public void FilterSinglePole_GetOutput_2()
{
Filter filter = new FilterSinglePole(3, 0.5);
filter.AddInput(-155.0);
filter.AddInput(-160.0);
filter.AddInput(-175.0);
filter.AddInput(172.0);
double result = filter.GetOutput();
Assert.IsTrue(ExtraMath.EqualValue(result, 134.023));
}
public void FilterSinglePole_GetOutput_1()
{
Filter filter = new FilterSinglePole(3, 0.5);
filter.AddInput(10.0);
filter.AddInput(15.0);
filter.AddInput(25.0);
filter.AddInput(36.0);
double result = filter.GetOutput();
Assert.IsTrue(ExtraMath.EqualValue(result, 29.609));
}
/// <summary>
/// Устанавлиает фильтры
/// </summary>
private void setFilters(LaunchScript data)
{
switch (data.filterType)
{
case FilterType.MovingAverage:
{
filterX = new FilterMovingAverage(data.filterLength);
filterY = new FilterMovingAverage(data.filterLength);
filterZ = new FilterMovingAverage(data.filterLength);
}
break;
case FilterType.SignlePole:
{
filterX = new FilterSinglePole(data.filterLength, data.filterParameter);
filterY = new FilterSinglePole(data.filterLength, data.filterParameter);
filterZ = new FilterSinglePole(data.filterLength, data.filterParameter);
}
break;
case FilterType.Gaussian:
{
filterX = new FilterGaussian(data.filterLength, data.filterParameter);
filterY = new FilterGaussian(data.filterLength, data.filterParameter);
filterZ = new FilterGaussian(data.filterLength, data.filterParameter);
}
break;
}
}
/// <summary>
/// Устанавилвает стратегии
/// </summary>
/// <param name="parameters"></param>
private void setStrategies(StrategiesParameters parameters)
{
input = new List<double>();
output = new List<double>();
pure = new List<double>();
noise = new List<double>();
switch (parameters.Filter)
{
case FilterType.MovingAverage:
filter = new FilterMovingAverage(parameters.FilterLength); break;
case FilterType.SignlePole:
filter = new FilterSinglePole(parameters.FilterLength, parameters.SinglePoleK); break;
case FilterType.Gaussian:
filter = new FilterGaussian(parameters.FilterLength, parameters.GaussianA); break;
}
switch (parameters.Noiser)
{
case NoiserType.Idle:
noiser = new NoiserIdle(); break;
case NoiserType.Uniform:
noiser = new NoiserUniform(parameters.UniformMin, parameters.UniformMax); break;
case NoiserType.Normal:
noiser = new NoiserNormal(parameters.NormalMean, parameters.NormalDeviation); break;
case NoiserType.Function:
noiser = new NoiserFunction(ExtraMath.PieceWiseExample1); break;
}
if (parameters.Source == SourceType.Network)
{
udpThread = new UdpThread();
udpThread.Start();
IsEmulation = false;
source = new SourceNetwork(parameters.Axis, parameters.IP);
}
else
{
IsEmulation = true;
switch (parameters.Source)
{
case SourceType.Sin:
source = new SourceEmulatorSin(emulatorSettings, noiser, parameters.SinAmplitude, parameters.SinAverage, parameters.SinPeriod);
break;
case SourceType.Linear:
source = new SourceEmulatorLinear(emulatorSettings, noiser, parameters.LinearMin, parameters.LinearMax);
break;
case SourceType.Fourier:
source = new SourceEmulatorFourier(emulatorSettings, noiser, parameters.HalfOffset, parameters.aList, parameters.bList);
break;
}
}
}