rmeddis@29: function testPhysiology(BF,paramsName, paramChanges)
rmeddis@32: % e.g.
rmeddis@38: % testPhysiology(1000,'Normal', {})
rmeddis@29: 
rmeddis@29: restorePath=path;
rmeddis@29: addpath (['..' filesep 'MAP'])
rmeddis@29: 
rmeddis@38: if nargin<3,  paramChanges=[]; end
rmeddis@29: 
rmeddis@38: if nargin<2, paramsName='Normal'; end
rmeddis@38: 
rmeddis@38: if nargin<1, BF=1000; end
rmeddis@38: 
rmeddis@38: disp('testPhysiology...........computing')
rmeddis@38: disp('testOME...........computing')
rmeddis@29: testOME(paramsName,paramChanges)
rmeddis@38: 
rmeddis@29: relativeFrequencies=[0.25    .5   .75  1  1.25 1.5    2];
rmeddis@38: disp('testBM...........computing')
rmeddis@29: testBM (BF, paramsName,relativeFrequencies,'spikes', paramChanges)
rmeddis@38: 
rmeddis@38: disp('testRP...........computing')
rmeddis@38: testRP2(paramsName,paramChanges)
rmeddis@38: 
rmeddis@38: disp('testSynapse...........computing')
rmeddis@38: testSynapse(BF,paramsName, 'spikes', paramChanges)
rmeddis@38: 
rmeddis@38: disp('testFM...........computing')
rmeddis@32: testFM(BF,paramsName,'spikes', paramChanges)
rmeddis@38: 
rmeddis@38: disp('testPhaseLocking...........computing')
rmeddis@29: testPhaseLocking(paramsName,paramChanges)
rmeddis@38: 
rmeddis@38: disp('testAN...........computing')
rmeddis@29: testAN(BF,BF, -10:10:80,paramsName,paramChanges);
rmeddis@38: 
rmeddis@38: % put these figures on top
rmeddis@29: figure(14)
rmeddis@29: figure(15)
rmeddis@29: 
rmeddis@29: path(restorePath)