public void PowerBurstBt30()
{
PredictionModel model = new PredictionModel();
double _CEI_ = 0.249;
double _DeploymentDuration_ = 30;
int _Beams_ = 4;
double _SystemFrequency_ = 288000;
bool _CWPON_ = true;
double _CWPBL_ = 1;
double _CWPBS_ = 4;
double _CWPBN_ = 30;
double _CWPBB_LagLength_ = 1;
Commands.AdcpSubsystemCommands.eCWPBB_TransmitPulseType _CWPBB_TransmitPulseType_ = Commands.AdcpSubsystemCommands.eCWPBB_TransmitPulseType.BROADBAND;
double _CWPP_ = 1;
double _CWPTBP_ = 0.5;
bool _CBTON_ = true;
Commands.AdcpSubsystemCommands.eCBTBB_Mode _CBTBB_TransmitPulseType_ = Commands.AdcpSubsystemCommands.eCBTBB_Mode.BROADBAND_CODED;
double _BeamAngle_ = 20;
double _SpeedOfSound_ = 1490;
double _SystemBootPower_ = 1.80;
double _SystemWakeupTime_ = 0.40;
double _SystemInitPower_ = 2.80;
double _SystemInitTime_ = 0.25;
bool _BroadbandPower_ = true;
double _SystemSavePower_ = 1.80;
double _SystemSaveTime_ = 0.15;
double _SystemSleepPower_ = 0.024;
double _BeamDiameter_ = 0.075;
double _CyclesPerElement_ = 12;
int _CBI_EnsemblesPerBurst_ = 4096;
double _CBI_BurstInterval_ = 3600;
int _CBI_IsInterleaved_ = 0;
double _BatteryCapacity_ = 440.0;
double _BatteryDerate_ = 0.85;
double _BatterySelfDischarge_ = 0.05;
double temperature = 10.0;
double salinity = 35.0;
double xdcrDepth = 0.0;
double power = model.CalculatePowerBurst(_CEI_, _DeploymentDuration_, _Beams_, _SystemFrequency_, _CWPON_, _CWPBL_, _CWPBS_, _CWPBN_, _CWPBB_LagLength_, _CWPBB_TransmitPulseType_, _CWPP_, _CWPTBP_, _CBTON_, _CBTBB_TransmitPulseType_, _BeamAngle_, _SpeedOfSound_, _SystemBootPower_, _SystemWakeupTime_, _SystemInitPower_, _SystemInitTime_, _BroadbandPower_, _SystemSavePower_, _SystemSaveTime_, _SystemSleepPower_, _BeamDiameter_, _CyclesPerElement_, temperature, salinity, xdcrDepth, _CBI_EnsemblesPerBurst_, _CBI_BurstInterval_, _CBI_IsInterleaved_);
double correctAnswer = 12475.41;
Assert.AreEqual(correctAnswer, power, 0.01);
double batteryUsage = model.BatteryUsage(power, _DeploymentDuration_, _BatteryCapacity_, _BatteryDerate_, _BatterySelfDischarge_);
double correctBattery = 33.36;
Assert.AreEqual(correctBattery, batteryUsage, 0.01);
}
public void PowerNB()
{
PredictionModel model = new PredictionModel();
double _CEI_ = 1;
double _DeploymentDuration_ = 30;
int _Beams_ = 4;
double _SystemFrequency_ = 288000;
bool _CWPON_ = true;
double _CWPBL_ = 1;
double _CWPBS_ = 4;
double _CWPBN_ = 30;
double _CWPBB_LagLength_ = 1;
Commands.AdcpSubsystemCommands.eCWPBB_TransmitPulseType _CWPBB_TransmitPulseType_ = Commands.AdcpSubsystemCommands.eCWPBB_TransmitPulseType.NARROWBAND;
double _CWPP_ = 9;
double _CWPTBP_ = 0.5;
bool _CBTON_ = true;
Commands.AdcpSubsystemCommands.eCBTBB_Mode _CBTBB_TransmitPulseType_ = Commands.AdcpSubsystemCommands.eCBTBB_Mode.NARROWBAND_LONG_RANGE;
double _BeamAngle_ = 20;
double _SpeedOfSound_ = 1490;
double _SystemBootPower_ = 1.80;
double _SystemWakeupTime_ = 0.40;
double _SystemInitPower_ = 2.80;
double _SystemInitTime_ = 0.25;
bool _BroadbandPower_ = true;
double _SystemSavePower_ = 1.80;
double _SystemSaveTime_ = 0.15;
double _SystemSleepPower_ = 0.024;
double _BeamDiameter_ = 0.075;
double _CyclesPerElement_ = 12;
double _BatteryCapacity_ = 440.0;
double _BatteryDerate_ = 0.85;
double _BatterySelfDischarge_ = 0.05;
double temperature = 10.0;
double salinity = 35.0;
double xdcrDepth = 0.0;
double power = model.CalculatePower(_CEI_, _DeploymentDuration_, _Beams_, _SystemFrequency_, _CWPON_, _CWPBL_, _CWPBS_, _CWPBN_, _CWPBB_LagLength_, _CWPBB_TransmitPulseType_, _CWPP_, _CWPTBP_, _CBTON_, _CBTBB_TransmitPulseType_, _BeamAngle_, _SpeedOfSound_, _SystemBootPower_, _SystemWakeupTime_, _SystemInitPower_, _SystemInitTime_, _BroadbandPower_, _SystemSavePower_, _SystemSaveTime_, _SystemSleepPower_, _BeamDiameter_, _CyclesPerElement_, temperature, salinity, xdcrDepth);
double correctAnswer = 34770.30;
Assert.AreEqual(correctAnswer, power, 0.01);
double batteryUsage = model.BatteryUsage(power, _DeploymentDuration_, _BatteryCapacity_, _BatteryDerate_, _BatterySelfDischarge_);
double correctBattery = 92.97;
Assert.AreEqual(correctBattery, batteryUsage, 0.01);
}
/// <summary>
/// Setup the predictor.
/// </summary>
public void CalcPrediction()
{
if (_pm.SelectedProject.Configuration.SubsystemConfigDict.ContainsKey(ConfigKey))
{
PredictionModelInput predInput = new PredictionModelInput(_pm.SelectedProject.Configuration.SubsystemConfigDict[ConfigKey].SubsystemConfig.SubSystem);
if (_pm.SelectedProject.Configuration.DeploymentOptions.Duration <= 0)
{
predInput.DeploymentDuration = 1;
}
else
{
predInput.DeploymentDuration = _pm.SelectedProject.Configuration.DeploymentOptions.Duration;
}
// Absorption
predInput.Temperature = _pm.SelectedProject.Configuration.Commands.CWT;
predInput.Salinity = _pm.SelectedProject.Configuration.Commands.CWS;
predInput.XdcrDepth = _pm.SelectedProject.Configuration.Commands.CTD;
predInput.CEI = _pm.SelectedProject.Configuration.Commands.CEI.ToSecondsD();
predInput.CWPON = _pm.SelectedProject.Configuration.SubsystemConfigDict[ConfigKey].Commands.CWPON;
predInput.CBTON = _pm.SelectedProject.Configuration.SubsystemConfigDict[ConfigKey].Commands.CBTON;
predInput.CBTTBP = _pm.SelectedProject.Configuration.SubsystemConfigDict[ConfigKey].Commands.CBTTBP;
predInput.CBTBB_TransmitPulseType = _pm.SelectedProject.Configuration.SubsystemConfigDict[ConfigKey].Commands.CBTBB_Mode;
//predInput.CBTBB_TransmitPulseType = Commands.AdcpSubsystemCommands.eCBTBB_Mode.NARROWBAND_LONG_RANGE; // DEFAULT to narrowband because it autoswitches now
predInput.CWPTBP = _pm.SelectedProject.Configuration.SubsystemConfigDict[ConfigKey].Commands.CWPTBP;
predInput.CWPBN = _pm.SelectedProject.Configuration.SubsystemConfigDict[ConfigKey].Commands.CWPBN;
predInput.CWPBS = _pm.SelectedProject.Configuration.SubsystemConfigDict[ConfigKey].Commands.CWPBS;
