diff --git a/parameters.yaml b/parameters.yaml index cfce588..6ca41b4 100644 --- a/parameters.yaml +++ b/parameters.yaml @@ -44,8 +44,9 @@ THRESHOLDS: unclassified: 5 # min voltage samples not classified for warning max_vm_warn: 1.5 # threshold for mass offset (warn), fail) max_vm_fail: 2.5 # threshold for mass offset (warn), fail) - clockquality_warn: 90 # clock quality ranges from 0 % to 100 % with 100 % being the best level - clockquality_fail: 70 + clockquality_warn: 90 # warn level - clock quality ranges from 0 % to 100 % with 100 % being the best level + clockquality_fail: 70 # fail level + min_gap: 0.1 # minimum for gap declaration, should be > 0 [s] # ---------------------------------- Specification of input channels --------------------------------------------------- @@ -108,6 +109,9 @@ CHANNELS: warn: "clockquality_warn" fail: "clockquality_fail" +# specify data channels (can be additional to the above). From these channels only headers will be read +data_channels: ["HHZ", "HHN", "HHE"] + # ---------------------------------------- OPTIONAL PARAMETERS --------------------------------------------------------- diff --git a/survBot.py b/survBot.py index 6c270ba..2c7f9ee 100755 --- a/survBot.py +++ b/survBot.py @@ -68,7 +68,8 @@ def fancy_timestr(dt, thresh=600, modif='+'): class SurveillanceBot(object): def __init__(self, parameter_path, outpath_html=None): - self.keys = ['last active', '230V', '12V', 'router', 'charger', 'voltage', 'mass', 'clock', 'temp', 'other'] + self.keys = ['last active', '230V', '12V', 'router', 'charger', 'voltage', 'mass', 'clock', 'gaps', 'temp', + 'other'] self.parameter_path = parameter_path self.update_parameters() self.starttime = UTCDateTime() @@ -76,6 +77,7 @@ class SurveillanceBot(object): self.current_day = self.starttime.julday self.outpath_html = outpath_html self.filenames = [] + self.filenames_wf_data = [] self.filenames_read = [] self.station_list = [] self.analysis_print_list = [] @@ -83,6 +85,7 @@ class SurveillanceBot(object): self.status_track = {} self.dataStream = Stream() self.data = {} + self.gaps = [] self.print_count = 0 self.status_message = '' self.html_fig_dir = 'figures' @@ -92,8 +95,12 @@ class SurveillanceBot(object): def update_parameters(self): self.parameters = read_yaml(self.parameter_path) - # add channels to list in parameters dicitonary - self.parameters['channels'] = list(self.parameters.get('CHANNELS').keys()) + # add channels to list in parameters dictionary, also add data channels + channels = list(self.parameters.get('CHANNELS').keys()) + for channel in self.parameters.get('data_channels'): + if not channel in channels: + channels.append(channel) + self.parameters['channels'] = channels self.reread_parameters = self.parameters.get('reread_parameters') self.dt_thresh = [int(val) for val in self.parameters.get('dt_thresh')] self.verbosity = self.parameters.get('verbosity') @@ -129,18 +136,25 @@ class SurveillanceBot(object): def get_filenames(self): self.filenames = [] + self.filenames_wf_data = [] time_now = UTCDateTime() t1 = time_now - self.parameters.get('timespan') * 24 * 3600 networks = self.parameters.get('networks') stations = self.parameters.get('stations') locations = self.parameters.get('locations') channels = self.parameters.get('channels') + channels_wf_data = self.parameters.get('data_channels') for network in networks: for station in stations: for location in locations: for channel in channels: - self.filenames += list(self.cl._get_filenames(network, station, location, channel, - starttime=t1, endtime=time_now)) + fnames = list(self.cl._get_filenames(network, station, location, channel, + starttime=t1, endtime=time_now)) + self.filenames += fnames + + # keep track of filenames with wf data (only read headers later) + if channel in channels_wf_data: + self.filenames_wf_data += fnames def read_data(self, re_read_at_hour=1, daily_overlap=2): ''' @@ -166,7 +180,11 @@ class SurveillanceBot(object): if filename in self.filenames_read: continue try: - st_new = read(filename, dtype=float) + # read only header of wf_data + if filename in self.filenames_wf_data: + st_new = read(filename, headonly=True) + else: + st_new = read(filename, dtype=float) # add file to read filenames to prevent re-reading in case it is not the current day (or end of # previous day) if not filename.endswith(f'{current_day:03}') and not ( @@ -176,7 +194,8 @@ class SurveillanceBot(object): print(f'Could not read file {filename}:', e) continue self.dataStream += st_new - self.dataStream.merge(fill_value=np.nan) + self.gaps = self.dataStream.get_gaps(min_gap=self.parameters['THRESHOLDS'].get('min_gap')) + self.dataStream.merge() # organise data in dictionary with key for each station for trace in self.dataStream: @@ -251,7 +270,7 @@ class SurveillanceBot(object): def get_station_delay(self, nwst_id): """ try to get station delay from SDS archive using client""" locations = ['', '0', '00'] - channels = ['HHZ', 'HHE', 'HHN'] + self.parameters.get('channels') + channels = self.parameters.get('channels') + self.parameters.get('data_channels') network, station = nwst_id.split('.')[:2] times = [] @@ -706,6 +725,7 @@ class StationQC(object): self.pb_rout_charge_analysis() self.mass_analysis() self.clock_quality_analysis() + self.gaps_analysis() def return_print_analysis(self): items = [self.nwst_id] @@ -981,6 +1001,26 @@ class StationQC(object): if volt_lvl == last_val or (volt_lvl == -1 and last_val < 1): self.error(key, detailed_message=f'Last PowBox voltage state {last_val}V: {message}') + def gaps_analysis(self, key='gaps'): + """ return gaps of a given nwst_id """ + + gaps = [] + for gap_list in self.parent.gaps: + nw_gap, st_gap = gap_list[:2] + if nw_gap == self.network and st_gap == self.station: + gaps.append(gap_list) + + if not gaps: + self.status_ok(key=key) + return + + detailed_message = '' + for gap_list in gaps: + text = '{}.{}.{}.{}: last sample - {}, next sample - {}, delta {}, samples {}\n'.format(*gap_list) + detailed_message += text + + self.warn(key=key, detailed_message=detailed_message, count=len(gaps)) + def calc_occurrences(self, ind_array): # try calculate number of voltage peaks/plateaus from gaps between indices if len(ind_array) == 0: