Simultaneous, wavelength multiplexed vision screener
First Claim
Patent Images
1. An apparatus for detecting errors in a patient'"'"'s eyes, comprising:
- a light source for illuminating at least two different meridians of the patient'"'"'s eyes with wavelength-encoded light; and
an image-recording device for recording a wavelength-encoded image of the eyes while illuminated by the wavelength-encoded light.
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Abstract
A method and apparatus for detecting refractive and non-refractive errors in a patient'"'"'s eyes is disclosed. The apparatus includes an image-recording device for recording an image of the patient'"'"'s eyes while illuminated with infrared light and while at least two different meridians of the patient'"'"'s eyes are simultaneously illuminated with wavelength-encoded visible light. The apparatus further includes a wavelength-encoded light source for illuminating the patient'"'"'s eyes with infrared light and at least two different meridians of the patient'"'"'s eyes with wavelength-encoded visible light, and a control system for controlling the image-recording device and the light source. In one embodiment, the image-recording device includes a high-speed digital camera, the wavelength-encoded light source includes a group of infrared light-emitting diodes (LEDs) and a pair of wavelength-encoded flashes located in two different meridians of the camera, and the control system includes a computer system. In an alternative embodiment, the wavelength-encoded flashes are replaced with a wavelength-encoded ring flash.
62 Citations
50 Claims
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1. An apparatus for detecting errors in a patient'"'"'s eyes, comprising:
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a light source for illuminating at least two different meridians of the patient'"'"'s eyes with wavelength-encoded light; and
an image-recording device for recording a wavelength-encoded image of the eyes while illuminated by the wavelength-encoded light. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11)
the light source includes a third wavelength-encoded flash for illuminating the eyes with blue light; and
the image-recording device is operable to record an image of the eyes while illuminated with the blue light.
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5. The apparatus of claim 2, wherein the light source comprises a wavelength-encoded ring flash.
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6. The apparatus of claim 1, wherein:
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the light source includes an infrared light source for illuminating the eyes with infrared light; and
the image-recording device is operable to record an image of the eyes while illuminated with infrared light.
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7. The apparatus of claim 6, further comprising a control system for causing the infrared light source to illuminate the eyes and for causing the image-recording device to record an image of the eyes while illuminated by infrared light.
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8. The apparatus of claim 7, wherein the control system is further operable to analyze the infrared image to determine pupil size.
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9. The apparatus of claim 8, wherein the control system is further operable to analyze the infrared image to identify non-refractive errors in the eyes.
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10. The apparatus of claim 1, further comprising a control system for causing the light source to simultaneously illuminate the eyes in at least two different meridians of the eyes using wavelength-encoded light and causing the image-recording device to record a wavelength-encoded image of the eyes while illuminated by the wavelength-encoded light.
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11. The apparatus of claim 10, wherein the control system is further operable to decode the wavelength-encoded image into wavelength-decoded images and to analyze the wavelength-decoded images of the eyes to detect refractive errors in the eyes.
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12. A method for detecting errors in a patient'"'"'s eyes, comprising the steps of:
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simultaneously illuminating at least two different meridians of the eyes using wavelength-encoded light; and
recording a wavelength-encoded image of the eyes while illuminated with the wavelength-encoded light. - View Dependent Claims (13, 14, 15, 16, 17)
illuminating the eyes with infrared light;
recording an infrared image of the eyes while illuminated by the infrared light; and
identifying non-refractive errors, such as media opacities or strabismus, in the eyes using the recorded infrared image.
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14. The method of claim 13, further comprising the step of analyzing the infrared image to identify physical characteristics of the eyes.
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15. The method of claim 14, wherein the step of identifying physical characteristics comprises the step of identifying pupil size.
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16. The method of claim 14, wherein the step of identifying physical characteristics comprises the step of identifying eye gaze angle.
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17. The method of claim 12, further comprising the step of decoding the wavelength-encoded image into wavelength-decoded images and analyzing the wavelength-decoded images to identity refractive errors in the eyes.
