diff --git a/docs/appendix/educational-resources.md b/docs/appendix/educational-resources.md
index 5933a5c746..031f832368 100644
--- a/docs/appendix/educational-resources.md
+++ b/docs/appendix/educational-resources.md
@@ -1,6 +1,6 @@
# Educational Resources
-Here at Unidata, we want to provide as many resources as possible to make our tools and applications easy to use. For AWIPS we currently have a new [eLearning course](#cave-elearning-course) that is specific to CAVE. We also have a suite of [Jupyter Notebooks](#python-awips-example-notebooks) that are meant to provide a detailed overview of many capabilities of python-awips.
+Here at NSF Unidata, we want to provide as many resources as possible to make our tools and applications easy to use. For AWIPS we currently have a new [eLearning course](#cave-elearning-course) that is specific to CAVE. We also have a suite of [Jupyter Notebooks](#python-awips-example-notebooks) that are meant to provide a detailed overview of many capabilities of python-awips.
---
@@ -12,7 +12,7 @@ Here at Unidata, we want to provide as many resources as possible to make our to
### Access
-Please create an account on Unidata eLearning, then self-enroll in Learn AWIPS CAVE.
+Please create an account on our eLearning site, then self-enroll in Learn AWIPS CAVE.
### Content
@@ -69,7 +69,7 @@ If you experience any technical issues with our online course, please contact us
### Access
-Please create an account on Unidata eLearning, then self-enroll in Learn Python-AWIPS.
+Please create an account on our eLearning site, then self-enroll in Learn Python-AWIPS.
### Content
@@ -126,11 +126,11 @@ Our python-awips Notebooks span a wide range of topics, but generally cover the
## YouTube Channel and Playlist
-Unidata has a YouTube channel where we publish videos about all of our software pacakges. Specifically we also have a playlist dedicated to AWIPS videos.
+NSF Unidata has a YouTube channel where we publish videos about all of our software pacakges. Specifically we also have a playlist dedicated to AWIPS videos.
### Access
-All [Unidata vidoes can be accessed here](https://www.youtube.com/c/unidatanews) on our channel.
+All [NSF Unidata vidoes can be accessed here](https://www.youtube.com/c/unidatanews) on our channel.
All AWIPS vidoes can be found on the [AWIPS Playlist](https://www.youtube.com/watch?v=4ax6SRyaYTc&list=PLQut5OXpV-0gk9CcjfInV9hNIEAld-Tpp).
@@ -149,7 +149,7 @@ Our AWIPS videos cover a wide range of topics, but include some of the following
## AWIPS Tips Blog Series
-AWIPS Tips is a bi-weekly (every two weeks) blog series that is posted on our Unidata blogs page. Entries in the series cover topics relating to CAVE, python-awips, EDEX, and more.
+AWIPS Tips is a bi-weekly (every two weeks) blog series that is posted on our NSF Unidata blogs page. Entries in the series cover topics relating to CAVE, python-awips, EDEX, and more.
### Access
@@ -167,11 +167,11 @@ A full list of all released blogs can be found below:
- [AWIPS 18.2.1 Software Release](https://www.unidata.ucar.edu/blogs/news/entry/awips-18-2-1-software)
- [Announcing AWIPS eLearning](https://www.unidata.ucar.edu/blogs/news/entry/announcing-a-new-elearning-course)
- [AWIPS 18.2.1-3 Software Release](https://www.unidata.ucar.edu/blogs/news/entry/awips-18-2-1-3)
-- [Access Learn AWIPS CAVE from Unidata eLearning](https://www.unidata.ucar.edu/blogs/news/entry/awips-tips-access-learn-awips)
+- [Access Learn AWIPS CAVE from our eLearning Site](https://www.unidata.ucar.edu/blogs/news/entry/awips-tips-access-learn-awips)
- [AWIPS 18.2.1-5 Software Release](https://www.unidata.ucar.edu/blogs/news/entry/awips-18-2-1-5)
- [GLM DATA IDD/LDM Feed Updates](https://www.unidata.ucar.edu/blogs/news/entry/awips-tips-glm-data-idd)
- [AWIPS 18.2.1-6 Software Release](https://www.unidata.ucar.edu/blogs/news/entry/awips-18-2-1-6)
-- [Unidata AWIPS Summer Internship 2022: Rhoen Fiutak](https://www.unidata.ucar.edu/blogs/news/entry/unidata-awips-summer-internship-2022)
+- [NSF Unidata AWIPS Summer Internship 2022: Rhoen Fiutak](https://www.unidata.ucar.edu/blogs/news/entry/unidata-awips-summer-internship-2022)
- [Announcing a New eLearning Course: Learn Python-AWIPS](https://www.unidata.ucar.edu/blogs/news/entry/announcing-a-new-elearning-course1)
- [Use Case Example: Texas A&M CAVE in the Classroom](https://www.unidata.ucar.edu/blogs/news/entry/awips-tips-use-case-example)
- [AWIPS 20.3.2-0.1 Beta CAVE Software Release](https://www.unidata.ucar.edu/blogs/news/entry/awips-tips-unidata-awips-20)
@@ -213,7 +213,7 @@ A full list of all released blogs can be found below:
#### Python-AWIPS
- [Access Model Output with Python-AWIPS](https://www.unidata.ucar.edu/blogs/news/entry/awips-tips-access-model-output)
-- [Plot New GOES Products From Unidata's Public EDEX](https://www.unidata.ucar.edu/blogs/news/entry/awips-tips-plot-new-goes)
+- [Plot New GOES Products From Our Public EDEX](https://www.unidata.ucar.edu/blogs/news/entry/awips-tips-plot-new-goes)
- [Load Map Resources and Topography using Python-AWIPS](https://www.unidata.ucar.edu/blogs/news/entry/awips-tips-load-map-resources)
- [Create a Colored Surface Temperature Plot](https://www.unidata.ucar.edu/blogs/news/entry/awips-tips-create-a-colored)
- [Create Colorized Model Plots](https://www.unidata.ucar.edu/blogs/news/entry/awips-tips-create-colorized-model)
diff --git a/docs/cave/cave-localization.md b/docs/cave/cave-localization.md
index ab30daf21a..4e5f6e7e3b 100644
--- a/docs/cave/cave-localization.md
+++ b/docs/cave/cave-localization.md
@@ -2,7 +2,7 @@
## Localization Preferences
-The default localization site for Unidata AWIPS is OAX (Omaha, Nebraska, where the Raytheon team is located). When you are prompted to connect to an EDEX server, you can change the WFO ID as well.
+The default localization site for NSF Unidata AWIPS is OAX (Omaha, Nebraska, where the Raytheon team is located). When you are prompted to connect to an EDEX server, you can change the WFO ID as well.
diff --git a/docs/cave/cave-perspectives.md b/docs/cave/cave-perspectives.md
deleted file mode 100644
index 9be2286320..0000000000
--- a/docs/cave/cave-perspectives.md
+++ /dev/null
@@ -1,68 +0,0 @@
-
-# D2D
-
-D2D (Display 2-Dimensions) is the default AWIPS CAVE perspective, designed to mimmic the look and feel of the legacy AWIPS I system. Frame control, map projection, image properties, and a few featured applications make up the the primary D2D toolbar.
-
-
-
-
-* **CONUS** is the default map display of the continental United States in a North Polar Stereographic projection. This menu allows you to select different projections.
-
-* **Clear** will remove all non-system resources (meaning data) while preserving any map overlays you have added to the view.
-
-*  is a shortcut to **Image Properties** for the top-loaded image resource in the stack.
-
-*  freezes and un-freezes panning (movement) of the map.
-
-* **Valid time seq** is the default time-matching setting for loading data. Select this menu to switch to configurations such as Latest, No Backfill, Previous run, Prognosis loop, and more.
-
-*  controls the frame number, display, speed, etc. You can also control the frames with the left and right keyboard keys.
-
-* Application links to **Warngen**, **Ncdata** (NCP GEMPAK-like grids), **Nsharp**, and the **Product Browser** are also available.
-
-
-
-# Switching Perspectives
-
-D2D is one of many available CAVE perspectives. By selecting the **CAVE** > **Perspective** menu you can switch into the **GFE**, **Hydro**, **Localization**, **MPE**, or **National Centers Perspective** (which is available in the **Other...** submenu. Nobody seems to know why the NCP is not listed with the other perspectives, or how to make it appear with them).
-
-
-
-
-
-
-
-# Resource Stack
-
-At bottom-right of the map window the the Resource Stack, which displays all loaded resources and map overlays, and allows for interaction and customization with the resource via a **right-click menu**.
-
-## Left-Click Resource Name to Hide
-
-A left click on any resource in the stack will hide the resource and turn the label gray. Clicking the name again makes the resource visible.
-
-
-
-## Hold-Right-Click Resource Name for Menu
-
-Drag the mouse over a loaded resource and **hold** the right mouse button until a menu appears (simply clicking the resource with the right mouse button will toggle its visibility).
-
-The hold-right-click menu allows you to control individual resource **Image Properties**, **Change Colormaps**, change resource color, width, density, and magnification, **move resources up and down** in the stack, as well as configure custom options with other interactive resources.
