Home > Matching_SYM_LSM > src > 2D_LSM_62 > 2D_LSM_62_sym_Functions > simulated_display_parameters.m

simulated_display_parameters

PURPOSE ^

% display control parameters

SYNOPSIS ^

function par = simulated_display_parameters(par)

DESCRIPTION ^

% display control parameters

 wf 7/2020

CROSS-REFERENCE INFORMATION ^

This function calls: This function is called by:

SOURCE CODE ^

0001 function par = simulated_display_parameters(par)
0002 %% display control parameters
0003 %
0004 % wf 7/2020
0005 
0006 % --- use warping routine? ----------------------------------------------
0007 if par.warping_routine
0008     disp('Use Matlab routine imtransfrom.m for warping')
0009 else
0010     disp('Use loops on pixels for warping')
0011 end
0012 
0013 % ---  number of samples for testing CovM ------------------------------
0014 disp(['Number of samples for testing CovM               : ', num2str(par.N_samples)])
0015 
0016 % ---   file name ------------------------------------------------------
0017 
0018 disp(['type_data = ',num2str(par.type_data),', image file name for simulation    : ', par.img_filename])
0019 
0020 
0021 
0022 if  par.img_filename(1:3) == 'MIT'
0023     disp(['row and column                                   : [', ...
0024         num2str(par.row),',',num2str(par.col),']'])
0025 end
0026 
0027 % ---  half size of common window, corresponds to number of observations if scale=1
0028 disp(['Appr. size of common window                      : ', num2str(2*par.Nfr+1)])
0029 
0030 % ---  noise variance = s + t*g (for the range [0,255]) ----------------
0031 disp(['noise variance v(g)=s + t * g [gr]               : [', ...
0032     num2str(par.stg(1)),',',num2str(par.stg(2)),']'])
0033 disp(['noise variance v(h)=s + t * h [gr]               : [', ...
0034     num2str(par.sth(1)),',',num2str(par.sth(2)),']'])
0035 
0036 % ---  Affinities ------------------------------------------------------
0037 % Geometric affinity z = A y
0038 
0039 disp( 'True geometric transformation affinity  z = A y  : ')
0040 disp(par.A_t);
0041 % Radiometric affinity h = b7*y + b8
0042 
0043 disp(['True intensity transformation h = b7*y + b8 [gr] : [',...
0044     num2str(par.R_true(1)),',',num2str(par.R_true(2)*255),']'])
0045 
0046 % ---  smoothing kernel ------------------------------------------------
0047 disp(['Smoothing kernel [pixels]                        : ', num2str(par.sigma_smooth)])
0048 
0049 % ---  minimum size of overlap  ------------------------------
0050 disp(['Minimum size of overlap                          : ', num2str(par.Nf_MIN),'x', num2str(par.Nf_MIN)])
0051 
0052 % ---  maximum number of iterations ------------------------------------
0053 disp(['Maximum number of iterations                     : ', num2str(par.max_iter)])
0054 
0055 % ---  significance level ----------------------------------------------
0056 disp(['Significance level                               : ', num2str(100*par.S),'%'])
0057 
0058 end
0059

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