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18. An apparatus for generating images of eyes for use in identifying non-refractive and refractive errors, comprising:
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a camera having an objective lens;
an infrared light source located coaxially with the camera'"'"'s objective lens;
a first flash positioned adjacent to the infrared light source and operable to emit a first color of light in a first meridian around the objective lens; and
a second flash positioned adjacent to the infrared light source and operable to emit a second color of light in a second meridian around the objective lens. - View Dependent Claims (19, 20, 21, 22, 23)
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24. An apparatus for generating images of eyes using infrared and visible light, comprising:
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a camera having an objective lens;
an infrared light source located coaxially with the objective lens;
a ring flash encircling the infrared light source, the ring flash operable to emit a first color of light in a first meridian around the objective lens and to emit a second color of light in a second meridian around the objective lens. - View Dependent Claims (25, 26, 27, 28)
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29. A system for generating infrared and wavelength-encoded images of eyes, comprising:
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a camera having an objective lens;
an infrared light source located coaxially with the objective lens;
a first flash positioned adjacent to the infrared light source and operable to emit a first color of light in a first meridian around the objective lens; and
a second flash positioned adjacent to the infrared light source and operable to emit a second color of light in a second meridian around the objective lens; and
a control system, in communication with the camera, infrared light source, and flashes, operable to cause the infrared light source to emit infrared light and to cause the camera to capture an infrared image of the eyes using the emitted infrared light, the control system further operable to cause the flashes to fire simultaneously and to cause the camera to capture a wavelength-encoded image of the eyes using the light emitted by the flashes. - View Dependent Claims (30, 31, 32, 33, 34, 35)
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36. A system for identifying non-refractive and refractive errors in eyes, comprising:
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a camera having an objective lens;
an infrared light source located coaxially with the objective lens;
a first flash positioned adjacent to the infrared light source and operable to emit a first color of light in a first meridian around the objective lens; and
a second flash positioned adjacent to the infrared light source and operable to emit a second color of light in a second meridian around the objective lens; and
a control system, in communication with the camera, infrared light source, and flashes, operable to cause the camera to record an infrared image of the eyes while illuminated by infrared light and a wavelength-encoded image of the eyes while illuminated with wavelength-encoded light, the control system further operable to process the infrared image to identify non-refractive errors in the eyes and to process the wavelength-encoded image to identify refractive errors in the eyes. - View Dependent Claims (37, 38, 39, 40, 41, 42)
the non-refractive errors include media opacities or strabismus, and the refractive errors include myopia, hyperopia, or astigmatism.
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38. The system of claim 37, wherein the control system identifies media opacities based on the amount of infrared light reflected by the pupil of the eye.
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39. The system of claim 37, wherein the control system identifies strabismus by calculating the gaze angle of the eye using the infrared image.
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40. The system of claim 36, wherein the control system calculates the pupil diameter of the eyes using the infrared image.
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41. The system of claim 36, wherein the control system decodes the wavelength-encoded image into a pair of wavelength-decoded images and processes the wavelength-decoded images to identify refractive errors.
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42. The system of claim 41, wherein the control system identifies refractive errors by measuring the amount and distribution of wavelength-encoded light reflected by the pupil of the eye.
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43. A method for identifying errors in eyes, comprising the steps of:
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generating an infrared image of the eyes;
identifying non-refractive errors using the infrared image;
generating a wavelength-encoded image of the eyes;
decoding the wavelength-encoded image of the eyes into wavelength-decoded images; and
identifying refractive errors using the wavelength-decoded images. - View Dependent Claims (44, 45, 46, 47, 48, 49, 50)
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Specification
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Current AssigneeWayne Davenport
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Original AssigneeWayne Davenport
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InventorsDavenport, Wayne
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Primary Examiner(s)MANUEL, GEORGE C
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Application NumberUS09/803,776Time in Patent Office1,009 DaysField of Search351/205, 351/206, 351/208, 351/209, 351/210, 351/211, 351/221, 514/63US Class Current351/221CPC Class CodesA61B 3/103 for determining refraction,...A61B 3/14 Arrangements specially adap...
