Hemispherical Star Camera

What is claimed is: 1 . A digital camera, comprising: a monocentric lens having a focal length, an outer surface and a center; a plurality of pixelated optical sensor arrays, each pixelated optical sensor array being oriented toward the center of the monocentric lens and spaced apart from the outer surface of the monocentric lens, such that the pixelated optical sensor array is disposed about the focal length of the monocentric lens from the center of the monocentric lens; and for each pixelated optical sensor array of the plurality of pixelated optical sensor arrays, at least one baffle disposed between the outer surface of the monocentric lens and the pixelated optical sensor array, the baffle corresponding to the pixelated optical sensor array and having a longitudinal axis normal to the baffle's corresponding pixelated optical sensor array and extending through the center of the monocentric lens. 2 . A digital camera according to claim 1 , wherein a portion, less than all, of the outer surface of the monocentric lens comprises a mask that defines a plurality of transparent apertures therethrough and is otherwise opaque at a predetermined wavelength, such that each aperture of the plurality of apertures is aligned with the respective baffle of the at least one baffle and limits an amount of light that can pass from the monocentric lens to the corresponding pixelated optical sensor array. 3 . A digital camera according to claim 1 , wherein the monocentric lens has no central aperture. 4 . A digital camera according to claim 1 , wherein at least one of the at least one baffle comprises a tube. 5 . A digital camera according to claim 1 , wherein at least one of the at least one baffle is frustoconical. 6 . A digital camera according to claim 1 , wherein a wall of at least one baffle is opaque at a predetermined wavelength. 7 . A digital camera according to claim 1 , wherein a wall of at least one baffle has a total hemispherical reflectivity of less than about 25% at predetermined wavelength. 8 . A digital camera according to claim 1 , wherein at least one baffle is spaced apart from the outer surface of the monocentric lens by at least about 1 mm. 9 . A digital camera according to claim 1 , wherein one end of at least one baffle is in contact with the outer surface of the monocentric lens. 10 . A digital camera according to claim 1 , wherein at least one baffle is spaced apart from the baffle's corresponding pixelated optical sensor array by at least about 1 mm. 11 . A digital camera according to claim 1 , wherein one end of at least one baffle is in contact with the baffle's corresponding pixelated optical sensor array. 12 . A digital camera according to claim 1 , wherein at least one pixelated optical sensor array of the plurality of pixelated optical sensor arrays is planar. 13 . A digital camera according to claim 1 , wherein at least one pixelated optical sensor array of the plurality of pixelated optical sensor arrays is curved. 14 . A digital camera according to claim 1 , wherein at least one pixelated optical sensor array of the plurality of pixelated optical sensor arrays is substantially parallel to the outer surface of the monocentric lens. 15 . A digital camera according to claim 1 , further comprising: an object catalog storing information about objects expected to be viewed by the digital camera; and a navigation controller communicatively coupled to the object catalog and to the plurality of pixelated optical sensor arrays, wherein the navigation controller uses at least some of the information stored in the object catalog and image data from at least one pixelated optical sensor array of the plurality of pixelated optical sensor arrays to automatically determine at least one of: a location of the digital camera and an orientation of the digital camera. 16 . A digital camera according to claim 1 , further comprising: an object catalog storing information about objects expected to be viewed by the digital camera; and a navigation controller communicatively coupled to the object catalog and to the plurality of pixelated optical sensor arrays, wherein the navigation controller uses at least some of the information stored in the object catalog and image data from at least one pixelated optical sensor array of the plurality of pixelated optical sensor arrays to automatically generate course correction information. 17 . A digital camera, comprising: a monocentric lens having a focal length, an outer surface and a center; a plurality of pixelated optical sensor arrays, each pixelated optical sensor array being oriented toward the center of the monocentric lens and spaced apart from the outer surface of the monocentric lens, such that the pixelated optical sensor array is disposed about the focal length of the monocentric lens from the center of the monocentric lens; and a mask disposed between the monocentric lens and the plurality of pixelated optical sensor arrays, the mask defining a separate aperture corresponding to each pixelated optical sensor array of the plurality of pixelated optical sensor arrays and being otherwise opaque at a predetermined wavelength, each aperture being centered on a respective line normal to the aperture's corresponding pixelated optical sensor array and extending through the center of the monocentric lens, each aperture limiting an amount of light that can pass from the monocentric lens to the aperture's corresponding pixelated optical sensor array. 18 . A digital camera according to claim 17 , wherein the mask is disposed on the outer surface of the lens. 19 . A digital camera according to claim 17 , further comprising, for each pixelated optical sensor array of the plurality of pixelated optical sensor arrays, a baffle disposed between the outer surface of the monocentric lens and the pixelated optical sensor array, the baffle corresponding to the pixelated optical sensor array and having a longitudinal axis normal to the baffle's corresponding pixelated optical sensor array and extending through the center of the monocentric lens. 20 . A digital camera according to claim 17 , further comprising: an object catalog storing information about objects expected to be viewed by the digital camera; and a navigation controller communicatively coupled to the object catalog and to the plurality of pixelated optical sensor arrays, wherein the navigation controller uses at least some of the information stored in the object catalog and image data from at least one pixelated optical sensor array of the plurality of pixelated optical sensor arrays to automatically determine at least one of: a location of the digital camera and an orientation of the digital camera. 21 . A digital camera according to claim 17 , further comprising: an object catalog storing information about objects expected to be viewed by the digital camera; and a navigation controller communicatively coupled to the object catalog and to the plurality of pixelated optical sensor arrays, wherein the navigation controller uses at least some of the information stored in the object catalog and image data from at least one pixelated optical sensor array of the plurality of pixelated optical sensor arrays to automatically generate course correction information.