2021-07-26 10:29:08 +00:00
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# -*- coding: utf-8 -*-
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"""This module does blah blah."""
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class Offering:
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""" offering class """
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def __init__(self, rooturl, offering_name, offering_label):
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self.url = rooturl
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# self.identifier = offeringId
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self.name = str(offering_name)
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self.label = offering_label
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#self.fullId = str(rooturl) + str(offeringId)
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class Procedure:
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""" procedure class """
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def __init__(self, procedure_id, procedure_name):
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self.id = procedure_id
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self.name = procedure_name
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# Feature of Interest
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class FoI:
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""" foi class """
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def __init__(self, xy_unit, z_unit, cords, feature_id, feature_name):
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'''
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:param xy_unit: unit for X,Y coordinates. Eg. degrees, meters, etc.
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:param z_unit: unit for z, usually height in meters.
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:param cords: a tuple like (X, Y, Z)
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:param feature_id: id for the feature of interest
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'''
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self.x = cords[0]
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self.y = cords[1]
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self.z = cords[2]
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self.Vunit = str(z_unit) # unit of the vertical dimension
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self.Hunit = str(xy_unit) # unit of the horizontal dimensions
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self.fid = feature_id # ID of the feature
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self.name = feature_name
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class SensorType:
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""" sensor type class """
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# In a SOS sensors can be:
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# (a) In-situ ('on the spot') or (b) remote (e.g. satellites, airborne)
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# (1) stationary (with fixed location) or mobile (in movement).
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# Classification used in this class.
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# TODO: extend class to consider all types.
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om_types = {"m": "OM_Measurement", "co": "OM_CategoryObservation", "cto": "OM_CountObservation",
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"to": "OM_TextObservation", "go": "OM_GeometryObservation", "tho": "OM_TruthObservation",
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"xo": "OM_ComplexObservation"}
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def __init__(self, type_): # type refers to the description of phenomena observed,
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# and the mobility of the the sensor.
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# TODO: work on an ontology to deal with different phenomena names
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if type_ == "light": # LIGHT
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self.pattern = {"name": "light", "type": 'fixed', "attributes": [
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("Luminosity", "m"), ("Battery level", "m"), ("Temperature", "m")]}
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elif type_ == "bus": # BUS
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self.pattern = {"name": "BUS", "type": 'mobile', "attributes": [("Speed", "m"), ("Course", "m"), ("Odometer", "m"), ("CO", "m"), (
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"Particles", "m"), ("Ozone N02", "m"), ("N02", "m"), ("Temperature", "m"), ("Humidity", "m")]} # ("Location","go")]}
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elif type_ == "env_station": # ENV_STATION
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self.pattern = {"name": "env_station", "type": 'fixed', "attributes": [("Battery level", "m"), ("Temperature", "m"), ("Relative humidity", "m"), ("Soil Moisture", "m"), (
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"Solar Radiation", "m"), ("Rainfall", "m"), ("Wind_Speed", "m"), ("Wind_Direction", "m"), ("Radiation_PAR", "m"), ("Atmospheric Pressure", "m")]}
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elif type_ == "irrigation": # IRRIGATION
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self.pattern = {"name": "irrigation", "type": 'fixed', "attributes": [("Battery level", "m"), (
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"Temperature", "m"), ("Relative humidity", "m"), ("Soil Moisture", "m"), ("Soil Temperature", "m")]}
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elif type_ == "agriculture": # AGRICULTURE
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self.pattern = {"name": "agriculture", "type": 'fixed', "attributes": [
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("Battery level", "m"), ("Temperature", "m"), ("Relative humidity", "m")]}
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elif type_ == "inclinometer": # INCLINOMETER
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self.pattern = {"name": "inclinometer", "type": 'fixed', "attributes": [
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2022-03-18 15:23:44 +00:00
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("Slope", "m"), ("Roll", "m"), ("Temperature", "m")]}
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elif type_ == "camera": # Camera
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2022-03-08 17:06:12 +00:00
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self.pattern = {"name": "camera", "type": 'fixed', "attributes": [
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2022-03-18 15:23:44 +00:00
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("Image", "to")]}
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2022-03-16 15:37:32 +00:00
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elif type_ == "piezometer": # PIEZOMETER
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self.pattern = {"name": "piezometer", "type": 'fixed', "attributes": [
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("Elevation", "m")]}
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2022-03-24 16:42:27 +00:00
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elif type_ == "tachymeter": # TACHYMETER
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self.pattern = {"name": "tachymeter", "type": 'mobile', "attributes": [
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("TachymeterLocation", "go")]}
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2021-07-26 10:29:08 +00:00
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elif type_ == "noise": # NOISE
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self.pattern = {"name": "noise", "type": 'fixed', "attributes": [
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("Battery level", "m"), ("Noise", "m")]}
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elif type_ == "vehicle_counter": # VEHICLE_COUNTER
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self.pattern = {"name": "vehicle_counter", "type": 'fixed', "attributes": [
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("Occupancy", "m"), (" Count", "cto")]}
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elif type_ == "vehicle_speed": # VEHICLE_SPEED
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self.pattern = {"name": "vehicle_speed", "type": 'fixed', "attributes": [
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("Occupancy", "m"), (" Count", "cto"), (" Average Speed", "m"), (" Median Speed", "m")]}
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elif type_ == 'temp': # TEMP
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self.pattern = {"name": "temp", "type": 'fixed', "attributes": [
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("Battery level", "m"), ("Temperature", "m")]}
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elif type_ == 'outdoor': # Low EMF, measuring 'electrosmog'
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# EFM-project, http://lexnet-project.eu/
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self.pattern = {"name": "outdoor", "type": 'fixed', "attributes": [(" EField (900 Mhz)", "m"), (
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" EField (1800 Mhz)", "m"), (" EField (2100 Mhz)", "m"), (" EField (2400 Mhz)", "m")]}
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elif type_ == 'waste': # WASTE COLLECTOR (Truck)
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self.pattern = {"name": "waste", "type": "fixed", "attributes": [("temperature", "m"), (
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"humidity", "m"), ("particles", "m"), ("CO", "m"), ("NO2", "m"), ("O3", "m"), ("Location", "go")]}
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elif type_ == 'air': # AIR, Not currently reporting
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self.pattern = {"name": "air", "type": "fixed"}
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else:
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print("Sensor type is not defined")
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