tfrsp.m

matlab里面有用的一个时频工具箱

function [tfr,t,f] = tfrsp(x,t,N,h,trace);
%TFRSP	Spectrogram time-frequency distribution.
%	[TFR,T,F]=TFRSP(X,T,N,H,TRACE) computes the Spectrogram 
%	distribution of a discrete-time signal X. 
% 
%	X     : signal.
%	T     : time instant(s)          (default : 1:length(X)).
%	N     : number of frequency bins (default : length(X)).
%	H     : analysis window, H being normalized so as to
%	        be  of unit energy.      (default : Hamming(N/4)). 
%	TRACE : if nonzero, the progression of the algorithm is shown
%	                                 (default : 0).
%	TFR   : time-frequency representation. When called without 
%	        output arguments, TFRSP runs TFRQVIEW.
%	F     : vector of normalized frequencies.
%
%	Example :
%	 sig=fmlin(128,0.1,0.4);
%	 h=window(17,'Kaiser'); tfrsp(sig,1:128,64,h,1);
%
%        [tfr,t,freq]=tfrsp(sig,1:128,64,h,1); plot(fftshift(freq),fftshift(tfr(:,100)))
%
%	See also all the time-frequency representations listed in
%	 the file CONTENTS (TFR*)

%	F. Auger, May-August 1994, July 1995.
%	Copyright (c) 1996 by CNRS (France).
%
%	------------------- CONFIDENTIAL PROGRAM -------------------- 
%	This program can not be used without the authorization of its
%	author(s). For any comment or bug report, please send e-mail to 
%	f.auger@ieee.rog 

if (nargin == 0),
 error('At least 1 parameter required');
end;
[xrow,xcol] = size(x);
if (nargin < 1),
 error('At least 1 parameter is required');
elseif (nargin <= 2),
 N=xrow;
end;

hlength=floor(N/4);
hlength=hlength+1-rem(hlength,2);

if (nargin == 1),
 t=1:xrow; h = window(hlength); trace=0;
elseif (nargin == 2) | (nargin == 3),
 h = window(hlength); trace=0;
elseif (nargin == 4),
 trace = 0;
end;

if (N<0),
 error('N must be greater than zero');
end;
[trow,tcol] = size(t);
if (xcol==0) | (xcol>2),
 error('X must have one or two columns');
elseif (trow~=1),
 error('T must only have one row'); 
elseif (2^nextpow2(N)~=N),
 fprintf('For a faster computation, N should be a power of two\n');
end; 

[hrow,hcol]=size(h); Lh=(hrow-1)/2;
if (hcol~=1)|(rem(hrow,2)==0),
 error('H must be a smoothing window with odd length');
end;

tfr= zeros (N,tcol) ;  
if trace, disp('Spectrogram'); end;
for icol=1:tcol,
 ti= t(icol); tau=-min([round(N/2)-1,Lh,ti-1]):min([round(N/2)-1,Lh,xrow-ti]);
 indices= rem(N+tau,N)+1; 
 if trace, disprog(icol,tcol,10); end;
 tfr(indices,icol)=x(ti+tau).*conj(h(Lh+1+tau))/norm(h(Lh+1+tau));
end;
tfr=abs(fft(tfr)).^2; 
if trace, fprintf('\n'); end;

if (nargout==0),
 tfrqview(tfr,x,t,'tfrsp',h);
elseif (nargout==3),
 if rem(N,2)==0, 
  f=[0:N/2-1 -N/2:-1]'/N;
 else
  f=[0:(N-1)/2 -(N-1)/2:-1]'/N;  
 end;
end;