High resolution diffuse optical tomography using short range indirect imaging

The invention claimed is: 1 . An apparatus comprising: a laser projector; and a camera, the laser projector and camera being in a verged epipolar configuration forming a camera-projector pair; wherein the laser projector is scanned through a series of discrete epipolar planes of the camera-projector pair, each epipolar plane illuminating a line on a surface of a medium, each epipolar plane having a different slope with respect to the surface of the medium; wherein the camera is synchronized with the laser projector such that a line of pixels on a camera image plane are exposed, the exposed line of pixels imaging a line on the surface of the medium at a fixed offset from the currently-illuminated line on the surface of the medium; and wherein an interpolation is performed over the series of discrete epipolar planes to form a short-range indirect image. 2 . The apparatus of claim 1 , the laser projector comprising: a laser source; and a steerable mirror for directing a line of light along the surface of the medium. 3 . The apparatus of claim 1 wherein the short-range indirect image comprises an image of structures under the surface of the medium and is obtained by evaluating a phase function for each of a plurality of voxels in a volume of voxels located under the surface of the medium, the phase function being evaluated based on a quantity of light traversing each voxel and reaching a corresponding pixel in the currently exposed line of pixels. 4 . The apparatus of claim 1 wherein a plurality of short-range indirect images are captured at different fixed offsets between the illuminated line and the imaged line on the surface of the medium. 5 . The apparatus of claim 4 wherein optical parameters of each voxel in a volume of voxels located under the surface of the medium are determined by an optimization procedure performed over the plurality of short-range indirect images. 6 . The apparatus of claim 5 wherein differences in intensity of corresponding pixels in each short-range indirect image in the plurality of short-range indirect images is used to estimate an absorption coefficient for each voxel in the volume of voxels. 7 . The apparatus of claim 6 wherein the estimated absorption coefficients for each voxel are used to visualize a three-dimensional representation of a sub-surface absorption variation in the medium causing variations in the determined absorption coefficient from an absorption coefficient of a homogenous portion of the medium.