public void insertLoadObservation(String sensorId,
String sampleNumber,
long loadTime,
double downstreamActivePowerEEA,
double reactiveInductivePowerEEI,
double reactiveCapacitivePowerEEC,
double upstreamActivePowerEUA,
double reactiveInductivePowerEUI,
double reactiveCapaciticePowerEUC,
String tariffType,
String integrationPeriodRef,
long currentTime
)
{
XmlSerializer ser = new XmlSerializer(typeof(InsertObservation));
Utf8StringWriter textWriter = new Utf8StringWriter();
InsertObservation io = new InsertObservation();
io.assignedSensorId = "load:" + sensorId;
io.observation = new Observation();
io.observation.samplingTime = new SamplingTime();
io.observation.samplingTime.timeInstant = new TimeInstant();
io.observation.samplingTime.timeInstant.timePosition = new TimePosition();
io.observation.samplingTime.timeInstant.timePosition.frame = "urn:x-ogc:def:trs:IDAS:1.0:ISO8601";
var epoch = new DateTime(1970, 1, 1, 0, 0, 0, DateTimeKind.Utc);
io.observation.samplingTime.timeInstant.timePosition.dateTime = epoch.AddSeconds(currentTime);//ho messo il currentTime. è giusto?
io.observation.procedure = new Procedure();
io.observation.procedure.href = "load:" + sensorId;
//sampleNumber
io.observation.observedProperty = new ObservedProperty();
io.observation.observedProperty.href = "urn:x-ogc:def:phenomenon:FINESCE:1.0:sampleNumber";
io.observation.featureOfInterest = new FeatureOfInterest();
io.observation.parameter = new Parameter();
io.observation.result = new Result();
io.observation.result.text = new Text(sampleNumber);
textWriter = new Utf8StringWriter();
ser.Serialize(textWriter, io);
sendMessage(textWriter.ToString());
//loadTime
io.observation.observedProperty.href = "urn:x-ogc:def:phenomenon:FINESCE:1.0:loadTime";
io.observation.result = new Result();
io.observation.result.text = new Text(loadTime.ToString());
textWriter = new Utf8StringWriter();
ser.Serialize(textWriter, io);
sendMessage(textWriter.ToString());
//downstreamActivePowerEEA
io.observation.observedProperty.href = "urn:x-ogc:def:phenomenon:FINESCE:1.0:downstreamActivePowerEEA";
io.observation.result = new Result();
io.observation.result.quantity = new Quantity("urn:x-ogc:def:phenomenon:IDAS:1.0:power");
io.observation.result.quantity.uom = new Uom("kW");
io.observation.result.quantity.value = downstreamActivePowerEEA.ToString("G", CultureInfo.InvariantCulture);
textWriter = new Utf8StringWriter();
ser.Serialize(textWriter, io);
sendMessage(textWriter.ToString());
//reactiveInductivePowerEEI
io.observation.observedProperty.href = "urn:x-ogc:def:phenomenon:FINESCE:1.0:reactiveInductivePowerEEI";
io.observation.result = new Result();
io.observation.result.quantity = new Quantity("urn:x-ogc:def:phenomenon:IDAS:1.0:reactivePower");
io.observation.result.quantity.uom = new Uom("kVAr");
io.observation.result.quantity.value = reactiveInductivePowerEEI.ToString("G", CultureInfo.InvariantCulture);
textWriter = new Utf8StringWriter();
ser.Serialize(textWriter, io);
sendMessage(textWriter.ToString());
//reactiveCapacitivePowerEEC
io.observation.observedProperty.href = "urn:x-ogc:def:phenomenon:FINESCE:1.0:reactiveCapacitivePowerEEC";
io.observation.result = new Result();
io.observation.result.quantity = new Quantity("urn:x-ogc:def:phenomenon:IDAS:1.0:reactivePower");
io.observation.result.quantity.uom = new Uom("kVAr");
io.observation.result.quantity.value = reactiveCapacitivePowerEEC.ToString("G", CultureInfo.InvariantCulture);
textWriter = new Utf8StringWriter();
ser.Serialize(textWriter, io);
sendMessage(textWriter.ToString());
//upstreamActivePowerEUA
io.observation.observedProperty.href = "urn:x-ogc:def:phenomenon:FINESCE:1.0:upstreamActivePowerEUA";
io.observation.result = new Result();
io.observation.result.quantity = new Quantity("urn:x-ogc:def:phenomenon:IDAS:1.0:power");
io.observation.result.quantity.uom = new Uom("kW");
io.observation.result.quantity.value = upstreamActivePowerEUA.ToString("G", CultureInfo.InvariantCulture);
textWriter = new Utf8StringWriter();
ser.Serialize(textWriter, io);
sendMessage(textWriter.ToString());
//reactiveInductivePowerEUI
io.observation.observedProperty.href = "urn:x-ogc:def:phenomenon:FINESCE:1.0:reactiveInductivePowerEUI";
io.observation.result = new Result();
io.observation.result.quantity = new Quantity("urn:x-ogc:def:phenomenon:IDAS:1.0:reactivePower");
io.observation.result.quantity.uom = new Uom("kVAr");
io.observation.result.quantity.value = reactiveInductivePowerEUI.ToString("G", CultureInfo.InvariantCulture);
textWriter = new Utf8StringWriter();
ser.Serialize(textWriter, io);
sendMessage(textWriter.ToString());
//reactiveCapaciticePowerEUC
io.observation.observedProperty.href = "urn:x-ogc:def:phenomenon:FINESCE:1.0:reactiveCapaciticePowerEUC";
io.observation.result = new Result();
io.observation.result.quantity = new Quantity("urn:x-ogc:def:phenomenon:IDAS:1.0:reactivePower");
io.observation.result.quantity.uom = new Uom("kVAr");
io.observation.result.quantity.value = reactiveCapaciticePowerEUC.ToString("G", CultureInfo.InvariantCulture);
textWriter = new Utf8StringWriter();
ser.Serialize(textWriter, io);
sendMessage(textWriter.ToString());
//tariffType
io.observation.observedProperty.href = "urn:x-ogc:def:phenomenon:FINESCE:1.0:tariffType";
io.observation.result = new Result();
io.observation.result.text = new Text(tariffType);
textWriter = new Utf8StringWriter();
ser.Serialize(textWriter, io);
sendMessage(textWriter.ToString());
//integrationPeriodRef
io.observation.observedProperty.href = "urn:x-ogc:def:phenomenon:FINESCE:1.0:integrationPeriodRef";
io.observation.result = new Result();
io.observation.result.text = new Text(integrationPeriodRef);
textWriter = new Utf8StringWriter();
ser.Serialize(textWriter, io);
sendMessage(textWriter.ToString());
//currentTime
io.observation.observedProperty.href = "urn:x-ogc:def:phenomenon:FINESCE:1.0:currentTime";
io.observation.result = new Result();
io.observation.result.text = new Text(currentTime.ToString());
textWriter = new Utf8StringWriter();
ser.Serialize(textWriter, io);
sendMessage(textWriter.ToString());
//meterID
io.observation.observedProperty.href = "urn:x-ogc:def:phenomenon:FINESCE:1.0:meterID";
io.observation.result = new Result();
io.observation.result.text = new Text(sensorId);
textWriter = new Utf8StringWriter();
ser.Serialize(textWriter, io);
sendMessage(textWriter.ToString());
//meterType
io.observation.observedProperty.href = "urn:x-ogc:def:phenomenon:FINESCE:1.0:meterType";
io.observation.result = new Result();
io.observation.result.text = new Text("LOAD");
textWriter = new Utf8StringWriter();
ser.Serialize(textWriter, io);
sendMessage(textWriter.ToString());
//isConcentrator
io.observation.observedProperty.href = "urn:x-ogc:def:phenomenon:FINESCE:1.0:isConcentrator";
io.observation.result = new Result();
io.observation.result.text = new Text("false");
textWriter = new Utf8StringWriter();
ser.Serialize(textWriter, io);
sendMessage(textWriter.ToString());
}
public String registerMeter(string meterId)
{
RegisterSensor rs = new RegisterSensor();
rs.sensorDescription = new SensorDescription();
rs.sensorDescription.system = new SML.System();
rs.sensorDescription.system.id = "meter:" + meterId;
rs.sensorDescription.system.identification = new Identification();
rs.sensorDescription.system.identification.identifierList = new IdentifierList();
rs.sensorDescription.system.identification.identifierList.identifier = new Identifier[1];
rs.sensorDescription.system.identification.identifierList.identifier[0] = new Identifier();
rs.sensorDescription.system.identification.identifierList.identifier[0].term = new Term();
rs.sensorDescription.system.identification.identifierList.identifier[0].term.definition = "urn:x-ogc:def:identifier:IDAS:1.0:localIdentifier";
rs.sensorDescription.system.identification.identifierList.identifier[0].term.value = new SMLValue();
rs.sensorDescription.system.identification.identifierList.identifier[0].term.value.content = "meter:" + meterId;
rs.sensorDescription.system.inputs = new Inputs();
rs.sensorDescription.system.inputs.inputList = new InputList();
rs.sensorDescription.system.inputs.inputList.input = new Input[10];
rs.sensorDescription.system.inputs.inputList.input[0] = new Input("upstreamActivePower");
rs.sensorDescription.system.inputs.inputList.input[0].observableProperty = new ObservableProperty("urn:x-ogc:def:phenomenon:FINESCE:1.0:upstreamActivePower");
rs.sensorDescription.system.inputs.inputList.input[1] = new Input("downstreamActivePower");
rs.sensorDescription.system.inputs.inputList.input[1].observableProperty = new ObservableProperty("urn:x-ogc:def:phenomenon:FINESCE:1.0:downstreamActivePower");
rs.sensorDescription.system.inputs.inputList.input[2] = new Input("RP_Q1");
rs.sensorDescription.system.inputs.inputList.input[2].observableProperty = new ObservableProperty("urn:x-ogc:def:phenomenon:FINESCE:1.0:RP_Q1");
rs.sensorDescription.system.inputs.inputList.input[3] = new Input("RP_Q2");
rs.sensorDescription.system.inputs.inputList.input[3].observableProperty = new ObservableProperty("urn:x-ogc:def:phenomenon:FINESCE:1.0:RP_Q2");
rs.sensorDescription.system.inputs.inputList.input[4] = new Input("RP_Q3");
rs.sensorDescription.system.inputs.inputList.input[4].observableProperty = new ObservableProperty("urn:x-ogc:def:phenomenon:FINESCE:1.0:RP_Q3");
rs.sensorDescription.system.inputs.inputList.input[5] = new Input("RP_Q4");
rs.sensorDescription.system.inputs.inputList.input[5].observableProperty = new ObservableProperty("urn:x-ogc:def:phenomenon:FINESCE:1.0:RP_Q4");
rs.sensorDescription.system.inputs.inputList.input[6] = new Input("isConcentrator");
rs.sensorDescription.system.inputs.inputList.input[6].observableProperty = new ObservableProperty("urn:x-ogc:def:phenomenon:FINESCE:1.0:isConcentrator");
rs.sensorDescription.system.inputs.inputList.input[7] = new Input("currentTime");
rs.sensorDescription.system.inputs.inputList.input[7].observableProperty = new ObservableProperty("urn:x-ogc:def:phenomenon:FINESCE:1.0:currentTime");
rs.sensorDescription.system.inputs.inputList.input[8] = new Input("meterID");
rs.sensorDescription.system.inputs.inputList.input[8].observableProperty = new ObservableProperty("urn:x-ogc:def:phenomenon:FINESCE:1.0:meterID");
rs.sensorDescription.system.inputs.inputList.input[9] = new Input("meterType");
rs.sensorDescription.system.inputs.inputList.input[9].observableProperty = new ObservableProperty("urn:x-ogc:def:phenomenon:FINESCE:1.0:meterType");
rs.sensorDescription.system.outputs = new Outputs();
rs.sensorDescription.system.outputs.outputList = new OutputList();
rs.sensorDescription.system.outputs.outputList.output = new Output[10];
rs.sensorDescription.system.outputs.outputList.output[0] = new Output("upstreamActivePower");
rs.sensorDescription.system.outputs.outputList.output[0].quantity = new Quantity("urn:x-ogc:def:phenomenon:IDAS:1.0:power");
rs.sensorDescription.system.outputs.outputList.output[0].quantity.uom = new Uom("kW");
rs.sensorDescription.system.outputs.outputList.output[1] = new Output("downstreamActivePower");
rs.sensorDescription.system.outputs.outputList.output[1].quantity = new Quantity("urn:x-ogc:def:phenomenon:IDAS:1.0:power");
rs.sensorDescription.system.outputs.outputList.output[1].quantity.uom = new Uom("kW");
rs.sensorDescription.system.outputs.outputList.output[2] = new Output("RP_Q1");
rs.sensorDescription.system.outputs.outputList.output[2].quantity = new Quantity("urn:x-ogc:def:phenomenon:IDAS:1.0:reactivePower");
rs.sensorDescription.system.outputs.outputList.output[2].quantity.uom = new Uom("kVAr");
rs.sensorDescription.system.outputs.outputList.output[3] = new Output("RP_Q2");
rs.sensorDescription.system.outputs.outputList.output[3].quantity = new Quantity("urn:x-ogc:def:phenomenon:IDAS:1.0:reactivePower");
rs.sensorDescription.system.outputs.outputList.output[3].quantity.uom = new Uom("kVAr");
rs.sensorDescription.system.outputs.outputList.output[4] = new Output("RP_Q3");
rs.sensorDescription.system.outputs.outputList.output[4].quantity = new Quantity("urn:x-ogc:def:phenomenon:IDAS:1.0:reactivePower");
rs.sensorDescription.system.outputs.outputList.output[4].quantity.uom = new Uom("kVAr");
rs.sensorDescription.system.outputs.outputList.output[5] = new Output("RP_Q4");
rs.sensorDescription.system.outputs.outputList.output[5].quantity = new Quantity("urn:x-ogc:def:phenomenon:IDAS:1.0:reactivePower");
rs.sensorDescription.system.outputs.outputList.output[5].quantity.uom = new Uom("kVAr");
rs.sensorDescription.system.outputs.outputList.output[6] = new Output("isConcentrator");
rs.sensorDescription.system.outputs.outputList.output[6].text = new Text();
rs.sensorDescription.system.outputs.outputList.output[7] = new Output("currentTime");
rs.sensorDescription.system.outputs.outputList.output[7].text = new Text();
rs.sensorDescription.system.outputs.outputList.output[8] = new Output("meterID");
rs.sensorDescription.system.outputs.outputList.output[8].text = new Text();
rs.sensorDescription.system.outputs.outputList.output[9] = new Output("meterType");
rs.sensorDescription.system.outputs.outputList.output[9].text = new Text();
rs.observationTemplate = new ObservationTemplate();
rs.observationTemplate.observation = new Observation();
rs.observationTemplate.observation.samplingTime = new SamplingTime();
rs.observationTemplate.observation.observedProperty = new ObservedProperty();
rs.observationTemplate.observation.procedure = new Procedure();
rs.observationTemplate.observation.featureOfInterest = new FeatureOfInterest();
rs.observationTemplate.observation.parameter = new Parameter();
rs.observationTemplate.observation.result = new Result();
XmlSerializer ser = new XmlSerializer(typeof(RegisterSensor));
Utf8StringWriter textWriter = new Utf8StringWriter();
ser.Serialize(textWriter, rs);
return(sendMessage(textWriter.ToString()));
}
public void insertMeterObservation(string sensorId,
long samplingTime,
double upstreamActivePower,
double downstreamActivePower,
double reactivePowerQ1,
double reactivePowerQ2,
