KR20050070214A - Touch response speed control method for touch screen - Google Patents

Abstract

According to the present invention, when the contact and dropping operations such as button presses are repeated according to the type of work using the touch screen, the response speed is increased, and a long continuous point such as a line or a circle is held in a state of long pressing or maintaining a contact. When working, the method relates to a touch response speed control method of a touch screen for enhancing stability by enhancing noise filtering. After the initial contact is detected on the touch screen, the detection is performed every time until all predetermined predetermined position information is detected. Storing the location information in an array; When the location information stored in the array is a predetermined number, adding the most recently detected location information to the array and removing the oldest location information from the array to maintain a constant number of location information stored in the array; ; And obtaining the average value of the sum of the position information stored in the array each time the position information is detected, and outputting the final position information for each time until the contact of the touch screen is dropped. have.

Description

How to control touch response speed of touch screen {TOUCH RESPONSE SPEED CONTROL METHOD FOR TOUCH SCREEN}

The present invention relates to a method for controlling the touch response speed of a touch screen. In particular, when repeating contact and drop operations such as button presses according to the type of work using the touch screen, the response speed is increased and a point is pressed for a long time. The present invention relates to a method for controlling the touch response speed of a touch screen to improve stability by enhancing noise filtering when continuous work such as a line or a circle is maintained.

In general, a touchscreen is the simplest and most direct way for a person to interact with a computer. The touchscreen is a combination of input and display devices that point directly to the portion of the screen that a user wants without a separate input device, such as a mouse or keyboard. By operating, there is convenience and simplicity that can be intuitively used even by children and the elderly who do not know the computer.

As illustrated in FIG. 1, the touch screen having the above characteristics includes a touch screen panel 101 for converting and outputting the pressed position coordinates into analog data when the user presses the touch screen panel, and the touch screen panel ( 101 and a touch screen controller 102 for converting analog data input through the touch screen panel into digital data to convert touch positions into coordinates, and receiving position data from the touch screen controller 102 on the screen. It comprises a central processing unit 103 for moving the mouse pointer.

In this case, the touch screen controller 102 samples the analog data input through the touch screen panel 101 at a predetermined time interval (about 3 ms to 5 ms) and converts the digital data into a digital signal. Is a delay time for detecting the input of the touch screen panel. If this value is large, the touch panel event delay time is increased to decrease the sensitivity of the touch panel. The sensitivity of the touch panel is improved by decreasing.

In general, since a predetermined amount of sampling data is averaged and used as one data for noise filtering, the response speed is slowed by that number, causing inconvenience to the user. For example, when a user repeatedly inputs a random button at a high speed using a software keyboard, the panel is repeatedly pressed and released at a high speed, so that the input is not smooth unless the response speed is fast.

On the contrary, if the number of times of averaging sampling data is reduced to solve the problem of slow response as described above, a smooth circle is not drawn when a circle is drawn due to lack of noise filtering, and the mouse pointer shakes even when a point is continuously pressed. There is a problem that the phenomenon occurs.

Therefore, the present invention was created to solve the above-mentioned conventional problems, and in response to repeated contact and drop operations such as button presses according to the type of work using the touch screen, the response speed is increased, and a point is The purpose of the present invention is to provide a touch response speed control method of the touch screen to increase the stability by enhancing noise filtering when continuous operation such as a line or a circle while pressing a long time or maintaining a contact.

According to an aspect of the present invention, after the initial contact is detected on the touch screen, storing the detected location information in an array each time until all the predetermined predetermined location information is detected; When the location information stored in the array is a predetermined number, adding the most recently detected location information to the array and removing the oldest location information from the array to maintain a constant number of location information stored in the array; ; And calculating the average value of the sum of the position information stored in the array each time the position information is detected, and outputting the final position information for each time until the contact of the touch screen is dropped. .

The present invention is to control the response speed according to the type of work using the touch screen, in general, since the touch screen samples the location information at predetermined time intervals, and averages the predetermined sampling data to use as one location information data If you need fast response time such as button press according to the type of work, reduce the average number of sampling data and increase the average number of sampling data when long press a point or touch continuously like line or circle. By providing a method for actively controlling the touch response speed of the touch screen.

In other words, if you are working with a fast response time such as pressing a button on the touch screen, you can improve the response speed by reducing the average number of sampling data rather than noise filtering. In the case of a touch, it is to provide a method for enhancing noise filtering by increasing the average number of sampling data rather than the response speed.

