초록 ▼

A multiple aperture array, wide angle imaging system incorporates compound refractive optics modeled after the eyes of insects. The system channels light through the apertures of a convex spatial filter and a pair of lenslet arrays hot press molded on a positive meniscus form. The lenslets act as

A multiple aperture array, wide angle imaging system incorporates compound refractive optics modeled after the eyes of insects. The system channels light through the apertures of a convex spatial filter and a pair of lenslet arrays hot press molded on a positive meniscus form. The lenslets act as afocal Keplerian telescopes to superpose light from hundreds of adjacent channels to a common point on the convex surface of a fiber optic imaging taper. The superposed light from all the channels form a curved, high intensity image that is transformed by the taper into a flat format for readout by a mosaic detector array. The image is upright and distortion free with an infinite depth of field. Ghost images are blocked by a honeycomb louver baffle positioned between the lenslets and the imaging taper. The system is conformable to the geometry of any convex mounting surface, whether spherical, aspherical, or cylindrical.

대표청구항 ▼

What is claimed is: 1. A fiber coupled artificial compound eye for generating wide angle images at any depth of field without distortion and without the need for focus adjustment, comprising: means for blocking multiple off-axis light paths to improve image sharpness; means for channeling multiple

What is claimed is: 1. A fiber coupled artificial compound eye for generating wide angle images at any depth of field without distortion and without the need for focus adjustment, comprising: means for blocking multiple off-axis light paths to improve image sharpness; means for channeling multiple paraxial light paths to form an image on a convex surface, optically conformed to said means for blocking multiple off-axis light paths to improve image sharpness; means for eliminating ghost images and stray light, rigidly conformed to said means for channeling multiple paraxial light paths to form an image on a convex surface; and means for transforming a convex image into a flat image, optically coupled to said means for eliminating ghost images and stray light. 2. The fiber coupled artificial compound eye in accordance with claim 1, wherein said means for blocking multiple off-axis light paths to improve image sharpness comprises a spatial filter array, having an array of apertures on a convex surface aligned coaxially to an array of lenslets. 3. The fiber coupled artificial compound eye in accordance with claim 1, wherein said means for channeling multiple paraxial light paths to form an image on a convex surface comprises a meniscus shaped lenslet array, having lenslets on the convex surface. 4. The fiber coupled artificial compound eye in accordance with claim 1, wherein said means for eliminating ghost images and stray light comprises a meniscus shaped louver baffle, having honeycomb cells made from light absorbing material. 5. The fiber coupled artificial compound eye in accordance with claim 1, wherein said means for transforming a convex image into a flat image comprises a fiber optic imaging taper, being convex shaped at the large end and flat shaped at the small end. 6. A fiber coupled artificial compound eye for generating wide angle images at any depth of field without distortion and without the need for focus adjustment, comprising: a spatial filter array, having an array of apertures on a convex surface aligned coaxially to an array of lenslets, for blocking multiple off-axis light paths to improve image sharpness; a meniscus shaped lenslet array, having lenslets on the convex surface, for channeling multiple paraxial light paths to form an image on a convex surface, optically conformed to said spatial filter array; a meniscus shaped louver baffle, having honeycomb cells made from light absorbing material, for eliminating ghost images and stray light, rigidly conformed to said lenslet array; and a fiber optic imaging taper, being convex shaped at the large end and flat shaped at the small end, for transforming a convex image into a flat image, optically coupled to said louver baffle. 7. The fiber coupled artificial compound eye as recited in claim 6, further comprising: a mosaic detector array with readout electronics, for capturing and storing digital images, adhesively bonded to said fiber optic imaging taper. 8. The fiber coupled artificial compound eye as recited in claim 6, further comprising: an image intensifier with fiber optic faceplate and eyepiece, for amplifying low intensity light images and making them visible to the human eye, adhesively bonded to said fiber optic imaging taper. 9. The fiber coupled artificial compound eye as recited in claim 6, wherein said lenslet array has characteristics selected from the following group: hot press molded, having a second set of collimating lenslets on the concave surface aligned to the first lenslets to form a superposition array, being transmissive to visible light, and being transmissive to infrared radiation. 10. The fiber coupled artificial compound eye as recited in claim 6, wherein said fiber optic imaging taper has characteristics selected from the following group: having solid core fibers, and having capillary fibers. 11. The fiber coupled artificial compound eye as recited in claim 7, wherein said lenslet array has characteristics selected from the following group: hot press molded, having a second set of collimating lenslets on the concave surface aligned to the first lenslets to form a superposition array, being transmissive to visible light, and being transmissive to infrared radiation. 12. The fiber coupled artificial compound eye as recited in claim 7, wherein said fiber optic imaging taper has characteristics selected from the following group: having solid core fibers, and having capillary fibers. 13. The fiber coupled artificial compound eye as recited in claim 8, wherein said lenslet array has characteristics selected from the following group: hot press molded, having a second set of collimating lenslets on the concave surface aligned to the first lenslets to form a superposition array, being transmissive to visible light, and being transmissive to infrared radiation. 14. The fiber coupled artificial compound eye as recited in claim 8, wherein said fiber optic imaging taper has characteristics selected from the following group: having solid core fibers, and having capillary fibers. 15. The fiber coupled artificial compound eye as recited in claim 7, wherein said mosaic detector array with readout electronics has characteristics selected from the following group: being sensitive to visible light, and being sensitive to infrared radiation. 16. The fiber coupled artificial compound eye as recited in claim 11, wherein said mosaic detector array with readout electronics has characteristics selected from the following group: being sensitive to visible light, and being sensitive to infrared radiation. 17. The fiber coupled artificial compound eye as recited in claim 12, wherein said mosaic detector array with readout electronics has characteristics selected from the following group: being sensitive to visible light, and being sensitive to infrared radiation. 18. The fiber coupled artificial compound eye as recited in claim 13, wherein said image intensifier with fiber optic faceplate and eyepiece is an eyepiece constructed from fiber optics coupled to a concave lenslet array. 19. A fiber coupled artificial compound eye for generating wide angle images at any depth of field without distortion and without the need for focus adjustment, comprising: a spatial filter array, having an array of apertures on a convex surface aligned coaxially to an array of lenslets, for blocking multiple off-axis light paths to improve image sharpness; a meniscus shaped, hot press molded lenslet array, being transmissive to visible light and transmissive to infrared radiation and having lenslets on the convex surface and a second set of collimating lenslets on the concave surface aligned to the first lenslets to form a superposition array, for channeling multiple paraxial light paths to form an image on a convex surface, optically conformed to said spatial filter array; a meniscus shaped louver baffle, having honeycomb cells made from light absorbing material, for eliminating ghost images and stray light, rigidly conformed to said lenslet array; a fiber optic imaging taper, being convex shaped at the large end and flat shaped at the small end and having solid core fibers and capillary fibers, for transforming a convex image into a flat image, optically coupled to said louver baffle; a mosaic detector array with readout electronics, being sensitive to visible light and sensitive to infrared radiation, for capturing and storing digital images, adhesively bonded to said fiber optic imaging taper; and an image intensifier with fiber optic faceplate and eyepiece, being an eyepiece constructed from fiber optics coupled to a concave lenslet array, for amplifying low intensity light images and making them visible to the human eye, adhesively bonded to said fiber optic imaging taper.