meso-web

Sources of the |Méso|Star> website
git clone git://git.meso-star.fr/meso-web.git
Log | Files | Refs | README | LICENSE
commit fc5278d48b10b3b288e0c8c80adc7e3565513bbf
parent 3bba89494fe5454bf2acf38a56ad50d03e6cdf20
Author: vaplv <vaplv@free.fr>
Date:   Fri, 24 Feb 2023 16:43:16 +0100

htrdr: small updates of the overview

Diffstat:

Mhtrdr/htrdr.html.in | 21+++++++++++----------


1 file changed, 11 insertions(+), 10 deletions(-)

diff --git a/htrdr/htrdr.html.in b/htrdr/htrdr.html.in
@@ -109,11 +109,11 @@ radiance are used for computing various quantities:</p>
 <ul>
 <li>
   <p><b>Images</b> on a camera sensor, in a given field of view. For combustion
-  applications, only monochromatic images are supported. In atmospheres,
-  spectral integration is also possible, both for solar and thermal images: CIE
-  colorimetry is used for solar images, while thermal images are in fact
-  brightness temperature maps, obtained from the incoming radiative flux over a
-  specified spectral interval.</p>
+  applications, only monochromatic images are supported. In atmospheres and in
+  planetology, spectral integration is also possible, both for solar and thermal
+  images: CIE colorimetry is used for solar images, while thermal images are in
+  fact brightness temperature maps, obtained from the incoming radiative flux
+  over a specified spectral interval.</p>
 </li>
 <li>
   <p><b>Flux density maps</b>, on a grid of sensors, integrated over an entire
@@ -178,11 +178,12 @@ research projects:</p>
   <li>The development of <code>htrdr</code> began with the <a
   href="https://anr.fr/Projet-ANR-16-CE01-0010">High-Tune</a> project.
   Originally, it simulated the radiative transfer of an <b>external source</b>
-  (solar) in a scene composed of a triangulated ground and a <b>plane-parallel
-  atmosphere</b>, in the presence of a <b>cloud field</b> provided over a
-  structured grid. It was later extended in order to take into account a
-  <b>non-gray surface</b>, and the possibility to perform radiative transfer
-  computations for a <b>internal source</b> (ground and atmosphere).</li>
+  (solar) in a scene composed of a triangulated ground and an
+  <b>atmosphere</b>, neglecting Earth sphericity, in the presence of a <b>cloud
+  field</b> provided over a structured grid. It was later extended in order to
+  take into account a <b>non-gray surface</b>, and the possibility to perform
+  radiative transfer computations for a <b>internal source</b> (ground and
+  atmosphere).</li>
 
   <li>In project <a
   href="https://www.umr-cnrm.fr/spip.php?article1204">ModRadUrb</a> the