diff options
-rw-r--r-- | fitness.m | 6 | ||||
-rw-r--r-- | fitter_check.m | 7 | ||||
-rw-r--r-- | mode_match.m | 8 |
3 files changed, 14 insertions, 7 deletions
@@ -8,13 +8,11 @@ function [Energy, Waist, Penalty] = fitness( q_0, q_final, x_final, optics_posit [Waist_trial_forward, Radius_trial_forward] = q2wr(q_f_trial_forward, lambda);
q_f_trial_backward = gbeam_propagation(x,q_final,x_final,optics_placer(optics_positions, optics_focal_length));
[Waist_trial_backward, Radius_trial_backward] = q2wr(q_f_trial_backward, lambda);
-
+
Energy = 0;
Penalty_waist_mismatch = sum(abs((Waist_trial_forward-Waist_trial_backward)./min(Waist_trial_forward, Waist_trial_backward)))/Np;
- Penalty_waist_mismatch = 0*Penalty_waist_mismatch + 1e9*sum(abs((Waist_trial_forward-Waist_trial_backward)))/Np;
- Penalty_radius_mismatch = sum(abs((Radius_trial_forward-Radius_trial_backward)./max(Radius_trial_forward, Radius_trial_backward)))/Np;
- Energy = 0*Penalty_radius_mismatch + Penalty_waist_mismatch;
+ Energy = 1e-2*Penalty_waist_mismatch;
% penalty calculation
% do not put lenses too close to each other and end positions
diff --git a/fitter_check.m b/fitter_check.m index 20a7e9d..51e1480 100644 --- a/fitter_check.m +++ b/fitter_check.m @@ -30,7 +30,12 @@ xf=Ltot; for n_graph = 1:n_possible_lens_placement figure(n_graph) w_final_trial = solution_visualization(q0,x0, qf, xf, optics_placer(possible_lens_placement(index(n_graph),:), possible_lens_set(index(n_graph),:)), lambda); - title('Other Solutions'); + + str1=sprintf('\n f_1 = %0.4f, x_1 = %0.4f\n',possible_lens_set(index(n_graph),1),possible_lens_placement(index(n_graph),1)); + str2=sprintf('f_2 = %0.4f, x_2 = %0.4f\n',possible_lens_set(index(n_graph),2),possible_lens_placement(index(n_graph),2)); + str3=sprintf('f_3 = %0.4f, x_3 = %0.4f\n',possible_lens_set(index(n_graph),3),possible_lens_placement(index(n_graph),3)); + tstr='Other Solutions'; + title([tstr, str1, str2, str3]); end possible_lens_placement(index(1:n_graph),:) diff --git a/mode_match.m b/mode_match.m index 596cff1..27affcb 100644 --- a/mode_match.m +++ b/mode_match.m @@ -1,9 +1,9 @@ -function [ possible_lens_placement, possible_lens_set, possible_sample_energy, n_possible_lens_placement, index ] = mode_match( q0, qf, Ltot, lambda, lens_permutations ) +function [ possible_lens_placement, possible_lens_set, possible_sample_energy, pick_of_n_best_lens_placements, index ] = mode_match( q0, qf, Ltot, lambda, lens_permutations ) %MODE_MATCH Summary of this function goes here % Detailed explanation goes here n_perms = size(lens_permutations,1); -n_shuffles=1; %number of random placements of lenses +n_shuffles=20; %number of random placements of lenses %Initialize sample arrays N = n_perms * n_shuffles; @@ -45,6 +45,10 @@ n=4; possible_lens_placement_trunc = round(possible_lens_placement*10^n)./10^n; [possible_lens_placement_uniq, index] = unique(possible_lens_placement_trunc,'rows','stable'); %Unique solutions only +<<<<<<< HEAD n_possible_lens_placement = min(5,size(possible_lens_placement_uniq,1)); +======= +pick_of_n_best_lens_placements = min(5,size(possible_lens_placement_uniq,1)); +>>>>>>> exper end |