% seti contrast Fresnel
% to reconstruct from Fresnel data

% -- setGrid
seti.dim = 2;
seti.rCD = 0.2;
seti.nCD = 256;

% -- setKernel
seti.model = 'helmholtz';

% -- setContrast
%seti.contrast = 'fresnel'; % contrast function (shape)

% -- fresnel data (loadData.m)
seti.expData = 'fresnel';
seti.nuMax = 10; % test(!) (may be fail in case of 1 GHz) (Warning: rank deficient...) (nuMax = 10 was used in paper)
seti.ampCalc = 1;

% -- inversion process (regularization)
seti.invNo = 6;
%seti.delta = 0.25; % roughly... set it manually...

seti.beta = 1E-5;
%seti.alpha = 3E-3; %balanced...
seti.alpha = 500; % new default
seti.tau = 1.6; % synthetic is higher...

seti.physBounds = [-1,3,0,1]; % vgl. paper1default [-1,3,0,3]

seti.useDis = 1;

seti.pdaStepsize = 'fix';

seti.nOut = 20;

% -- figures and files
seti.usecbarlim = 1;
seti.cbarlim = [-0.40,2.40];

seti.plotFreqiPda = 1E4;

seti.plotPublish = 1;
seti.plotFreq = 10;
seti.saveepsc = 1;
seti.savefig = 1;
seti.savedata = 1;

seti.pdaN = 10; % bei paper1default pdaN = 50;