-
-
-
-## Hold-Right-Click the Map Background
-
-for additional options, such as greater control over the resource stack legend, toggling a **4-panel display**, selecting a **Zoom** level, and setting a **Background Color**. Most loaded resources will also have a menu option for reading out the pixel values:
-
-
-
-
-# Product Browser
-
-The Product Browser allows users to browse a complete data inventory in a side window, organized by data type. Selections for **GFE**, **Grids**, **Lightning**, **Map Overlays**, **Radar**, **Satellite**, **Redbook**, and **VIIRS** are available. All products loaded with the Product Browser are given default settings.
-
-
-
-
-
-
diff --git a/docs/cave/d2d-all-tools.md b/docs/cave/d2d-all-tools.md
index 84418601df..edfae28c26 100644
--- a/docs/cave/d2d-all-tools.md
+++ b/docs/cave/d2d-all-tools.md
@@ -198,7 +198,7 @@ This tool converts the units of the first column into differing units of the sec
### Text Workstation
-By selecting one of the "Text" buttons, a text window opens up. In National Weather Service operations, the text workstation is used to edit new warning text as well as look up past warnings, METARs, and TAFs. This functionality is **disabled** in the Unidata AWIPS version.
+By selecting one of the "Text" buttons, a text window opens up. In National Weather Service operations, the text workstation is used to edit new warning text as well as look up past warnings, METARs, and TAFs. This functionality is **disabled** in the NSF Unidata AWIPS version.
diff --git a/docs/cave/d2d-grids.md b/docs/cave/d2d-grids.md
deleted file mode 100644
index 2dbccba215..0000000000
--- a/docs/cave/d2d-grids.md
+++ /dev/null
@@ -1,70 +0,0 @@
-
-## MSLP and Precipitation
-
-
-
-## Sfc Temperature and Wind
-
-
-
-## Sfc Dewpoint Temperature
-
-
-
-## Sfc Relative Humidity
-
-
-
-## 30mb Mean Dewpoint
-
-
-
-## Precipitable Water
-
-
-
-## Simulated Reflectivity (REFC)
-
-
-
-## Lightning Threat
-
-
-## Precip Type / Moisture Transport
-
-
-
-## Vorticity (500mb)
-
-
-
-## Vertical Velocity (500mb, 700mb, 850mb)
-
-
-
-## Thickness / Vorticity Advection (Trenberth)
-
-
-
-## Wind / Height (850mb, 700mb, 500mb, 300mb, 250mb)
-
-
-
-## Potential Vorticity (250mb)
-
-## Helicity / Storm-Relative Flow
-
-
-## Hail Parameters
-
-
-
-## MCS Parameters
-
-
-
-## Isentopic Analysis (270K-320K)
-
-
-
----
diff --git a/docs/cave/d2d-hydro.md b/docs/cave/d2d-hydro.md
deleted file mode 100644
index 8c4a9e8760..0000000000
--- a/docs/cave/d2d-hydro.md
+++ /dev/null
@@ -1,72 +0,0 @@
-
-The NCEP/Hydro menu contains nine sections: SPC, TPC, NCO, HPC, MPC, CPC, AWC, Hydro, and Local Analyses/Statistical Guidance. Each section is further subdivided into related products, as described below. For more information on hydro products, refer to documentation prepared by the NWS' Office of Hydrology.
-
-# SPC
-
-Storm Prediction Center (SPC) Watches, Severe Weather Plots, SPC Convective Outlooks, and Fire Weather information. Severe Weather Plots are extracted from the STADTS and STAHRY text products and plotted to time-match the current display. The Severe Weather Plots data set in the NCEP/Hydro Menu can be interrogated (sampled) for more detailed information by clicking mouse Button 1 (B1) over a site.
-
-# TPC
-
-Contains the hurricane submenu, which comprises graphic products that display the Marine/Tropical Cyclone Advisory (TCM), the Public Tropical Cyclone Advisory (TCP), hourly forecasts, and model guidance.
-
-
-# HPC
-
-Contains 6-hour QPF (Quantitative Precipitation Forecast) data plus the submenus, described
-below, for Precipitation and Temps & Weather products.
-
- * **Precipitation** Contains probabilities of daily precipitation, precipitation accumulation, and probabilities of daily snowfall. In addition, this submenu enables you to display QPF projections for 1 to 3 days in 6 hour increments, 4 to 5 days in 48 hour increments, and 1 to 5 days in 120 hour increments. The HPC Excessive Rainfall product consists of a contour graphic and image of the excessive rainfall for day 1 (with forecast times of 21, 24, 27, or 30 hours), and days 2 and 3 (both with forecast times of 48 and 72 hours). The HPC product will update the selected forecast cycle twice per day.
-* **Temps & Weather** Contains daily Max/Min temperature anomalies, daily heat index
-probabilities, and pressure and frontal analysis.
-
-# MPC
-
-Contains the Marine Guidance submenu, which includes marine analyses and model guidance. Note that the Marine Prediction Center (MPC) is now called the Ocean Prediction Center (OPC).
-
-# CPC
-
-Contains threat charts and outlook grids derived from these two submenus:
-
-* **Threat Charts** Contains drought monitoring data, daily threats assessment, and daily heat index forecasts.
-* **Outlook Grids** Contains temperature and precipitation probabilities.
-
-# AWC
-
-Contains CCFP (Collaborative Convective Forecast Product), an aviation product. Formerly located under the Aviation option on the Upper Air menu, CCFP is a strategic forecast of convection to guide traffic managers in their system-wide approach to managing traffic. The forecast suite consists of 3 forecast maps with selectable lead times (4, 6, and 8 hours). The forecasts are issued by the Aviation Weather Center (AWC) between March 1 and October 30, eleven times per day.
-
-CCFP is alpha-numeric information suitable for the graphical depiction of forecast areas of significant thunderstorms. The CCFP message covers the CONUS area, and includes information on the location of thunderstorm areas, and associated information such as storm tops, coverage, confidence, and direction/speed of movement.
-
-
-# NCO
-
-Contains Precip & Stability, Temps & Weather, National Centers model, NGM MOS (NGM-based MOS system), and the following Sounding-derived plots submenus.
-
-* **Precip & Stability**: Contains precipitation, radar, and stability products.
-* **Temps & Weather**: Contains Max/Min temperature, freezing level, weather depiction, and surface geostrophic wind and relative vorticity plots.
-* **National Centers Models**: Contains model guidance from the National Centers
-* **Sounding-derived plots**: Contains options to display model soundings (sometimes called "BUFR soundings" because they are packaged in BUFR format for transmission). These are soundings extracted directly from the model, including all levels not generated from the pressure-level grids used elsewhere in the system.
- * **Sounding Availability** This option displays the sounding locations (shown with asterisks) available from the latest model run; typically these locations coincide with TAF (Terminal Aerodrome Forecast) locations. The plot will update with each model run. Because the sounding data is quite voluminous, only soundings over your State(s) scale are saved.
- * **Surface** The Surface Plots, which mimic the METAR Surface Plots, are taken from the model-derived soundings and provide hourly forecast surface plots. Because you cannot see all forecast projections in a 32 frame loop (e.g., displaying the entire North American Model (NAM) or Global Forecasting System (GFS) run would require 61 frames), you will probably want to use the Time Options Tool (refer to Subsection 2.2.6.4) to view a subset of the forecast -- perhaps a continuous run of hours or every other hour for the whole run.
- * **Ceiling/Visibility** The "Ceil/Vis Plot" shows weather (rain, frz rain, snow) on the right, a stack of three cloud layers above, and visibility below the METAR station. The cloud layers are defined as low (990mb-640mb), mid (640mb-350mb), and high (<350mb). Each cloud layer shows a coverage circle with clear, sct, bkn, and ovc options. Next to one of the circles, there may be a cloud base. The cloud base is sent as a pressure, but is plotted in hft MSL based on a Standard Atmosphere conversion. Because the cloud layers and the cloud base are generated from separate algorithms at NCEP (National Centers for Environmental Prediction), it is possible to have broken or overcast clouds indicated but no base; alternatively, the base may be shown with a high overcast, while ignoring a mid broken layer. Also, a cloud base is reported if convective precipitation is indicated, even for only 10-20% cloud cover. As a result, one can see a cloud base associated with scattered clouds.
- * **1 Hr and 3 Hr Precip Amt** This option shows hourly amounts for NAM and 3 hour intervals for GFS at each location.
- * **Cloud Layers** This option displays the amount of low, middle, and high cloud cover, each as a standard sky coverage symbol, and weather type as a weather symbol.
-
-
-# Hydro
-
-Contains QPE, QPF, and RFC Flash Flood Guidance submenus. Hydro Applications, such as HydroView and MPE Editor, are loaded from the Perspectives dialog (Hydro and MPE, respectively) or from the HydroApps menu in the Hydro(View) Perspective (Hydrobase, RiverPro, XDAT, Forecast Service, River Monitor, Precip Monitor, SSHP, and Dam Catalog).
-
-* **QPE**: Makes available mosaic images of RFC-generated Quantitative Precipitation Estimator (QPE) and the Multisensor Precipitation Estimator (MPE) grids, which are displayed using a 'truncated' grid color table that shows zero values in gray to let you see the limits of the site-specified domain. These mosaic images are generated by the RFCs in 1, 6, and 24 hour cycles. The MPE grids can be displayed as local contours or images.
