paperF0default; % from first paper (compIPscatt) (with seti.pdaN = 10) % remark default: pdaN = 50 is not a good idea here... it does not work very good % paper0TolIn; % use stopping strategy 2 (tolIn) as in first paper (compIPscatt) % Problem of TolIn: does too much inner iterations; do not use it here. seti.alpha = 1E6; % autoparam3 with useTolIn = 1: 1E5 was too low; 1E6 was good; % In addition, 1E7 was OK, but between 1E6 and 1E7 sometimes weird... % So, use 1E6. seti.beta = seti.alpha*1E-5/500; seti.fresnelFreq = 6*1E9; % standard 3 and 5 GHz freqGHz = seti.fresnelFreq/1E9; switch freqGHz case 1 seti.delta = 0.65; % error of data in % (percentage): real 11.5, imag 64.5 (see compIPscatt paper) seti.delta = 0.25; % only rough localization of the two obstacles case 2 seti.delta = 0.47; % real 46.7, imag 8.1 seti.delta = 0.25; % reasonable stop with tau = 1.6... case 3 seti.delta = 0.15; % real 13.4, imag 21.6 case 4 seti.delta = 0.48; % real 47.9, imag 15.6 case 5 seti.delta = 0.25; % real 20.3, imag 27.4 case 6 seti.delta = 0.60; % real 59.5, imag 36.8 seti.delta = 0.15; % good choice in combination with seti.tau = 1.6 case 7 seti.delta = 0.40; % real 25.2, imag 42.9 case 8 seti.delta = 0.70; % real 72.2, imag 41.1 seti.delta = 0.25; end clear freqGHz; seti.fresnelFile = 'inexpdata/fresnel_opus_1/twodielTM_8f.exp'; seti.plotFreqiPda = 1E4; % -- figures and files seti.plotFreq = 10; seti.plotPublish = 1; seti.colormap = 'default'; seti.usecbarlim = 1; seti.cbarlim = [-0.7, 2.0]; %seti.cbarlim = [-0.2, 1.4]; % seti.cbarlim = [-0.40,2.40]; seti.savepng = 1; seti.saveepsc = 1; seti.savefig = 1; seti.savedata = 1;