Add quality check for clock quality (LCQ)
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@ -3,7 +3,7 @@ datapath: "/data/SDS/" # SC3 Datapath
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networks: ["1Y", "HA"] # select networks, list or str
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stations: "*" # select stations, list or str
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locations: "*" # select locations, list or str
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channels: ["EX1", "EX2", "EX3", "VEI"] # Specify SOH channels, currently supported EX[1-3] and VEI
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channels: ["EX1", "EX2", "EX3", "VEI", "LCQ"] # Specify SOH channels, currently supported EX[1-3], VEI, LCQ
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stations_blacklist: ["TEST", "EREA"] # exclude these stations
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networks_blacklist: [] # exclude these networks
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interval: 60 # Perform checks every x seconds
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@ -43,6 +43,8 @@ THRESHOLDS:
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low_volt: 12 # min voltage for low voltage warning
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high_volt: 14.8 # max voltage for over voltage warning
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unclassified: 5 # min voltage samples not classified for warning
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clockquality_warn: 90 # clock quality ranges from 0 % to 100 % with 100 % being the best level
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clockquality_fail: 70
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# ---------------------------------------- OPTIONAL PARAMETERS ---------------------------------------------------------
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@ -62,7 +64,7 @@ EMAIL:
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networks_blacklist: [] # do not send emails for specific network
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# names for plotting of the above defined parameter "channels" in the same order
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channel_names: ["Temperature (°C)", "230V/12V Status (V)", "Router/Charger State (V)", "Logger Voltage (V)"]
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channel_names: ["Clock Quality (%)", "Temperature (°C)", "230V/12V Status (V)", "Router/Charger State (V)", "Logger Voltage (V)"] # names for plotting (optional)
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# specify y-ticks (and ylims) giving, (ymin, ymax, step) for each of the above channels (0: default)
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CHANNEL_TICKS:
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- [-10, 50, 10]
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44
survBot.py
44
survBot.py
@ -61,7 +61,7 @@ def fancy_timestr(dt, thresh=600, modif='+'):
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class SurveillanceBot(object):
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def __init__(self, parameter_path, outpath_html=None):
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self.keys = ['last active', '230V', '12V', 'router', 'charger', 'voltage', 'temp', 'other']
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self.keys = ['last active', '230V', '12V', 'router', 'charger', 'voltage', 'clock', 'temp', 'other']
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self.parameter_path = parameter_path
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self.update_parameters()
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self.starttime = UTCDateTime()
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@ -685,6 +685,7 @@ class StationQC(object):
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self.pb_temp_analysis()
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self.pb_power_analysis()
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self.pb_rout_charge_analysis()
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self.clock_quality_analysis()
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def return_print_analysis(self):
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items = [self.nwst_id]
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@ -713,6 +714,47 @@ class StationQC(object):
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def get_last_occurrence(self, trace, indices):
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return self.get_time(trace, indices[-1])
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def clock_quality_analysis(self, channel='LCQ'):
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""" Analyse clock quality """
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key = 'clock'
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st = self.stream.select(channel=channel)
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trace = self.get_trace(st, key)
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if not trace: return
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clockQuality = trace.data
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clockQuality_warn_level = self.parameters.get('THRESHOLDS').get('clockquality_warn')
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clockQuality_fail_level = self.parameters.get('THRESHOLDS').get('clockquality_fail')
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if self.verbosity > 1:
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self.print(40 * '-')
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self.print('Performing Clock Quality check', flush=False)
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clockQuality_warn = np.where(clockQuality < clockQuality_warn_level)[0]
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clockQuality_fail = np.where(clockQuality < clockQuality_fail_level)[0]
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if len(clockQuality_warn) == 0 and len(clockQuality_fail) == 0:
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self.status_ok(key, detailed_message=f'ClockQuality={(clockQuality[-1])}')
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return
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n_qc_warn = 0
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n_qc_fail = 0
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warn_message = f'Trace {trace.get_id()}:'
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if len(clockQuality_warn) > 0:
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# try calculate number of warn peaks from gaps between indices
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n_qc_warn = len(np.where(np.diff(clockQuality_warn) > 1)[0]) + 1
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detailed_message = warn_message + f' {n_qc_warn}x Qlock Quality less then {clockQuality_warn_level}' \
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+ self.get_last_occurrence_timestring(trace, clockQuality_warn)
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self.warn(key, detailed_message=detailed_message, count=n_qc_warn,
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last_occurrence=self.get_last_occurrence(trace, clockQuality_warn))
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if len(clockQuality_fail) > 0:
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# try calculate number of fail peaks from gaps between indices
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n_qc_fail = len(np.where(np.diff(clockQuality_fail) > 1)[0]) + 1
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detailed_message = warn_message + f' {n_qc_fail}x Qlock Quality less then {clockQuality_fail_level}V ' \
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+ self.get_last_occurrence_timestring(trace, clockQuality_fail)
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self.error(key, detailed_message=detailed_message, count=n_qc_fail,
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last_occurrence=self.get_last_occurrence(trace, clockQuality_fail))
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def voltage_analysis(self, channel='VEI'):
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""" Analyse voltage channel for over/undervoltage """
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key = 'voltage'
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