Merge pull request #6051 from nasa-gibs/UAT-v4.73.0

UAT-v4.73.0 to Release

Author: christof-wittreich

config/default/common/config/metadata/layers/prefire/PREFIRE_SAT1_Outgoing_Longwave_Radiative_Flux.md

@@ -0,0 +1,7 @@
+The Far Infrared Outgoing Longwave Radiation (OLR) Flux layer displays broadband flux measurements (W/m<sup>2</sup>) collected by the Thermal Infrared Spectrometer (TIRS-PREFIRE) aboard the PREFIRE-SAT1 CubeSat.
+
+Polar Radiant Energy in the Far InfraRed Experiment (PREFIRE) Spectral Flux from PREFIRE Satellite 1 COG (PREFIRE_SAT1_2B-FLX_COG) is derived from data collected by the PREFIRE Thermal Infrared Spectrometer (TIRS-PREFIRE) aboard PREFIRE-SAT1. Dual CubeSats each carry a PREFIRE TIRS-PREFIRE, a push broom spectrometer with 63 channels measuring mid- and far-infrared (FIR) radiation from approximately 5 to 53 µm. Most polar emissions are in the FIR but have not been measured on a large scale. PREFIRE aims to fill knowledge gaps in the global energy budget by more accurately characterizing polar emissions. This information will then be assimilated into global circulation and other models to predict future conditions more accurately.
+
+PREFIRE_SAT1_2B-FLX_COG contains Cloud-Optimized GeoTIFF (COG) files that each contain a georeferenced rendering of derived OLR values. Those OLR data values are computed from a single granule of PREFIRE Spectral Radiance (PREFIRE_SAT1_1B-RAD) data, along with inputs from PREFIRE_SAT1_2B-MSK (cloud mask), PREFIRE_SAT1_AUX-MET, PREFIRE_SAT1_AUX-SAT, and PREFIRE_SAT1_2B-CLD. As part of the rendering process, mean derived OLR values are computed for a global grid of raster elements (each approximately 2.23 km in width), based on which raster elements each PREFIRE ground footprint overlaps. This procedure is done in order to better visualize the PREFIRE data despite substantial overlap of adjacent along-track ground footprints – but it is important to remember that the individual PREFIRE ground footprints are much bigger (by about 80x, in terms of area) than each of the GeoTIFF raster elements. These cloud-optimized GeoTIFF images may be viewed using many geographic information systems (GIS).
+
+Science data retrieval started July 24, 2024 and is ongoing. Currently, the geographic coverage is for latitudes between approximately 60° to 84° in both polar regions, although future releases may include data for all latitudes equatorward of about 84°. Within the orbital swath there are eight distinct tracks of data associated with the eight separate spatial scenes for each TIRS-PREFIRE. At the beginning of the mission, the approximate scene footprint sizes were 11.8 km x 34.8 km (cross-track x along-track), with gaps between each scene of approximately 24.2 km. The entire swath was about 264 km across. Note that the scene footprint and swath sizes quoted here are for the orbit altitude soon after launch. However, the footprint and swath sizes will slowly become smaller as the orbit altitude decreases with time.

config/default/common/config/metadata/layers/prefire/PREFIRE_SAT2_Outgoing_Longwave_Radiative_Flux.md

