Intraoral OCT with compressive sensing

The invention claimed is: 1. A method for acquiring image data comprising: obtaining, for an intraoral feature, optical coherence tomography (OCT) data in three orthogonal scanning dimensions, wherein at least two dimensions are pseudo-randomly or randomly sampled, wherein one pseudo-randomly or randomly sampled dimension is pseudo-randomly or randomly sampled while scanning along a scan line; reconstructing an image volume of the intraoral feature using compressive sensing wherein data density of the reconstructed image volume is larger than that of the obtained OCT data in the at least two dimensions or according to a corresponding transform; and rendering the reconstructed image volume for display; wherein obtaining the OCT data in three orthogonal scanning dimensions comprises obtaining at each of a number of scan positions along the scan line, an OCT scan comprising a set of multiple light frequencies or wavelengths wherein the light frequencies or wavelengths are randomly or pseudo-randomly spaced. 2. A method for acquiring intraoral volume image data comprising: obtaining, along each of a number of scan rows across a surface of a sample, a plurality of optical coherence tomography (OCT) scans, wherein a distance between the OCT scans varies randomly or pseudo-randomly along the scan row; reconstructing the intraoral volume using compressive sensing wherein data density of the reconstructed image volume is larger than that of the obtained OCT scans along the row; and rendering the reconstructed image volume for display; wherein the sample is a tooth, and wherein obtaining, at each of the plurality of OCT scans along the scan rows, comprises an OCT scan comprising a set of multiple light frequencies or wavelengths, wherein the light frequencies or wavelengths are randomly or pseudo-randomly spaced. 3. A method for acquiring intraoral volume image data comprising: scanning each row of a sample surface by: obtaining, at each of a number of scan positions along the row, an OCT scan comprising of a set of multiple light frequencies or wavelengths wherein the light frequencies or wavelengths are randomly or pseudo-randomly spaced; processing each obtained OCT scan using compressive sensing wherein data density of the processed OCT scan is larger than that of the obtained OCT scan; combining the processed OCT scans to generate an intraoral volume; and rendering the generated intraoral volume for display. 4. The method of claim 3 wherein the randomized or pseudo-randomized set of frequencies or wavelengths are selected using a spectrometer. 5. The method of claim 3 wherein the randomized or pseudo-randomized set of frequencies or wavelengths are generated from a frequency-swept light source. 6. The method of claim 3 wherein using compressive sensing comprises performing minimization computation on each obtained OCT scan. 7. The method of claim 3 wherein distance between the obtained OCT scans also varies randomly or pseudo-randomly along the row, and further comprising processing the generated intraoral volume using compressive sensing to reconstruct the intraoral volume wherein data density of the reconstructed intraoral volume is larger than that of the obtained OCT scans along the row. 8. The method of claim 7 wherein spacing between rows also varies randomly or pseudo-randomly across the sample surface, and the number of rows of the reconstructed intraoral volume is also larger than that of the obtained OCT scans. 9. An apparatus for acquiring volume image data from a tooth, the apparatus comprising: a) a broadband illumination source that generates short coherence length light; b) a scanner that directs light from the broadband illumination source toward each of a number of points along the tooth; c) an interferometer that combines light returned from the scanner with a reference light from the illumination source; d) a sensor that is actuable to sense the combined light from the interferometer; e) a processor that controls the scanner, illumination source, and sensor to acquire, at said each of the number of points along the tooth, an OCT scan comprising a set of multiple light frequencies or wavelengths, wherein the light frequencies or wavelengths are randomly or pseudo-randomly sampled among the set, and executes a compressive sensing sequence for reconstructing the volume image of the tooth, wherein data density of the reconstructed volume image is larger than that of the acquired data; and f) a display in signal communication with the processor for display of the reconstructed volume image. 10. The apparatus of claim 9 wherein the broadband illumination source is a superluminescent diode. 11. The apparatus of claim 9 wherein the broadband illumination source comprises a spatial light modulator. 12. The apparatus of claim 9 wherein the sensor comprises a spectrometer. 13. The apparatus of claim 9 wherein distance between the obtained OCT scans also varies randomly or pseudo-randomly along each scan row. 14. The apparatus of claim 9 wherein the randomly or pseudo-randomly sampled data are acquired in the spatial domain at said each of the number of points along the tooth. 15. The apparatus of claim 9 wherein the reconstructed volume image is displayed after segmentation. 16. The apparatus of claim 9 wherein the reconstructed volume image is displayed after rendering. 17. A method for acquiring intraoral volume image data comprising: obtaining, for an intraoral feature, optical coherence tomography (OCT) data in three orthogonal scanning dimensions, wherein the three orthogonal scanning dimensions are pseudo-randomly or randomly sampled; applying an interpolation to supplement the OCT scan data with additional computed values for areas between OCT scans; and generating the intraoral volume image according to both the measured OCT scans and the additional computed values from interpolation. 18. The method of claim 17 wherein the interpolation is a bilinear interpolation. 19. The method of claim 17 wherein the interpolation is a trilinear interpolation. 20. The method of claim 17 wherein the intraoral feature is a tooth.