# # Project Horus Chase-Mapper Configuration File # # Copy this file to horusmapper.cfg and modify as required. # # Telemetry Data Source [source] # Data source type: # ozimux - Read data in OziMux format # horus_udp - Read Horus UDP Broadcast 'Payload Summary' messages type = ozimux # Ozimux Data source UDP port ozimux_port = 8942 # 'Payload Summary' (also car GPS messages) UDP listen port horus_udp_port = 55672 # Chase-Car Position Settings [car_gps] # Chase car Position data Source # none - No Chase-Car GPS # horus_udp - Read Horus UDP Broadcast 'Car GPS' messages # gpsd - Poll GPSD for positions. (TO BE IMPLEMENTED) source = horus_udp # GPSD Host/Port # TO BE IMPLEMENTED gpsd_host = localhost gpsd_port = 2947 # Map Defaults [map] # Host/port to host webserver on flask_host = 0.0.0.0 flask_port = 5001 # Default map centre default_lat = -34.9 default_lon = 138.6 # How long to keep payload data (minutes) payload_max_age = 180 # Predictor Settings # Use of the predictor requires installing the CUSF Predictor Python Wrapper from here: # https://github.com/darksidelemm/cusf_predictor_wrapper # You also need to compile the predictor binary, and copy it into this directory. [predictor] # Enable Predictor (True/False) predictor_enabled = False # Predictor defaults - these can be modified at runtime in the web interface. default_burst = 30000 default_descent_rate = 5.0 # Predictory Binary Location # Where to find the built CUSF predictor binary. This will usually be ./pred or pred.exe (on Windows) pred_binary = ./pred # Directory containing GFS model data. gfs_directory = ./gfs/ # Wind Model Download Command # Optional command to enable downloading of wind data via a web client button. # Example: (this will require copying the get_wind_data.py script to this dirctory) # model_download = python get_wind_data.py --lat=-33 --lon=139 --latdelta=10 --londelta=10 -f 24 -m 0p50 -o gfs # The gfs directory (above) will be cleared of all .dat files prior to the above command being run. model_download = none