function stsa_weuclid1(filename,outfile,p)
if nargin<3 fprintf('Usage: stsa_weuclid inFile outFile.wav p \n\n'); return; end
fp=fopen(filename,'r'); if fp<=0, error('Unable to open input file'); end;
% ------------ get the file extension, and then read the whole file ----------- % ind1=find(filename == '.'); if length(ind1)>1, ind=ind1(length(ind1)); else, ind=ind1; end; ext = lower(filename(ind+1:length(filename)));
[HDRSIZE, Srate, bpsa, ftype] = gethdr(fp,ext); x=fread(fp,inf,'short'); fclose(fp);
%x=x/32768;
% =============== Initialize variables =============== %
len=floor(20Srate/1000); % Frame size in samples if rem(len,2)==1, len=len+1; end; PERC=50; % window overlap in percent of frame size len1=floor(lenPERC/100); len2=len-len1;
win=hanning(len); %tukey(len,PERC); % define window U=norm(win);
% Noise magnitude calculations - assuming that the first 6 frames is noise/silence % nFFT=len; nFFT2=len/2; noise_mean=zeros(nFFT,1); j=1; for k=1:5 noise_mean=noise_mean+abs(fft(win.*x(j:j+len-1),nFFT)/U); j=j+len; end noise_mu=noise_mean/5; noise_mu2=noise_mu.^2;
%--- allocate memory and initialize various variables
k=1; img=sqrt(-1); x_old=zeros(len1,1); Nframes=floor(length(x)/len2)-1; xfinal=zeros(Nframes*len2,1);
fr=Srate/nFFT; fIndx=1:floor(4000/fr); freqs=0:fr:(4000-fr);
%=============================== Start Processing ======================================================= % k=1; aa=0.98; c=sqrt(pi)/2; ksi_ar=zeros(Nframes,1); gam_ar=ksi_ar; C2=gamma(0.5);
%p=-1.0; CC=gamma(0.6)/gamma(0.1); STSA=0; for n=1:Nframes
insign=win.*x(k:k+len-1);
%--- Take fourier transform of frame
spec=fft(insign,nFFT)/U;
sig=abs(spec); % compute the magnitude sig2=sig.^2;
gammak=min(sig2./noise_mu2,40); % post SNR
if n==1
ksi=aa+(1-aa)*max(gammak-1,0);
else
ksi=aa*Xk_prev./noise_mu2 + (1-aa)*max(gammak-1,0); % a priori SNR
%ksi=max(gammak-1,0);
end
vv=0.6;
vk=ksi.*gammak./(vv+ksi);
%----- weighted Euclidean distance ------------------------
numer=CC*sqrt(vk).*confhyperg(0.6,1,vk,100);
denom=gammak.*confhyperg(0.1,1,vk,100);
hw=numer./denom;
%hw2=CC*sqrt(vk)./(gammak.*exp(-vk/2).*besseli(0,vk/2)); % if p=-1
%
% ---- for the cosh measure
% numer = sqrt(gamma(1.5)*vk.*confhyperg(-0.5,1,-vk,40)); % denom = gammak.*sqrt(gamma(0.5)*confhyperg(0.5,1,-vk,40)); % hw=numer./denom;
% --- for the weighted cosh measure
%CC2=gamma((p+3)/2)/gamma((p+1)/2);
%numer=CC2*sqrt(vk).*sqrt(confhyperg(-(p+1)/2,1,-vk,40));
%denom=gammak.*sqrt(confhyperg(-(p-1)/2,1,-vk,40));
%hw=numer./denom;
sig=sig.*hw;
Xk_prev=sig.^2;
xi_w= ifft( hw .* spec);
xi_w= real( xi_w)*U;
% --- Overlap and add ---------------
%
xfinal(k:k+ len2-1)= x_old+ xi_w(1:len1);
x_old= xi_w(len1+ 1: len);
k=k+len2; end %========================================================================================
if max(abs(xfinal))>32768 xfinal=xfinal*24000/max(abs(xfinal)); fprintf('Max amplitude exceeded 32768 for file %s\n',filename);
end xfinal=xfinal/32768;
wavwrite(xfinal,Srate,16,outfile);
return;
% -------- plot SNR --------------- % timex=0:1000/Srate:Nframes*10; subplot(2,1,1),h=plot(timex,x(1:length(timex))); set(gca,'Box','off','Xlim',[0 timex(length(timex))],'FontSize',12); ylabel('Amplitude');
time2=0:10:(Nframes-1)10; subplot(2,1,2), plot(time2,10log10(hgain));
h=plot(time2,10log10(ksi_ar),'b',time2,10log10(gam_ar),'r:');
legend('\xi_k','\gamma_k-1'); set(h,'Linewidth',1.5); set(gca,'FontSize',12,'Box','off','Xlim',[0 time2(length(time2))],'Ylim',[-25 max(10*log10(gam_ar))]); xlabel('Time (ms)'); ylabel(' SNR (dB)');
return;
subplot(3,1,3), %h=plot(time2,20*log10(hgain));
h=plot(20*log10(hgain)); %set(gca,'Box','off','Xlim',[0 timex(length(timex))],'FontSize',12); ylabel('Amplitude');