kopia lustrzana https://github.com/projecthorus/chasemapper
295 wiersze
10 KiB
Plaintext
295 wiersze
10 KiB
Plaintext
#
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# Project Horus Chase-Mapper Configuration File
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#
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# Copy this file to horusmapper.cfg and modify as required.
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#
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# This is the default config file for chasemapper 1.5.0, be aware there might be changes and it might not run on older/newer versions.
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#
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#
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# Telemetry Source Profiles
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# Multiple Telemetry source profiles can be defined, and can be selected from
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# the web GUI.
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#
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[profile_selection]
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# How many profiles have been defined
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profile_count = 2
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# Index of the default profile (indexing from 1)
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default_profile = 1
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[profile_1]
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# An example configuration which displays telemetry from auto_rx, and obtains chase car positions from GPSD.
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# Profile name - will be shown in the web client.
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profile_name = auto-rx
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# Telemetry source type:
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# ozimux - Read data in OziMux format (TELEMETRY,HH:MM:SS,lat,lon,alt\n)
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# horus_udp - Read Horus UDP Broadcast 'Payload Summary' messages, as emitted by auto_rx and the horus-gui software.
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telemetry_source_type = horus_udp
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# Telemetry source port (UDP) (auto_rx defauts to 55673)
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telemetry_source_port = 55673
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# Car Position Source
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# none - No Chase-Car GPS
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# horus_udp - Read Horus UDP Broadcast 'Car GPS' messages
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# serial - Read GPS positions from a serial-connected GPS receiver. RECOMMENDED
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# gpsd - Poll a local GPSD instance for positions. (Known to have some reliability issues...)
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# station - Stationary position (set in the [map] section below)
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car_source_type = serial
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# Car position source port (UDP) - only used if horus_udp is selected, but still needs to be provided.
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car_source_port = 55672
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# Online Tracker System
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# Where to upload chase-car positions and balloon recovery notifications to.
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# Note - you can only select one of these at a time.
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#
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# sondehub = Sondehub v2 Database, for viewing on the SondeHub tracker (https://tracker.sondehub.org)
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# Use this for chasing meteorological radiosondes!
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#
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# sondehubamateur = SondeHub Amateur Database, for viewing on the SondeHub-Amateur Tracker (https://amateur.sondehub.org)
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# Use this when chasing your own flights, and you want to show up on the sondehub-amateur tracker.
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#
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online_tracker = sondehub
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# Other profiles can be defined in sections like the following:
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[profile_2]
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# Example profile to take telemetry data from an instance of horus-gui, which defaults to
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# emitting hrous_udp messages on port 55672, and using a Serial-connected GPS, with settings defined further below.
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# The horusdemodlib command-line utilites emit telemetry on the same port, so this profile will work with that too.
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profile_name = horus-gui
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telemetry_source_type = horus_udp
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telemetry_source_port = 55672
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# Car Position Source
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car_source_type = serial
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# Since we are using a serial GPS, the car_source_port argument isn't used, but still has to be defined.
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# Make sure to update the gps_serial settings further down in the configuration file!
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car_source_port = 55672
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# Online Tracker System
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# Where to upload chase-car positions and balloon recovery notifications to.
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# sondehub = Sondehub v2 Database, for viewing on the SondeHub tracker (https://tracker.sondehub.org)
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# sondehubamateur = SondeHub Amateur Database, for viewing on the SondeHub-Amateur Tracker (https://amateur.sondehub.org)
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online_tracker = sondehubamateur
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# If you want add more profiles, you can do so here, e.g.
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# [profile_3]
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# ...
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# [profile_4]
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# ...
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[gpsd]
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# GPSD Host/Port - Only used if selected in a telemetry profile above.
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# Note that GPSD support is somewhat buggy.
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gpsd_host = localhost
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gpsd_port = 2947
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[gps_serial]
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# Serial GPS Settings - Only used if selected in a telemetry profile above.
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# GPS serial device (i.e. /dev/ttyUSB0, COM1, etc...)
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gps_port = /dev/ttyUSB0
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# GPS baud rate
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gps_baud = 9600
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# Map Settings
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[map]
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# Host/port to host webserver on
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flask_host = 0.0.0.0
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flask_port = 5001
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# Default Map Centre & Stationary Position
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# If the profile's car_source_type is set to station, the following position will be indicated on the map
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# as a stationary receiver.
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default_lat = -34.9
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default_lon = 138.6
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default_alt = 0.0
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# How long to keep payload data (minutes)
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payload_max_age = 180
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# ThunderForest API Key
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# NOTE: OpenTopoMaps is now available by default, and is a good alternative to ThunderForest's outdoors map.
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# If you still want to use ThunderForest's Outdoors map (Topographic maps), you will need to
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# register for an API key here: https://manage.thunderforest.com/users/sign_up?plan_id=5
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# Once you have a key, enter it below:
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thunderforest_api_key = none
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# Stadia Maps API Key
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# Stadia provides an excellent Dark map layer (Alidade Smooth Dark), which is looking promising for use in a 'dark mode' theme.
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# Accessing this requires registering at https://client.stadiamaps.com/signup/ then creating a 'property'
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# and obtaining an API key. Once you have a key, enter it below:
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stadia_api_key = none
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# Predictor Settings
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# By default this will attempt to get predictions from the online Tawhiri Predictions API.
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# Optionally, you can enable offline predictions below.
