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authorMatt Argao <mcargao@email.wm.edu>2013-02-06 15:04:23 -0500
committerMatt Argao <mcargao@email.wm.edu>2013-02-06 15:04:23 -0500
commit83b8b9b72f2d9fe27e98e7ad2ad27d545dea9873 (patch)
treeba8e0f84c9591c68a3f73502a4a26596b5070277
parent8c4278397279db6644624f79179c05bc300a78da (diff)
downloadmode_match-83b8b9b72f2d9fe27e98e7ad2ad27d545dea9873.tar.gz
mode_match-83b8b9b72f2d9fe27e98e7ad2ad27d545dea9873.zip
Added subplot of solution's stability under propagation plot.
Diffstat
-rw-r--r--fitter_check.m2
-rw-r--r--solution_stability.m7
-rw-r--r--solution_visualization.m2
-rw-r--r--stability_visualization.m18
4 files changed, 24 insertions, 5 deletions
diff --git a/fitter_check.m b/fitter_check.m
index dd87775..5ae2ac4 100644
--- a/fitter_check.m
+++ b/fitter_check.m
@@ -24,7 +24,9 @@ n_truncate = 3; %number of digits in truncated solution
[ possible_lens_placement_uniq, possible_lens_placement, possible_sample_energy, possible_lens_set, index ] = remove_similar_soln( possible_sample_energy, possible_lens_placement, possible_lens_set, n_truncate );
n_visualizations = 5; %number of best solutions to visualize
+n_hist = 10000;
pick_visualization( possible_sample_energy, possible_lens_placement_uniq, possible_lens_placement, possible_lens_set, index, n_visualizations, q0, qf, Ltot, lambda );
+stability_visualization( possible_lens_placement_uniq, q0, qf, xf, possible_lens_placement, possible_lens_set, lambda, n_visualizations, n_hist, index )
% %Visualize fitness function for fixed f2 and f3
diff --git a/solution_stability.m b/solution_stability.m
index f3363b1..324621f 100644
--- a/solution_stability.m
+++ b/solution_stability.m
@@ -1,11 +1,10 @@
-function [ hist_h, hist_x ] = solution_stability( q_0, q_final, x_final, optics_positions, optics_focal_length, lambda )
+function [ hist_h, hist_x ] = solution_stability( q_0, q_final, x_final, optics_positions, optics_focal_length, lambda, n_hist )
%SOLUTION_STABILITY Summary of this function goes here
% Detailed explanation goes here
-n = 10000;
lens_displacement = 10^-3;
-x = lens_displacement*randn(n,3);
+x = lens_displacement*randn(n_hist,3);
-for i=1:n
+for i=1:n_hist
xd= x(i,:);
fitness_array(i) = fitness( q_0, q_final, x_final, optics_positions + xd, optics_focal_length, lambda );
end
diff --git a/solution_visualization.m b/solution_visualization.m
index 2cf8ce7..6f8fddb 100644
--- a/solution_visualization.m
+++ b/solution_visualization.m
@@ -13,7 +13,7 @@ q_backward=gbeam_propagation(x,qf,xf,optics);
[w_backward,r_backward]=q2wr(q_backward, lambda);
%Plot beam profile
-plot ( ...
+subplot(2,1,1); plot ( ...
x,w_forward, '-r', ...
x,-w_forward, '-r', ...
x, w_backward, '-.b', ...
diff --git a/stability_visualization.m b/stability_visualization.m
new file mode 100644
index 0000000..86d3836
--- /dev/null
+++ b/stability_visualization.m
@@ -0,0 +1,18 @@
+function [hist_h, hist_x] = stability_visualization( possible_lens_placement_uniq, q0, qf, xf, optics_position, optics_set, lambda, n, n_hist, index )
+%STABILITY_VISUALIZATION Summary of this function goes here
+% Detailed explanation goes here
+
+n_possible_lens_placement = min(n, size(possible_lens_placement_uniq,1));
+
+for i=1:n
+ figure(i)
+ [hist_h, hist_x] = solution_stability( q0, qf, xf, optics_position(index(i),:), optics_set(index(i),:), lambda, n_hist );
+ subplot(2,1,2); plot(hist_x, hist_h);
+ area = trapz(hist_x, hist_h);
+ str_n = ['# of test points = ', num2str(n_hist)];
+ str_a = ['Area under curve = ', num2str(area)];
+ title({'Solution Stability'; str_n; str_a});
+end
+
+end
+
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