f@2: 
f@4: load_files;
f@2: 
f@2: global results_dir;
f@2: results_dir = [pwd, '/../results_reeval/'];
f@2: 
f@2: fprintf('\n**********\nSTARTING TO RUN EXPERIMENTS\n**********\n');
f@2: 
f@2: global src;
f@2: src = gtzan_src(gtzan_path);
f@2: 
f@2: fprintf('\n**********\nFEATURE SET (a)\n**********\n');
f@2: fprintf('\n**********\nMFCC, T=740ms\n**********\n');
f@2: run_experiment('mfcc_740ms');
f@2: 
f@2: fprintf('\n**********\nFEATURE SET (b)\n**********\n');
f@2: fprintf('\n**********\nTime Scattering, l=1\n**********\n');
f@3: run_experiment('time_scat_l1');
f@2: 
f@2: fprintf('\n**********\nFEATURE SET (c)\n**********\n');
f@2: fprintf('\n**********\nTime Scattering, l=2\n**********\n');
f@3: run_experiment('time_scat_l2');
f@2: 
f@2: fprintf('\n**********\nFEATURE SET (d)\n**********\n');
f@2: fprintf('\n**********\nTime and Frequency Scattering, l=2\n**********\n');
f@3: run_experiment('time_freq_scat_l2');
f@2: 
f@2: fprintf('\n**********\nFEATURE SET (e)\n**********\n');
f@2: fprintf('\n**********\nTime and Frequency Scattering, l=2, Adaptive Q1\n**********\n');
f@3: run_experiment('time_freq_scat_l2_adap_q1');
f@2: 
f@2: fprintf('\n**********\nFEATURE SET (f)\n**********\n');
f@2: fprintf('\n**********\nTime Scattering, l=3\n**********\n')
f@3: run_experiment('time_scat_l3');
f@2: 
f@2: quit;