double reactivePowerQ3,
double reactivePowerQ4)
{
XmlSerializer ser = new XmlSerializer(typeof(InsertObservation));
Utf8StringWriter textWriter = new Utf8StringWriter();
InsertObservation io = new InsertObservation();
io.assignedSensorId = "meter:" + sensorId;
io.observation = new Observation();
io.observation.samplingTime = new SamplingTime();
io.observation.samplingTime.timeInstant = new TimeInstant();
io.observation.samplingTime.timeInstant.timePosition = new TimePosition();
io.observation.samplingTime.timeInstant.timePosition.frame = "urn:x-ogc:def:trs:IDAS:1.0:ISO8601";
var epoch = new DateTime(1970, 1, 1, 0, 0, 0, DateTimeKind.Utc);
io.observation.samplingTime.timeInstant.timePosition.dateTime = epoch.AddSeconds(samplingTime);
io.observation.procedure = new Procedure();
io.observation.procedure.href = "meter:" + sensorId;
io.observation.observedProperty = new ObservedProperty();
io.observation.observedProperty.href = "urn:x-ogc:def:phenomenon:FINESCE:1.0:upstreamActivePower";
io.observation.featureOfInterest = new FeatureOfInterest();
io.observation.parameter = new Parameter();
io.observation.result = new Result();
io.observation.result.quantity = new Quantity("urn:x-ogc:def:phenomenon:IDAS:1.0:power");
io.observation.result.quantity.uom = new Uom("kW");
io.observation.result.quantity.value = upstreamActivePower.ToString("G", CultureInfo.InvariantCulture);
textWriter = new Utf8StringWriter();
ser.Serialize(textWriter, io);
sendMessage(textWriter.ToString());
//downstreamActivePower
io.observation.observedProperty.href = "urn:x-ogc:def:phenomenon:FINESCE:1.0:downstreamActivePower";
io.observation.result.quantity.value = downstreamActivePower.ToString("G", CultureInfo.InvariantCulture);
textWriter = new Utf8StringWriter();
ser.Serialize(textWriter, io);
sendMessage(textWriter.ToString());
//reactivePowerQ1
io.observation.observedProperty.href = "urn:x-ogc:def:phenomenon:FINESCE:1.0:RP_Q1";
io.observation.result = new Result();
io.observation.result.quantity = new Quantity("urn:x-ogc:def:phenomenon:IDAS:1.0:reactivePower");
io.observation.result.quantity.uom = new Uom("kVAr");
io.observation.result.quantity.value = reactivePowerQ1.ToString("G", CultureInfo.InvariantCulture);
textWriter = new Utf8StringWriter();
ser.Serialize(textWriter, io);
sendMessage(textWriter.ToString());
//reactivePowerQ2
io.observation.observedProperty.href = "urn:x-ogc:def:phenomenon:FINESCE:1.0:RP_Q2";
io.observation.result = new Result();
io.observation.result.quantity = new Quantity("urn:x-ogc:def:phenomenon:IDAS:1.0:reactivePower");
io.observation.result.quantity.uom = new Uom("kVAr");
io.observation.result.quantity.value = reactivePowerQ2.ToString("G", CultureInfo.InvariantCulture);
textWriter = new Utf8StringWriter();
ser.Serialize(textWriter, io);
sendMessage(textWriter.ToString());
//reactivePowerQ3
io.observation.observedProperty.href = "urn:x-ogc:def:phenomenon:FINESCE:1.0:RP_Q3";
io.observation.result = new Result();
io.observation.result.quantity = new Quantity("urn:x-ogc:def:phenomenon:IDAS:1.0:reactivePower");
io.observation.result.quantity.uom = new Uom("kVAr");
io.observation.result.quantity.value = reactivePowerQ3.ToString("G", CultureInfo.InvariantCulture);
textWriter = new Utf8StringWriter();
ser.Serialize(textWriter, io);
sendMessage(textWriter.ToString());
//reactivePowerQ4
io.observation.observedProperty.href = "urn:x-ogc:def:phenomenon:FINESCE:1.0:RP_Q4";
io.observation.result = new Result();
io.observation.result.quantity = new Quantity("urn:x-ogc:def:phenomenon:IDAS:1.0:reactivePower");
io.observation.result.quantity.uom = new Uom("kVAr");
io.observation.result.quantity.value = reactivePowerQ4.ToString("G", CultureInfo.InvariantCulture);
textWriter = new Utf8StringWriter();
ser.Serialize(textWriter, io);
sendMessage(textWriter.ToString());
//isConcentrator
io.observation.observedProperty.href = "urn:x-ogc:def:phenomenon:FINESCE:1.0:isConcentrator";
io.observation.result = new Result();
io.observation.result.text = new Text("false");
textWriter = new Utf8StringWriter();
ser.Serialize(textWriter, io);
sendMessage(textWriter.ToString());
//meterID
io.observation.observedProperty.href = "urn:x-ogc:def:phenomenon:FINESCE:1.0:meterID";
io.observation.result = new Result();
io.observation.result.text = new Text(sensorId);
textWriter = new Utf8StringWriter();
ser.Serialize(textWriter, io);
sendMessage(textWriter.ToString());
//meterType
io.observation.observedProperty.href = "urn:x-ogc:def:phenomenon:FINESCE:1.0:meterType";
io.observation.result = new Result();
io.observation.result.text = new Text("METER");
textWriter = new Utf8StringWriter();
ser.Serialize(textWriter, io);
sendMessage(textWriter.ToString());