@@ -0,0 +1,7 @@
+The Far Infrared Outgoing Longwave Radiation (OLR) Flux layer displays broadband flux measurements (W/m<sup>2</sup>) collected by the Thermal Infrared Spectrometer (TIRS-PREFIRE) aboard the PREFIRE-SAT2 CubeSat.
+
+Polar Radiant Energy in the Far InfraRed Experiment (PREFIRE) Spectral Flux from PREFIRE Satellite 2 COG (PREFIRE_SAT2_2B-FLX_COG) is derived from data collected by the PREFIRE Thermal Infrared Spectrometer (TIRS-PREFIRE) aboard PREFIRE-SAT2. Dual CubeSats each carry a PREFIRE TIRS-PREFIRE, a push broom spectrometer with 63 channels measuring mid- and far-infrared (FIR) radiation from approximately 5 to 53 µm. Most polar emissions are in the FIR but have not been measured on a large scale. PREFIRE aims to fill knowledge gaps in the global energy budget by more accurately characterizing polar emissions. This information will then be assimilated into global circulation and other models to predict future conditions more accurately.
+
+PREFIRE_SAT2_2B-FLX_COG contains Cloud-Optimized GeoTIFF (COG) files that each contain a georeferenced rendering of derived OLR values. Those OLR data values are computed from a single granule of PREFIRE Spectral Radiance (PREFIRE_SAT2_1B-RAD) data, along with inputs from PREFIRE_SAT2_2B-MSK (cloud mask), PREFIRE_SAT2_AUX-MET, PREFIRE_SAT2_AUX-SAT, and PREFIRE_SAT2_2B-CLD. As part of the rendering process, mean derived OLR values are computed for a global grid of raster elements (each approximately 2.23 km in width), based on which raster elements each PREFIRE ground footprint overlaps. This procedure is done in order to better visualize the PREFIRE data despite substantial overlap of adjacent along-track ground footprints – but it is important to remember that the individual PREFIRE ground footprints are much bigger (by about 80x, in terms of area) than each of the GeoTIFF raster elements. These cloud-optimized GeoTIFF images may be viewed using many geographic information systems (GIS).
+
+Science data retrieval started June 29, 2024 and is ongoing. Currently, the geographic coverage is for latitudes between approximately 60° to 84° in both polar regions, although future releases may include data for all latitudes equatorward of about 84°. Within the orbital swath there are eight distinct tracks of data associated with the eight separate spatial scenes for each TIRS-PREFIRE. At the beginning of the mission, the approximate scene footprint sizes were 11.8 km x 34.8 km (cross-track x along-track), with gaps between each scene of approximately 24.2 km. The entire swath was about 264 km across. Note that the scene footprint and swath sizes quoted here are for the orbit altitude soon after launch. However, the footprint and swath sizes will slowly become smaller as the orbit altitude decreases with time.

config/default/common/config/wv.json/layerOrder.json

@@ -8,7 +8,9 @@
 		"ARCSIX_SPEC-Learjet_Flight_Track",
 		"ARCSIX_G-III_Flight_Track",
 		"ARCSIX_P-3B_Flight_Track",
-    "NOAA_2025_ERI_WMTS",
+		"PREFIRE_SAT1_Outgoing_Longwave_Radiative_Flux",
+		"PREFIRE_SAT2_Outgoing_Longwave_Radiative_Flux",
+		"NOAA_2025_ERI_WMTS",
 		"HLS_S30_Nadir_BRDF_Adjusted_Reflectance",
 		"HLS_L30_Nadir_BRDF_Adjusted_Reflectance",
 		"HLS_Customizable_Landsat",

config/default/common/config/wv.json/layers/prefire/PREFIRE_SAT1_Outgoing_Longwave_Radiative_Flux.json

@@ -0,0 +1,11 @@
+{
+  "layers": {
+    "PREFIRE_SAT1_Outgoing_Longwave_Radiative_Flux": {
+      "id": "PREFIRE_SAT1_Outgoing_Longwave_Radiative_Flux",
+      "description": "prefire/PREFIRE_SAT1_Outgoing_Longwave_Radiative_Flux",
+      "tags": "",
+      "group": "overlays",
+      "layergroup": "Outgoing Radiation"
+    }
+  }
+}

config/default/common/config/wv.json/layers/prefire/PREFIRE_SAT2_Outgoing_Longwave_Radiative_Flux.json

@@ -0,0 +1,11 @@
+{
+  "layers": {
+    "PREFIRE_SAT2_Outgoing_Longwave_Radiative_Flux": {
+      "id": "PREFIRE_SAT2_Outgoing_Longwave_Radiative_Flux",
+      "description": "prefire/PREFIRE_SAT2_Outgoing_Longwave_Radiative_Flux",
+      "tags": "",
+      "group": "overlays",
+      "layergroup": "Outgoing Radiation"
+    }
+  }
+}

config/default/common/config/wv.json/measurements/Outgoing Radiation.json

@@ -3,7 +3,7 @@
         "Outgoing Radiation": {
             "id": "outgoing-radiation",
             "title":    "Outgoing Radiation",
-            "subtitle": "Aqua/AIRS",
+            "subtitle": "Aqua/AIRS, PREFIRE/TIRS",
             "sources": {
                 "Aqua/AIRS": {
                     "id": "aqua-airs",
@@ -20,6 +20,16 @@
                       "AIRS_L3_Clear_Sky_Outgoing_Longwave_Radiation_Monthly_Day",
                       "AIRS_L3_Clear_Sky_Outgoing_Longwave_Radiation_Monthly_Night"
                     ]
+                },
+                "PREFIRE/TIRS": {
+                    "id": "prefire-tirs",
+                    "title": "PREFIRE/TIRS",
+                    "description": "",
+                    "image": "",
+                    "settings": [
+                        "PREFIRE_SAT1_Outgoing_Longwave_Radiative_Flux",
+		                "PREFIRE_SAT2_Outgoing_Longwave_Radiative_Flux"
+                    ]
                 }
             }
         }