Axial Zone Imaged Based on Argo II Trackline Coverage - Calculations Based on Axial Lava Ages Forthcoming....
> In reality we had some gaps between our lines, and this is what I was trying
> to get at (the area of the gaps relative to the total axial zone area per
bin).
Yes, see the gif images below. The first
image (snap2021.gif) shows buffered tracks in the bin from 17 20' to 17 21'.
This is from ArcEdit. The yellow *outlines* the gaps in between the
buffered tracks that we did NOT image.
This second image shows a
similar situation for 17 24' to 17 25'. Some (not all) of the gaps
are outlined in yellow.
When Arc/INFO buffers, each new polygon created is flagged according to the type of area it represents. These flags are stored in an attribute called INSIDE. An INSIDE of 100 = Polygon(s) representing the buffer zone, whereas an INSIDE of 1 = Polygon(s) outside the buffer zone. Don't worry, Arc/INFO does not double count for areas overlapping in space - it dissolves arcs that cross and makes one area. At any rate, adding up the areas of the polygons that were flagged INSIDE = 1 gives us the areas of the gaps. To get the areas of the gaps relative to the total axial zone per bin wouldn't we just do:
axial area imaged / (axial area imaged + gaps in axial zone not imaged)
This gets us almost there except for the fact that a careful look at the tracklines in ArcView shows that from 17 22' - 17 26' our N-S trackline coverage extends across a zone ~300-700 m wide (to hammer the Spike of course), whereas most of the rest of our N-S tracks extend across a zone ~100-200 m wide. This doesn't necessarily mean that the axial zone is wider right at the Spike, but that we surveyed that area more intensely. So I took a crack at normalizing the axial area imaged #'s to match most of the survey where our N-S tracks spread ~100-200 m. Once again, the axis stuff excludes the first line where we were misled by DSL-120 and has the cross-axis (E-W) tracks cropped out. I did everything twice to double-check and here are the numbers - shake 'em or bake 'em! :-) ....
Lat % Axial % Axial Gap in Axis Imaged Axis & Off-Axis Range Zone Zone Coverage sq km sq km Imaged Imaged sq km (Normal) 15-16 67.22 18.73 0.01827293 0.03746944 0.10084913 16-17 54.40 54.00 0.09053014 0.10800331 0.14488528 17-18 63.28 29.60 0.03434533 0.05919528 0.07941533 18-19 67.30 48.13 0.04677313 0.09625427 0.12407049 19-20 57.74 48.97 0.07169012 0.09793433 0.11072579 20-21 65.39 48.61 0.05144755 0.09722271 0.11429322 21-22 52.17 52.74 0.09672941 0.10548781 0.13491658 22-23 32.39 54.75 0.22855634 0.10950491 0.12740967 23-24 32.51 74.05 0.30745795 0.14809319 0.17083012 24-25 27.02 140.41 0.7586354 0.28082033 0.30961728 25-26 36.68 129.51 0.44719951 0.25902779 0.35301469 26-27 57.53 76.72 0.11327095 0.15344209 0.23931063 27-28 59.12 86.66 0.11982662 0.1733137 0.18607553 28-29 66.77 105.44 0.10494127 0.21088731 0.23588539 29-30 67.20 65.31 0.06373941 0.13061589 0.15404359 30-31 51.04 58.97 0.11314374 0.11793489 0.13412114 31-32 34.32 60.35 0.23104607 0.12070435 0.13737672 32-33 55.69 68.00 0.10823257 0.13600947 0.16071625 33-34 54.82 60.24 0.0993111 0.12047759 0.13625744 34-35 47.50 68.22 0.15081526 0.13644249 0.15586993 35-36 69.71 86.06 0.07478042 0.17211391 0.24507231 36-37 56.29 90.41 0.14038662 0.18082202 0.19852866 37-38 61.05 96.67 0.12334976 0.19334782 0.22758733 38-39 58.50 68.14 0.09668797 0.13628146 0.1565233 39-40 56.17 59.78 0.09329907 0.11955956 0.14350097
> It seems like we could make a map (in GIS) of our actual (buffered)
> line coverage, and compare this in some way within GIS to the total area of
> the axial zone of each bin to calculate the geographic area that was not
> imaged in each bin, but I don't how this would be done. Let me know if you do.
I could probably make some representative maps from certain bins if these are needed for publications later. And if these calcs do indeed prove useful then I will do the same for the Hump area. Wasn't able to get to it because it takes a while to make the 1-minute latitudinal boxes that are used for cookie cutters.
Take it easy,
Dawn