}
public String registerMeter(string meterId)
{
RegisterSensor rs = new RegisterSensor();
rs.sensorDescription = new SensorDescription();
rs.sensorDescription.system = new SML.System();
rs.sensorDescription.system.id = "meter:"+meterId;
rs.sensorDescription.system.identification = new Identification();
rs.sensorDescription.system.identification.identifierList = new IdentifierList();
rs.sensorDescription.system.identification.identifierList.identifier = new Identifier[1];
rs.sensorDescription.system.identification.identifierList.identifier[0] = new Identifier();
rs.sensorDescription.system.identification.identifierList.identifier[0].term = new Term();
rs.sensorDescription.system.identification.identifierList.identifier[0].term.definition = "urn:x-ogc:def:identifier:IDAS:1.0:localIdentifier";
rs.sensorDescription.system.identification.identifierList.identifier[0].term.value = new SMLValue();
rs.sensorDescription.system.identification.identifierList.identifier[0].term.value.content = "meter:"+meterId;
rs.sensorDescription.system.inputs = new Inputs();
rs.sensorDescription.system.inputs.inputList = new InputList();
rs.sensorDescription.system.inputs.inputList.input = new Input[10];
rs.sensorDescription.system.inputs.inputList.input[0]=new Input("upstreamActivePower");
rs.sensorDescription.system.inputs.inputList.input[0].observableProperty = new ObservableProperty("urn:x-ogc:def:phenomenon:FINESCE:1.0:upstreamActivePower");
rs.sensorDescription.system.inputs.inputList.input[1]=new Input("downstreamActivePower");
rs.sensorDescription.system.inputs.inputList.input[1].observableProperty = new ObservableProperty("urn:x-ogc:def:phenomenon:FINESCE:1.0:downstreamActivePower");
rs.sensorDescription.system.inputs.inputList.input[2]=new Input("RP_Q1");
rs.sensorDescription.system.inputs.inputList.input[2].observableProperty = new ObservableProperty("urn:x-ogc:def:phenomenon:FINESCE:1.0:RP_Q1");
rs.sensorDescription.system.inputs.inputList.input[3]=new Input("RP_Q2");
rs.sensorDescription.system.inputs.inputList.input[3].observableProperty = new ObservableProperty("urn:x-ogc:def:phenomenon:FINESCE:1.0:RP_Q2");
rs.sensorDescription.system.inputs.inputList.input[4] = new Input("RP_Q3");
rs.sensorDescription.system.inputs.inputList.input[4].observableProperty = new ObservableProperty("urn:x-ogc:def:phenomenon:FINESCE:1.0:RP_Q3");
rs.sensorDescription.system.inputs.inputList.input[5] = new Input("RP_Q4");
rs.sensorDescription.system.inputs.inputList.input[5].observableProperty = new ObservableProperty("urn:x-ogc:def:phenomenon:FINESCE:1.0:RP_Q4");
rs.sensorDescription.system.inputs.inputList.input[6] = new Input("isConcentrator");
rs.sensorDescription.system.inputs.inputList.input[6].observableProperty = new ObservableProperty("urn:x-ogc:def:phenomenon:FINESCE:1.0:isConcentrator");
rs.sensorDescription.system.inputs.inputList.input[7] = new Input("currentTime");
rs.sensorDescription.system.inputs.inputList.input[7].observableProperty = new ObservableProperty("urn:x-ogc:def:phenomenon:FINESCE:1.0:currentTime");
rs.sensorDescription.system.inputs.inputList.input[8] = new Input("meterID");
rs.sensorDescription.system.inputs.inputList.input[8].observableProperty = new ObservableProperty("urn:x-ogc:def:phenomenon:FINESCE:1.0:meterID");
rs.sensorDescription.system.inputs.inputList.input[9] = new Input("meterType");
rs.sensorDescription.system.inputs.inputList.input[9].observableProperty = new ObservableProperty("urn:x-ogc:def:phenomenon:FINESCE:1.0:meterType");
rs.sensorDescription.system.outputs = new Outputs();
rs.sensorDescription.system.outputs.outputList = new OutputList();
rs.sensorDescription.system.outputs.outputList.output=new Output[10];
rs.sensorDescription.system.outputs.outputList.output[0]=new Output("upstreamActivePower");
rs.sensorDescription.system.outputs.outputList.output[0].quantity = new Quantity("urn:x-ogc:def:phenomenon:IDAS:1.0:power");
rs.sensorDescription.system.outputs.outputList.output[0].quantity.uom = new Uom("kW");
rs.sensorDescription.system.outputs.outputList.output[1]=new Output("downstreamActivePower");
rs.sensorDescription.system.outputs.outputList.output[1].quantity = new Quantity("urn:x-ogc:def:phenomenon:IDAS:1.0:power");
rs.sensorDescription.system.outputs.outputList.output[1].quantity.uom = new Uom("kW");
rs.sensorDescription.system.outputs.outputList.output[2] = new Output("RP_Q1");
rs.sensorDescription.system.outputs.outputList.output[2].quantity = new Quantity("urn:x-ogc:def:phenomenon:IDAS:1.0:reactivePower");
rs.sensorDescription.system.outputs.outputList.output[2].quantity.uom = new Uom("kVAr");
rs.sensorDescription.system.outputs.outputList.output[3] = new Output("RP_Q2");
