Otoscope illumination

What is claimed is: 1. A plenoptic otoscope comprising: a primary imaging system comprising an otoscope objective and relay optics cooperating to form an image of an inside of an ear at an intermediate image plane, the primary imaging system characterized by a pupil plane; a plenoptic sensor comprising a microimaging array and a sensor array, the microimaging array positioned at the intermediate image plane and the sensor array positioned at a pupil plane conjugate; a filter module positioned at a second pupil plane conjugate, the filter module comprising a central clear area and a plurality of spectral filters arranged around the central clear area, each spectral filter covering a different portion of the second pupil plane conjugate, wherein light that forms the image of the inside of the ear passes simultaneously through the plurality of spectral filters; and an illuminator for illuminating the inside of the ear, the illuminator producing illuminating light that propagates through the central clear area of the filter module to the inside of the ear. 2. The plenoptic otoscope of claim 1 further comprising a beamsplitter positioned between the filter module and the plenoptic sensor, the beamsplitter directing the illuminating light from the illuminator towards the inside of the ear. 3. The plenoptic otoscope of claim 2 wherein the beamsplitter is a polarizing beamsplitter. 4. The plenoptic otoscope of claim 1 further comprising a handle, the illuminator located in the handle. 5. The plenoptic otoscope of claim 1 wherein the filter module further comprises four color filters. 6. The plenoptic otoscope of claim 1 wherein the illuminating light comprises white light. 7. The plenoptic otoscope of claim 1 wherein, after propagating through the central clear area, the illuminating light illuminates a speculum tip. 8. The plenoptic otoscope of claim 1 further comprising: a computing module that processes a plenoptic image of the inside of the ear, the plenoptic image captured by the sensor array, the computing module producing a three-dimensional depth image of the inside of the ear. 9. The plenoptic otoscope of claim 1 further comprising: a computing module that processes a plenoptic image of the inside of the ear, the plenoptic image captured by the sensor array, the computing module producing a plurality of spectral images of the inside of the ear. 10. The plenoptic otoscope of claim 1 further comprising: relay optics, wherein the filter module is located at an aperture between the relay optics and the plenoptic sensor. 11. The plenoptic otoscope of claim 1 wherein the filter module is located at an entrance pupil of the primary imaging system. 12. The plenoptic otoscope of claim 1 further comprising: relay optics having a plurality of relay lenses, wherein the filter module is located at an aperture between two of the relay lenses. 13. The plenoptic otoscope of claim 1 wherein the plenoptic otoscope is switchable between a depth imaging mode and a spectral imaging mode. 14. The plenoptic otoscope of claim 1 wherein one of the spectral filters is a yellow filter. 15. The plenoptic otoscope of claim 1 wherein one of the spectral filters is an amber filter. 16. The plenoptic otoscope of claim 1 wherein the primary imaging system is faster than F/8.