-
- * **NESDIS** produces two types of Satellite Precipitation Estimates (SPE) based on GOES (Geostationary Operational Environmental Satellite) imagery series: Auto SPEs and Manual SPEs. Auto SPEs, which can be displayed directly from the QPE submenu, are produced hourly based on the most recent one-hour series of IR GOES imagery. This product is displayable on any AWIPS scale. The Auto SPE estimates are displayed in units of inches of precipitation that fell during the specified one hour period.
- * **Manual SPEs** are accessible through the Manual SPE submenu. You can access the Manual SPE submenu from the QPE submenu. Generation of these products requires substantial manual intervention by NESDIS personnel; consequently, these products are generated and distributed to AWIPS at variable frequencies, as significant precipitation events warrant (i.e., their frequency is variable). The duration (or valid period) of the Manual SPEs is also variable. Whereas the duration of Auto SPEs is always one hour, the duration of the Manual SPEs ranges from 1 to 12 hours. Furthermore, although each Manual SPE product is mapped to a CONUS grid, the area of analysis is usually regional (focusing on the significant precipitation event). Apart from these important differences, the Manual SPEs are very similar to the Auto SPEs.
-
-* **QPF**: Displays QPF, which indicate how much precipitation will occur in a particular grid. QPFs, which are issued by the RFCs, display as contours by default. However, from the pop-up menu you can convert them to image form.
-* **RFC Flash Flood Guidance**: Displays County and Zone Flash Flood Guidance (FFG) grids on any scale. The area for which the data is displayed is limited, but the site system manager may configure a larger area. In addition, 1h, 3h, and 6h mosaic RFC-generated FFG grids can be displayed for both local and other RFC locations.
-
-# Local Analyses/Statistical Guidance
-
-Model Output Statistical (MOS) plots derived from the MOS BUFR and Text Bulletins display forecast data for GFS MOS, GFS-Extended MOS, Eta MOS, and NGM MOS. The plots are accessed by selecting NGM or GFS-LAMP/MOS forecasts under the Local Analyses/Statistical Guidance option.
-
-
-
diff --git a/docs/cave/d2d-map-resources.md b/docs/cave/d2d-map-resources.md
deleted file mode 100644
index 5d502c18fd..0000000000
--- a/docs/cave/d2d-map-resources.md
+++ /dev/null
@@ -1,9 +0,0 @@
-
-These programs are accessible though the **Maps** dropdown menu.
-
-
-* Interstates
-* Interstates and US Highways
-* Warning Areas (with station identifier)
-* WSR-88D Station Locations
-
diff --git a/docs/cave/d2d-perspective.md b/docs/cave/d2d-perspective.md
index 940b9e5d8a..56f163ec92 100644
--- a/docs/cave/d2d-perspective.md
+++ b/docs/cave/d2d-perspective.md
@@ -187,6 +187,8 @@ Switching perspectives in CAVE can be found in the **CAVE > Perspective** menu.
D2D is one of many available CAVE perspectives. By selecting the **CAVE** > **Perspective** menu you can switch into the **GFE**, or **Localization** perspective.
!!! warning "The **GFE** perspective is not currently working on the direct Windows or MacOS installations of CAVE."
+!!! note "The GFE perspective is only enabled for the OAX site."
+
diff --git a/docs/cave/d2d-pointdata-surface-obs.md b/docs/cave/d2d-pointdata-surface-obs.md
deleted file mode 100644
index 601a81fb2d..0000000000
--- a/docs/cave/d2d-pointdata-surface-obs.md
+++ /dev/null
@@ -1,70 +0,0 @@
-
-Several of the data sets in the Obs menu can be interrogated (sampled) for more detailed information by clicking mouse Button 1 (B1) over a site. These data sets include METAR, Maritime, and Local. The Obs menu is subdivided into sections that contain related products. These sections are described below.
-
-# METAR
-
-This section contains automatically updating METAR observations, ceiling and visibility plots, wind chill and heat indices, precipitation plots at various time intervals, and quality-checked MSAS observations. The 24hr Chg METAR plot provides the difference between the observed temperature, dewpoint, pressure, and wind from those observed 24 hours earlier. The calculation of the wind difference involves vector subtraction of the "u" and "v" components.
-
-# Synoptic
-
-This section contains automatically updating Synoptic observations, and 6 hour and 24 hour precip plots. Note that this section of the menu is not present at most sites.
-
-# Maritime
-
-This section contains buoy and ship report plots, plus SAFESEAS for the Marine WFOs.
-
-* **MAROB** displays include Station Plots
-* The **Other Maritime Plots** cascading menu contains options to display the Fixed and Moving Sea State plots, MAROB Sea State and Cloud/Vis plots, Maritime Clouds/Visibility plots, as well as the Scatterometer Winds.
- * **Sea State** plots provide information on the wave period and height and swell period and height. The wave type, whether a standard wave or a wind wave, is denoted at the origin of the plot by a "+" or a "w", respectively. An "x" at the plot origin signifies that no wave type was reported. If reported, the directions of the primary and secondary swells are denoted with arrows labeled "1" and "2", respectively. The arrows point in the direction the swell is moving.
- * **Maritime Clouds/Visibility** plots contain a station circle denoting sky coverage and the visibility along with standard symbols for obstructions to visibility.
- * **Scatterometer Winds** are obtained from the ASCAT instrument on EUMETSAT's MetOp-A polar orbiting satellite. This instrument sends pulses of radiation to the ocean surface and measures the amount of energy, called backscatter, it receives back. When you sample these observations, the time, satellite ID, wind direction, and wind speed are provided. With the polar orbiting scanning, a given region will generally be sampled about every 12 hours. ASCAT Winds (25 km retrieval resolution but interpolated and displayed at 12.5 km resolution) can be launched from either the CAVE Obs menu or from the Satellite menu You can access the Scatterometer Winds menu options by selecting **Surface** > **Other Maritime Plots** > **Scatterometer Winds**. The ASCAT Scatterometer Ocean Winds product is displayable on CAVE at all scales: N. Hemisphere, North America, CONUS, Regional, State(s), and WFO.
-
-
-
-
-
-
-* **Local Storm Reports**: Local Storm Report (LSR) plots are generated from spotter reports
-that were entered into the LSR text database and decoded into the correct point data format. The LSR graphical user interface (GUI) is a stand-alone AWIPS application designed to provide forecasters with an easy and quick way to create, manage, and send the LSR public text product. This text product contains noteworthy weather events for which the forecaster has either received or sought out real-time observations.
-
-
-
-# National Convective Weather Forecast (AWC)
-
-The [National Convective Weather Forecast](https://www.aviationweather.gov/products/ncwf/) (NCWF) is an automatically generated depiction of current convection and extrapolated significant current convection. It is a supplement to, but does not substitute for, the report and forecast information contained in [Convective SIGMETs](). The NCWF contains both GRIB and BUFR output. The GRIB output delineates the current convection. The BUFR output includes hazardous convection area polygons, movement arrows, and storm top and speed text information.
-
-The NCWF display bunlde renders **storm tops and movement**, **previous performance polygons**, **1-hour extrapolation polygons**, and **current convective interest grid** (colorbar).
-
-
-
-# Center Weather Advisories (CWA)
-
-The [CWA](https://aviationweather.gov/cwamis/help) is an aviation weather warning for conditions meeting or approaching national in-flight advisory (AIRMET, SIGMET or SIGMET for convection) criteria. The CWA is primarily used by air crews to anticipate and avoid adverse weather conditions in the en route and terminal environments. It is not a flight planning product because of its short lead time and duration.
-
-Shown with NEXRAD DHR composite:
-
-
-
-# MOS Products
-
-These plots are derived from the MOS BUFR Bulletins. The previous MOS plots were derived from the MOS Text Bulletins. The plots display forecast data for GFS MOS, GFS-Extended MOS, and NGM MOS. Submenus under each model reveal the element choices. These displays include:
-
-* Station Model Plots (Wind, T, Td, Sky Cover, Wx)
-* MaxT/MinT (°F)
-* Ceiling (agl) / Visibility (ft × 100) (Categorical)
-* Probabilities Submenu (6h/12h PoP, 6h/12h Tstorm, 6h/12h Svr-Tstorm, Conditional precipitation types; %)
-* QPF 12h (Categorical mid-points; inches)
-* QPF 6h (Categorical mid-points; inches)
-* Snowfall (6h/12h/24h, Categorical; inches)
-
-
-
-
-# Lightning
-
-This menu item provides three options for displaying lightning flash plots over specified 1 minute, 5 minute, 15 minute and 1 hour intervals.
-
-* **[USPLN (United States Precision Lightning Network)](https://www.unidata.ucar.edu/data/lightning/uspln.html)**: WSI Corporation USPLN lightning data has been made available exclusively to universities for education and research use. Unidata serves USPLN lightning stroke data from the `LIGHTNING` LDM data feed. Registration is required to request this data, and the free feed is available on an annually renewed basis. USPLN data is not available to the public.