predInput.CWPBL = _pm.SelectedProject.Configuration.SubsystemConfigDict[ConfigKey].Commands.CWPBL;
predInput.CWPBB_TransmitPulseType = _pm.SelectedProject.Configuration.SubsystemConfigDict[ConfigKey].Commands.CWPBB_TransmitPulseType;
predInput.CWPBB_LagLength = _pm.SelectedProject.Configuration.SubsystemConfigDict[ConfigKey].Commands.CWPBB_LagLength;
predInput.CWPP = _pm.SelectedProject.Configuration.SubsystemConfigDict[ConfigKey].Commands.CWPP;
predInput.BatteryType = _pm.SelectedProject.Configuration.DeploymentOptions.BatteryType;
predInput.CBI_BurstInterval = _pm.SelectedProject.Configuration.SubsystemConfigDict[ConfigKey].Commands.CBI_BurstInterval.ToSecondsD();
predInput.CBI_SamplesPerBurst = _pm.SelectedProject.Configuration.SubsystemConfigDict[ConfigKey].Commands.CBI_NumEnsembles;
predInput.CBI_IsInterleaved = _pm.SelectedProject.Configuration.SubsystemConfigDict[ConfigKey].Commands.CBI_BurstPairFlag;
// Create Prediction model
PredictionModel Predictor = new PredictionModel();
// Set the prediction values
PredictionModel.PredictedRanges ranges = Predictor.GetPredictedRange(predInput);
PredictedBottomRange = ranges.BottomTrack;
PredictedProfileRange = ranges.WaterProfile;
ProfileFirstBinPosition = ranges.FirstBinPosition.ToString("0.0000");
double maxVel = Predictor.GetMaxVelocity(predInput);
MaximumVelocity = maxVel.ToString("0.0000");
double std = Predictor.GetStandardDeviation(predInput);
StandardDeviation = std.ToString("0.0000");
double numBatts = Predictor.BatteryUsage(predInput);
NumberBatteryPacks = numBatts;
if (CBI_NumEnsembles > 0)
{
NumberBytes = Predictor.GetDataStorageBurst(predInput);
}
else
{
NumberBytes = Predictor.GetDataStorage(predInput);
}
if (RangeVM != null)
{
// Update all the properites
RangeVM.WaterProfileRange = ranges.WaterProfile;
RangeVM.BottomTrackRange = ranges.BottomTrack;
RangeVM.WpBlank = predInput.CWPBL;
RangeVM.WpFirstBinRange = ranges.FirstBinPosition;
if (_pm.IsProjectSelected && _pm.SelectedProject.Configuration != null)
{
RangeVM.DepthToBottom = predInput.XdcrDepth;
}
}
//this.NotifyOfPropertyChange(() => this.CWPP);
//this.NotifyOfPropertyChange(() => this.CWPTBP);
//this.NotifyOfPropertyChange(() => this.CWPBS);
//this.NotifyOfPropertyChange(() => this.CWPBN);
//this.NotifyOfPropertyChange(() => this.CWPBL);
//this.NotifyOfPropertyChange(() => this.CWPBB_TransmitPulseType);
//this.NotifyOfPropertyChange(() => this.CWPBB_LagLength);
//this.NotifyOfPropertyChange(() => this.CBTON);
//this.NotifyOfPropertyChange(() => this.CBI_BurstInterval);
//this.NotifyOfPropertyChange(() => this.DataSize);
//this.NotifyOfPropertyChange(() => this.NumberBatteryPackStr);
//this.NotifyOfPropertyChange(() => this.PredictedBottomRangeStr);
//this.NotifyOfPropertyChange(() => this.PredictedProfileRangeStr);
//this.NotifyOfPropertyChange(() => this.ProfileFirstBinPosition);
//this.NotifyOfPropertyChange(() => this.MaximumVelocity);
//this.NotifyOfPropertyChange(() => this.StandardDeviation);
}
}
