Multiplexing optical system
First Claim
Patent Images
1. A multiplexing optical system, comprising:
- a parallel light beam generating device constructed and arranged to generate an approximately parallel light beam;
an image display device located in the approximately parallel light beam from the parallel light beam generating device, wherein said image display device displays an input image;
a grating device constructed and arranged to diffract the light beam via the image display device to produce a plurality of diffracted light beams;
a Fourier transform lens constructed and arranged to form a plurality of Fourier transformed images of the input image by receiving the diffracted light beams from the grating device; and
a lens array constructed and arranged to perform an inverse Fourier transform on the plurality of Fourier transformed images, each lens corresponding to one of the plurality of Fourtier transformed images and the inverse Fourier transformed images are non-overlapping.
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Abstract
A multiplexing optical system capable of processing input information at high speed and with high accuracy and having an easy-to-align simplified arrangement. A parallel-beam generating device (11, 12, 13) generates an approximately parallel light beam. An input image display device has a grating member (222) which is latticed both vertically and horizontally, and a display device (22) which displays an input image. A Fourier transform lens (31) reproduces Fourier transformed images (311) of the input image by each order of diffracted light produced by reading the input image displayed on the display device (22) by the approximately parallel light beam from the parallel-beam generating device. The Fourier transformed images (311) are reproduced on a Fourier transform plane (F2) at an approximately constant pitch (p). A filter array (322) filters the reproduced Fourier transformed images (311). A lens array (33) performs an inverse Fourier transform on each filtered light beam.
27 Citations
18 Claims
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1. A multiplexing optical system, comprising:
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a parallel light beam generating device constructed and arranged to generate an approximately parallel light beam;
an image display device located in the approximately parallel light beam from the parallel light beam generating device, wherein said image display device displays an input image;
a grating device constructed and arranged to diffract the light beam via the image display device to produce a plurality of diffracted light beams;
a Fourier transform lens constructed and arranged to form a plurality of Fourier transformed images of the input image by receiving the diffracted light beams from the grating device; and
a lens array constructed and arranged to perform an inverse Fourier transform on the plurality of Fourier transformed images, each lens corresponding to one of the plurality of Fourtier transformed images and the inverse Fourier transformed images are non-overlapping. - View Dependent Claims (2, 3, 4, 5, 6)
a filter array constructed and arranged to filter the plurality of Fourier transformed images, each filter corresponding to one of the plurality of Fourier transformed images.
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3. A multiplexing optical system according to claim 2, wherein the filter array is a Gabor filter array.
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4. A multiplexing optical system according to claim 2, wherein the filter array is a wavelet filter array.
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5. A multiplexing optical system according to claim 1,
wherein the input image and grating device satisfy the following condition: -
6. A multiplexing optical system according to claim 1,
wherein said image display device is pixels of a liquid crystal display, and said grating device is a structure between pixels of the liquid crystal display.
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7. A multiplexing optical system comprising:
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a plurality of light beam generating devices, each said light beam generating device generating an approximately parallel light beam;
an image display device located in the parallel light beams from the plurality of light beam generating devices, wherein said image display device displays an input image;
a grating device constructed and arranged to diffract the light beam via the image display device to produce a plurality of diffracted light beams;
a Fourier transform lens constructed and arranged to form a plurality of Fourier transformed images of the input image by receiving the diffracted light beams from the grating device; and
a lens array constructed and arranged to perform an inverse Fourier transform on the plurality of Fourier transformed images, each lens corresponding to one of the plurality of Fourier transformed images and the inverse Fourier transformed images are non-overlapping. - View Dependent Claims (8, 9, 10, 11, 12)
a filter array constructed and arranged to filter the plurality of Fourier transformed images, each filter corresponding to one of the Fourier transformed images.
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9. A multiplexing optical system according to claim 8, wherein the filter array is a Gabor filter array.
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10. A multiplexing optical system according to claim 8, wherein the filter array is a wavelet filter array.
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11. A multiplexing optical system according to claim 7,
wherein the input image and grating device satisfy the following condition: -
12. A multiplexing optical system according to claim 7,
wherein said image display device is pixels of a liquid crystal display, and said grating device is a structure between pixels of the liquid crystal display.
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13. A multiplexing optical system, comprising:
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a parallel light beam generating device constructed and arranged to generate an approximately parallel light beam;
an image display device located in the approximately parallel light beam from the parallel light beam generating device, wherein said image display device displays an input image;
a grating device constructed and arranged to two-dimensionally diffract the light beam via the image display device to produce a plurality of diffracted light beams;
a Fourier transform lens constructed and arranged to form a plurality of Fourier transformed images of the input image by receiving the diffracted light beams from the grating device; and
a lens array constructed and arranged to perform an inverse Fourier transform on the plurality of Fourier transformed images, each lens corresponding to one of the plurality of Fourier transformed images and inverse Fourier transformed images are non-overlapping. - View Dependent Claims (14, 15, 16, 17)
a filter array constructed and arranged to filter the plurality of Fourier transformed images, each filter corresponding to one of the Fourier transformed images.
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15. A multiplexing optical system according to claim 14, wherein the filter array is a wavelet filter array.
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16. A multiplexing optical system according to claim 13,
wherein the input image and grating device satisfy the following condition: -
17. A multiplexing optical system according to claim 13,
wherein said image display device is pixels of a liquid crystal display, and said grating device is a structure between pixels of the liquid crystal display.
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18. A multiplexing optical system, comprising:
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parallel light beam generating means for generating an approximately parallel light beam;
image display means for displaying an input image, the image display means being located in the parallel light beam from the parallel light beam generating means;
grating means for diffraction the light beam via the image display means to produce a plurality of diffracted light beams;
Fourier transform means for forming a plurality of Fourier transformed images of the input image by receiving the diffracted light beams from the grating means; and
lens array means for performing an inverse Fourier transform on the plurality of Fourier transformed images, each lens corresponding to one of the plurality of Fourier transformed images and the inverse Fourier transformed images are non-overlapping.
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Specification
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Current AssigneeOlympus Optical Corporation Limited (Olympus Corporation)
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Original AssigneeOlympus Optical Corporation Limited (Olympus Corporation)
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InventorsNamiki, Mitsuru, Fukushima, Ikutoshi
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Primary Examiner(s)Boudreau, Leo
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Assistant Examiner(s)PATEL, KANJIBHAI B
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Application NumberUS09/075,341Time in Patent Office1,275 DaysField of Search382/280, 382/260, 382/304, 382/210, 382/211, 356/309, 356/328, 356/124.5, 356/125, 359/130, 359/131, 359/132, 359/133, 359/379, 359/558, 359/559, 359/563, 359/19, 359/29, 359/115US Class Current382/280CPC Class CodesG02B 27/46 Systems using spatial filtersG06V 10/88 Image or video recognition ...
