smallbox: toolboxes/AudioInpaintingToolbox/Solvers/inpaintFrame

annotate toolboxes/AudioInpaintingToolbox/Solvers/inpaintFrame_janssenInterpolation.m @ 138:56d719a5fd31 ivand_dev

Audio Inpaintin Toolbox

author	Ivan Damnjanovic lnx <ivan.damnjanovic@eecs.qmul.ac.uk>
date	Thu, 21 Jul 2011 14:27:47 +0100
parents
children

rev	line source
ivan@138	1 function y = inpaintFrame_janssenInterpolation(problemData,param)
ivan@138	2 % Frame-level inpainting method based on the linear prediction by
ivan@138	3 % Janssen.
ivan@138	4 %
ivan@138	5 % Usage: xEst = inpaintFrame_janssenInterpolation(problemData,param)
ivan@138	6 %
ivan@138	7 %
ivan@138	8 % Inputs:
ivan@138	9 % - problemData.x - observed signal to be inpainted
ivan@138	10 % - problemData.Imiss - Indices of clean samples
ivan@138	11 % - param.p - Order of the autoregressive model used in
ivan@138	12 % for linear prediction
ivan@138	13 %
ivan@138	14 % Outputs:
ivan@138	15 % - y: estimated frame
ivan@138	16 %
ivan@138	17 % References:
ivan@138	18 %
ivan@138	19 % -------------------
ivan@138	20 %
ivan@138	21 % Audio Inpainting toolbox
ivan@138	22 % Date: June 28, 2011
ivan@138	23 % By Valentin Emiya, Amir Adler, Maria Jafari
ivan@138	24 % This code is distributed under the terms of the GNU Public License version 3 (http://www.gnu.org/licenses/gpl.txt).
ivan@138	25
ivan@138	26 s = problemData.x;
ivan@138	27 N = length(s);
ivan@138	28 Im = find(problemData.IMiss);
ivan@138	29 IObs = find(~problemData.IMiss);
ivan@138	30 M = length(Im);
ivan@138	31 Im = sort(Im); Im = Im(:); % Im: indexes of missing samples
ivan@138	32 s(Im) = 0;
ivan@138	33
ivan@138	34 if nargin<2 \|\| ~isfield(param,'p')
ivan@138	35 p = min(3*M+2,round(N/3));
ivan@138	36 else
ivan@138	37 p = param.p;
ivan@138	38 end
ivan@138	39 if nargin<2 \|\| ~isfield(param,'GR')
ivan@138	40 param.GR = false;
ivan@138	41 end
ivan@138	42 if nargin<2 \|\| ~isfield(param,'NIt')
ivan@138	43 NIt = 100;
ivan@138	44 else
ivan@138	45 NIt = param.NIt;
ivan@138	46 end
ivan@138	47
ivan@138	48
ivan@138	49 IAA = abs(Imones(1,N)-ones(M,1)(1:N));
ivan@138	50 IAA1 = IAA<=p;
ivan@138	51 AA = zeros(size(IAA));
ivan@138	52
ivan@138	53 if param.GR
ivan@138	54 figure;
ivan@138	55 hold on
ivan@138	56 end
ivan@138	57 for k=1:NIt
ivan@138	58
ivan@138	59 % Re-estimation of LPC
ivan@138	60 aEst = lpc(s,p).';
ivan@138	61
ivan@138	62 % Re-estimation of the missing samples
ivan@138	63 b = aEst.'*hankel(aEst.',[aEst(end),zeros(1,p)]);
ivan@138	64 AA(IAA1) = b(IAA(IAA1)+1);
ivan@138	65 % xEst = -inv(AA(:,Im))AA(:,IObs)s(IObs); % use Chol to invert matrix
ivan@138	66 [R flagErr] = chol(AA(:,Im));
ivan@138	67 if flagErr
ivan@138	68 % xEst = - AA(:,Im)\(AA(:,IObs)*s(IObs));
ivan@138	69 xEst = -inv(AA(:,Im))AA(:,IObs)s(IObs);
ivan@138	70 else
ivan@138	71 xEst = -R\(R'\(AA(:,IObs)*s(IObs)));
ivan@138	72 end
ivan@138	73 s(Im) = xEst;
ivan@138	74 if param.GR
ivan@138	75 e = filter(aEst,1,s);
ivan@138	76 plot(k,10*log10(mean(e(p+1:end).^2)),'o')
ivan@138	77 end
ivan@138	78 end
ivan@138	79
ivan@138	80 y = s;
ivan@138	81
ivan@138	82 return

Mercurial > hg > smallbox

annotate toolboxes/AudioInpaintingToolbox/Solvers/inpaintFrame_janssenInterpolation.m @ 138:56d719a5fd31 ivand_dev