A multi-point recognition method and system for an infrared touch screen
An infrared touch screen, multi-point recognition technology, applied in instruments, electrical digital data processing, data processing input/output process, etc., can solve the problems of low precision, large touch object area, and many ghost points
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Embodiment 1
[0128] This embodiment provides a multi-point recognition system and a multi-point recognition method of an infrared touch screen, such as figure 1 As shown, the multi-point recognition system includes a data acquisition device 1, an image generation device 2, an attribute establishment device 3, a touch point information extraction device 4, and a motion tracking device 5, wherein the attribute establishment device 3 includes an optical path determination unit 31 and an attribute recording unit 32 ; the touch point information extraction device 4 includes a target point search unit 41 , a clustering unit 42 , and a touch point calculation unit 44 .
[0129] The data collection device 1 is used to collect optical path data during a recognition process.
[0130] The image generation device 2 is used to generate an image with a preset ratio to the size of the infrared touch screen.
[0131] The attribute establishing means 3 is used to establish the attribute associated between...
Embodiment 2
[0182] In Embodiment 1, the method for searching the target point by the target point search unit 41 in step 2041 is to traverse each pixel in turn, and judge whether the current pixel is the target point according to the occlusion of the light path associated with the pixel. In fact, after The light path of the touch point is blocked, so in order to quickly identify the touch point, you can only judge the pixels that the blocked light path passes, and other pixels do not need to judge, such as Figure 9 , the specific method of finding the target point is as follows:
[0183] ① According to the light path data, each blocked light path is traversed, and the number of light paths associated with the pixels passed by each blocked light path is reduced by 1.
[0184] Traversing the first blocked light path, if the light path passes through m pixels, where m is a positive integer, reduce the number of light paths associated with the m pixels by 1, and process all blocked light pat...
Embodiment 3
[0190] In Embodiment 1 and Embodiment 2, the touch point information extraction device 4 obtains several cluster sets by clustering the identified target points when extracting the touch point information, and uses each cluster set as a Touch points, in the actual application process, even if a series of cluster sets are obtained based on density clustering, these cluster sets are not necessarily all touch points, and some cluster sets with small areas may be due to the occlusion of actual touch points. is generated due to the occlusion of the actual touch point, in order to further reduce the probability of misjudgment, such as Figure 10 As shown, the touch point information extraction device 4 can also include an area judging unit 43, which is used to sequentially judge whether the area covered by each cluster set is greater than the set area threshold, the area judging unit sets the area threshold, and judges in turn Whether the area covered by each cluster set is greater ...
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