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cleanvortexcore.m~
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cleanvortexcore.m~
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function [lambda, peakheight, secamp, zmin, loc, file2] = cleanvortexcore(file, aoa, zmin, zmax, thresh, var, mode)
%trim vortex core data
% first find the peak in height direction
% loc is in wind frame, first valley starting from zmax to zmin
% zmin is an update of zmin (last valley), should decrease monotonically
z = file.data(:,3);
if var>0
signal = file.data(:,var);
else
signal = file.data(:,1)*cos(aoa) - file.data(:,2)*sin(aoa);
end
zstart = 1;
zend = 1;
for ii=1:1:length(z)
if z(ii)<zmin
zstart = ii;
break;
end
end
for ii=1:1:length(z)
if z(ii)<zmax
zend = ii;
break;
end
end
if zend<zstart
tmp = zstart;
zstart = zend;
zend = tmp;
end
index=[zstart:1:zend];
y = signal(index);
acme = findacme(y);
thresh = min(thresh, autothresh(acme));
while 1
[flag, acme] = trimacme(acme, thresh);
if flag==0
break;
end
end
end
function acme = findacme(h)
nsize = length(h);
flag = 0;
acme(1,1)=1;
acme(1,2)=h(1);
acount = 2;
for ii=2:1:nsize-1
if h(ii) <= h(ii-1) && h(ii)<=h(ii+1) && (h(ii)<h(ii-1) || h(ii)<h(ii+1));
if flag==-1;
acme(acount-1, 1) = round((acme(acount-1, 1) + ii)/2);
else
acme(acount, 1) = ii;
acme(acount, 2) = h(ii);
acount = acount + 1;
end
flag = -1.;
end
if h(ii) >= h(ii-1) && h(ii)>=h(ii+1) && (h(ii)>h(ii-1) || h(ii)>h(ii+1));
if flag==1;
acme(acount-1, 1) = round((acme(acount-1, 1) + ii)/2);
else
acme(acount, 1) = ii;
acme(acount, 2) = h(ii);
acount = acount + 1;
end
flag = 1.;
end
end
if nsize>1;
acme(acount, 1) = nsize;
acme(acount, 2) = h(nsize);
end
end
function thresh = autothresh(acme)
nsize = length(acme);
amp = abs(acme(2:nsize, 2) - acme(1:nsize-1, 2));
[~, maxi] = max(amp);
amp(maxi) = 0;
thresh = max(amp);
end
function [flag, acme2] = trimacme(acme, thresh)
nsize = length(acme);
flag = 0;
for ii=1:1:nsize-1
if abs(acme(ii+1,2) - acme(ii,2)) >= thresh;
sign = 1;
if acme(ii+1,2) < acme(ii, 2);
sign = -1;
end
if ii<=nsize-3 && abs(acme(ii+1,2)-acme(ii+2,2))<thresh;
if sign*acme(ii+3,2)>sign*acme(ii+1,2);
acme(ii+1,1) = -1;
acme(ii+2,1 ) =-1;
else
acme(ii+2,1) = -1;
acme(ii+3,1 ) =-1;
end
flag = 1;
break;
end
if ii >=3 && abs(acme(ii,2)-acme(ii-1,2))<thresh;
if sign*acme(ii-2,2)<sign*acme(ii,2);
acme(ii,1) = -1;
acme(ii-1,1 ) =-1;
else
acme(ii-1,1) = -1;
acme(ii-2,1 ) =-1;
end
flag = 1;
break;
end
if ii==nsize-2 && abs(acme(ii+1,2)-acme(ii+2,2))<thresh;
acme(ii+2,1 ) =-1;
flag = 1;
break;
end
if ii==2 && abs(acme(ii,2)-acme(ii-1,2)) < thresh;
acme(ii-1, 1) = -1;
flag = 1;
break
end
end
end
if flag==1
count = 1;
for ii=1:1:nsize
if acme(ii,1)>0;
acme2(count, :) = acme(ii, :);
count = count + 1;
end
end
else
acme2 = acme;
end
end
function acme = adjustend(acme, y)
if length(acme)==2
last = acme(2,1);
amp = abs(acme(1,2)-acme(2,2));
for ii=last:-1:2
if abs(y(ii)-y(ii-1)) > 5E-2*amp
acme(2,1) = ii;
acme(2,2) = y(ii);
break;
end
end
end
end