High-Res DEMs from single HiRISE images, First results of new "Shape from Shading" algorithm |
High-Res DEMs from single HiRISE images, First results of new "Shape from Shading" algorithm |
Jan 16 2010, 03:30 PM
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#1
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Member Group: Members Posts: 713 Joined: 30-March 05 Member No.: 223 |
Hi all,
Here the long overdue continuation of the "Alien Landscapes" series. This time based on 3D DEMs generated with "Shape from Shading" from single HiRISE images. Enjoy Click on Images for larger version. Detail views from PSP_002172_1410 (large gully system) Detail view of Gullies from PSP_001376_1675 Detail of gully system in PSP_002022_1455 Dune Views from PSP_004339_1890 Detail from PSP_001834_1605 Here is some background info on the making of the images: "Shape from Shading" (SFS) i.e. the possibility to extract shape information from a single image has always been a fascinating topic for me. Now I found the time to implement a prototype for a new SFS algorithm based on some ideas that I've been thinking about for a long time. The problem with existing SFS approaches (see here for a survey is that they either tend to over-smooth the details (due to the regularization constraint) or suffer from excessive noise in the high-frequency components of the reconstructed surface. Another problem is the large demand on CPU ressources which would make them very challenging to apply to large scale input data, such as HiRISE orbiter images. So for a long time I was rather sceptical as to the potential of SFS and it was my impression that Methods based on multiple images (stereo) must be far superior to single-image SFS. However, after a long time of experimenting, combining existing approaches with some new ideas, I got the following quite promising first results that I'd like to share: All of the images were generated from a single HiRISE image (no depth information was used from stereo or laser altimeter data). Also, no texturing or additional coloring/shading was applied when rendering the surface. Every detail visible is real 3D down to the pixel-level... For rendering I used a very simple model based on lambertian reflection with gouraud shading. The resolution of the images is still moderate: that is downsampled details crops in the order of 0.5-1 Megapixels. However, despite the heavy math machinery that drives the core of the algoritm (several systems of equations with millions of unknowns) the processing time is still moderate (about 15 Minutes per med-res image, using about 2 Gigs main mem) such that the application to full-res HiRISE images should be possible The following image shows an example to illustrate the general principle (click to enlarge). On the left hand side the 2D input image (simple noisy JPEG from the Web with unknwon light source direction). On the right hand side shows the recovered 3D surface re-lighted under a different light source direction. Note that one problem of the current implementation of the algorithm is it's vulnerability to notable distortions in the low frequency components (i.e. large scale variations) of the generated surface. However I'm confident that this can be overcome by an improved version or by adding the large-scale depth information from stereo-based DEMs or altimeter data (MOLA) where available. |
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Jan 16 2010, 09:09 PM
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#2
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IMG to PNG GOD Group: Moderator Posts: 2256 Joined: 19-February 04 From: Near fire and ice Member No.: 38 |
In a word:
WOW!!! Are you draping the original image over the DEM or is the DEM itself this detailed? |
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Jan 16 2010, 10:27 PM
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#3
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Member Group: Members Posts: 713 Joined: 30-March 05 Member No.: 223 |
In a word: WOW!!! Are you draping the original image over the DEM or is the DEM itself this detailed? There is no texture mapping or smoothing involved: every pixel is real 3D - The DEM itself is detailed down to the single pixel level. That's the really interesting thing with this new techinque: The absence of the strong smoothing process that gives many conventional DEM-images that somewhat "washed", unnaturally soft appearance. (however: while it works perfectly for the higher frequency bands, there can be distortions in the lower frequency components ... so the DEMs in their current form could probably not be used for exact inference about variations of absolute terrain heights over larger scales (that's where MOLA and conventional stereo based techniques have advantages: so it seems natural to combine the techniques) ... P.S.: I also forgot to mention that in most images the vertical scale is exaggerated by a factor of about 1.5 to 2. |
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Jan 16 2010, 11:07 PM
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#4
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IMG to PNG GOD Group: Moderator Posts: 2256 Joined: 19-February 04 From: Near fire and ice Member No.: 38 |
There is no texture mapping or smoothing involved: every pixel is real 3D - The DEM itself is detailed down to the single pixel level. I suspected this from the first message but wanted to be sure. This makes this DEM even more amazing. That's the really interesting thing with this new techinque: The absence of the strong smoothing process that gives many conventional DEM-images that somewhat "washed", unnaturally soft appearance. (however: while it works perfectly for the higher frequency bands, there can be distortions in the lower frequency components ... so the DEMs in their current form could probably not be used for exact inference about variations of absolute terrain heights over larger scales (that's where MOLA and conventional stereo based techniques have advantages: so it seems natural to combine the techniques) ... It would be really interesting to see DEMs for bodies like Europa and Enceladus. Also I have a global DEM of Rhea so a comparison to my results there would be interesting. As you mentioned a DEM from your software would be far more detailed than mine but low frequency variations would be less accurate (combining results from these two approaches might be interesting for big impact basins like Tirawa). |
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Jan 16 2010, 11:16 PM
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#5
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Member Group: Members Posts: 713 Joined: 30-March 05 Member No.: 223 |
I suspected this from the first message but wanted to be sure. This makes this DEM even more amazing. It would be really interesting to see DEMs for bodies like Europa and Enceladus. Also I have a global DEM of Rhea so a comparison to my results there would be interesting. As you mentioned a DEM from your software would be far more detailed than mine but low frequency variations would be less accurate (combining results from these two approaches might be interesting for big impact basins like Tirawa). Thanks Björn, i too am interested in combing the various DEM approaches but at the moment, unfortunately lacking the time (still working on the improvement to the single-image SFS method) here is another image (a close up of gully wall) that illustrates the high detail preservation (it's not even rendered at full resolution) (click for larger version) And for Stu and and ngunn: no vertical (i.e. profile) exaggeration this time :-) |
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