Hereinafter, with reference to the accompanying drawings, preferred embodiments of the present invention will be described.

FIG. 2 is a flowchart illustrating a method of controlling a touch response speed of a touch screen according to the present invention. As shown in FIG. 2, the touch screen detects position information (sampling data) continuously a predetermined number of times after the initial contact is made. The average value Avr_x (y) of the values is output as final location information. In the conventional case, the final location information is output only after the predetermined number of times of location information is detected.

However, in the present invention, until all position information of the designated predetermined number of times is detected, only the position information of the detected number is averaged and immediately output as final position information. That is, when the final position information is output by averaging the eight position information, conventionally, the final position information is output only after detecting all the eight position information, but in the present invention, when one position information is detected, the value is set. Immediately outputting the final position information, and if two position information is detected, the average value of the two values is output as the final position information, and if three position information is detected, the process of outputting the average value of the three values as the final position information. The operation is continued until eight pieces of position information are detected.

Next, after all eight location information is detected from the time of the first contact as described above, the oldest location information is removed and new location information is sequentially added until the contact is dropped, thereby continuously averaging the eight location information. To output the final position information.

Therefore, in the present invention, if the contact does not drop after the initial contact is made to the touch screen, the average number of sampling data gradually increases to finally average the predetermined number of position information, thereby enhancing noise filtering, and pushing a button. If touch and drop of the touch screen occur frequently as described above, whenever the location information is detected, only the number of the detected location information is averaged and applied as the final location information, thereby improving the response speed.

Next, the specific operation of the present invention will be described with reference to the flowchart in FIG.

In the present invention, eight times of sampling data are averaged and used as one location information data. That is, a variable for counting eight sampling data and a denominator for averaging the detected number of sampling data are initialized to zero.

Each time the position information (X, Y data) is detected, each variable (Counter, denominator) is increased by one, and each position is detected until all eight position information are detected as shown in FIG. The information is stored in an array (Data_x (y) [Counter]), and the sum value Sum_x (y) is obtained.

Next, the sum value of the position information Sum_x (y) is divided by the variable denominator, and the average value Avr_x (y) of the position information stored in the array Data_x (y) [Counter] until then is obtained. Output as location information. In this case, the denominator for averaging the location information is 8 when the detected location information is 8, but until the number is 8, it becomes the number of the detected location information.

That is, until the detected eight position information are stored in the array (Data_x (y) [1] to Data_x (y) [8]), the variable (denominator) increases from 1 to 7 as the position information is detected. If all 8 location information is detected, it keeps 8 and calculates average value of location information. However, the counter of the location information stored in the array keeps increasing, adding the most recent location information to the array and The positional information is removed so that eight positional information (Data_x (y) [N-7] to Data_x (y) [N]) are always maintained in the array.

Thus, if the contact does not fall after the first contact is made until the eight position information is accumulated, the eight samples are continuously averaged and used as the final position information, and the contact is dropped before the eight position information is accumulated. When the contact is made, the final position information up to that time is output every time the position information is detected, thereby improving stability and response speed according to the type of work performed on the touch screen.

As described above, in the touch response speed control method of the touch screen of the present invention, when the touch and drop operations such as button pressing are repeated according to the type of work using the touch screen, the response speed is increased, and a point is pressed for a long time. Or continuous operation such as line and circle while maintaining contact, it enhances stability by enhancing noise filtering.

1 is a block diagram showing a schematic configuration of a general touch screen.

Figure 2 is a flow chart illustrating a touch response speed control method of the touch screen according to the present invention.

3 is an exemplary view for explaining a method of storing and averaging location information in an array according to the present invention;

Claims (2)

After the initial contact is detected on the touch screen, storing the detected position information each time in an array until all predetermined predetermined position information are detected; When the location information stored in the array is a predetermined number, adding the most recently detected location information to the array and removing the oldest location information from the array to maintain a constant number of location information stored in the array; ; And calculating the average value of the sum of the position information stored in the array each time the position information is detected, and outputting the final position information for each time until the contact of the touch screen is dropped. How to control touch response speed of touch screen. The method of claim 1, wherein the final positional information is configured to output the final positional information by averaging the accumulated positional information each time the positional information is detected, even if the positional information is not detected. How to control touch response speed of touch screen.