Method and apparatus for tomographic touch imaging and interactive system using same
First Claim
1. A touch sensitive human-computer interaction device comprising:
- a waveguide having a touch surface;
a plurality of light emitters optically coupled at input locations around the periphery of the waveguide touch surface to emit light signals for transmission through the waveguide by the internal reflection effect, wherein one or more touch interactions on the touch surface of the waveguide alters the light conductivity of the waveguide in the location(s) of the one or more touch interactions causing frustration of the internal reflection effect;
a plurality of detectors optically coupled at output locations around the periphery of the waveguide touch surface to receive the light signals along respective sensing signal paths defined between each respective pair of light emitter and detector, and arranged with a device comprising an analog to digital converter to output respective signals on the basis of the light signals received;
wherein each output signal is representative of the level of frustration of the internal reflection caused by one or more touch interactions along the respective sensing signal paths, and wherein each output signal is alterable by each of a plurality of simultaneous touch interactions along a single sensing signal path of the respective signal paths; and
a data processor operatively coupled to the device comprising the analog to digital converter and arranged to process said output signals according to a reconstruction algorithm to obtain a digital representation of said light conductivity and, based on the reconstruction, to output a signal for controlling a visualization device,wherein the reconstruction algorithm is a Computerized Tomography reconstruction algorithm.
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Abstract
A touch screen in the form of a panel is capable of conducting signals and a tomograph including signal flow ports is positioned adjacent the panel with the signal flow ports arrayed around the border of the panel at discrete locations. Signals are introduced into the panel to pass from each discrete border location to a plurality of other discrete border locations for being detected and tomographically processed to determine if any change occurred to signals due to the panel being touched during signal passage through the panel, and therefrom determine any local area on the panel where a change occurred. The tomograph computes and outputs a signal indicative of a panel touch and location, which can be shown on a display.
80 Citations
19 Claims
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1. A touch sensitive human-computer interaction device comprising:
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a waveguide having a touch surface; a plurality of light emitters optically coupled at input locations around the periphery of the waveguide touch surface to emit light signals for transmission through the waveguide by the internal reflection effect, wherein one or more touch interactions on the touch surface of the waveguide alters the light conductivity of the waveguide in the location(s) of the one or more touch interactions causing frustration of the internal reflection effect; a plurality of detectors optically coupled at output locations around the periphery of the waveguide touch surface to receive the light signals along respective sensing signal paths defined between each respective pair of light emitter and detector, and arranged with a device comprising an analog to digital converter to output respective signals on the basis of the light signals received; wherein each output signal is representative of the level of frustration of the internal reflection caused by one or more touch interactions along the respective sensing signal paths, and wherein each output signal is alterable by each of a plurality of simultaneous touch interactions along a single sensing signal path of the respective signal paths; and a data processor operatively coupled to the device comprising the analog to digital converter and arranged to process said output signals according to a reconstruction algorithm to obtain a digital representation of said light conductivity and, based on the reconstruction, to output a signal for controlling a visualization device, wherein the reconstruction algorithm is a Computerized Tomography reconstruction algorithm. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12)
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13. A method of controlling a visualization device using a touch sensitive human-computer interaction device comprising:
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a waveguide having a touch surface; a plurality of light emitters optically coupled at input locations around the periphery of the waveguide touch surface to emit light signals for transmission through the waveguide by the internal reflection effect, wherein one or more touch interactions on the touch surface of the waveguide alters the light conductivity of the waveguide in the location(s) of the one or more touch interactions causing frustration of the internal reflection effect; a plurality of detectors optically coupled at output locations around the periphery of the waveguide touch surface to receive the light signals along respective sensing signal paths defined between each respective pair of light emitter and detector, and arranged with a device comprising an analog to digital converter to output respective signals on the basis of the light signals received; wherein each output signal is representative of the level of frustration of the internal reflection caused by one or more touch interactions along the respective sensing signal paths, and wherein each output signal is alterable by each of a plurality of simultaneous touch interactions along a single sensing signal path of the respective signal paths; and a data processor operatively coupled to the device comprising the analog to digital converter; wherein the method includes the steps of the data processor; processing said output signals according to a reconstruction algorithm to obtain a digital representation of said light conductivity and, outputting, based on the reconstruction, a signal for controlling the visualization device, wherein the reconstruction algorithm is a Computerized Tomography reconstruction algorithm. - View Dependent Claims (14, 15, 16, 17, 18, 19)
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Specification