tutorial: added RCS calculations to RCS_Sphere example
This still needs testing and validation! Signed-off-by: Thorsten Liebig <Thorsten.Liebig@gmx.de>pull/1/head
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@ -1,8 +1,6 @@
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%
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% Tutorials / radar cross section of a metal sphere
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%
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% This tutorial is unfinished!
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%
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% Describtion at:
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% http://openems.de/index.php/Tutorial:_RCS_Sphere
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%
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@ -20,11 +18,11 @@ clc
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physical_constants;
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unit = 1e-3; % all length in mm
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sphere.rad = 160;
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sphere.rad = 200;
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% size of the simulation box
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SimBox = 1000;
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PW_Box = 500;
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PW_Box = 750;
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%% setup FDTD parameter & excitation function
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f_start = 200e6; % start frequency
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@ -64,6 +62,11 @@ start = [mesh.x(1) mesh.y(1) 0];
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stop = [mesh.x(end) mesh.y(end) 0];
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CSX = AddBox(CSX, 'Et', 0, start, stop);
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%%nf2ff calc
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start = [mesh.x(1) mesh.y(1) mesh.z(1)];
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stop = [mesh.x(end) mesh.y(end) mesh.z(end)];
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[CSX nf2ff] = CreateNF2FFBox(CSX, 'nf2ff', start, stop);
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% add 8 lines in all direction as pml spacing
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mesh = AddPML(mesh,8);
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@ -87,3 +90,28 @@ RunOpenEMS( Sim_Path, Sim_CSX);
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%%
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disp('Use Paraview to display the elctric fields dumped by openEMS');
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%%
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freq = 500e6;
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EF = ReadUI( 'et', Sim_Path, freq ); % time domain/freq domain voltage
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Pin = 0.5*norm(E_dir)^2/Z0 .* abs(EF.FD{1}.val).^2;
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%%
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nf2ff = CalcNF2FF(nf2ff, Sim_Path, freq, [-180:2:180]*pi/180, [0 90]*pi/180,'Mode',1);
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RCS = 4*pi./Pin(1).*nf2ff.P_rad{1}(:,1);
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polar(nf2ff.theta,RCS);
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xlabel('z -->');
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ylabel('x -->');
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hold on
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grid on
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%%
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disp( 'calculating 3D far field pattern and dumping to vtk (use Paraview to visualize)...' );
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thetaRange = (0:2:180);
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phiRange = (0:2:360) - 180;
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nf2ff = CalcNF2FF(nf2ff, Sim_Path, freq, thetaRange*pi/180, phiRange*pi/180,'Verbose',1,'Outfile','3D_Pattern.h5','Mode',1);
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RCS = 4*pi./Pin(1).*nf2ff.P_rad{1};
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DumpFF2VTK([Sim_Path '/3D_Pattern.vtk'],RCS,thetaRange,phiRange,1e-3);
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disp('Use Paraview to display the 3D scattering pattern');
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