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Rafael Bailon-Ruiz, 2020-10-08 11:56
Running CAMS (Tutorial)¶
This tutorial will teach you how to run the CAMS GUI with a simple scenario in simulation mode.
- Table of contents
- Running CAMS (Tutorial)
First of all, make sure you successfully completed the Installation (Developer) tutorial. Then, open a terminal and change the current directory to the folder where the core packages are installed.
cd /path/to/nephelae_workspace
Accessing the files for a simulated cloud environment¶
In order to run CAMS in fully simulated mode first yout need a mesoNH file describing a synthetic atmospheric environment. MesoNH files are databases in NetCDF (.nc) format.
The computer girofle
at LAAS contains a mesoNH file that can be used with CAMS. You can use the command below to mount the folder the remote folder as a local directory:
sshfs girofle.laas.fr:/media/Nephelae-Data/data/Nephelae/ mesonh_girofle_mount/
The recommended file for this tutorial is:
REFHR.1.ARMCu.4D.nc
Despite its huge size (~72 GB), the best way to work with this particular file is to download it to your computer. If you are at LAAS connected with an Ethernet cable, you have a high-bandwith and low-lattency link. Therefore you can read the files in the remote folder directly, but beware of errors that can occur if the quality of the connection degrades.
Scenario setup¶
A valid configuration file is required to run the graphical interface server. Scenario configuration files describe the atmospheric environment and the UAVs so CAMS can use the appropriate algorithms and models to manage them.
For this tutorial a simple
There are dedicated tutorial and reference guide wiki pages for scenario configuration, but for an initial run let's use a simple file.
To configure manually:
database/filepath: '/home/rbailonr/src/nephelae/nephelae_workdir/database01.neph'
aircrafts/200/plugins/Missions/backup_file: '/home/rbailonr/src/nephelae/nephelae_workdir/backup_200.bin'
aircrafts/201/plugins/Missions/backup_file: '/home/rbailonr/src/nephelae/nephelae_workdir/backup_201.bin'
--- # local frame must be given in utm coordinates local_frame: east: &local_frame_east 360284.0 north: &local_frame_north 4813595.0 alt: &local_frame_alt 0.0 utm_zone: &local_frame_utm_zone 31N # flight area in local coordinates flight_area: &flight_area [[-1000.0, -5000.0, -100.0], [15000.0, 5000.0, 4000.0]] # allow_warm_start: True allow_warm_start: False # database config database: enable_save: False filepath: '/home/rbailonr/src/nephelae/nephelae_workdir/database01.neph' overwrite_existing: True mesonh_files: &mesonh_files '/home/rbailonr/src/nephelae/REFHR.1.ARMCu.4D.nc' # Setting this to true will activate feedback to WORLD_ENV requests # Do not pass it to True : NOT WORKING... wind_feedback: False # Setting this value forces the mesonh variables to read only this time mesonh_fixed_time: &mesonh_fixed_time 96 # WindMap is constant => no wind here [0, 0] wind_map: type: 'WindMapConstant' name: 'Horizontal Wind' wind: [-0.0, 0.0] # DataViews data_views: # View of liquid water content (data from Mesonh) humidity: type: 'FetchView' name: 'Humidity' tags: ['RCT'] displayable: true # View of vertical wind (data from Mesonh) verticalWind: type: 'FetchView' name: 'Vertical Wind' tags: ['WT'] displayable: true # View of temperature (data from Mesonh) temperature: type: 'FetchView' name: 'Temperature' tags: ['THT'] displayable: true # View of altitude (data from the autopilot / registered data) altitude: type: 'StatusView' name: 'Altitude' tags: null displayable: true # View of time (since the task has started / registered data) time: type: 'StatusView' name: 'Time' info: 'time' tags: null displayable: true # Play with the mesonh origin if you want to