To centre the map on an object or location, enter:
* An object name.
* Latitude and longitude. This can be in decimal degrees (E.g: -23.666413, -46.573550) or degrees, minutes and seconds (E.g: 50°40'46.461"N 95°48'26.533"W or 33d51m54.5148sS 151d12m35.6400sE).
When checked, opens the Maidenhead locator converter dialog, which allows conversion between addresses, latitude and longitude and Maidenhead locators.
<h3>4: Display Beacon dialog</h3>
When clicked, opens the Beacon dialog. Initially, no beacons will be listed. To download the IARU Region 1 beacon list, click the download button in the top right.
The beacons will then be displayed in the table and on the map.
When checked, satellite infrared measurements (10.3um) are downloaded from the internet and are overlaid on the maps.
This essentially shows cloud cover. The images are updated every 10 minutes.
The data is similar to that which can be received using the [APT Demodulator](../../channelrx/demodapt/readme.md) in the Thermal-infrared (10.3-11.3 um) channel.
<h3>Display Weather Radar</h3>
When checked, weather radar measurements are downloaded form the internet and are overlaid on the maps.
This shows rain and other forms of precipitation.
The images are updated every 10 minutes.
Green, yellow and red are rain, with red being the most intense.
Light blue through dark blue is snow, with dark blue being the most intense.
<h3>Display Sea Marks</h3>
When checked, sea marks are overlaid on the maps.
![Sea Marks Legend](../../../doc/img/Map_plugin_seamarks_legend.png)
<h3>Display Railways</h3>
When checked, railway routes are overlaid on the maps.
When checked, contours will be downloaded and displayed on the 3D map, showing the MUF (Maximum Usable Frequency) for a 3000km path that reflects off the ionosphere.
The contours will be updated every 15 minutes. The latest contour data will always be displayed, irrespective of the time set on the 3D Map.
<h3>8: Display coF2 Contours</h3>
When checked, contours will be downloaded and displayed on the 3D map, showing coF2 (F2 layer critical frequency), the maximum frequency at which radio waves will be reflected vertically from the F2 region of the ionosphere.
The contours will be updated every 15 minutes. The latest contour data will always be displayed, irrespective of the time set on the 3D Map.
When checked, enables overlay of data from NASA GIBS (Global Imagery Browse Services). This includes a vast array of Earth observation satellite data,
such as land and sea temperatures, atmospheric conditions, flux measurements and the like.
Details of available data products can be found [here](https://nasa-gibs.github.io/gibs-api-docs/available-visualizations/#visualization-product-catalog).
For some data sets, GIBS has data spanning many decades. The data period may be hours, days or months. The 3D map will attemp to show data from the closest time set in the 3D map's timescale.
The 2D map will only show data from the default date (which is displayed in the table at the bottom).
<h3>NASA GIBS Data</h3>
Selects which data from NASA GIBS to overlay on the maps.
<h3>NASA GIBS Opacity</h3>
Sets the opacity used for the NASA GIBS overlay image overlay on the 3D map. Lower values make the image more transparent.
* Whether images are displayed on the 2D map and whether 3D models are displayed on the 2D map.
* Whether labels are displayed giving the name of the object.
* Whether taken and predicted tracks are displayed and in which colour.
* How the image or 3D model is scaled as the zoom level changes.
For the 2D map, the settings include:
* Whether the 2D map is displayed.
* Which Map provider will be used to source the map images.
* When OpenStreetMap is used as the provider, a custom map URL can be entered. For example, http://a.tile.openstreetmap.fr/hot/ or http://1.basemaps.cartocdn.com/light_nolabels/
* When MapboxGL is used as the provider, custom styles can be specified.
For the 3D map, the settings include:
* The terrain provider, which provides elevation data. For a "flat" globe, terrain can be set to Ellipsoid for the WGS-84 ellipsoid.
* The buildings provider, which provides 3D building models. This can be set to None if no buildings are desired.
* Whether the globe and models are lit from the direction of the Sun or the camera.
* The camera reference frame. For ECEF (Earth Centered Earth Fixed), the camera rotates with the globe.
For ECI (Earth Centred Inertial) the camera is fixed in space and the globe will rotate under it.
* To set an object as the target. The target object will have its azimuth and elevation displayed in the text bubble and sent to the Rotator Controller feature.
* Setting the Device center frequency to the first frequency found in the text bubble for the object.
* Changing the order in which the objects are drawn, which can help to cycle through multiple objects that are at the same location on the map.
IARU Region 1 beacon list used with permission from: https://iaru-r1-c5-beacons.org/ To add or update a beacon, see: https://iaru-r1-c5-beacons.org/index.php/beacon-update/
Ionosonde data and MUF/coF2 contours from [KC2G](https://prop.kc2g.com/) with source data from [GIRO](https://giro.uml.edu/) and [NOAA NCEI](https://www.ngdc.noaa.gov/stp/iono/ionohome.html).
Full details of the API can be found in the Swagger documentation. Here is a quick example of how to centre the map on an object from the command line: