public Dictionary <String, List <Point> > GetNoise(TFilterType FilterType, int N = 1024, int PeriodsCount = 2)
{
var tempSets = new Dictionary <String, List <Point> >();
if (noise == null)
{
noise = GetNoisePoints(B_1, B_1 / B_2_COEF, N, PeriodsCount);
}
tempSets.Add("Noise", noise);
switch (FilterType)
{
case TFilterType.None:
break;
case TFilterType.SlidingAverage:
tempSets.Add("Sliding Average Filter", Restorer.DoSlidingAverageFilter(noise, Sli_K));
break;
case TFilterType.Mediana:
tempSets.Add("Mediana Filter", Restorer.DoMedianFilter(noise, N, Med_K));
break;
case TFilterType.Parabolic:
tempSets.Add("Parabolic Smoothing", Restorer.DoParabolicSmoothing(noise));
break;
default:
break;
}
return(tempSets);
}
public Dictionary <String, List <Point> > GetAmplSpectre(TFilterType FilterType, int N = 1024, int PeriodsCount = 2)
{
var tempSets = new Dictionary <String, List <Point> >();
if (noise == null)
{
noise = GetNoisePoints(B_1, B_1 / B_2_COEF, N, PeriodsCount);
}
tempSets.Add("Noise Amplitude Spectre", FurieSpectres.GetAmplSpectre(noise, N));
switch (FilterType)
{
case TFilterType.None:
break;
case TFilterType.SlidingAverage:
var SAfiltered = Restorer.DoSlidingAverageFilter(noise, Sli_K);
tempSets.Add("Sliding Average Filter Amplitude Spectre", FurieSpectres.GetAmplSpectre(SAfiltered, SAfiltered.Count));
break;
case TFilterType.Mediana:
var Mfiltered = Restorer.DoMedianFilter(noise, N, Med_K);
tempSets.Add("Mediana Filter Amplitude Spectre", FurieSpectres.GetAmplSpectre(Mfiltered, Mfiltered.Count));
break;
case TFilterType.Parabolic:
var Pfiltered = Restorer.DoParabolicSmoothing(noise);
tempSets.Add("Parabolic Smoothing Amplitude Spectre", FurieSpectres.GetAmplSpectre(Pfiltered, Pfiltered.Count));
break;
default:
break;
}
return(tempSets);
}