rs.sensorDescription.system.outputs.outputList.output[3].quantity = new Quantity("urn:x-ogc:def:phenomenon:IDAS:1.0:reactivePower");
rs.sensorDescription.system.outputs.outputList.output[3].quantity.uom = new Uom("kVAr");
rs.sensorDescription.system.outputs.outputList.output[4] = new Output("RP_Q3");
rs.sensorDescription.system.outputs.outputList.output[4].quantity = new Quantity("urn:x-ogc:def:phenomenon:IDAS:1.0:reactivePower");
rs.sensorDescription.system.outputs.outputList.output[4].quantity.uom = new Uom("kVAr");
rs.sensorDescription.system.outputs.outputList.output[5] = new Output("RP_Q4");
rs.sensorDescription.system.outputs.outputList.output[5].quantity = new Quantity("urn:x-ogc:def:phenomenon:IDAS:1.0:reactivePower");
rs.sensorDescription.system.outputs.outputList.output[5].quantity.uom = new Uom("kVAr");
rs.sensorDescription.system.outputs.outputList.output[6] = new Output("isConcentrator");
rs.sensorDescription.system.outputs.outputList.output[6].text = new Text();
rs.sensorDescription.system.outputs.outputList.output[7] = new Output("currentTime");
rs.sensorDescription.system.outputs.outputList.output[7].text = new Text();
rs.sensorDescription.system.outputs.outputList.output[8] = new Output("meterID");
rs.sensorDescription.system.outputs.outputList.output[8].text = new Text();
rs.sensorDescription.system.outputs.outputList.output[9] = new Output("meterType");
rs.sensorDescription.system.outputs.outputList.output[9].text = new Text();
rs.observationTemplate = new ObservationTemplate();
rs.observationTemplate.observation = new Observation();
rs.observationTemplate.observation.samplingTime = new SamplingTime();
rs.observationTemplate.observation.observedProperty = new ObservedProperty();
rs.observationTemplate.observation.procedure = new Procedure();
rs.observationTemplate.observation.featureOfInterest = new FeatureOfInterest();
rs.observationTemplate.observation.parameter = new Parameter();
rs.observationTemplate.observation.result = new Result();
XmlSerializer ser = new XmlSerializer(typeof(RegisterSensor));
Utf8StringWriter textWriter = new Utf8StringWriter();
ser.Serialize(textWriter, rs);
return sendMessage(textWriter.ToString());
}
public void insertLoadObservation(String sensorId,
String sampleNumber,
long loadTime,
double downstreamActivePowerEEA,
double reactiveInductivePowerEEI,
double reactiveCapacitivePowerEEC,
double upstreamActivePowerEUA,
double reactiveInductivePowerEUI,
double reactiveCapaciticePowerEUC,
String tariffType,
String integrationPeriodRef,
long currentTime
)
{
XmlSerializer ser = new XmlSerializer(typeof(InsertObservation));
Utf8StringWriter textWriter = new Utf8StringWriter();
InsertObservation io = new InsertObservation();
io.assignedSensorId = "load:" + sensorId;
io.observation = new Observation();
io.observation.samplingTime = new SamplingTime();
io.observation.samplingTime.timeInstant = new TimeInstant();
io.observation.samplingTime.timeInstant.timePosition = new TimePosition();
io.observation.samplingTime.timeInstant.timePosition.frame = "urn:x-ogc:def:trs:IDAS:1.0:ISO8601";
var epoch = new DateTime(1970, 1, 1, 0, 0, 0, DateTimeKind.Utc);
io.observation.samplingTime.timeInstant.timePosition.dateTime = epoch.AddSeconds(currentTime);//ho messo il currentTime. è giusto?
io.observation.procedure = new Procedure();
io.observation.procedure.href = "load:" + sensorId;
//sampleNumber
io.observation.observedProperty = new ObservedProperty();
io.observation.observedProperty.href = "urn:x-ogc:def:phenomenon:FINESCE:1.0:sampleNumber";
io.observation.featureOfInterest = new FeatureOfInterest();
io.observation.parameter = new Parameter();
io.observation.result = new Result();
io.observation.result.text = new Text(sampleNumber);
textWriter = new Utf8StringWriter();
ser.Serialize(textWriter, io);
sendMessage(textWriter.ToString());
//loadTime
io.observation.observedProperty.href = "urn:x-ogc:def:phenomenon:FINESCE:1.0:loadTime";
io.observation.result = new Result();
io.observation.result.text = new Text(loadTime.ToString());
textWriter = new Utf8StringWriter();
ser.Serialize(textWriter, io);
sendMessage(textWriter.ToString());
//downstreamActivePowerEEA
io.observation.observedProperty.href = "urn:x-ogc:def:phenomenon:FINESCE:1.0:downstreamActivePowerEEA";
io.observation.result = new Result();
io.observation.result.quantity = new Quantity("urn:x-ogc:def:phenomenon:IDAS:1.0:power");
io.observation.result.quantity.uom = new Uom("kW");
io.observation.result.quantity.value = downstreamActivePowerEEA.ToString("G", CultureInfo.InvariantCulture);
textWriter = new Utf8StringWriter();
ser.Serialize(textWriter, io);
sendMessage(textWriter.ToString());
