📄 denoise.m
字号:
function [xd,xn,option] = denoise(x,h,type,option)
% [xd,xn,option] = denoise(x,h,type,option);
%
% DENOISE is a generic program for wavelet based denoising.
% The program will denoise the signal x using the 2-band wavelet
% system described by the filter h using either the traditional
% discrete wavelet transform (DWT) or the linear shift invariant
% discrete wavelet transform (also known as the undecimated DWT
% (UDWT)).
%
% Input:
% x : 1D or 2D signal to be denoised
% h : Scaling filter to be applied
% type : Type of transform (Default: type = 0)
% 0 --> Discrete wavelet transform (DWT)
% 1 --> Undecimated DWT (UDWT)
% option : Default settings is marked with '*':
% *type = 0 --> option = [0 3.0 0 0 0 0]
% type = 1 --> option = [0 3.6 0 1 0 0]
% option(1) : Whether to threshold low-pass part
% 0 --> Don't threshold low pass component
% 1 --> Threshold low pass component
% option(2) : Threshold multiplier, c. The threshold is
% computed as:
% thld = c*MAD(noise_estimate)).
% The default values are:
% c = 3.0 for the DWT based denoising
% c = 3.6 for the UDWT based denoising
% option(3) : Type of variance estimator
% 0 --> MAD (mean absolute deviation)
% 1 --> STD (classical numerical std estimate)
% option(4) : Type of thresholding
% 0 --> Soft thresholding
% 1 --> Hard thresholding
% option(5) : Number of levels, L, in wavelet decomposition. By
% setting this to the default value '0' a maximal
% decomposition is used.
% option(6) : Actual threshold to use (setting this to
% anything but 0 will mean that option(3)
% is ignored)
%
% Output:
% xd : Estimate of noise free signal
% xn : The estimated noise signal (x-xd)
% option : A vector of actual parameters used by the
% program. The vector is configured the same way as
% the input option vector with one added element
% option(7) = type.
%
% HERE'S AN EASY WAY TO RUN THE EXAMPLES:
% Cut-and-paste the example you want to run to a new file
% called ex.m, for example. Delete out the % at the beginning
% of each line in ex.m (Can use search-and-replace in your editor
% to replace it with a space). Type 'ex' in matlab and hit return.
%
% Example 1:
% h = daubcqf(6); [s,N] = makesig('Doppler'); n = randn(1,N);
% x = s + n/10; % (approximately 10dB SNR)
% figure;plot(x);hold on;plot(s,'r');
%
% %Denoise x with the default method based on the DWT
% [xd,xn,opt1] = denoise(x,h);
% figure;plot(xd);hold on;plot(s,'r');
%
% %Denoise x using the undecimated (LSI) wavelet transform
% [yd,yn,opt2] = denoise(x,h,1);
% figure;plot(yd);hold on;plot(s,'r');
%
% Example 2: (on an image)
% h = daubcqf(6); load lena;
% noisyLena = lena + 25 * randn(size(lena));
% figure; colormap(gray); imagesc(lena); title('Original Image');
% figure; colormap(gray); imagesc(noisyLena); title('Noisy Image');
% Denoise lena with the default method based on the DWT
% [denoisedLena,xn,opt1] = denoise(noisyLena,h);
% figure; colormap(gray); imagesc(denoisedLena); title('denoised Image');
%
%
% See also: mdwt, midwt, mrdwt, mirdwt, SoftTh, HardTh, setopt
%
%File Name: denoise.m
%Last Modification Date: 04/15/97 10:44:28
%Current Version: denoise.m 2.4
%File Creation Date: Mon Feb 20 08:33:15 1995
%Author: Jan Erik Odegard <odegard@ece.rice.edu>
%
%Copyright (c) 2000 RICE UNIVERSITY. All rights reserved.
%Created by Jan Erik Odegard, Department of ECE, Rice University.
%
%This software is distributed and licensed to you on a non-exclusive
%basis, free-of-charge. Redistribution and use in source and binary forms,
%with or without modification, are permitted provided that the following
%conditions are met:
%
%1. Redistribution of source code must retain the above copyright notice,
% this list of conditions and the following disclaimer.
%2. Redistribution in binary form must reproduce the above copyright notice,
% this list of conditions and the following disclaimer in the
% documentation and/or other materials provided with the distribution.
%3. All advertising materials mentioning features or use of this software
% must display the following acknowledgment: This product includes
% software developed by Rice University, Houston, Texas and its contributors.
