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matlab-python/ATD/defDati3DEL.m

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Matlab
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% funzione che definisce i dati per la Barretta Estensimetrica, in particolare
% tempo (TimeEL) e Dato (Extensometer)
function [Time3DEL,Extensometer3D,Extensometer3D_Rif,NTCExtensometer3D,...
Err3DExtensometerLink,ErrNTC3DExtensometerLink] = ...
defDati3DEL(Dati3DExtensometerLink,Dati3DExtensometerLink_Rif,...
DatiNTC3DExtensometerLink,Err3DExtensometerLink,ErrNTC3DExtensometerLink,...
Nodo3DExtensometerLink,r3DEL,Ch3DEL,EL3D_NTC,Ndatidespike,FileName)
fileID = fopen(FileName,'a');
fmt = '%s \r';
text = 'defDati3DEL function started';
fprintf(fileID,fmt,text);
EL3D_Or = cell2mat(Nodo3DExtensometerLink(:,6));
[r,c] = size(Dati3DExtensometerLink);
Ncorr = 0;
% Elimino gli eventuali Not a Number
for a = 2:r
contT = 1;
num = 1;
for b = 2:c
check = isnan(Dati3DExtensometerLink(a,b));
if check == 1
Dati3DExtensometerLink(a,b) = Dati3DExtensometerLink(a-1,b);
Err3DExtensometerLink(a,b-1) = 1;
Ncorr = Ncorr+1;
end
if EL3D_NTC(contT) == 1 % La prima colonna è una data
check = isnan(DatiNTC3DExtensometerLink(a,contT));
if check == 1
DatiNTC3DExtensometerLink(a,contT) = DatiNTC3DExtensometerLink(a-1,contT);
ErrNTC3DExtensometerLink(a,contT) = 1;
Ncorr = Ncorr+1;
end
end
num = num+1;
if num == 4
num = 1;
contT = contT+1;
end
end
end
text = ['' num2str(Ncorr) ' NaN of 3D Extensometer Link corrected by defDati3DEL function'];
fprintf(fileID,fmt,text);
Time3DEL = Dati3DExtensometerLink(:,1); % data
Extensometer3D = zeros(r,r3DEL);
Extensometer3D_Rif = zeros(1,r3DEL);
NTCExtensometer3D = zeros(r,r3DEL);
s = 1;
i = 1;
b = 2; % colonna del primo dato
while b <= c
Extensometer3D(:,s:s+2) = Dati3DExtensometerLink(:,b:b+2); % dati 3D Extensometer Link
if Ch3DEL(i,1) == 4
if EL3D_NTC(i,1)==1 % si legge anche il termometro
NTCExtensometer3D(:,i) = DatiNTC3DExtensometerLink(:,i); % dati T Extensometer Link
end
end
s = s+3;
b = b+3;
i = i+1;
end
Num_Dati = Ndatidespike; % numero di dati per il despike
if Num_Dati > r
Num_Dati = r;
end
i = 1;
cont = 1;
X = zeros(r,r3DEL);
Y = zeros(r,r3DEL);
Z = zeros(r,r3DEL);
X_Rif = zeros(1,r3DEL);
Y_Rif = zeros(1,r3DEL);
Z_Rif = zeros(1,r3DEL);
while i <= 3*r3DEL
% despiking Barrette Estensimetriche
X(:,cont) = filloutliers(Extensometer3D(:,i),'linear','movmedian',Num_Dati);
Y(:,cont) = filloutliers(Extensometer3D(:,i+1),'linear','movmedian',Num_Dati);
Z(:,cont) = filloutliers(Extensometer3D(:,i+2),'linear','movmedian',Num_Dati);
X_Rif(1,cont) = Dati3DExtensometerLink_Rif(:,i);
Y_Rif(1,cont) = Dati3DExtensometerLink_Rif(:,i+1);
Z_Rif(1,cont) = Dati3DExtensometerLink_Rif(:,i+2);
i = i+3;
cont = cont+1;
end
if EL3D_Or == 123
X_Corr = X;
Y_Corr = Y;
Z_Corr = Z;
X_Corr_Rif = X_Rif;
Y_Corr_Rif = Y_Rif;
Z_Corr_Rif = Z_Rif;
elseif EL3D_Or == 132
X_Corr = X;
Y_Corr = Z;
Z_Corr = Y;
X_Corr_Rif = X_Rif;
Y_Corr_Rif = Z_Rif;
Z_Corr_Rif = Y_Rif;
elseif EL3D_Or == 213
X_Corr = Y;
Y_Corr = X;
Z_Corr = Z;
X_Corr_Rif = Y_Rif;
Y_Corr_Rif = X_Rif;
Z_Corr_Rif = Z_Rif;
elseif EL3D_Or == 231
X_Corr = Y;
Y_Corr = Z;
Z_Corr = X;
X_Corr_Rif = Y_Rif;
Y_Corr_Rif = Z_Rif;
Z_Corr_Rif = X_Rif;
elseif EL3D_Or == 312
X_Corr = Z;
Y_Corr = X;
Z_Corr = Y;
X_Corr_Rif = Z_Rif;
Y_Corr_Rif = X_Rif;
Z_Corr_Rif = Y_Rif;
elseif EL3D_Or == 321
X_Corr = Z;
Y_Corr = Y;
Z_Corr = X;
X_Corr_Rif = Z_Rif;
Y_Corr_Rif = Y_Rif;
Z_Corr_Rif = X_Rif;
end
i = 1;
cont = 1;
while i <= 3*r3DEL
Extensometer3D(:,i) = X_Corr(:,cont);
Extensometer3D(:,i+1) = Y_Corr(:,cont);
Extensometer3D(:,i+2) = Z_Corr(:,cont);
Extensometer3D_Rif(1,i) = X_Corr_Rif(1,cont);
Extensometer3D_Rif(1,i+1) = Y_Corr_Rif(1,cont);
Extensometer3D_Rif(1,i+2) = Z_Corr_Rif(1,cont);
i = i+3;
cont = cont+1;
end
text = 'Data of 3D Extensometer Link defined correctly. defDati3DEL function closed';
fprintf(fileID,fmt,text);
fclose(fileID);
end
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