Stranica 157 [157]
cas A NI 7
36) Note that the “Output depth” will be as selected in the "input" tab (Column 1) for the
previous workflow for correction of visible-reflected images.
37) On the “Save Image” pop-up window (Figure 3-56):
Name the file according to the naming conventions outlined in Chapter 2;
Select “TIFF” from pull-down file format menu;
Click "Save" on the bottom right hand corner of the pop-up menu;
a
b
c
d) Repeat the process to save files in other formats such as J PEG, if required.
—_~ —~ —~
)
)
)
)
Generating the IRR and/or UVR false-colour image(s).
38) The IRR and/or UVR false-colour images are generated in the “falsecolour” tab (Figure
3-57) from the calibrated VIS image and the corrected IRR and/or UVR images.
65346_antonine lady.ws (Fi Technical Imaging\WP 10.3b_c meeting\Materials\ Test Images) - falsecolour - nip2
Eile Edit View Toolkits Help
input linear markup viscalib uvicalib align ! specden J fal
ur} uvistray uvkm vilstray vikm ! results +
specden.A16
Ko label | falsecolour from IR reflectance
a a
.
v
Pair_falsecolour K8 K1
K2 label | falsecolour from UV reflectance
rb one be:
targets
A
v
A
v
Pair. falsecolour K8 K10
( J
L) ]
@start| @ OQ 0] [OJ inbox...] (Wi) chap... | (Gp secs _| (P)iRAV... | (PIFio3....[ Cp Test... [38 unsav... [dd csa. | Seaich Deskio [08920 GS 1019
Figure 3-57
39) To generate the IRR false-colour image check that "X-RG" option is selected at K9. This
takes the monochrome image generated in the “linear” tab and puts this data into the R
channels in SRGB space. The red and green components of the VIS image are shifted
into the green and blue channels respectively.’
40) To generate the UVR false-colour image check that “GB-X” option is selected at K2.
This takes the monochrome image generated in the “linear” tab and puts this data into
the B channels in sRGB space. The blue and green components of the VIS image are
shifted into the green and red channels respectively.’
Version No. 1.0 149 Date : 14/10/2013