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authorEugeniy Mikhailov <evgmik@gmail.com>2014-11-03 14:24:11 -0500
committerEugeniy Mikhailov <evgmik@gmail.com>2014-11-03 14:24:11 -0500
commit6c69c012b7b2fa789ade5999ab64a2ef6ddd0d5f (patch)
tree3c27c8d9730768d0b73258ab365300a3bb265c6d
parent8f0ab5b68b7d3a8e1ee8f01393db85aac441b9df (diff)
downloadbeam_profiler-6c69c012b7b2fa789ade5999ab64a2ef6ddd0d5f.tar.gz
beam_profiler-6c69c012b7b2fa789ade5999ab64a2ef6ddd0d5f.zip
Gauss fit takes care of initial values if they are not provided
-rw-r--r--Gauss2DRotFit.m61
1 files changed, 39 insertions, 22 deletions
diff --git a/Gauss2DRotFit.m b/Gauss2DRotFit.m
index a669723..84af35e 100644
--- a/Gauss2DRotFit.m
+++ b/Gauss2DRotFit.m
@@ -1,12 +1,12 @@
-function [fitresult, gof] = gauss2DRotFit(im,varargin)
+function [fitresult, gof, fout] = gauss2DRotFit(im,varargin)
%gauss2DRotFit(im,fop,title)
-% Create a fit.
+% Create a 2D Gaussian fit (distribution might be squeezed and rotated).
% Input :
%
% im : input image of 2D gaussian
% fop : fitoptions - a structure with 3 fields : Lower,StartPoint and
% Upper. Each of the fields is an array of 7 values :
-% offset
+% offset/background
% amplitude of the 2D gaussian
% centroid X of the 2D gaussian
% centroid Y of the 2D gaussian
@@ -18,12 +18,19 @@ function [fitresult, gof] = gauss2DRotFit(im,varargin)
% fitresult : a fit object representing the fit.
% gof : structure with goodness-of fit info.
%
+% Created by: Steffen B. Petersen (12 Dec 2012)
+% Modified by: Eugeniy E. Mikhailov (Nov 2014)
+
+
if nargin==0
errordlg('gauss2DRotFit has to be called with at least 1 argument');
return;
end
[sx,sy,sz]=size(im);
+if sz==1
+ im=double(im);
+end
if sz==3
im=rgb2gray(im);
end
@@ -35,10 +42,13 @@ mystr='Untitled fit';
[xData, yData, zData] = prepareSurfaceData( X,Y, im );
% Set up fittype and options.
-ft = fittype( 'a + b*exp(-(((x-c1)*cosd(t1)+(y-c2)*sind(t1))/w1)^2-((-(x-c1)*sind(t1)+(y-c2)*cosd(t1))/w2)^2)', 'independent', {'x', 'y'}, 'dependent', 'z' );
+% Note we will fit the expression for intensity (not field) of the Gaussian beam,
+% thus extra 2 in exponents.
+ft = fittype( 'a + b*exp(-2*(((x-c1)*cosd(t1)+(y-c2)*sind(t1))/w1)^2 - 2*((-(x-c1)*sind(t1)+(y-c2)*cosd(t1))/w2)^2)', 'independent', {'x', 'y'}, 'dependent', 'z' );
opts = fitoptions( ft );
+flagMakeStartPointGuess = true;
if numel(varargin)>0
s=varargin{1};
if isfield(s,'Lower')
@@ -46,11 +56,24 @@ if numel(varargin)>0
end
if isfield(s,'StartPoint')
opts.StartPoint=s.StartPoint;
+ flagMakeStartPointGuess = false;
end
if isfield(s,'Upper')
opts.Upper=s.Upper;
end
end
+if ( flagMakeStartPointGuess )
+ % let's attempt to guess starting point
+ a0 = min(zData);
+ b0 = max(zData) - a0;
+ cx0=mean(xData.*zData)/mean(zData);
+ cy0=mean(yData.*zData)/mean(zData);
+ t=0;
+ % see above note about intensity of Gaussian beam
+ w10=sqrt(2* mean((xData-cx0).^2.*zData)/mean(zData) );
+ w20=sqrt(2* mean((yData-cy0).^2.*zData)/mean(zData) );
+ opts.StartPoint= [a0, b0, cx0, cy0, t, w10, w20]
+end
if numel(varargin)==2
mystr=varargin{2};
end
@@ -65,32 +88,26 @@ opts.Display = 'Off';
opts
gof
fout
-% Create a figure for the plots.
-figure( 1);
-set(gcf,'Name', '2D Gaussian fit 1' );
-set(gcf,'Position',[10,10,900,600]);
-% Plot fit with data.
+imgfit = fitresult(xData, yData);
+imgfit = reshape(imgfit, sx, sy);
+
-h = plot( fitresult, [xData, yData], zData);
-legend( h, mystr, 'im vs. X, Y', 'Location', 'NorthEast' );
-% Label axes
+% Create a figure for the plots.
+figure( 1);
+imagesc(1:sy, 1:sx, imgfit);
+title('Fitted image');
xlabel( 'X' );
ylabel( 'Y' );
-zlabel( 'im' );
-grid on
+zlabel( 'image fitted' );
colormap(jet);
% Plot residuals.
figure(2);
-set(gcf,'Name', 'Gaussian fit Residuals');
-set(gcf,'Position',[100,100,900,600]);
-h = plot( fitresult, [xData, yData], zData, 'Style', 'Residual');
-legend( h, [mystr ' - residuals'], 'Location', 'NorthEast' );
-% Label axes
+imagesc(1:sy, 1:sx, imgfit-im);
+title('Residuals of fitted image');
xlabel( 'X' );
ylabel( 'Y' );
-zlabel( 'im' );
-grid on
-figure(1);
+zlabel( 'residuals' );
+colormap(jet);