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stanford.py
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stanford.py
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#!bin/bash/python3
# wadl
from wadl.survey import Survey
from wadl.mission import Mission
# paramters
from wadl.solver.solver import SolverParameters
from wadl.lib.route import RouteParameters
from wadl.mission import MissionParameters
# survey design script
# get file name
# files are assumed geofences (ID, lat, long)
file = "data/stanford.csv"
# make survey
name = 'stanford'
survey = Survey(name)
# add the keypoints
keyPoints = {"oval": (37.4298541, -122.1694745),
"MSL": (37.4266113, -122.173492)
}
survey.setKeyPoints(keyPoints)
# route parameters
routeParams = RouteParameters()
routeParams["limit"] = 30*60 # s
routeParams["speed"] = 5 # m/s
routeParams["altitude"] = 50.0 # m
# add the tasks
survey.addTask(file,
step=100,
home=["MSL", "oval"],
routeParameters=routeParams,
)
# solver parameters
solverParams = SolverParameters()
solverParams["subGraph_size"] = 20
solverParams["SATBound_offset"] = 2
solverParams["timeout"] = 10
solverParams["stitch"] = "milp"
# set the solver parameters
survey.setSolverParamters(solverParams)
# plan the survey
view = 0
# view current plan
if view == 1:
survey.view()
else:
# run path solver to plan paths and write output
survey.plan(write=False, showPlot=True)
# survey.plot()
# make mission
# mission parameters
# missionParams = MissionParameters()
# missionParams["N_bands"] = 3
# missionParams["autoland"] = False
# missionParams["assign"] = "sequence"
# missionParams["offset_takeoff_dist"] = 10
# missionParams["offset_land_dist"] = 10
# mission = Mission(missionParams)
# mission.fromSurvey(survey, showPlot=True)
# mission.setVersion(4, 0, 187)
# mission.write()