Scanner navigation system with variable aperture
First Claim
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1. A method for varying the intensity of light incident on a navigator photodetector in a portable scanner, comprising:
- providing an aperture assembly adjacent said navigator photodetector in said portable scanner, wherein said aperture assembly has a variable aperture size which may be adjusted to vary the intensity of light incident on said navigator photodetector;
determining an optimal aperture size which best enables said navigator photodetector to detect a position of said portable scanner; and
adjusting said aperture assembly so that said variable aperture size is set substantially at said optimal aperture size.
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Abstract
A portable scanner for document imaging includes at least one position detector. The position detector has an optical detector and an aperture assembly adjacent the optical detector. The aperture assembly has a first aperture size and a second aperture size. The aperture assembly is adjustable between the first aperture size and the second aperture size.
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Citations
3 Claims
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1. A method for varying the intensity of light incident on a navigator photodetector in a portable scanner, comprising:
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providing an aperture assembly adjacent said navigator photodetector in said portable scanner, wherein said aperture assembly has a variable aperture size which may be adjusted to vary the intensity of light incident on said navigator photodetector;
determining an optimal aperture size which best enables said navigator photodetector to detect a position of said portable scanner; and
adjusting said aperture assembly so that said variable aperture size is set substantially at said optimal aperture size. - View Dependent Claims (2, 3)
combining a current image frame produced by said navigator photodetector with a plurality of previous image frames, said plurality of previous image frames being captured by said navigator photodetector simultaneously, all but one of said plurality of previous image frames being shifted in a plurality of directions;
producing a plurality of correlation coefficients indicating a degree of correlation between said current image frame and said plurality of previous image frames, said plurality of correlation coefficients indicating a direction and magnitude of movement between a time when said previous image frames were captured and current time when said current image frame was captured;
fitting a surface to a plot of said plurality of correlation coefficients;
calculating a bowl depth corresponding to a variation in a height between a highest point and a lowest point on said surface; and
selecting a larger optimal aperture size if said bowl depth is small, and selecting a smaller optimal aperture size if said bowl depth is large.
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3. The method of claim 1, wherein determining said optimal aperture size comprises measuring an amount of light incident on said navigator photodetector, and providing a small optimal aperture size if a large amount of light is incident on said navigator photodetector and providing a large optimal aperture size if a small amount of light is incident on said navigator photodetector.
Specification