System and method for corneal topography with flat panel display

1 . An apparatus, comprising: a flat panel display configured to display a light pattern and to project the light pattern onto a cornea of an eye disposed on a first side of the flat panel display; an optical system disposed on a second side of the flat panel display, the optical system being configured to receive and process reflected light from the cornea that passes through the flat panel display from the cornea to the optical system; and a camera configured to receive the processed reflected light from the optical system and to capture therefrom a reflected light pattern from the cornea produced in response to the projected light pattern, wherein the optical system has an optical axis and includes a structure having an aperture therethrough which is configured to pass to the camera a first portion of the reflected light from the cornea which impinges on the aperture at first angles with respect to the optical axis which are less than an acceptance angle, and wherein the structure is configured to block from reaching the camera a second portion of the reflected light from the cornea which impinges on the structure at second angles with respect to the optical axis which are greater than the acceptance angle. 2 . The apparatus of claim 1 , further comprising one or more processors configured to execute an algorithm to compare the projected light pattern to the reflected light pattern from the cornea, and to produce a topographic map of the cornea based on a result of the comparison. 3 . The apparatus of claim 1 , wherein the flat panel display is a transparent flat panel display, and wherein the reflected light from the cornea passes through the transparent flat panel display to the optical system. 4 . The apparatus of claim 1 , wherein the flat panel display has an aperture passing therethrough, and wherein the reflected light from the cornea passes through the aperture to the optical system. 5 . The apparatus of claim 1 , wherein the projected light pattern comprises a pattern of projected light spots and the reflected light pattern from the cornea comprises a pattern of reflected light spots. 6 . The apparatus of claim 5 , wherein the projected light spots are colored light spots, and wherein various projected light spots have different colors to facilitate association of the reflected light spots with the projected light spots from which they were generated. 7 . The apparatus of claim 6 , wherein the apparatus is configured to dynamically adjust the colors of the projected light spots to facilitate association of the reflected light spots with the projected light spots from which they were generated. 8 . The apparatus of claim 5 , wherein the projected light spots each have a size and shape, and wherein at least one of the size and shape of at least two of the projected light spots differ from each other to facilitate association of the reflected light spots with the projected light spots from which they were generated. 9 . The apparatus of claim 8 , wherein the apparatus is configured to dynamically adjust at least one of the size and shape of the projected light spots to facilitate association of the reflected light spots with the projected light spots from which they were generated. 10 . The apparatus of claim 5 , wherein the apparatus is configured to dynamically adjust a local density of the projected light spots to facilitate association of the reflected light spots with the projected light spots from which they were generated to facilitate production of the topographic map of the cornea. 11 . A method, comprising: projecting a light pattern from a flat panel display onto a cornea of an eye disposed on a first side of the flat panel display; receiving and optically processing reflected light from the cornea that passes through the flat panel display via an optical system disposed on a second side of the flat panel display; receiving at a camera the optically processed reflected light from the optical system; capturing from processed reflected light via the camera a reflected light pattern from the cornea produced in response to the projected light pattern; comparing the projected light pattern to the reflected light pattern from the cornea; and producing a topographic map of the cornea based on a result of the comparison, wherein the optical system has an optical axis and includes a structure having an aperture therethrough which is configured to pass to the camera a first portion of the reflected light from the cornea which impinges on the aperture at first angles with respect to the optical axis which are less than an acceptance angle, and wherein the structure is configured to block from reaching the camera a second portion of the reflected light from the cornea which impinges on the structure at second angles with respect to the optical axis which are greater than the acceptance angle. 12 . The method of claim 11 , wherein the flat panel display is a transparent flat panel display, the method further comprising passing the reflected light from the cornea through the transparent flat panel display to the optical system. 13 . The method of claim 11 , wherein the flat panel display has an aperture passing therethrough, the method further comprising passing the reflected light from the cornea through the aperture to the optical system. 14 . The method of claim 11 , wherein the projected light pattern comprises a pattern of projected light spots and the reflected light pattern from the cornea comprises a pattern of reflected light spots. 15 . The method of claim 14 , wherein the projected light spots are colored light spots, and wherein various projected light spots have different colors to facilitate association of the reflected light spots with the projected light spots from which they were generated. 16 . The method of claim 15 , further comprising dynamically adjusting the colors of the projected light spots to facilitate association of the reflected light spots with the projected light spots from which they were generated. 17 . The method of claim 14 , wherein the projected light spots each have a size and shape, and wherein at least one of the size and shape of at least two of the projected light spots differ from each other to facilitate association of the reflected light spots with the projected light spots from which they were generated. 18 . The method of claim 17 , further comprising dynamically adjusting at least one of the size and shape of the projected light spots to facilitate association of the reflected light spots with the projected light spots from which they were generated. 19 . The method of claim 18 , further comprising dynamically adjusting a local density of the projected light spots to facilitate association of the reflected light spots with the projected light spots from which they were generated to facilitate production of the topographic map of the cornea. 20 . An apparatus, comprising: a portable computing device, comprising: a housing; a flat panel display connected to the housing and configured to display a light pattern thereon and to project the light pattern onto a cornea of an eye disposed on a first side of the flat panel display, and one or more processors disposed within the housing of the portable computing device; an optical system disposed on a second side of the transparent flat panel display, configured to receive and process reflected light from the cornea that passes through the flat panel display; and a camera configured to receiv