%4. Neither the name of the University nor the names of its contributors
% may be used to endorse or promote products derived from this software
% without specific prior written permission.
%
%THIS SOFTWARE IS PROVIDED BY WILLIAM MARSH RICE UNIVERSITY, HOUSTON, TEXAS,
%AND CONTRIBUTORS AS IS AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING,
%BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS
%FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL RICE UNIVERSITY
%OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL,
%EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO,
%PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS;
%OR BUSINESS INTERRUPTIONS) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY,
%WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR
%OTHERWISE), PRODUCT LIABILITY, OR OTHERWISE ARISING IN ANY WAY OUT OF THE
%USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
%
%For information on commercial licenses, contact Rice University's Office of
%Technology Transfer at techtran@rice.edu or (713) 348-6173
%
%Change History: Fixed output of function and an error in the computation
% of the threshold for redundant denoising.
% <Jan Erik Odegard> <Mon Jul 31, 1995>
%
% This code is composed of several of our old codes for
% wavelet based denoising. In an effort to make the mess
% more manageable we decided to create on code that would
% handle all the various wavelet based denoising methods.
% However, only time will show (as we discover new and
% improved forms of denoising) if we can succeed in our goals.
% <Jan Erik Odegard> <Thu May 11, 1995>
%
if(nargin < 2)
error('You need to provide at least 2 inputs: x and h');
end;
if(nargin < 3),
type = 0;
option = [];
elseif(nargin < 4)
option = [];
end;
if(isempty(type)),
type = 0;
end;
if(type == 0),
default_opt = [0 3.0 0 0 0 0];
elseif(type == 1),
default_opt = [0 3.6 0 1 0 0];
else,
error(['Unknown denoising method',10,...
'If it is any good we need to have a serious talk :-)']);
end;
option = setopt(option,default_opt);
[mx,nx] = size(x);
dim = min(mx,nx);
if(dim == 1),
n = max(mx,nx);
else,
n = dim;
end;
if(option(5) == 0),
L = floor(log2(n));
else
L = option(5);
end;
if(type == 0), % Denoising by DWT
xd = mdwt(x,h,L);
if (option(6) == 0),
tmp = xd(floor(mx/2)+1:mx,floor(nx/2)+1:nx);
if(option(3) == 0),
thld = option(2)*median(abs(tmp(:)))/.67;
elseif(option(3) == 1),
thld = option(2)*std(tmp(:));
else
error('Unknown threshold estimator, Use either MAD or STD');
end;
else,
thld = option(6);
end;
if(dim == 1)
ix = 1:n/(2^L);
ykeep = xd(ix);
else
ix = 1:mx/(2^L);
jx = 1:nx/(2^L);
ykeep = xd(ix,jx);
end;
if(option(4) == 0),
xd = SoftTh(xd,thld);
elseif(option(4) == 1),
xd = HardTh(xd,thld);
else,
error('Unknown threshold rule. Use either Soft (0) or Hard (1)');
end;
if (option(1) == 0),
if(dim == 1),
xd(ix) = ykeep;
else,
xd(ix,jx) = ykeep;
end;
end;
xd = midwt(xd,h,L);
elseif(type == 1), % Denoising by UDWT
[xl,xh] = mrdwt(x,h,L);
if(dim == 1),
c_offset = 1;
else,
c_offset = 2*nx + 1;
end;
if (option(6) == 0),
tmp = xh(:,c_offset:c_offset+nx-1);
if(option(3) == 0),
thld = option(2)*median(abs(tmp(:)))/.67;
elseif(option(3) == 1),
thld = option(2)*std(tmp(:));
else
error('Unknown threshold estimator, Use either MAD or STD');
end;
else,
thld = option(6);
end;
if(option(4) == 0),
xh = SoftTh(xh,thld);
if(option(1) == 1),
xl = SoftTh(xl,thld);
end;
elseif(option(4) == 1),
xh = HardTh(xh,thld);
if(option(1) == 1),
xl = HardTh(xl,thld);
end;
else,
error('Unknown threshold rule. Use either Soft (0) or Hard (1)');
end;
xd = mirdwt(xl,xh,h,L);
else, % Denoising by unknown method
error(['Unknown denoising method',10,...
'If it is any good we need to have a serious talk :-)']);
end;
option(6) = thld;
option(7) = type;
xn = x - xd;
⌨️ 快捷键说明
复制代码
Ctrl + C
搜索代码
Ctrl + F
全屏模式
F11
切换主题
Ctrl + Shift + D
显示快捷键
?
增大字号
Ctrl + =
减小字号
Ctrl + -