This is brief report on a work in progress: focusing of the MI images
The adaptive contrast was just an attempt to see in low light levels ... with varying success...depending on the quality of the input images.
I cobbled together a focus program that takes some aspects of wavelets and the related least square methods.
As a worst case input (but easiest for me) I used the processed mosaic (thanks Astro-naught) of JPL's 1st attempt to see beneath Spirit.
After I finished the coding and debug, it ran 2 hours of CPU time (!) and deconvolved into utter ugliness. I ran it again and stopped it at iteration 211 (52 mins) and here is the result.
Click to view attachment<little rock in the SW corner is better (and closer to the camera)...what is going on with the LM wheel?...>
<a distant 'rock' seen through the (out of focus and) upside down 'U' of the hull, in the NW corner may be seen by the NAV/PAnN cameras for a check?>
<can somebody get on their belly and take a series of pictures at the TEE BEE of the underside of the test rover? ...and post them?>
The overall goal is to iteratively compute a new hi-res image and check it by producing a newer low res version, while comparing it to the actual low res (and then adjusting for the next iteration) -- I cheated and used 2 arrays -one each for a 1D representation of X and Y - rather than a more (days! worth of) complex matrix computations. (confession: averaging was used at the the intersections of pixels in the output array ~! )
Since this wost case image (super processed by me and then skillfully mosaiced by Astro0) 'looks' like it can be improved (?some what?.. you tell me...?) then, the next step: is to try this method on the original JPL original images, then contrast enhance, then mosaic.
As a note, I can only detect one seam from the mosaic in the deconvolution...I thought I'd see them all.
See you in a few days...?
Cheers
Ustrax: beautiful Tennyson poem...the Crew, Marines, and all of us caught up in this adventure hear you loud and clear...