-* **[NLDN (National Lightning Detection Network)](http://www.vaisala.com/en/products/thunderstormandlightningdetectionsystems/Pages/NLDN.aspx)**: The NLDN option plots cloud-to-ground (CG) lightning flashes for specified time intervals across the continental United States. NLDN lightning data can be displayed as a grid image displaying the cloud-to-ground density values for a selected resolution (1km, 3km, 5km, 8km, 20km, and 40km).
-* **[GLD (Global Lightning Dataset)](http://www.vaisala.com/en/products/thunderstormandlightningdetectionsystems/Pages/GLD360.aspx)**: The GLD option plots cloud-to-ground (CG) lightning flashes for specified time intervals on a global-scale. GLD lightning data can also be displayed as a grid image displaying the cloud-to-ground density values for a selected resolution (1km, 3km, 5km, 8km, 20km, and 40km).
-* **[ENI Total Lightning](https://www.earthnetworks.com/networks/lightning/)**: In addition to displaying CG lightning flashes, the Total Lightning option also displays Cloud Flash (CF) lightning and Pulses. CF lightning are lightning flashes which do not strike the ground such as in-cloud, cloud-to-cloud, and cloud-to-air lightning. Lightning pulses are electromagnetic pulses that radiate outward from the lightning channel. ENI total lightning data can be displayed as a grid image displaying the cloud-to-ground, cloud flash, and lightning pulse density values for a selected resolution (1km, 3km, 5km, 8km, 20km, and 40km).
diff --git a/docs/cave/d2d-radar.md b/docs/cave/d2d-radar.md
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-
-# NEXRAD Radar Display
-
-The Unidata D2D Perspective features a selectable NEXRAD station display over a loop of the [FNEXRAD](https://www.unidata.ucar.edu/data/radar.html#fnexrad) Digital Hybrid Reflectivity product. Selecting any station will open a two-panel reflectivity and velocity view for the selected station.
-
-
-
-
-
-# NEXRAD & TDWR Station Menus
-
-Individual NEXRAD station menus are accessible in **Radar** > **NEXRAD Stations** and are grouped alphabetically for a condensed submenu structure. With only the NEXRAD3 feedtype (NEXAD2 being disabled), notice that only some of the menu items will out with available data.
-
-
-
-
-
-# Best Res Z+SRM8 / Z+V
-
-The radar combination products Z+SRM and Z+V are precombined formats of the reflectivity and storm relative motion or velocity, displayed together via a single menu selection. SRM products include the storm motion vector information, which is plotted in the upper left corner of the Main Display Pane.
-
-
-
-
-
-# 4-panel Z+SRM, ZDR+V, KDP+HC, CC+SW
-
-
-# 4-panel Z, ZDR, HC+KDP, CC
-
-This section enables you to load multiple base and dual-pol products, which are then simultaneously displayed. The label of this section of the menu describes the format for loading the products: Z+SRM in the upper left quadrant, ZDR+V in the upper right quadrant, KDP+HC in the lower left quadrant, and CC+SW in the lower right quadrant. Primary dual-pol base data analysis is best accomplished using the **All Tilts base data** option (4 panel all tilts with 8 products loaded), though you may use the single tilts (e.g., 0.5 base data) for longer time duration loops.
-
-To load 4 panel displays containing multiple elevation angles of the same product, you would
-select the **four panel** option and then select the desired set of 4 panels from the **four
-panel** submenu.
-
-
-
-All Tilts allows you to step or animate in either space or time. Selecting one of the All Tilts buttons will load all the tilts available from the latest volume scan. It will continue to load tilts from previous volume scans until it has loaded as many frames as indicated on the frame count menu. Auto updates will add higher tilts from the latest volume scan, replacing a tilt from the oldest volume.
-
-After loading an All Tilts display, **Shift + LEFT ARROW** and **Shift + RIGHT ARROW** and looping will take you through the frames in the order in which the system loaded them (without regard to volume scan or tilt). The **UP ARROW** and **DOWN ARROW** will step the display up or down in a volume scan allowing the tilts to change for a fixed time. The **RIGHT ARROW** and **LEFT ARROW** will step the display forward or backward through time at a fixed tilt. Once you have set the mode of motion (vertical or time), the **Page Up/Page Down** keys will start and adjust loop speed. To switch from vertical to time mode or from time to vertical mode, press the desired arrow key.
-
-If you hit the up or down arrow key in a standard (not All-Tilts) display, looping and stepping are disabled until you hit either the left or right arrow key or one of the stepping buttons on the menu. Once an arrow key (Left, Right, Up, Down) has been pressed, the stepping/animation controls on the main window toolbar and the **Page Up/Page Down** keys will function in that same mode. For example, assume the **UP ARROW** or **DOWN ARROW** key is pressed; the menu controls will now operate through the tilts at a fixed time, e.g., you can go to the lowest tilt by selecting the First Frame iconified button.
-
-# Best Res Base Products
-
-This section is divided into two parts. The upper part lists individual products: four base products and three dual-pol products (ZDR, CC, and KDP). The lower part includes submenus for accessing multiple products and applications. The following describes the submenus grouped in the lower part of the Best Res Base Products section.
-
-* **Precip**: In addition to the QPE dual-pol products, this submenu includes the legacy precip products, which include Storm Total, One Hour, Three Hour, and User Selectable precipitation products. A suite of snowfall products is also available on the **Precip** submenu. All are available for request (OTR, RMR), and the first four can be added to an RPS (Routine Product Set) list. All of these products are available on any scale.
-* **Derived Products**: The Derived Products submenu includes Layer Reflectivity, Cross Section, and Other products displayed on any scale. Derived products include precipitation, storm (mesocyclone, hail, tornado), and wind derivations.
-* **Algorithm Overlays**: The Algorithm Overlays submenu includes legacy algorithm overlays and the ML dual-pol overlay.
-* **four panel**: The four panel submenu includes menu entries for Z+V, Z+SRM 8- and 4-bit, and some other combinations that are presented in 4-panel mode, with a different elevation angle or product in each panel.
-* **Data Quality**: The Data Quality products, accessible by a pull-right submenu, include Clutter Filter Control and reflectivity and velocity clutter probability products.
-* **4-bit/Legacy Prods**: The 4-bit/Legacy Prods submenu uses generic selectors that load 8-bit (256 level) data, with legacy 4-bit (16 level) and 3-bit (8 level) data filling in when no 8-bit data is available.
-* **Radar Applications**: The Radar Applications submenu provides access to all the radar applications and radar tools.
-
-
-
-
-
-
-# MRMS
-
-
----
-
-# FNEXRAD Composites
-
-## DHR
-
-
-
-## DLV
-
-
-
-## EET
-
-
-
-## HHC
-
-
-
-## DAA
-
-
-
-## DTA
-
-
-
----
-
-# Mosaic Radar Plots
-
-Mosaics available via this menu use data from up to nine nearby radars. Additional optional
-mosaics on cascading menus provide a limited list of radar products from a predefined set of WSR-88D radars within a given region. Your System Manager or site Administrator can set up such mosaics by: `/awips2/edex/data/utility/common_static/site//radar/radarInUse.txt`. A mosaicInfo.txt table will only work while logged on to an AWIPS workstation.
-
-## N0Q
-
-## DSP
-
-## DTA
-
-## DAA
-
----
-
-# Radar Applications
-
-## Estimated Actual Velocity (EAV)
-
-A velocity (V) display from the radar shows only the radial component of the wind, so the indicated
-speed depends on the direction of the wind and the azimuth (direction) from the radar. Consider, for example, a north wind. Straight north of the radar, the full speed of the wind will be seen on the V product. As one moves around to the east of the radar, the radial component gets smaller, eventually reaching zero straight east of the radar. If the wind direction is known, then the actual wind speed can be computed by dividing the observed radial speed by the cosine of the angle between the radar radial and the actual direction. The EAV tool allows you to provide that angle and use the sampling function of the display to show the actual wind speed.
-
-
-
-## Four-dimensional Stormcell Investigator (FSI)
-
-The [Four-dimensional Stormcell Investigator (FSI)](http://www.nws.noaa.gov/mdl/fsi/) was developed by the National Severe Storms Laboratory for its Warning Decision Support System Integrated Information. This technology allows users to create and manipulate dynamic cross-sections (both vertical and at constant altitude), such that one can “slice and dice” storms and view these data in three-dimensions and across time.
-
-
-## V-R Shear
-
-This tool is used in conjunction with Doppler velocity data to calculate the velocity difference (or "shear") of the data directly under the end points. As with the Baselines, this feature comes up editable and the end points can be dragged to specific gates of velocity data. When in place, the speed difference (kts), distance between end points (nautical miles), shear (s-1), and distance from radar (Nmi) are automatically plotted next to the end points and in the upper left corner of the Main Display Pane. A positive shear value indicates cyclonic shear, while a negative value indicates anticyclonic shear. If either end point is not directly over velocity data, the phrase "no data" is reported for the shear value. This tool is also useful in determining gate-to-gate shear. Simply place the two end points directly over adjacent gates of velocity data.
-
-* **"Snapping" VR Shear**: If you are zoomed in over an area when you load VR - Shear, and the VR - Shear Baseline does not appear, click B3 to "snap" the Baseline to where the mouse cursor
-is located.
