www.gusucode.com > 语音信号处理工具箱 - Voicebox源码程序 > Voicebox\distitpf.m
function d=distitpf(pf1,pf2,mode)
%DISTITPF calculates the Itakura spectral distance between power spectra D=(PF1,PF2,MODE)
%
% Inputs: PF1,PF2 Power spectra to be compared. Each row represents a power spectrum: the first
% and last columns represent the DC and Nyquist terms respectively.
% PF1 and PF2 must have the same number of columns.
%
% MODE Character string selecting the following options:
% 'x' Calculate the full distance matrix from every row of PF1 to every row of PF2
% 'd' Calculate only the distance between corresponding rows of PF1 and PF2
% The default is 'd' if PF1 and PF2 have the same number of rows otherwise 'x'.
%
% Output: D If MODE='d' then D is a column vector with the same number of rows as the shorter of PF1 and PF2.
% If MODE='x' then D is a matrix with the same number of rows as PF1 and the same number of columns as PF2'.
%
% If ave() denotes the average over +ve and -ve frequency, the Itakura spectral distance is
%
% log(ave(pf1/pf2)) - ave(log(pf1/pf2))
%
% The Itakura distance is gain-independent, i.e. distitpf(g*pf1,pf2) is independent of g.
% The Itakura distance can also be calculated directly from AR coefficients; providing np is large
% enough, the values of d0 and d1 in the following will be very similar:
%
% np=255; d0=distitar(ar1,ar2); d1=distitpf(lpcar2pf(ar1,np),lpcar2pf(ar2,np))
%
% Ref: A.H.Gray Jr and J.D.Markel, "Distance measures for speech processing", IEEE ASSP-24(5): 380-391, Oct 1976
% L. Rabiner abd B-H Juang, "Fundamentals of Speech Recognition", Section 4.5, Prentice-Hall 1993, ISBN 0-13-015157-2
% F. Itakura, "Minimum prediction residual principle applied to speech recognition", IEEE ASSP-23: 62-72, 1975
% Copyright (C) Mike Brookes 1997
%
% Last modified Thu Jan 6 12:27:13 2000
%
% VOICEBOX is a MATLAB toolbox for speech processing. Home page is at
% http://www.ee.ic.ac.uk/hp/staff/dmb/voicebox/voicebox.html
%
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
% This program is free software; you can redistribute it and/or modify
% it under the terms of the GNU General Public License as published by
% the Free Software Foundation; either version 2 of the License, or
% (at your option) any later version.
%
% This program is distributed in the hope that it will be useful,
% but WITHOUT ANY WARRANTY; without even the implied warranty of
% MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
% GNU General Public License for more details.
%
% You can obtain a copy of the GNU General Public License from
% ftp://prep.ai.mit.edu/pub/gnu/COPYING-2.0 or by writing to
% Free Software Foundation, Inc.,675 Mass Ave, Cambridge, MA 02139, USA.
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
[nf1,p2]=size(pf1);
p1=p2-1;
nf2=size(pf2,1);
if nargin<3 | isempty(mode) mode='0'; end
if any(mode=='d') | (mode~='x' & nf1==nf2)
nx=min(nf1,nf2);
r=pf1(1:nx,:)./pf2(1:nx,:);
q=log(r);
d=log((sum(r(:,2:p1),2)+0.5*(r(:,1)+r(:,p2)))/p1)-(sum(q(:,2:p1),2)+0.5*(q(:,1)+q(:,p2)))/p1;
else
r=permute(pf1(:,:,ones(1,nf2)),[1 3 2])./permute(pf2(:,:,ones(1,nf1)),[3 1 2]);
q=log(r);
d=log((sum(r(:,:,2:p1),3)+0.5*(r(:,:,1)+r(:,:,p2)))/p1)-(sum(q(:,:,2:p1),3)+0.5*(q(:,:,1)+q(:,:,p2)))/p1;
end