have a cloud near your standby # position [t, x, y ,z] mesonh_origin: &mesonh_origin [-460.0, -1400.0, -3000.0, -280.0] # Default fields. Used to define yaml aliases, to define values in one single place. defaults: start: &start_defaults - Length: [3] - SimpleBounds: [*flight_area] circle_radius: - &circle_radius_min 80.0 - &circle_radius_max 500.0 - defaults: &circle_radius_defaults - DefaultValue: [120.0] - SimpleBounds: [[*circle_radius_min, *circle_radius_max]] altitude: - &altitude_min 185.0 - &altitude_max 4000.0 - defaults: &altitude_defaults - SimpleBounds: [[-1000.0, 4000.0]] drift: - &xdrift_min -10.0 - &xdrift_max 10.0 - &ydrift_min -10.0 - &ydrift_max 10.0 - &zdrift_min -3.0 - &zdrift_max 3.0 - drift: &drift_defaults - DefaultValue: [[0.0,0.0,0.0]] - Length: [3] - SimpleBounds: [[[*xdrift_min, *ydrift_min, *zdrift_min], [*xdrift_max, *ydrift_max, *zdrift_max]]] - hdrift: &hdrift_defaults - Length: [2] - SimpleBounds: [[[*xdrift_min, *ydrift_min], [*xdrift_max, *ydrift_max]]] - zdrift: &zdrift_defaults - SimpleBounds: [[*zdrift_min, *zdrift_max]] lace: &lace_defaults parameters: start: *start_defaults first_turn_direction: - DefaultValue: [1.0] - AllowedValues: [[-1.0, 1.0]] circle_radius: *circle_radius_defaults drift: *drift_defaults updatables: hdrift: *hdrift_defaults zdrift: *zdrift_defaults rosette: &rosette_defaults parameters: start: *start_defaults first_turn_direction: - DefaultValue: [1.0] - AllowedValues: [[-1.0, 1.0]] circle_radius: *circle_radius_defaults drift: *drift_defaults updatables: hdrift: *hdrift_defaults zdrift: *zdrift_defaults spiral3d: &spiral3d_defaults parameters: start: *start_defaults alt_stop: *altitude_defaults radius_start: *circle_radius_defaults radius_stop: *circle_radius_defaults drift: *drift_defaults updatables: hdrift: *hdrift_defaults zdrift: *zdrift_defaults trinity: &trinity_defaults parameters: start: *start_defaults first_turn_direction: - DefaultValue: [1.0] - AllowedValues: [[-1.0, 1.0]] circle_radius: *circle_radius_defaults drift: *drift_defaults updatables: hdrift: *hdrift_defaults zdrift: *zdrift_defaults # List of possible UAVS : 200, 201, 202, 203, 204 # Configuration given : # - Autopilot : Paparazzi # - No replay aircrafts: 200: replay: false type: 'pprz' plugins: - MesonhProbe: mesonhFiles: *mesonh_files mesonhVariables: ['RCT', 'RRT', 'WT', 'THT', ['UT','VT']] rctFeedback: True mesonhOrigin: *mesonh_origin fixTime: *mesonh_fixed_time - Missions: backup_file: '/home/rbailonr/src/nephelae/nephelae_workdir/backup_200.bin' Lace: *lace_defaults Rosette: *rosette_defaults Spiral3D: *spiral3d_defaults Trinity: *trinity_defaults - CloudCenterTracker: mapWhereCenterIs: 'LWC' - MissionWindUpdater: period: 10.0 - Monitor 201: replay: false type: 'pprz' plugins: - MesonhProbe: mesonhFiles: *mesonh_files mesonhVariables: ['RCT', 'RRT', 'WT', 'THT', ['UT','VT']] rctFeedback: True mesonhOrigin: *mesonh_origin fixTime: *mesonh_fixed_time - Missions: backup_file: '/home/rbailonr/src/nephelae/nephelae_workdir/backup_201.bin' Lace: *lace_defaults Rosette: *rosette_defaults Spiral3D: *spiral3d_defaults Trinity: *trinity_defaults - CloudCenterTracker: mapWhereCenterIs: 'LWC' - MissionWindUpdater: period: 10.0 - Monitor maps: kernels: lwc_kernel: type: 'WindKernel' length_scales: [120.0, 60.0, 60.0, 60.0] variance: 1.0e-8 noise_variance: 1.0e-10 LWC: name: 'Liquid Water Cyan' type: 'GprMap' kernel: 'lwc_kernel' data_view: 'humidity' data_range: [0.0, 1.0e-4] threshold: 2.0e-4 std_map: 'Liquid Water std' # optional border_map: 'Liquid Water border' # optional clouds: name: 'Liquid Water (MesoNH)' type: 'MesonhMap' mesonh_variable: 'RCT' origin: *mesonh_origin
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Updated by Rafael Bailon-Ruiz about 4 years ago · 29 revisions