-* **VR - Shear in 4 Panel**: You can use the VR - Shear Tool when the large display is in 4 panel
-mode. The VR - Shear overlay is loaded in different colors for each panel. There are actually
-four copies of the program running, and each behaves independently. This means that you can
-get accurate readings in any one of the four panels — one VR - Shear panel is editable at a time. To activate, click B2 on the VR - Shear legend in the desired panel and position the query line to
-the echoes of interest.
diff --git a/docs/cave/d2d-satellite.md b/docs/cave/d2d-satellite.md
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-
-## NOAAport GINI imagery
-
-## Uniwisc McIDAS AREA files
-
-
-## VIIRS
-
-VIIRS is one of five instruments onboard the NPP satellite. VIIRS' mission is to collect radiometric imagery in visible and infrared wavelengths of the Earth's surface; this includes observing fires, ice, ocean color, vegetation, clouds, and land and sea surface temperatures, and supplying high-resolution images and data used by meteorologists to assess climate change and improve short-term weather forecasting.
-
-The VIIRS submenu option provides VIIRS imagery and moderate band satellite displays for the
-CONUS, Alaska, and Pacific regions. In addition to accessing the NPP Product VIIRS data via the Satellite menu, the VIIRS Imagery data can also be accessed using the **Product Browser**.
-
-## GOES and POES Sounding Data
-
-GOES and POES Sounding Data Availability Plots displays the locations where GOES and POES temperature and moisture profiles are available. These soundings are displayed on a Skew-T/log P chart using the Points tool and the Volume Browser. Soundings from the GOES satellites are made only in relatively cloud-free areas, whereas POES systems produce temperature and moisture soundings in clear and cloudy atmospheres. Each hour, NESDIS provides the latest soundings from GOES East and West. Although the GOES East and West sounders yield soundings over a broad area, the default AWIPS configuration retains soundings only from within each site's Regional CAVE scale domain. POES soundings are generated approximately every 12 hours and have more global coverage.
-
-
-## POES Imagery
-
-The POES Imagery section of the Satellite menu contains selectors for IR Window, Visible, 3.7µ, and 11-3.7µ products. These are viewable on all scales.
-
-
-## Sounder Imagery
-
-The products available from the Sounder Imagery submenu are based purely on the imager instruments aboard the GOES East (GE) and GOES West (GW) satellites.
-
-
-## Derived Products Imagery
-
-A variety of precipitation products are accessible from the Derived Products submenu. These products are derived from one or more of the various satellites (e.g., DMPS, POES, GOES, and GPS). Descriptions of the products follow.
-
-The Blended Rain Rate (formerly Rainfall Rate) product is produced hourly to gather recent rain rate retrievals from passive microwave instruments on six polar-orbiting satellites. The blended rain rate eliminates the bias between those data sets and provides a unified, meteorologically significant rain rate field to weather forecasters.
-
-The GOES products derived from the GOES satellite include Lifted Index, Total Precip Water (TPW), Cloud Amount, Cloud Top Height, Skin Temperature, and Low Cloud Base. Because the imagery from these products is based on the GOES sounder instrument, several important differences exist between these products and the other (imager-based) imagery. The main differences are that the resolution is no finer than 10 km, the product update frequency is driven by the sounder instrument (AWIPS receives a set of GOES East/West composite derived product images once per hour), and the aerial coverage is based on that of the sounder scans, which is somewhat less than the aerial coverage provided by the imager. Descriptions of the products follow.
-
-* **Lifted Index** is a common measure of instability. Its value is obtained by computing the temperature that air near the ground would have if it were lifted to some higher level (usually around 18,000 feet), and comparing that temperature to the actual temperature at that level. The more negative the value, the more instability there is.
-* **Total Precip Water** is the vertically integrated water vapor content in a column extending from the earth's surface to the top of the atmosphere.
-* **Cloud Amount** provides an hourly update of cloud amounts within a geostationary satellite field of view. You can loop through the display to identify increasing/decreasing cloud conditions and trends.
-* **Cloud Top Height** is the height of the cloud in thousands of feet (base - top). Skin Temperature is the sea surface temperature of the ocean surface water.
-* **Low Cloud Base** provides nighttime images of fog and low stratus clouds derived from a combination of two GOES IR channels. This product identifies cloud ceilings of <1000 feet and is generated hourly starting between 2042 and 2142 GMT, and ending between 1510 and 1610 GMT the next day. This product is beneficial to the warning and forecast processes specific to aviation and terminal forecasting
-
-The Total Precip Water (TPW) value can also be derived from the data sources of DMSP, SSM/I (Defense Meteorological Satellite Program Special Sensor Microwave / Imager), and POES AMSU (POES Advanced Microwave Sounding Unit) satellites, which are accessed from the DMSP SSM/I, and POES AMSU sections of the submenu.
-
-Variations of TPW ("Blended Total Precip Water" and "Percent of Normal TPW") are selectable
-under the AMSU and SSM/I + GPS section.
-
-* The **Blended Total Precip Water** product is a blend of the various data sources of AMSU,
-SSM/I, and GPS satellites, and can be over water or land.
-* **The Percent of Normal TPW** product is calculated at various times (hourly, monthly,
-seasonally, etc.) to determine departures from the normal. From the information obtained,
-forecasters can predict the chances of having a below average, normal, or above average
-precipitation in the upcoming months.
-
-
-## SSM/I Point Data
-
-SSM/I Point Data plot displays data collected over the course of a day for calculating ocean wind speeds.
-
-
-## GOES High Density Winds
-
-GOES High Density Winds submenu has options to display satellite-derived multi-layer winds plots from the IR, Visible, and three Water Vapor channels. In addition, you can display individual layers that display a composite of all the satellite channels.
-
-## MTSAT High Density Winds
-
-MTSAT High Density Winds cover the Western Pacific.
-
-## ASCAT winds (25 km)
-
-Scatterometer Winds are obtained from the ASCAT instrument on EUMETSAT's MetOP-A polar orbiting satellite. This instrument sends pulses of radiation to the ocean surface and measures the amount of energy, called backscatter, it receives back. When you sample these observations, the time, satellite ID, wind direction, and wind speed are provided. With the polar orbiting scanning, a given region will generally be sampled about every 12 hours.
-
-ASCAT winds (25 km retrieval resolution but interpolated and displayed at 12.5 km resolution) are launchable from both the CAVE Satellite menu and the Upper Air menu. The ASCAT instrument generates ocean surface wind retrievals. The ASCAT Scatterometer Ocean Winds product is displayable on
-CAVE at all scales.
-
-
diff --git a/docs/cave/d2d-uair.md b/docs/cave/d2d-uair.md
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-
-The Upper Air dropdown menu provides access to upper air plots, profiler data, radar plan-view and perspective displays of winds, and aircraft and rawinsonde data. Nearby Radiosonde Observations (RAOB) are also included on the menu to provide easy viewing of upper air data.
-
-# NSHARP Upper Air Soundings
-
-
-
-
-RAOB data is plotted on the standard Skew-T log-p thermodynamic diagram. A small reference map indicating the location(s) of the plotted sounding(s) is provided in the upper left corner of the main display pane. If you overlay another Skew-T whose location is far from the original sounding location, the reference map updates to show both locations.
-
-
-
----
-
-# NUCAPS Soundings
-
-
-
-The NOAA Unique CrIS/ATMS Processing System ([NUCAPS](http://www.ospo.noaa.gov/Products/atmosphere/soundings/nucaps/)) soundings are derived from processing of CrIS/ATMS data, provides cloud cleared radiances and trace gas that enable increased accuracy in the development of the vertical profile of temperature and water vapor retrievals. By clicking on the individual dots, the forecaster is able to render the sounding for the selected point using the [NSHARP plugin]().
-
-
-
----
-
-# Upper Air Plots
-
-> NCEP: 200mb to 850mb
->
-> RAOB: 150mb to 925mb
-
-
-
----
-
-# UKMO 500mb Height
-
-500mb height graphic out to 144 forecast hours.
-
-
-
----
-
-# CPC Charts
-
-* 6-10 day mean 500mb Height
-* 8-14 day mean 500mb Height
-* 6-10 day 500mb Height Anomaly
-* 8-14 day 500mb Height Anomaly
-
-
-
----
-
-# NPN Profiler Time-Height
-
-NOAA Profiler Network ([NPN](http://www.profiler.noaa.gov/home/)) observations as a time-series plot. This time-series plugin is also used in the [Volume Browser]() plugin for both grids and observations.
-
-
-
----
-
-# NPN Profiler Plot
-
-* 200hPa-925hPa
-* 1500m-500m AGL
-* Surface
-
-
----
-
-# Radar VWP Height-Level
-
-* 15km AGL
-* 14km AGL
-* 13km AGL
-* ...
-* 500m AGL
-* 250m AGL
-* 100m AGL
-
----
-
-# Radar VWP Pressure-Level
-
-* 200hPa to 925hPa
-
----
-
-# PIREP Aircraft Plot
-
-The Aircraft data includes Low-, Mid-, and High-level Pilot Weather Report (PIREP) observations. The display plots the temperature, aircraft identifier, wind speed and direction, significant weather, and the flight level (in feet). Pilot reports are critical for air safety. Pilots reports on the conditions they are experiencing show up in a matter of minutes on AWIPS. Weather conditions can change quickly, and there is nothing like having a pilot report to provide a bird's eye view of what it is really like up there. PIREPs may validate forecast conditions, or they may describe real-time weather that varies from them.
