public TheoreticalModelAnisotropy(TheoreticalModel theoretical,AnisotropyValues aniso)
{
this.theoretical = theoretical;
this.aniso = aniso;
// theoretical.FitValues(false, true, true);
CheckDirections();
}
public void SetAnisotropy(AnisotropyValues value)
{
this.anisotroy = value;
if (value != null)
{
uxAngle2.Text = anisotroy.AngDip2.ToString();
uxAngle.Text = anisotroy.Azimuth.ToString();
uxTolerance.Text = anisotroy.Tolerance.ToString();
uxBandwidth.Text = anisotroy.BandWidth.ToString();
}
}
private void StartKriging()
{
dataK = new Kriging(this._data, 6);
spatial = new SpatialContinuity(dataK.GetDataSource());
anisotropy = new AnisotropyValues(spatial);
semiGraph = new SemivarianceCovarianceGraph(zedGraphControl1, spatial);
semiGraph.Graph();
theoretical = new TheoreticalModel(spatial);
IKrigingModel model = theoretical.GetFunctionDefault();
semiGraph.DrawCurve(theoretical.GetFunctionDefault());
theoreticalModelControl1.TheoreticalModel = theoretical;
kriggingResult.Field = this._field;
kriggingResult.Extent = JsonConvert.SerializeObject(this._extent);
kriggingResult.Clip = JsonConvert.SerializeObject(this._clip);
}
private void Spatial_ChangedLagParameter(object sender, EventArgs e)
{
// spatial= (SpatialContinuity)sender;
uxContinuity.ValuesMinMax = new double[2] { 0, spatial.SemivarianceStatistic.Max };
uxContinuity.SetSurface(spatial.Surface(Path.GetTempPath() + "\\t2.bgd"));
semiGraph.Spatial = spatial;
semiGraph.Graph();
theoretical.Spatial = spatial;
IKrigingModel model = theoretical.GetFunctionDefault();
semiGraph.DrawCurve(theoretical.GetFunctionDefault());
theoreticalModelControl1.TheoreticalModel = theoretical;
anisotropy = new AnisotropyValues(spatial);
anisotropyControl1.SetAnisotropy(anisotropy);
uxContinuity.SetLayer(spatial.InfluenceZone(theoreticalModelControl1.MajorRange, theoreticalModelControl1.MinorRange, theoreticalModelControl1.Azimuth));
}
private void StartKriging()
{
//8--> used field
if (env.Method == "Ordinary Kriging")
dataK = new Kriging(env.Data, 6);
if (env.Method == "Simple Kriging")
dataK = new SimpleKriging(env.Data, 6);
if (env.Method == "Universal Kriging")
dataK = new UniversalKriging(env.Data, 6);
spatial = new SpatialContinuity(dataK.GetDataSource());
anisotropy = new AnisotropyValues(spatial);
anisotropyControl1.SetAnisotropy(anisotropy);
spatial.ChangedLagParameter += new EventHandler(Spatial_ChangedLagParameter);
anisotropy.ChangedAnisotropyParameter += new EventHandler(Spatial_ChangedAnisotropyParameter);
uxContinuity.ValuesMinMax = new double[2] { 0, spatial.SemivarianceStatistic.Max };
uxLag.Spatial = spatial;
uxLag.NumberOfLags = spatial.NumberOfLags.ToString();
uxLag.LagSize = spatial.LagSize.ToString();
uxLag.Tolerance = spatial.LagValue.tolerance.ToString();
uxLag.EnableUpdateLag();
uxContinuity.SetSurface(spatial.Surface(Path.GetTempPath() + "\\t2.bgd"));
semiGraph = new SemivarianceCovarianceGraph(zedGraphControl1, spatial);
semiGraph.Graph();
theoretical = new TheoreticalModel(spatial);
IKrigingModel model = theoretical.GetFunctionDefault();
semiGraph.DrawCurve(theoretical.GetFunctionDefault());
theoreticalModelControl1.TheoreticalModel = theoretical;
uxContinuity.SetLayer(spatial.InfluenceZone(theoretical.KrigingModel.Range, theoretical.KrigingModel.Range, 0));
theoretical.ChangedKriginParameter += new EventHandler(theoretical_ChangedKriginParameter);
theoreticalModelControl1.ChangedAnisotropyParameter += new EventHandler(theoreticalModelControl1_ChangedAnisotropyParameter);
}
