RU2007112048A - METHOD FOR DETERMINING LOCATION OF TOUCH OF OPTOELECTRONIC TOUCH SCREEN WITH HIGHER RESOLUTION (OPTIONS) AND SYSTEM FOR ITS IMPLEMENTATION (OPTIONS) - Google Patents

Claims (10)

1. A method for determining the location of the touch of an optoelectronic touch screen with a higher resolution (option), which consists in preliminary estimating the rough location of the touch and then refining the location of the touch based on the formation of detector beams by activating a plurality of infrared emitters arranged along the sides of the touch screen and activating a plurality infrared receivers, located along the sides of the touch screen opposite the named infrared emitters, featuring the fact that the said infrared emitters and the said infrared receivers are adapted to each other with the possibility of forming a plurality of sets of parallel detector beams, the detector beams of each individual set of the said set of sets of parallel detector beams being tilted with respect to the detector beams of other sets of the said set of sets of parallel detector beams rays, evaluate the rough touch location based on the formation of M (M = 1,2, ...) of the first sets of detector rays from a given set of sets of parallel detector beams and specify the location of contact based on the formation of N (N = 1,2, ...) second sets of detector beams configured from detector beams P (P = 1,2,3, ...) of the third sets from the named set of sets of parallel detector beams. 2. The method according to claim 1, characterized in that the formation of the named M (M = 1,2, ...) of the first sets of detector beams is performed by forming a set of detector beams configured from the detector beams called M (M = 1,2, ...) the first sets of detector beams. 3. A method for determining the location of a touch of an optoelectronic touch screen with a higher resolution (option), which consists in preliminary estimating the rough location of the touch and then refining the location of the touch based on the formation of detector beams by activating a plurality of infrared emitters arranged along the sides of the touch screen and activating a plurality infrared receivers, located along the sides of the touch screen opposite the named infrared emitters, featuring the fact that the said infrared receivers and the said infrared emitters are adapted to each other with the possibility of forming a plurality of sets of parallel detector beams, the detector beams of each individual set of the said set of sets of parallel detector beams being tilted with respect to the detector beams of other sets of the said set of sets of parallel detector beams rays, evaluate the rough touch location based on the formation of M (M = 1,2, ...) of the first sets of detector rays from of the given set of sets of parallel detector beams, configure N (N = 1,2, ...) second sets of detector beams from detector beams P (P = 1,2,3, ...) third sets of detector beams from the named set of parallel sets detection beams based on rough rough touch location estimation and specify the touch location based on the formation of the configured second sets of detector beams. 4. A method for determining the location of a touch of an optoelectronic touch screen with a higher resolution (option), which consists in preliminary estimating the rough location of the touch and then refining the location of the touch based on the formation of detector beams by activating a plurality of infrared emitters arranged along the sides of the touch screen and activating a plurality infrared receivers, located along the sides of the touch screen opposite the named infrared emitters, featuring the fact that the said infrared receivers and the said infrared emitters are adapted to each other with the possibility of forming a plurality of sets of parallel detector beams, the detector beams of each individual set of the said set of sets of parallel detector beams being tilted with respect to the detector beams of other sets of the named set of parallel detector sets rays, evaluate the rough x-coordinate and y-coordinate location of the touch of the touch screen based on the formation M (M = 1.2, ...), x-coordinate and y-coordinate of the first sets of detector beams from said plurality of sets of parallel rays detector, configured _{N x (N x = 1,2,} ...) x-coordinate of second sets of detector beams from detector beams P _x (P _x = 1,2,3 ...) x-coordinate third sets from the above-mentioned set of sets of parallel detector beams based on rough co-determination of the y-coordinate location of the touch, specify the x-coordinate location of the touch on the basis of the formation of the configured x-coordinate second detector sets molecular beams configured _{N y (N y = 1,2,} ...) y-coordinate sets of the second detector beam of the detector rays _{P y (R y = 1,2,3 ...} ) y-coordinate of third sets of the title a plurality of sets of parallel detector beams based on the rough rough x-coordinate location of the touch and specify the y-coordinate location of the touch based on the formation of the configured y-coordinate second sets of detector beams. 