-
-
-> Icing: Low Level, Mid Level, High Level
->
-> Tubulence: Low Level Mid Level, High Level
-
-
-
----
-
-# Aircraft MDCRS
-
-Meteorological Data Collection and Reporting System (MDCRS) data includes plan-view plots for various 5kft layers and ascent/descent soundings. Using the availability plots (Upper Air menu under MDCRS plots) and ACARS Airports from the Maps menu button you can locate airports that have available soundings. ACARS Airports provides an illustration of locations of airports, but it is not necessary to use it. The "+" sign means a temperature sounding and the "\*" means a temperature and dewpoint sounding. To see a sounding at a location, simply press the Points menu button. Several points from letters of the alphabet will appear on the map display. To view a sounding, drag one of the points/letters to a "+" or "\*" location. From the menu bar press Volume and then Browser. From the Volume Browser select MDCRS for Source, Sounding for Fields and select the letter/point on the desired location for Points. Click on your selection in the Product Selection List and then press the Load button to view the sounding.
-
-A zoomable inset map (NW corner) is available to show the location of the sounding. When you zoom in by clicking mouse Button 2 (B2), the flight track of the ascent/descent sounding is shown on the map. In addition, you can sample the flight track to see the time and elevation. To zoom out, click mouse Button 1 (B1). This inset map (and also those on var vs. height displays, cross sections, and cell trends) can be suppressed by setting the global density (i.e., from the tool bar) at less than 1.
-
-* 000-500hft in 50ft increments
-* 1 hour profile availability
-* 6 hour profile availability
-
-
-
----
-
-# SIGMET and AIRMET reports: Convective, Icing, Turbulance, Tropical, Volcanic
-
-## SIGMET
-
-SIGMET (Significant Meteorological Information) is an alphanumeric message describing specific aviation hazard conditions between the surface and 45,000 feet (FL450). A SIGMET includes information about the location of the hazard using VOR locations. SIGMETs are produced on an as-needed basis at the AWC and are distributed on the SBN.
-
-## AIRMET
-
-AIRMET (Airmen's Meteorological Information) is an alpha-numeric message describing specific aviation hazard conditions between the surface and 45,000 feet (FL450), but not requiring the issuance of a SIGMET. An AIRMET includes information about the location of the hazard using VOR locations. AIRMETs are produced every 6 hours at the AWC for the CONUS area, and are distributed on the SBN.
-
-
-
----
-
-# Visibility Products
-
-## IFR, Mountain Obscn
-
-
-
-
-## Medium Level, High Level
-
-
diff --git a/docs/cave/hazard-services-alert.md b/docs/cave/hazard-services-alert.md
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-
-
-## Alerts
diff --git a/docs/cave/hazard-services-create.md b/docs/cave/hazard-services-create.md
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-
-## Hazard Creation Methods
-
-### Recommender Execution
-
-### Recommender Output
-
-#### River Flood Recommender
-
-#### Flash Flood Recommender
-
-#### Storm Track Recommender
-
-#### Dam/Levee Break Flood Recommender
-
-#### Burn Scar Recommender
-
-#### Creating a Hazard from a River Gauge
-
-## Selection Tools
-
-### Select By Area
-
-### Freehand Drawing
-
-## Manipulating Hazards
-
-### Adjusting a Hazard Polygon
-
-### Moving a Polygon Vertex
-
-### Deleting a Polygon Vertex
-
-### Adding a Polygon Vertex
-
-#### Moving a Hazard Geometry
-
-#### Hazard Information Dialog
-
-#### Hazard Type
-
-#### Time Range
-
-#### Details (Metadata)
-
-## Hazard Status
-
-### #Propose
-
-#### Preview
-
-##### Product Staging Dialog
-
-##### Product Editor
-
-#### Issue
-
-#### Ending and Ended
diff --git a/docs/cave/hazard-services-display.md b/docs/cave/hazard-services-display.md
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-# AWIPS Hazard Service Display
-
-Hazard Services is a collection of AWIPS applications used by forecasters to create, update, and manage hazards, replacing and unifying hazard generation capabilities.
-
-* WarnGen
-* RiverPro
-* GHG
-* etc.
-
-In addition to providing a seamless forecast process for generating short-fused, long-fused, and hydrologic hazards, Hazard Services allows the forecaster to focus on the meteorology of the hazard situation, letting the system take on more of the responsibility for the generation and dissemination of products.
-
-## Launching Hazard Services
-
-Hazard Services can be launched from the various CAVE perspectives by selection the toolbar item "Hazards".
-
-When Hazard Services is first started, the Console and the Spatial Display are visible.
-
-## Spatial Display and Console
-
-The **Spatial Display** is the Hazard Services drawing layer which is loaded into the CAVE Map Editor when Hazard Services is started. It is the Hazard Services map, displaying hazard areas relative to geopolitical boundaries and handling hazard drawing and editing. Its presence is indicated by the 'Hazard Services (Editable)' line in the CAVE Map Legend, and it supports operations common to other AWIPS drawing layers.
-
-
-
-The **Console** is the main control panel for Hazard Services. It is always displayed if Hazard Services is running. Closing it closes Hazard Services as well.
-
-
-
-The Console is a CAVE View, by default docked within the main window. The Console includes a toolbar and a drop-down ("view") menu to the right of or just under its title tab. Below these is the table of hazard events.
-
-## Hazard Services Toolbar
-
-
-
-### Hydro 
-
-The leftmost icon on the tool bar is an indicator if Hydro hazards are being worked or not (it will turn yellow if any active hazards are hidden from view by a filter).
-
-### Setup (Settings)
-
-Allows you to filter displayed hazard information to focus on the meteorological situation of concern. For example, you may want to focus only on hydrological hazards in a particular time scale and over a particular area.
-
-The Settings drop-down menu allows you to select an existing Setting or a recently-used Setting, create a new Setting, edit the current Setting, or delete the current (User) Setting. As new Settings are created, they are added to this drop-down list. The Console’s title tab shows the name of the currently loaded Setting.
-
-> Settings can also be viewed and edited in the [Localization Perspective]((localization-perspective).).
-
-#### Filters
-
-Allows quick modification of the filters being used by the current Setting. Events may be filtered by Hazard Type, Site ID, and/or Status. As the filters are altered, the Hazard Event Table contents change to include only those hazards that pass the filters.
-
-For example, with a number of potential events possible, you can select a couple of interest, move them to pending state, and propose one. To reduce clutter in the Console you can hide potentials using the Filters menu, so that all potential events are still present but hidden in both the Console and the Spatial Display.
-
-### Recommenders (Tools) 
-
-The Tools button reveals a drop-down menu listing all the recommenders and other tools available in the current Setting. Recommenders may be run from this menu. When you select a Setting, this menu is populated with appropriate content.
-
-### Products
-
-* **Generate RVS**
-
- With an FL.x hazard selected in the Console, select this item to bring up
-a dialog to write an RVS text product.
-
-* **Correct Product**
-
- Selecting the Correct Product option provides a list of products that may be corrected. The dialog includes seven columns: Product Category, Issue Time, Event IDs, Hazard Type, VTEC, Expiration Time, and User Name. You can click in a column header to order by, or type in the Search box at the bottom. Upon selecting an item from the list, the Hazard Information Dialog launches.
-
-* **View Product**
-
- This option allows you to review issued products, selecting from a list in a *Select Product to View* dialog. Use the dialog to select the product type (using click, Ctrl-click, Shift-click), then click and select View Product or double-click to see the legacy text.
-
- A similar dialog will be produced by selecting the *View Products for Selected Events* item from the Console pop-up. In this case, the Filter/Query section is not needed, so you’ll see just the lower portion of the illustrated dialog.
-
-
-### Spatial Display Modes
-
-When Hazard Services is in Editable state, three buttons set the mode of the Spatial Display, governing how it interprets mouse clicks.
-
-#### Drawing Tools
-
-This menu has six choices:
-
-* Draw Polygon
-
- When set, mouse clicks on the Spatial Display draw polygons,
-one click per node (MB1 click to place a node, MB3 click to complete the polygon).
-
-* AddTo Polygon
-
- If a polygon is active (hazard selected), this choice allows you to augment the area or create a new separate area that will be logically joined with the current polygon. Example of the latter:
-
- Note how the single hazard now comprises two polygons. (When you select Preview, these will be joined into a single polygon for issuance.)
-
-* Draw Freehand Polygon
-
- When set, mouse clicks on the Spatial Display draw freehand polygons (MB1 press, drag, and release to draw the polygon's outline). Note that issued text products will conform to current rules limiting polygon vertices to 20 or snapping areas to counties or zones. The freehand, many-vertex, shapes will be modified at some point during the hazard-issuance workflow.
-
-* AddTo Freehand Polygon
-
- Similar to AddTo Polygon, but drawing is freehand. Note that you can augment both “segments” and freehand polygons with either of the AddTo tools.
