Touch screen signal processing
First Claim
1. A touch detection system comprising:
- a touch surface;
at least one emitter configured to emit radiation in a plane across the touch surface;
a reflective material positioned at the periphery of the touch surface and adapted to reflect the radiation toward the at least one emitter;
at least one sensor adjacent to the at least one emitter, wherein the at least one sensor is configured to detect an image pattern in the radiation originating from the at least one emitter and reflected by the reflective material; and
a processor configured to;
receive data from the at least one sensor, anddetermine a location of at least one object interrupting the radiation based on a change to the image pattern detected by the at least one sensor.
1 Assignment
0 Petitions
Accused Products
Abstract
A touch screen which uses light sources at one or more edges of the screen which directs light across the surface of the screen and at least two cameras having electronic outputs located at the periphery of the screen to receive light from said light sources. A processor receives the outputs of said cameras and employs triangulation techniques to determine the location of an object proximate to said screen. Detecting the presence of an object includes detecting at the cameras the presence or absence of direct light due to the object, using a screen surface as a mirror and detecting at the cameras the presence or absence of reflected light due to an object. The light sources may be modulated to provide a frequency band in the output of the cameras.
523 Citations
16 Claims
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1. A touch detection system comprising:
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a touch surface; at least one emitter configured to emit radiation in a plane across the touch surface; a reflective material positioned at the periphery of the touch surface and adapted to reflect the radiation toward the at least one emitter; at least one sensor adjacent to the at least one emitter, wherein the at least one sensor is configured to detect an image pattern in the radiation originating from the at least one emitter and reflected by the reflective material; and a processor configured to; receive data from the at least one sensor, and determine a location of at least one object interrupting the radiation based on a change to the image pattern detected by the at least one sensor. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9)
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10. A touch detection system comprising:
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a touch surface; at least one emitter configured to emit radiation across a plane of the touch surface; a bezel positioned at the positioned at the periphery of the touch surface and orthogonal to the touch surface, wherein the bezel is adapted to reflect the radiation toward the at least one emitter; at least one sensor adjacent to the at least one emitter, wherein the at least one sensor sensor is configured to detect an image pattern in the radiation originating from the at least one emitter and reflected by the bezel; and a processor configured to; receive data from the at least one sensor, and determine a location of at least one object interrupting the radiation based on a change to the image pattern detected by the at least one sensor. - View Dependent Claims (11, 12, 13, 14, 15)
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16. A touch detection system comprising:
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a touch surface; a plurality of light emitting diodes positioned at one or more edges of the touch surface, wherein each light emitting diode configured to emit radiation in a plane across the touch surface; a reflective material positioned at the periphery of the touch surface and orthogonal to the touch surface, wherein the reflective material is adapted to reflect the radiation toward the plurality of light emitting diodes; a plurality of sensors, wherein each of the plurality of sensors is adjacent to at least one of the plurality of light emitting diodes, wherein each of the plurality of sensors is configured to detect an image pattern in the radiation originating from a respective light emitting diode and reflected by the reflective material; and a processor configured to; receive data from the plurality of sensors, and determine a location of at least one object interrupting the radiation based on a change to one or more image patterns detected by the plurality of sensors.
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Specification