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[predictor]
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# Enable Predictor (True/False) - This can also be enabled from the web client.
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predictor_enabled = True
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# Predictor defaults - these can also be modified at runtime in the web interface.
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default_burst = 30000
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default_descent_rate = 5.0
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# Offline Predictions
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# Use of the offline predictor requires installing the CUSF Predictor Python Wrapper from here:
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# https://github.com/darksidelemm/cusf_predictor_wrapper
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# You also need to compile the predictor binary, and copy it into this directory.
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#
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# Note: This setting turns offline predictions *on* by default, which assumes there is a valid
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# GFS dataset already present and available.
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# If you will be using the 'Download Model' button, then leave this at False, and Offline predictions
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# will be enabled once a valid model is available.
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offline_predictions = False
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# Predictory Binary Location
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# Where to find the built CUSF predictor binary. This will usually be ./pred or pred.exe (on Windows)
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pred_binary = ./pred
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# Directory containing GFS model data.
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gfs_directory = ./gfs/
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# Wind Model Download Command
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# Optional command to enable downloading of wind data via a web client button.
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# Example: (this will require copying the get_wind_data.py script to this dirctory)
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# model_download = python3 -m cusfpredict.gfs --lat=-33 --lon=139 --latdelta=10 --londelta=10 -f 24 -m 0p50 -o gfs
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# The gfs directory (above) will be cleared of all .dat files prior to the above command being run.
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model_download = none
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#
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# Offline Tile Server
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#
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# Allows serving of map tiles from a directory.
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# Each subdirectory is assumed to be a separate layer of map tiles, i.e. 'OSM', 'opencyclemap',
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# and is added to the map interface as a separate layer.
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# This feature can be used to serve up FoxtrotGPS's tile cache as layers, usually located in ~/Maps/
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#
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[offline_maps]
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# Enable serving up maps from a directory of map tiles.
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tile_server_enabled = False
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# Path to map tiles. For FoxtrotGPS, this is usually ~/Maps/
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# NOTE: This must be an ABSOLUTE directory, i.e. /home/pi/Maps/ , using ~/Maps/ will not work.
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tile_server_path = /home/pi/Maps/
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# If running chasemapper within a docker container, comment out the above line, and uncomment the following:
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#tile_server_path = /opt/chasemapper/Maps/
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#
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# SondeHub Chase-Car Position Upload
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# If you want, this application can upload your chase-car position to the SondeHub/SondeHub-Amateur trackers,
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# for those follwing along at home.
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# The settings below can be modified from the web interface, but they will default to what is set below on startup.
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#
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# Note - Variables in this section still refer to habitat to avoid breaking existing configurations.
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[habitat]
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# Enable uploading of chase-car position to SondeHub / SondeHub-Amateur (True / False)
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# Which tracker positions are uploaded to depends on the online_tracker setting of the selected
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# profile (further up in this config file).
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habitat_upload_enabled = False
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# Callsign to use when uploading. Note that _chase is automatically appended to this callsign
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# when displayed on the tracker maps.
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# i.e. N0CALL will show up as N0CALL_chase on sondehub.org
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habitat_call = N0CALL
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# Attempt to upload position to SondeHub every x seconds.
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habitat_update_rate = 30
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#
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# Range Rings
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#
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[range_rings]
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range_rings_enabled = False
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# Number of range rings to display. The first ring starts at the spacing set below.
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range_ring_quantity = 5
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# Spacing between rings, in metres.
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range_ring_spacing = 1000
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# Weight of the ring, in pixels.
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range_ring_weight = 1.5
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# Color of the range rings.
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# Valid options are: red, black, blue, green, custom
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range_ring_color = red
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# Custom range ring color, in hexadecimal #RRGGBB
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range_ring_custom_color = #FF0000
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#
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# Chase Car Speedometer
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# If enabled display the chase car speed at the bottom left of the display.
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#
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[speedo]
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chase_car_speed = True
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#
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# Bearing Processing
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#
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[bearings]
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# Number of bearings to store
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max_bearings = 300
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# Maximum age of bearings, in *minutes*.
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max_bearing_age = 10
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# Car heading speed gate
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# Only consider car headings to be valid if the car speed is greater than this value in *kph*
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car_speed_gate = 10
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# Turn rate threshold
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# Only plot bearings if the turn rate of the vehicle is less than this value, in degrees/second
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# This helps avoid plotting bearings when the heading and bearind data might be misaligned during
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# a turn (e.g. around a roundabout)
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# 4 degrees/second seems to work fairly well.
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turn_rate_threshold = 4.0
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# Visual Settings - these can be adjust in the Web GUI during runtime
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# Bearing length in km
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bearing_length = 10
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# Weight of the bearing lines, in pixels.
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bearing_weight = 1.0
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# Color of the bearings.
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# Valid options are: red, black, blue, green, white, custom
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bearing_color = red
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# Custom bearing color, in hexadecimal #RRGGBB
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bearing_custom_color = #FF0000
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[units]
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# unitselection allows choice of metric - the default or imperial - horizontal miles and feet for short distances, horizontal miles per hour, vertical feet, vertical feet per minute
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# this is applied only to the indications and to the range ring settings
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unitselection = metric
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#unitselection = imperial
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# Sensible choice of unit selection (all thresholds set in metric)
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# This is the threshold for switching from miles to feet, set in metres.
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switch_miles_feet = 400
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[history]
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# Enable load of last position from log files (True/False)
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reload_last_position = False
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