-
-* Remove Polygon Vertices
-
- In the case where you have a polygon with many vertices, it is very difficult to modify a boundary. This tool will remove a section of vertices to make the problem more tractable. With the tool selected, drag with MB1 to enclose a segment of the polygon. When you release, those vertices will be removed.
-
-* Remove Polygon Area
-
- This tool provides a way to remove sections of a geometry. Press MB1 and drag out an area that intersects your geometry. Upon release, the intersection area will be removed with the new boundary along the curve you drew.
-
-If more than one hazard is selected in the Console, only Draw Polygon and Draw Freehand Polygon are available. The others are invalid and dimmed.
-
-#### Select Event
-
-This radio button sets the mode to event selection. When set, mouse clicks on the Spatial Display select hazard events, and drags cause panning. This is the default mode choice of this set of radio buttons.
-
-#### Pan
-
-This radio button sets the mode to pan mode. When clicked, you can pan the map without inadvertently moving or selecting polygons.
-
-### Maps for Select by Area
-
-The Maps for Select by Area button reveals a drop-down menu allowing the selection of maps that may be used for selecting by area within the Spatial Display. If the button is disabled, no maps that allow select-by-area are currently loaded. If the button is enabled, but a map menu item within the drop-down menu is disabled, that map is loaded but is currently invisible.
-
-### Temporal Controls
-
-There are two buttons used to control the Timeline view at the right side of the Hazard Table. You can also zoom and pan the Timeline using the mouse.
-
-* Selected Time Mode
-
- This options menu allows you to select the time mode, either a single time or range of times.
-
-* Show Current Time
-
- This button moves the Timeline so that the current time is visible toward its left end.
-
-## View Menu
-
-The View menu is a drop-down menu holding menu items for functions that in general are less frequently used than those available via the toolbar.
diff --git a/docs/cave/hazard-services-example.md b/docs/cave/hazard-services-example.md
deleted file mode 100644
index 1a36a03919..0000000000
--- a/docs/cave/hazard-services-example.md
+++ /dev/null
@@ -1,6 +0,0 @@
-
-## Hazard Life Cycle
-
-### Transition from Product Centric toward Information Centric
-
-### Examples of Creating, Continuing, and Ending Hazards
diff --git a/docs/cave/hazard-services-settings.md b/docs/cave/hazard-services-settings.md
deleted file mode 100644
index 7c3f0593b2..0000000000
--- a/docs/cave/hazard-services-settings.md
+++ /dev/null
@@ -1,49 +0,0 @@
-# Hazard Settings
-
-
-## Change Site
-
-## Check Hazard Conflicts
-
-## Auto Check Hazard Conflicts
-
-## Add To Selected
-
-## Show Hatched Areas
-
-## Change VTEC Mode
-
-## Reset Events
-
-
-## Hazard Event Table
-
-### Column Headers
-
-* Non-Timeline Headers
-
-* Timeline Header
-
-### Table Rows
-
-### Hazard History
-
-
-
-## Settings Overview
-
-### Settings Menu
-
-### Settings Dialog
-
-#### Hazards Filter Tab
-
-#### Console Tab
-
-#### Console Coloring Tab
-
-#### HID/Spatial Tab
-
-#### Recommenders Tab
-
-#### Maps/Overlays Tab
diff --git a/docs/cave/ncp-perspective.md b/docs/cave/ncp-perspective.md
deleted file mode 100644
index 734ab65b8c..0000000000
--- a/docs/cave/ncp-perspective.md
+++ /dev/null
@@ -1,192 +0,0 @@
-# The National Centers Perspective (NCP)
-
-The NCP toolbar includes two buttons to load **Data** and **Bundles**, respectively. The toolbar also include a **Clear** button, **Zoom** and **Unzoom**, and the **NSHARP** plugin.
-
-
-
----
-
-## Loading Data
-
-1. Click the "**+Data**" button.
-
-2. Select **Category**, **Source**, **Group**, and **Attributes**
-
-3. Double-click the product, or select "**Add**" and the data will load to CAVE with the default number of frames (Note: this makes time-matching more difficult. For time-matching multiple products, load as a **Bundle**.)
-
-
-
-
-**Latest Available Data Time** or **Cycle Time** is underneath the Attributes column at bottom-right.
-
----
-
-## Create a Bundle
-
-Open the Resource Manager by:
-
-* Click the "**+Bundle**" button on the toolbar
-
-* Press the **Spacebar**
-
-* Press the "**W**" key
-
-* Click **File -> New -> Bundle**.
-
-
-
----
-
-## Timeline
-
-A timeline is displayed for available data. Here, the user may choose the dominant resource, number of frames, time range, reference time, etc. for the products to be displayed.
-
-
-
-Clicking "**Load**" will keep open the Resource Manager while the selected data layers are loaded to the map. ”**Load and Close**” will display data and close the Resource Manager.
-
----
-
-## Save a Bundle
-
-In AWIPS II CAVE, Bundles are organized within the Resource Manager GUI. Steps in the Bundle creation process are prompted with new GUI windows that are specific to the operation taking place, as you will see below.
-
-1. Select resources for a Bundle (as in previous steps).
-
-2. Click the "**Save Bundle**".
-
-3. Select or type-in your desired Group Name and Bundle name and click "**Save Bundle**".
-
-
-
-After saving a Bundle, its a good idea to confirm that it loads correctly. Select "**Bundle**" -> “**Load Bundle**” to find your newly created Bundle.
-
-The "**Edit Bundle**" button is available to make any changes while loading.
-
----
-
-## Manage Bundles
-
-The third tab in the Resource Manager, titled **Manage Bundles** can be used to do just that: modify, create, and delete existing Bundle Groups.
-
-At the top left, there are 3 options: **Modify Bundle Group**, **Create Bundle Group**, and **Delete Bundle Group**.
-
-The user can change the order of the Bundles within the Bundle Group, by clicking the "**Move Up**" and “**Move Down**” buttons on the right. A user can add Bundles to an existing Bundle Group by clicking the “**Add Bundle**” button. A new Gui will pop up, allowing the user to select a Bundle that exists within a different Bundle Group or a current CAVE display.
-
-A Bundle may be renamed by clicking the "**Rename Bundle**" button. Similarly, an Bundle may be removed from a specific Bundle Group by clicking the “**Remove Bundle**” button. NOTE: any changes made here must be saved by clicking the “**Save Bundle Group**” button on the left-hand side.
-
-Deleting an Bundle Group is a fairly straightforward action. First, click the "**Delete Bundle Group**" option on the top-left, then select the Bundle Group Group and Name to be deleted.
-
-
-
----
-
-## Edit Data Sources
-
-
-
-Selection a Resource to edit allows you to update the number of frames, frame span, range and timeline form. The plugin name and grid name (**GDFILE**) can also be edited.
-
-
-
----
-
-## Edit Resource Attributes
-
-Using gridded data, selecting an Attribute to edit allows you to change the GEMPAK syntax used to define the resource.
-
-
-
----
-
-## Add a New Grid
-
-1. Click the "**Bundle**" button and then open the “**Manage Data**” tab.
-
-2. Select the category (we will use **GRID**).
-
-3. Select a model to copy as a template. In this example we select the base "**NAM-12km**" model.
-
-4. Click the "**Copy**" button underneath the GRID column.
-
-
-
-5. You can edit the new resource under "**Edit Resource Type**".
-
-
-
-6. Choose a name for the new resource (e.g. **WRF**)
-
-7. In "**Edit Resource Parameters**", change the “**GDFILE=**” definition to match the name of the new model in the database (In this case we change **GDFILE=NAM** to **GDFILE=WRF)**.
-
-
-
-8. Click "**Create**" at the bottom of the window to finish.
-
-9. The new Resource now displays with a (**U**) next to the name, signifying a user-created item.
-
-
-
-10. In **Attribute Groups**, you can add attributes to a resource by clicking "**Edit**".
-
-11. Select the desired Attribute Set and click "**Add ->**" to add it to the right column (You can hold the **Ctrl** key and select multiple Attributes.)
-
-
-
-12. Click "**Save**" and then “**Ok**”.
-
-13. In the "**Create Bundle**" tab, click “**New**” to see the new Resource.
-
-
-
----
-
-## Multi-Pane Display
-
-The NCP includes a configurable multi-pane display. As seen in the figure below, selecting the "Multi-Pane" check box extends the GUI window and displays additional options.
-
-
-
-Selecting the "**Multi-Pane Display**" checkbox enables the multi-pane builder.
-
-
-
-
-
-This new feature allows you to customize the number of panes you would like to display in AWIPS II CAVE. The "Select Pane" portion of the GUI allows you to load different products into each pane, which includes importing previously created bundles.
-
-Here are a few quick steps to creating a Multi-pane display in AWIPS II:
-
-1. Click the **Multi-Pane** checkbox in the Resource Manager
-
-2. Select the number of **Rows** and **Columns** you would like your data display to contain
-
-3. Select the precise pane in which you would like a specific product (i.e. Row 1, Column1)
-
-4. Choose a product through the **Add** button (See Data Selection above)
-
-5. Select a different cell in your multi-paned display in which you would like to display a product
-
- !!! note "the user will need to load a separate product from the Resource Manager for each pane in the **select pane** layout"
-
-6. Repeat step #4
-
-7. Repeat the previous steps, until all of your panes have products queued up inside.