//reactiveInductivePowerEEI
io.observation.observedProperty.href = "urn:x-ogc:def:phenomenon:FINESCE:1.0:reactiveInductivePowerEEI";
io.observation.result = new Result();
io.observation.result.quantity = new Quantity("urn:x-ogc:def:phenomenon:IDAS:1.0:reactivePower");
io.observation.result.quantity.uom = new Uom("kVAr");
io.observation.result.quantity.value = reactiveInductivePowerEEI.ToString("G", CultureInfo.InvariantCulture);
textWriter = new Utf8StringWriter();
ser.Serialize(textWriter, io);
sendMessage(textWriter.ToString());
//reactiveCapacitivePowerEEC
io.observation.observedProperty.href = "urn:x-ogc:def:phenomenon:FINESCE:1.0:reactiveCapacitivePowerEEC";
io.observation.result = new Result();
io.observation.result.quantity = new Quantity("urn:x-ogc:def:phenomenon:IDAS:1.0:reactivePower");
io.observation.result.quantity.uom = new Uom("kVAr");
io.observation.result.quantity.value = reactiveCapacitivePowerEEC.ToString("G", CultureInfo.InvariantCulture);
textWriter = new Utf8StringWriter();
ser.Serialize(textWriter, io);
sendMessage(textWriter.ToString());
//upstreamActivePowerEUA
io.observation.observedProperty.href = "urn:x-ogc:def:phenomenon:FINESCE:1.0:upstreamActivePowerEUA";
io.observation.result = new Result();
io.observation.result.quantity = new Quantity("urn:x-ogc:def:phenomenon:IDAS:1.0:power");
io.observation.result.quantity.uom = new Uom("kW");
io.observation.result.quantity.value = upstreamActivePowerEUA.ToString("G", CultureInfo.InvariantCulture);
textWriter = new Utf8StringWriter();
ser.Serialize(textWriter, io);
sendMessage(textWriter.ToString());
//reactiveInductivePowerEUI
io.observation.observedProperty.href = "urn:x-ogc:def:phenomenon:FINESCE:1.0:reactiveInductivePowerEUI";
io.observation.result = new Result();
io.observation.result.quantity = new Quantity("urn:x-ogc:def:phenomenon:IDAS:1.0:reactivePower");
io.observation.result.quantity.uom = new Uom("kVAr");
io.observation.result.quantity.value = reactiveInductivePowerEUI.ToString("G", CultureInfo.InvariantCulture);
textWriter = new Utf8StringWriter();
ser.Serialize(textWriter, io);
sendMessage(textWriter.ToString());
//reactiveCapaciticePowerEUC
io.observation.observedProperty.href = "urn:x-ogc:def:phenomenon:FINESCE:1.0:reactiveCapaciticePowerEUC";
io.observation.result = new Result();
io.observation.result.quantity = new Quantity("urn:x-ogc:def:phenomenon:IDAS:1.0:reactivePower");
io.observation.result.quantity.uom = new Uom("kVAr");
io.observation.result.quantity.value = reactiveCapaciticePowerEUC.ToString("G", CultureInfo.InvariantCulture);
textWriter = new Utf8StringWriter();
ser.Serialize(textWriter, io);
sendMessage(textWriter.ToString());
//tariffType
io.observation.observedProperty.href = "urn:x-ogc:def:phenomenon:FINESCE:1.0:tariffType";
io.observation.result = new Result();
io.observation.result.text = new Text(tariffType);
textWriter = new Utf8StringWriter();
ser.Serialize(textWriter, io);
sendMessage(textWriter.ToString());
//integrationPeriodRef
io.observation.observedProperty.href = "urn:x-ogc:def:phenomenon:FINESCE:1.0:integrationPeriodRef";
io.observation.result = new Result();
io.observation.result.text = new Text(integrationPeriodRef);
textWriter = new Utf8StringWriter();
ser.Serialize(textWriter, io);
sendMessage(textWriter.ToString());
//currentTime
io.observation.observedProperty.href = "urn:x-ogc:def:phenomenon:FINESCE:1.0:currentTime";
io.observation.result = new Result();
io.observation.result.text = new Text(currentTime.ToString());
textWriter = new Utf8StringWriter();
ser.Serialize(textWriter, io);
sendMessage(textWriter.ToString());
//meterID
io.observation.observedProperty.href = "urn:x-ogc:def:phenomenon:FINESCE:1.0:meterID";
io.observation.result = new Result();
io.observation.result.text = new Text(sensorId);
textWriter = new Utf8StringWriter();
ser.Serialize(textWriter, io);
sendMessage(textWriter.ToString());
//meterType
io.observation.observedProperty.href = "urn:x-ogc:def:phenomenon:FINESCE:1.0:meterType";
io.observation.result = new Result();
io.observation.result.text = new Text("LOAD");
textWriter = new Utf8StringWriter();
ser.Serialize(textWriter, io);
sendMessage(textWriter.ToString());
//isConcentrator
io.observation.observedProperty.href = "urn:x-ogc:def:phenomenon:FINESCE:1.0:isConcentrator";
io.observation.result = new Result();
io.observation.result.text = new Text("false");
textWriter = new Utf8StringWriter();
ser.Serialize(textWriter, io);
sendMessage(textWriter.ToString());
}
public void insertMeterObservation(string sensorId,
long samplingTime,
double upstreamActivePower,
double downstreamActivePower,
double reactivePowerQ1,
double reactivePowerQ2,
double reactivePowerQ3,
