340, and data output from the median filter 350 are recognized as X and Y coordinates. The coordinate value recognition unit 360 and the display unit 370 outputting the X and Y coordinate values recognized by the coordinate value recognition unit 360 are configured.

4 is a flowchart illustrating an operation of a noise reduction method of a touch panel according to the present invention.

4 is a flowchart illustrating inputting pen data into a touch panel 400, generating an interrupt 405, delaying pen data input time 410, and converting input analog data into digital data. Storing (415), disabling the interrupt (420), converting the converted digital data into X, Y coordinate values (425), sorting the X, Y values (430), X, Grouping the Y values into two groups (435), determining whether the difference in the number of data in each of the two groups is greater than the number of data in the small group (440), and the median in the larger group. Median filtering step 445 is applied, median filtering is applied 450 to all sampling data, and X and Y coordinate values are output 455.

5 is a diagram illustrating sampled coordinate values of data input to a touch panel.

6 is a diagram illustrating coordinate values of a touch panel in which noise is reduced.

Next, the present invention will be described in detail with reference to FIGS. 3 to 6.

The pen data is input to the touch panel (step 400). The pen data is input through the pen input unit 300. Data input through the pen input unit 300 is output as analog data. Data input is not limited to input only with a pen. In addition to the pen input unit 300, it is possible to input by hand or input data through another input device.

An interrupt is generated at the moment data is input through the pen input unit 300 (step 405). The interrupt processor 310 generates an interrupt. When a predetermined number of data is input through the pen input unit 300, all interrupts are generated. As the noise generated by the LCD, as well as the position pressed by the human hand, causes a momentary shaking, the input data values may be different.

The interrupt pen data input time is delayed in order to receive a predetermined number of data through the pen input unit 300 (operation 410). At this time, a timer (not shown) provided in the controller 320 delays a data input time and controls a predetermined number of data to be input.

The input analog data is converted into digital data and stored (step 415). The analog data input by the analog-to-digital converter (not shown) included in the controller 320 is converted into digital and stored in the buffer 330.

After the data is input through the pen input unit 300 for a delayed time and converted into digital, the interrupt is disabled when the storage is completed in the buffer 330 (step 420).

After the interrupt is disabled, the digital data stored in the buffer 330 is converted by the sampling unit 340 into X and Y coordinate values (step 425).

5 illustrates sampled X and Y coordinate values of data input to the touch panel. FIG. 5 illustrates coordinate values obtained when a pen input is received at 70 predefined points in all 10 horizontal and 7 vertical pixels by mounting a touch panel having a 1024 * 1024 resolution on a TFT-LCD. As shown in FIG. 5, the distribution of values that appear when a point is pressed by the input device is arbitrarily distributed without a rule based on the defined point. However, it can be seen that the point indicated by the noise is arbitrary but its number is small.

After sampling, the data converted into X and Y coordinate values are sorted (step 430). The sorting rearranges a large amount of data in a necessary order (descending or ascending order), and the control unit 320 sorts the X and Y coordinate data, respectively. Stored in the buffer 330.

The X and Y values stored in the buffer 330 are grouped into two groups, respectively (step 435). The controller 320 divides the X and Y into two groups based on the maximum value and the minimum value, respectively. The control unit 320 performs grouping using a cluster method, which is a unit configuring a data set in a virtual storage access method (VSAM), and one data set is configured as one cluster.

It is determined whether the difference in the number of data in the two grouped X groups is larger than the number of data in the small group, and it is determined whether the difference in the number of data in the two grouped Y groups is larger than the number of data in the small group (step 440). .

If the difference between the number of data in each of the two X and Y groups grouped by each other is greater than the number of data in the small group, median filtering is applied in the large group (step 445). The median filter 350 filters the coordinate data in the large group, and outputs an average value of one or two values of the sorted coordinate data, that is, the coordinate value closest to the defined point.

If the difference in the number of data in each of the two X and Y groups grouped by each other is almost the same as the number of data in the small group, median filtering is applied to the entire sampling data (step 450). The median filter 350 also filters the entire sampling data (grouped X and Y data) to output a coordinate value closest to the defined point. Therefore, the data to which the median filter 350 is applied becomes data that is output with reduced noise.

The coordinate value recognizer 360 recognizes the filtered X and Y data output from the median filter 350 as coordinate values and outputs the coordinates to the display unit 370 (step 455). 6 is a diagram illustrating coordinate values finally displayed on the display unit 370. Noise is reduced, and a point almost defined and a point after filtering are almost matched to show accurate coordinates.

The present invention is not limited to the above-described embodiments and can be modified by those skilled in the art within the spirit of the invention.

As described above, according to the present invention, it is possible to reduce noise generated when data is input by the touch panel to extract accurate coordinate values, thereby minimizing malfunctions when using the touch panel, thereby improving reliability of the product.

1 is a flowchart illustrating an operation of data display input to a conventional touch panel.

FIG. 2 is a diagram illustrating coordinate values when data is applied to the flowchart illustrated in FIG. 1.

3 is a block diagram showing the configuration of a noise reduction device of a touch panel according to the present invention.

4 is a flowchart illustrating an operation of a noise reduction method of a touch panel according to the present invention.

5 is a diagram illustrating sampled coordinate values of data input to a touch panel.

6 is a diagram illustrating coordinate values of a touch panel in which noise is reduced.

Claims (5)

In the display device with a touch panel, A storage unit which stores a predetermined number of data input to the touch panel; A sampling unit for sampling a predetermined number of data stored in the storage unit; A filter for outputting data closest to a designated position of the touch panel among the data sampled by the sampling unit; And And a control unit for controlling the sampling of the data input to the storage unit, converting the data into X, Y coordinate values, sorting each of them, grouping them into a predetermined number, and controlling the output data of the filter. The method of claim 1, wherein the control unit The noise reduction device of the touch panel, characterized in that for controlling the output of the filter by the difference in the number of coordinate data grouped by the predetermined number. The method of claim 2, wherein the control unit If the difference in the number of coordinate data in any given group is smaller than the number of coordinate data in another predetermined group is controlled to filter the larger group, otherwise it is controlled to filter for the whole group coordinate data Noise reduction device of the touch panel. In the display method equipped with a touch panel, A first step of sampling a predetermined number of data input to the touch panel with a time delay and converting the predetermined number of data into X and Y coordinate values; A second step of sorting the number of X and Y coordinates converted in the first step and grouping the predetermined number; And determining a difference in the number of X and Y coordinate data in the group grouped in the second step, and filtering to output data closest to a specified position of the touch panel. 5. The method of claim 4, wherein in the third step, if the difference in the number of coordinate data in the predetermined group is smaller than the number of coordinate data in another predetermined group, the larger group is filtered. Noise reduction method of the touch panel, characterized in that for filtering on.