-
-8. Click "**Load**" and your multi-paned display will appear
-
----
-
-## Load Multiple Bundles
-
-The Load Bundle tab in the Resource Manager can be used to load Bundles previously created by the user:
-
-
-
-The user should select name of the Group in which the desired Bundle is housed. After doing so, a list of available Bundles will appear in the centrally located "Bundles" pane. Selecting a Bundle will populate the pane on the right, which displays the contents of each Bundle, and also provides information on its Localization settings.
-
-Clicking "Load" or “Load and Close” at the bottom of this window will load the saved Bundle. Before doing so, you can adjust things like Frames, dominant resources, time range, etc. in the “**Select Timeline**” section at the bottom of the window.
-
-Multiple Bundles can be selected and loaded all at once by simply hold the **Ctl** key and multi-selecting Bundles from the central pane, and then clicking either of the Load buttons. If multiple Bundles are loaded at once, they will each be displayed in different tabs in the CAVE interface. The order/arrangement of the Bundles will be mimicked in the order of the tabs when displayed in CAVE.
-
-Finally, the user may also edit an Bundle in this tab, simply by clicking the "**Edit**" button, and making desired changes in the GUI that pops up.
diff --git a/docs/cave/pgen.md b/docs/cave/pgen.md
deleted file mode 100644
index 276482fd0c..0000000000
--- a/docs/cave/pgen.md
+++ /dev/null
@@ -1,7 +0,0 @@
-# Product Generator (PGEN)
-
-The National Centers use PGEN to draw annotations and generate all their products, and it is included in D-2D to support Center Weather Service Units (CWSUs) making AWC-style SIGMETs. While this is not intended to be used for other purposes, there are a number of unique drawing and annotation tools that can be used to make images using the CAVE->export->Image once a display has been created.
-
-
-
-
diff --git a/docs/cave/unused-components.md b/docs/cave/unused-components.md
deleted file mode 100644
index 5891f5b98c..0000000000
--- a/docs/cave/unused-components.md
+++ /dev/null
@@ -1,38 +0,0 @@
-
-An overview of components that are used operationally by the NWS but are made inactive in the Unidata release. Some components are impractical for non-operational use, and some are unavailable for distribution outside of the NWS.
-
-
-# Data Delivery
-
-The "Data Delivery" option opens the Data Delivery application. Data Delivery is a permission-based application, meaning that the System Manager or User Administrator controls the user's access to the Data Delivery functionalities. If granted permission to access this application, Data Delivery allows a user to subscribe to a data source or create an ad hoc request and have the data delivered in near real time. Whether delivered by subscription or in response to an ad hoc request, the data can be tailored to a user's specific temporal, geographic, and parameter needs. For a detailed description of the Data Delivery application, refer to Section 16.1.
-
-# Collaboration
-
-The "Collaboration" option offers two main functions: chatting and sharing displays. Chat allows users to send and receive instant messages or chat with fellow forecasters and offices in a chat room. Sharing displays adds to the chat room capabilities and allows the room's creator to show a CAVE map display to other participants in the room. For a detailed description of "Collaboration" and information on how to create a chat session and share displays, refer to Section 16.2.
-
-# Archive Case Creation
-
-The "Archive Case Creation" option is a component of the AWIPS-2 Archiver application. The archiver application is a permission-based functionality. It allows a user to extract stored weather event data and copy it into a user-defined directory to be archived (e.g., burned to a DVD). The archived data can later be played back for simulation of weather events using the WES-2 Bridge. For a detailed description of the AWIPS-2 Archiver application and the "Archive Case Creation" component, refer to Section 16.3. Archive Retention: The "Archive Retention" option is a component of the AWIPS-2 Archiver application. The archiver retention functionality and its purge component, which runs on EDEX, are permission-based functionalities. Access to the "Archive Retention" option is limited to User Administrators and users identified as a database/purge focal point. More information on these AWIPS-2 Archiver application functionalities are provided in the System Manager's Manual.
-
-# AWIPS User Administration
-
-Some of the functionalities of certain CAVE applications (currently, Data Delivery and Localization) are reserved for designated users. User Administrators choose the "AWIPS User Administration" option to access the screens they use to set permissions and roles for the reserved functions. Access to the "AWIPS User Administration" option is limited to User Administrators. Other users who select this option will be denied access and receive the Alert Message shown in Exhibit 2.2.6.1-5. More information on AWIPS User Administration is provided in the System Manager's Manual.
-
-
-# LDAD (Local Data Acquisition and Dissemination)
-
-The LDAD system provides the means to acquire local data sets, perform quality control on the incoming data, and disseminate weather data to the external user community. It contains a number of components that reside on the internal AWIPS network and on the external LDAD component (on the LDAD server cluster). The internal and external components at WFOs are separated by a security firewall.
-
-The basic LDAD concept simplifies this process for both the data providers and for the support team. LDAD uses a simple data format, ASCII Comma Separated Values Text (CSVText), which separates each data field by a comma. A set of metadata files, created and maintained by the data provider or in conjunction with site personnel, will be used by the acquisition decoder. This facilitates data processing in hydrometeorological units instead of sensor units and removes the need for conversion routines. The simplicity of the CSVText format increases the likelihood that the data provider will use this standardized format.
-
-All LDAD acquisition data are categorized and stored into the following four classes:
-* Mesonet for surface weather observations
-* Hydro for rain and stream observations
-* Manual for manual observations such as cooperative observers
-* Upper air for multilevel observations such as profilers.
-
-The LDAD functionality supports the acquisition of the Integrated Flood Observing and Warning System (IFLOWS); ALERT; Mesonet; Profiler; RRS/Upper Air; Gauges (LARC, Handar, Campbell, Sutron); COOP (Co-operative Observations); and other data transported via LDM, Rsync, or other TCP/IP Protocols. The Data Acquisition function is achieved when data is transmitted to the internal (trusted) AWIPS servers. The data is transmitted to and from the LDAD Cluster via TCP/IP protocols or RS-232 communications. The Data Dissemination function is achieved when data is transmitted to the LDAD Cluster from the internal AWIPS system and is then distributed to External Users. The data can be acquired, stored, and displayed once fully configured.
-
-The LDAD System consists of two LDAD servers (LS2/3), a LAN switch (SMC 8024), a Terminal Server (Cyclades ACS32), Modems (MultiTech MT5600BR), and a LAN DMZ (HP ProCurve 2824). The DMZ consists of two SSG 320M Firewalls, a Netgear 16 switch, and two Netgear 5 port hubs. The LDAD baseline processes run on the LDAD Cluster (DMZ) and the AWIPS PX Cluster (Internal). Other local applications may run on other internal clusters, such as DX cluster in the case of the LDAD Dissemination Server. Data is transmitted through the DMZ either to the Trusted (internal) AWIPS system or to the Untrusted (External) Users/Systems.
-
-
diff --git a/docs/cave/warngen.md b/docs/cave/warngen.md
index aa99caa0e8..8aa3304d15 100644
--- a/docs/cave/warngen.md
+++ b/docs/cave/warngen.md
@@ -1,10 +1,10 @@
# WarnGen Walkthrough
-WarnGen is an AWIPS graphics application for creating and issuing warnings as is done by National Weather Service offices. In the Unidata AWIPS release it is a *non-operational* forecasting tool, meaning it allows users to experiment and simulate with the drawing and text-generation tools, but **prevents you from transmitting a generated warning upstream**.
+WarnGen is an AWIPS graphics application for creating and issuing warnings as is done by National Weather Service offices. In the NSF Unidata AWIPS release it is a *non-operational* forecasting tool, meaning it allows users to experiment and simulate with the drawing and text-generation tools, but **prevents you from transmitting a generated warning upstream**.
!!! warning "In order to select a feature it must be within your *CAVE localization* coverage (load **Maps** > **County Warning Areas** to see coverages)"
-## Quick Steps - Using WarnGen in Unidata AWIPS CAVE
+## Quick Steps - Using WarnGen in NSF Unidata AWIPS CAVE
1. [**Load NEXRAD Display**](#load-nexrad-level-3-display) from the Radar menu
2. Choose a CWA with active severe weather (BUF is used in the video below)
@@ -110,7 +110,7 @@ This will open the Text Window.
Using the customized settings in the WarnGen GUI, WarnGen translates the information into a text product that is displayed in a text window on the Text Display. The auto-generated text contains the storm speed and direction, the counties and cities affected by the warning/advisory, the valid times of the product, the warning/advisory body text (including any optional bullets selected in the GUI), and additional code to help our partners to efficiently process and disseminate the warning/advisory. The locked parts of the text are highlighted in blue and most of your text should not need to be edited if you configured your WarnGen window correctly.
-!!! danger "The Unidata AWIPS release is *non-operational*. You will be allowed to simulate the drawing and text-generation of warnings, but are **prevented from transmitting** a generated warning upstream"
+!!! danger "The NSF Unidata AWIPS release is *non-operational*. You will be allowed to simulate the drawing and text-generation of warnings, but are **prevented from transmitting** a generated warning upstream"