double reactivePowerQ4)
{
XmlSerializer ser = new XmlSerializer(typeof(InsertObservation));
Utf8StringWriter textWriter = new Utf8StringWriter();
InsertObservation io = new InsertObservation();
io.assignedSensorId = "meter:" + sensorId;
io.observation = new Observation();
io.observation.samplingTime = new SamplingTime();
io.observation.samplingTime.timeInstant = new TimeInstant();
io.observation.samplingTime.timeInstant.timePosition = new TimePosition();
io.observation.samplingTime.timeInstant.timePosition.frame = "urn:x-ogc:def:trs:IDAS:1.0:ISO8601";
var epoch = new DateTime(1970, 1, 1, 0, 0, 0, DateTimeKind.Utc);
io.observation.samplingTime.timeInstant.timePosition.dateTime = epoch.AddSeconds(samplingTime);
io.observation.procedure = new Procedure();
io.observation.procedure.href = "meter:" + sensorId;
io.observation.observedProperty = new ObservedProperty();
io.observation.observedProperty.href = "urn:x-ogc:def:phenomenon:FINESCE:1.0:upstreamActivePower";
io.observation.featureOfInterest = new FeatureOfInterest();
io.observation.parameter = new Parameter();
io.observation.result = new Result();
io.observation.result.quantity = new Quantity("urn:x-ogc:def:phenomenon:IDAS:1.0:power");
io.observation.result.quantity.uom = new Uom("kW");
io.observation.result.quantity.value = upstreamActivePower.ToString("G", CultureInfo.InvariantCulture);
textWriter = new Utf8StringWriter();
ser.Serialize(textWriter, io);
sendMessage(textWriter.ToString());
//downstreamActivePower
io.observation.observedProperty.href = "urn:x-ogc:def:phenomenon:FINESCE:1.0:downstreamActivePower";
io.observation.result.quantity.value = downstreamActivePower.ToString("G", CultureInfo.InvariantCulture);
textWriter = new Utf8StringWriter();
ser.Serialize(textWriter, io);
sendMessage(textWriter.ToString());
//reactivePowerQ1
io.observation.observedProperty.href = "urn:x-ogc:def:phenomenon:FINESCE:1.0:RP_Q1";
io.observation.result = new Result();
io.observation.result.quantity = new Quantity("urn:x-ogc:def:phenomenon:IDAS:1.0:reactivePower");
io.observation.result.quantity.uom = new Uom("kVAr");
io.observation.result.quantity.value = reactivePowerQ1.ToString("G", CultureInfo.InvariantCulture);
textWriter = new Utf8StringWriter();
ser.Serialize(textWriter, io);
sendMessage(textWriter.ToString());
//reactivePowerQ2
io.observation.observedProperty.href = "urn:x-ogc:def:phenomenon:FINESCE:1.0:RP_Q2";
io.observation.result = new Result();
io.observation.result.quantity = new Quantity("urn:x-ogc:def:phenomenon:IDAS:1.0:reactivePower");
io.observation.result.quantity.uom = new Uom("kVAr");
io.observation.result.quantity.value = reactivePowerQ2.ToString("G", CultureInfo.InvariantCulture);
textWriter = new Utf8StringWriter();
ser.Serialize(textWriter, io);
sendMessage(textWriter.ToString());
//reactivePowerQ3
io.observation.observedProperty.href = "urn:x-ogc:def:phenomenon:FINESCE:1.0:RP_Q3";
io.observation.result = new Result();
io.observation.result.quantity = new Quantity("urn:x-ogc:def:phenomenon:IDAS:1.0:reactivePower");
io.observation.result.quantity.uom = new Uom("kVAr");
io.observation.result.quantity.value = reactivePowerQ3.ToString("G", CultureInfo.InvariantCulture);
textWriter = new Utf8StringWriter();
ser.Serialize(textWriter, io);
sendMessage(textWriter.ToString());
//reactivePowerQ4
io.observation.observedProperty.href = "urn:x-ogc:def:phenomenon:FINESCE:1.0:RP_Q4";
io.observation.result = new Result();
io.observation.result.quantity = new Quantity("urn:x-ogc:def:phenomenon:IDAS:1.0:reactivePower");
io.observation.result.quantity.uom = new Uom("kVAr");
io.observation.result.quantity.value = reactivePowerQ4.ToString("G", CultureInfo.InvariantCulture);
textWriter = new Utf8StringWriter();
ser.Serialize(textWriter, io);
sendMessage(textWriter.ToString());
//isConcentrator
io.observation.observedProperty.href = "urn:x-ogc:def:phenomenon:FINESCE:1.0:isConcentrator";
io.observation.result = new Result();
io.observation.result.text = new Text("false");
textWriter = new Utf8StringWriter();
ser.Serialize(textWriter, io);
sendMessage(textWriter.ToString());
//meterID
io.observation.observedProperty.href = "urn:x-ogc:def:phenomenon:FINESCE:1.0:meterID";
io.observation.result = new Result();
io.observation.result.text = new Text(sensorId);
textWriter = new Utf8StringWriter();
ser.Serialize(textWriter, io);
sendMessage(textWriter.ToString());
//meterType
io.observation.observedProperty.href = "urn:x-ogc:def:phenomenon:FINESCE:1.0:meterType";
io.observation.result = new Result();
io.observation.result.text = new Text("METER");
textWriter = new Utf8StringWriter();
ser.Serialize(textWriter, io);
sendMessage(textWriter.ToString());
}