Source code for pyrocko.scenario.targets.gnss_campaign
# http://pyrocko.org - GPLv3
#
# The Pyrocko Developers, 21st Century
# ---|P------/S----------~Lg----------
from __future__ import absolute_import, division, print_function
import logging
import os.path as op
import numpy as num
from pyrocko import gf, util
from pyrocko.guts import Float, List
from .base import TargetGenerator, NoiseGenerator
from ..station import RandomStationGenerator, StationGenerator
DEFAULT_STORE_ID = 'ak135_static'
logger = logging.getLogger('pyrocko.scenario.targets.gnss_campaign')
guts_prefix = 'pf.scenario'
[docs]class GPSNoiseGenerator(NoiseGenerator):
measurement_duarion_days = Float.T(
default=2.,
help='Measurement duration in days')
def add_noise(self, campaign):
# https://www.nat-hazards-earth-syst-sci.net/15/875/2015/nhess-15-875-2015.pdf
waterlevel = 1. - (.99 + .0015 * self.measurement_duarion_days) # noqa
logger.warning('GPSNoiseGenerator is a work-in-progress!')
for ista, sta in enumerate(campaign.stations):
pass
# rstate = self.get_rstate(ista)
# sta.north.sigma = 8e-3
# sta.east.sigma = 8e-3
# sta.north.shift += rstate.normal(0., sta.north.sigma)
# sta.east.shift += rstate.normal(0., sta.east.sigma)
[docs]class GNSSCampaignGenerator(TargetGenerator):
station_generators = List.T(
StationGenerator.T(),
default=[RandomStationGenerator.D(
network_name='GN',
channels=None)],
help='The StationGenerator.')
noise_generator = NoiseGenerator.T(
default=GPSNoiseGenerator.D(),
optional=True,
help='Add Synthetic noise to the GNSS displacements.')
store_id = gf.StringID.T(
default=DEFAULT_STORE_ID,
help='The GF store to use for forward-calculations.')
def get_stations(self):
stations = []
for station_generator in self.station_generators:
stations.extend(station_generator.get_stations())
return stations
[docs] def get_targets(self):
stations = self.get_stations()
lats = num.array([s.effective_lat for s in stations])
lons = num.array([s.effective_lon for s in stations])
target = gf.GNSSCampaignTarget(
lats=lats,
lons=lons,
store_id=self.store_id)
return [target]
def get_gnss_campaigns(self, engine, sources, tmin=None, tmax=None):
try:
resp = engine.process(
sources,
self.get_targets(),
nthreads=0)
except gf.meta.OutOfBounds:
logger.warning('Could not calculate GNSS displacements'
' - the GF store\'s extend is too small!')
return []
campaigns = [r.campaign for r in resp.static_results()]
stacked_campaign = campaigns[0]
stacked_campaign.name = 'Scenario Campaign'
for camp in campaigns[1:]:
for ista, sta in enumerate(camp.stations):
stacked_campaign.stations[ista].north.shift += sta.north.shift
stacked_campaign.stations[ista].east.shift += sta.east.shift
stacked_campaign.stations[ista].up.shift += sta.up.shift
for ista, sta in enumerate(stacked_campaign.stations):
sta.code = 'SY%02d' % (ista + 1)
if self.noise_generator is not None:
self.noise_generator.add_noise(stacked_campaign)
return [stacked_campaign]
def ensure_data(self, engine, sources, path, tmin=None, tmax=None):
path_gnss = op.join(path, 'gnss')
util.ensuredir(path_gnss)
networks = []
for sg in self.station_generators:
try:
networks.append(sg.network_name)
except AttributeError:
pass
fn = op.join(
path_gnss,
'campaign-%s.yml' % '_'.join(networks))
if op.exists(fn):
return
campaigns = self.get_gnss_campaigns(engine, sources, tmin, tmax)
with open(fn, 'w') as f:
for camp in campaigns:
camp.dump(stream=f)
def add_map_artists(self, engine, sources, automap):
automap.add_gnss_campaign(self.get_gnss_campaigns(engine, sources)[0])
