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Minimal surface solution in Python
added 1427 characters in body |
May 19 |
revised |
Minimal surface solution in Python
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May 19 |
revised |
Minimal surface solution in Python
Updated version of the question after some additional research. |
May 19 |
comment |
Minimal surface solution in Python
@MvG: see more details in my updated question. (1) The points lie approximately on the minimal surface; (2) The points describe the boundary of the, not-yet-obtained, surface (3) Ideally the kind of surface I want to obtain is a triangular mesh representation. |
May 18 |
asked | Minimal surface solution in Python |
Apr 30 |
awarded | Popular Question |
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awarded | Popular Question |
Dec 10 |
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Oct 25 |
awarded | Popular Question |
Oct 17 |
comment |
Comparison metric for two open contours
Thanks Junuxx. I implemented a similar approach: for each pixel in the segmentation result I computed the minimum distance to the ground truth curve. Then I took the maximum of this set of minimum distances as the comparison metric. This is known as Hausdorff distance |
Oct 17 |
accepted | Comparison metric for two open contours |
Oct 17 |
comment |
Comparison metric for two open contours
The curve are not closed! |
Oct 17 |
comment |
Comparison metric for two open contours
Actually I implemented an approach similar to the one suggested by Junnux, see above. |
Oct 17 |
comment |
Comparison metric for two open contours
Since both lines (free-curves) don't have the same length, when dividing then into n segments I'll end up with segments also if different length. How to compute the euclidean distance between two of such segments when their size is not the same? |
Oct 12 |
asked | Comparison metric for two open contours |