Ocular fundus camera system and methodology
First Claim
1. An ocular fundus camera system usable in relation to a light-illuminated fundus in a subject'"'"'s eye, and including an elongate, main optical path which, in an operative condition of the system extends downstream from a person'"'"'s eye and carries fundus-reflection light derived from, and possessing a reflection image of, the fundus, said system comprising:
- an image-detecting sensor disposed along said main path at a location which is downstream from the eye in optical communication with fundus-reflection light carried in said path,a structure operatively associated with said sensor, upstream from the eye, for introducing, into light reflected from the fundus, edge-portion-containing optical contrast imagery having at least one contrast edge portion whose spatial disposition in the fundus-reflection light is independent of eye movement, anda discriminatory, light-content shifting structure disposed on the main path'"'"'s long axis upstream therealong relative to an aperture and operable selectively for producing, within that portion of the main path which is disposed intermediate the shifting structure and the aperture, relative trans-axial displacement-shifting solely of any non-collimated light carried in that portion of the main path which is disposed immediately upstream from the shifting structure.
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Accused Products
Abstract
An ocular fundus camera system and an associated methodology. The system includes (a) an image sensor disposed along a fundus-image reflection path adjacent that path'"'"'s downstream end, and in optical communication with light carried in this path, (b) an aperture centered on the reflection path'"'"'s long axis, operatively associated with, and stationary with respect to, the sensor at a location which is upstream from the sensor, and (c), for accomplishing (1) precision fundus-image focusing on the sensor, and additionally (2) autorefraction, optical, light-content shifting structure, operable selectively for producing, within that portion of the reflection path which is disposed downstream from the shifting structure, relative trans-axial displacement solely of any non-collimated light carried in that portion of the main path which is disposed upstream from the shifting structure.
83 Citations
19 Claims
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1. An ocular fundus camera system usable in relation to a light-illuminated fundus in a subject'"'"'s eye, and including an elongate, main optical path which, in an operative condition of the system extends downstream from a person'"'"'s eye and carries fundus-reflection light derived from, and possessing a reflection image of, the fundus, said system comprising:
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an image-detecting sensor disposed along said main path at a location which is downstream from the eye in optical communication with fundus-reflection light carried in said path, a structure operatively associated with said sensor, upstream from the eye, for introducing, into light reflected from the fundus, edge-portion-containing optical contrast imagery having at least one contrast edge portion whose spatial disposition in the fundus-reflection light is independent of eye movement, and a discriminatory, light-content shifting structure disposed on the main path'"'"'s long axis upstream therealong relative to an aperture and operable selectively for producing, within that portion of the main path which is disposed intermediate the shifting structure and the aperture, relative trans-axial displacement-shifting solely of any non-collimated light carried in that portion of the main path which is disposed immediately upstream from the shifting structure.
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2. An ocular fundus camera system in operative condition comprising;
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light-source structure for illuminating, along an elongate, illumination path, the fundus in a subject'"'"'s eye, an elongate, main optical path having upstream and downstream ends and a long axis, extending downstream from the subject'"'"'s eye, and carrying, downstream along its length, both light that acts as if the pupil were its source, and light reflected from, and carrying an image of, the fundus, an image-detecting sensor centered on the main path'"'"'s long axis adjacent the latter'"'"'s downstream end, disposed for optical communication with light carried in said main path, an aperture also centered on the main path'"'"'s long axis, operatively associated with, and stationary with respect to, said sensor at a location which is upstream along the main path from the sensor, positioned there to communicate to the sensor light carried in the main path, a discriminatory, light-content shifting structure disposed centrally on said main path'"'"'s long axis upstream therealong relative to said aperture, operable selectively for producing, within that portion of the main path which is disposed intermediate the shifting structure and the aperture, relative trans-axial displacement-shifting solely of any non-collimated light carried in that portion of the main path which is disposed immediately upstream from the shifting structure, and a structure selectively placeable across said illumination path for introducing, effectively, into light reflected from the fundus, edge-portion-containing optical contrast imagery having at least one, contrast edge portion which lies at an angle relative to the direction of trans-axial shifting producible by said shifting structure, and whose spatial disposition in the fundus-reflection light is independent of eye movement. - View Dependent Claims (3, 4)
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5. An ocular fundus camera system usable in relation to a light-illuminated fundus in a subject'"'"'s eye, and including an elongate, main optical path having upstream and downstream ends and a long axis, and which main path, in an operative condition of the system, extends downstream from a person'"'"'s eye and carries both (a) light that acts as if the pupil were its source and (b) light reflected from, and carrying an image of, the fundus, said system comprising:
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an image-detecting sensor disposed centrally along said main path adjacent the main path'"'"'s downstream end, and in optical communication with light carried in said path, an aperture centered on the main path'"'"'s long axis, operatively associated with, and stationary with respect to, said sensor at a location which is upstream from the sensor, and an optical, light-content shifting structure, operable selectively for producing, within that portion of the main path which is disposed downstream from the shifting structure, relative trans-axial displacement solely of any non-collimated light carried in that portion of the main path which is disposed upstream from the shifting structure. - View Dependent Claims (6, 7, 8, 9, 10, 11)
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12. An ocular fundus-imaging camera methodology usable, in relation to a light-illuminated fundus in a subject'"'"'s eye, to apply to an image sensor a precision-focused image of the fundus contained in an elongate flow of reflection light coming from the fundus, said methodology comprising:
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(a) discriminatorily, effecting trans-axial light-flow shifting, in a defined portion of the reflection flow, and relative to the long axis of that flow, solely of non-collimated light present in that defined portion, and (b) achieving fundus image focus by performing an operation which prevents any such shifting with respect to the reflection-carried fundus image content, per se.
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13. An image-forming, ocular fundus camera methodology comprising:
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placing, by external illumination, and projection onto the fundus, a contrast image possessing a contrast edge whose spatial position is independent of eye movement, by said placing, creating, in a region of a main, external optical path, a reflection-flow from the fundus which contains an image of the contrast edge which, depending upon the existence or absence of correct fundus focus, will be contained, respectively, in either collimated or non-collimated light, discriminatorily, and in a relative trans-axial displacement manner at a location along the main optical path which is disposed downstream from the eye, shifting solely any non-collimated light which is contained in the flow of created reflection light, and achieving proper fundus focus by making an adjustment to assure that, within the mentioned main optical path region, the contrast-edge image content carried therein is present in collimated light.
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14. An ocular fundus camera methodology comprising,
illuminating the fundus in a subject'"'"'s eye along a main optical path having a long axis, by said illuminating, creating a light reflection from the fundus which flows therefrom outwardly through the pupil in a flow of reflection light which is directed downstream from the eye along the main optical path'"'"'s long axis, discriminatorily, and in a relative trans-axial displacement manner at a location along the main optical path which is disposed downstream from the eye, shifting solely any non-collimated light which is contained in the flow of created reflection light, detecting any such shifting, and employing any detected shifting in a manner designed to aid in performing auto refraction.
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15. An ocular fundus, image-focusing camera methodology comprising:
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illuminating the fundus in a subject'"'"'s eye along an elongate illumination path, by said illuminating, creating a light reflection from the fundus directed therefrom outwardly through the pupil in a flow of reflection light which progresses downstream from the eye along an elongate main optical path having a long axis, discriminatorily, and in a relative trans-axial displacement manner at a location along the main optical path which is disposed downstream from the eye, shifting solely any non-collimated light which is contained in the flow of created reflection light, detecting any such shifting, and employing any detected shifting in a manner designed to minimize the presence of non-collimated light in the reflection-light flow. - View Dependent Claims (16, 17, 18, 19)
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Specification