5. A method for determining the location of a touch of an optoelectronic touch screen with a higher resolution (option), which consists in preliminary estimating the rough location of the touch and then refining the location of the touch based on the formation of detector beams by activating a plurality of infrared emitters arranged along the sides of the touch screen and activating a plurality infrared receivers, located along the sides of the touch screen opposite the named infrared emitters, featuring the fact that the said infrared receivers and the said infrared emitters are adapted to each other with the possibility of forming a plurality of sets of parallel detector beams, the detector beams of each individual set of the said set of sets of parallel detector beams being tilted with respect to the detector beams of other sets of the said set of sets of parallel detector beams rays, identify the coarse x-coordinate and y-coordinate touch areas based on the identification of blocked kids ary rays during the formation of M (M = 1,2, ...) x-coordinate and y-coordinate first sets from the named set of sets of parallel detector rays, calculate the rough x-coordinate and y-coordinate border region of contact from the identified rough x- coordinate and y-coordinate areas of contact and specify the x-coordinate and y-coordinate location of touch based on the formation of N (N = 1,2, ...) second sets of detector beams, configurable from detector beams P (P = 1,2, 3, ...) of the third sets from the named set of pairs of pairs detector-parallel rays, computed gross cross border area of touch. 6. The method according to claim 5, characterized in that specify the x-coordinate and y-coordinate location of the touch based on the formation of the second sets of detector beams, configurable from the detector beams P (P = 1,2,3, ...) of the third sets from the named set of sets of parallel detector beams intersecting the computed border touch region and the region bounded by the computed rough border touch region. 7. A system for determining the location of a touch of an optoelectronic touch screen with a higher resolution (option), including a plurality of infrared emitters placed along the sides of the touch screen, a plurality of infrared receivers placed along the sides of the touch screen opposite the aforementioned infrared emitters, and a processor for calculating the touch position of the touch screen by preliminary estimating the rough touch location and then clarifying the touch location based on the formation of detector rays by activating the named set of infrared emitters and activating the named set of infrared receivers, characterized in that the said infrared receivers and the named infrared emitters are adapted to each other with the possibility of forming a plurality of sets of parallel detector beams, and the detector beams of each individual set from the named set of sets parallel detector beams have a slope relative to the detector beams of other sets of the above a plurality of sets of parallel detector beams, and the processor is configured to configure sets of detector beams from detector beams of the sets of said plurality of sets of parallel detector beams and the ability to form configured sets of detector beams and sets of detector beams from the specified set of parallel detector beams by means of controlled activation of sets of infrared emitters from the named set of infrared emitters and controlled activation set s infrared receivers from the specified set of infrared receivers when calculating the touch position, and when calculating the touch position based on the formation of the configured sets of detector beams and sets of detector beams from the specified set of parallel detector beams, the processor estimates the rough touch location based on the formation of M (M = 1, 2, ...) of the first sets of detector beams from the named set of sets of parallel detector beams, configures N (N = 1,2, ...) second sets of detector l learn from the detector rays P (P = 1,2, ...) the second sets from the named set of sets of parallel detector rays based on the rough estimate of the touch location and clarifies the location of the touch based on the formation of the configured second sets of detector rays. 8. A system for determining the location of a touch of an optoelectronic touch screen with a higher resolution (option), including a plurality of infrared emitters placed along the sides of the touch screen, and a plurality of infrared receivers located along the sides of the touch screen opposite the above infrared emitters, and a processor for calculating the touch position of the touch screen by preliminary estimating the rough location of the touch and then refining the location of the touch based on the shape of detecting beams by activating the aforementioned set of infrared emitters and activating the aforementioned set of infrared receivers, characterized in that said infrared receivers and said