Comment Re:Corrective lenses adaptation? (Score 1) 55
You can correct for chromatic aberration in software, to a varying degree. You can approximate it (so the aberration is ~1/3 of what it would normally be, by aligning the centers of the primary colors) for arbitrary inputs, e.g. a photograph captured with an imperfect lens (image editing software can do this). You can do it on the output side with perfect accuracy if you're displaying an image using three monochromatic light sources (e.g. a laser display), since the three wavelengths involved would then be distorted by three discrete amounts that are perfectly correctable. For RGB panels like LCDs and OLED displays the primaries aren't monochromatic, but they are more concentrated around the dominant wavelength than a natural light source with a uniform frequency distribution, so you get a result that's somewhere in between. This is what the Rift does to correct for chromatic aberration in software.
Uneven pixel density is only a problem if the pixel density at the sparsest point is too low. Today's displays already exceed visual acuity when viewed at a reasonable distance (e.g. a Nexus 10 or an iPad with a Retina display at a normal operation distance), though of course that is without covering a large fraction of the FOV. Give it a few more years and it'll only get better - once we have 8K phone-sized displays this will probably be a non-issue.