infrared emitters are adapted to each other with the possibility of forming a plurality of sets of parallel detector beams, and the detector beams of each individual set of the said set sets of parallel detector beams have a slope relative to the detector beams of other sets of the above a plurality of sets of parallel detector beams, and the processor is configured to configure sets of detector beams from detector beams of sets of the named set of sets of parallel detector beams and the ability to form configured sets of detector beams and sets of detector beams from the specified set of parallel detector beams by means of controlled activation of sets of infrared emitters of the aforementioned set of infrared emitters and controlled activation of ditch infrared receivers from the specified set of infrared receivers when calculating the touch position, and when calculating the touch position based on the formation of the configured sets of detector beams and sets of detector beams from the specified set of parallel detector beams, the processor estimates the rough x-coordinate and y-coordinate touch location of the touch screen based on the formation of M (M = 1,2, ...) x-coordinate and y-coordinate first sets of detector rays from the named set of sets parallel detector beams, configures N _x (N _x = 1,2, ...) x-coordinate second sets of detector beams from detector beams P _x (P _x = 1,2, ...) x-coordinate third sets of named a plurality of sets of parallel detector rays based on the rough co-determination of the y-coordinate location of the touch, refines the x-coordinate location of the touch based on the formation of the configured x-coordinate second sets of detector rays, configures N _y (N _y = 1,2, ...) y- coordinate second sets of detector beams from detector beams P _y (P _y = 1,2, ...) third y-coordinate sets from the named set of sets of parallel detector beams based on the rough estimate of the x-coordinate location of the touch and specifies the y-coordinate location of the touch based on the formation of the configured y-coordinate second sets detector rays. 9. A system for determining the location of a touch of an optoelectronic touch screen with a higher resolution (option), including a plurality of infrared emitters located along the sides of the touch screen, and a plurality of infrared receivers located along the sides of the touch screen opposite the above infrared emitters, and a processor for calculating the touch position of the touch screen by preliminary estimating the rough location of the touch and then refining the location of the touch based on the shape of detecting beams by activating the aforementioned set of infrared emitters and activating the aforementioned set of infrared receivers, characterized in that the aforementioned infrared receivers and the said infrared emitters are adapted to each other with the possibility of forming a plurality of sets of parallel detector beams, moreover, the detection beams of each individual set from the named set of sets parallel detector rays have an inclination relative to the detector rays of other sets of the above about a plurality of sets of parallel detector beams, and the processor is configured to configure sets of detector beams from detector beams of sets of the named set of sets of parallel detector beams and the ability to form configured sets of detector beams and sets of detector beams from the named set of sets of parallel detector beams by means of controlled activation of infrared sets emitters from the aforementioned set of infrared emitters and controlled activation of ditch infrared receivers from the specified set of infrared receivers when calculating the touch position, and when calculating the touch position based on the formation of the configured sets of detector beams and sets of detector beams from the specified set of parallel detector beams, the processor identifies the rough x-coordinate and y-coordinate touch areas based on identification of blocked detector rays from the generated M (M = 1.2 ...) x-coordinate and y-coordinate first sets of detector rays from of a given set of sets of parallel detector beams, calculates the rough x-coordinate and y-coordinate border touch region based on the identified rough x-coordinate and y-coordinate touch regions and refines the x-coordinate and y-coordinate touch location based on the formation of N (N = 1,2, ...) of the second sets of detector beams, configurable from the detector beams P (P = 1,2,3) of the third sets of the named set of sets of parallel detector beams intersecting the computed rough boundary region of the cus Niya. 10. The system according to claim 9, characterized in that the processor specifies the x-coordinate and y-coordinate location of the touch based on the formation of the second sets of detector beams, configurable from the detector beams P (P = 1,2,3, ...) third sets of a plurality of sets of parallel detector beams intersecting a computed border touch region and a region bounded by a computed rough border touch region.