Modification in example files.

src/example_5_1.m

@@ -84,7 +84,7 @@ end
 disp('Table 5.1 (left): Relative errors of far field operator splitting with least squares approach for varying distance:')
 fprintf('   |c_1-c_2|  epsilon_nut   epsilon_kite\n')
 for iteri = 1:nr_rep
-    fprintf('   %d         %.3f         %.3f\n', dist(iteri), relerrnut(iteri), relerrkite(iteri))
+    fprintf('   %d         %.3f         %.3f\n', dist(iteri), round(relerrnut(iteri),3), round(relerrkite(iteri),3))
 end
 
 % Numerical reconstruction with l1xl1-minimization:
@@ -113,7 +113,7 @@ end
 disp('Table 5.1 (left): Relative errors of far field operator splitting with l1xl1-minimization for varying distance:')
 fprintf('   |c_1-c_2|  epsilon_nut   epsilon_kite\n')
 for iteri = 1:nr_rep
-    fprintf('   %d         %.3f         %.3f\n', dist(iteri), relerrnut(iteri), relerrkite(iteri))
+    fprintf('   %d         %.3f         %.3f\n', dist(iteri), round(relerrnut(iteri),3), round(relerrkite(iteri),3))
 end
 
 % Plot of geometry:
@@ -256,7 +256,7 @@ end
 disp('Table 5.1 (right): Relative errors of far field operator splitting with least squares approach for varying size of the nut:')
 fprintf('   R_nut  epsilon_nut   epsilon_kite\n')
 for iteri = 1:nr_rep
-    fprintf('   %.1f    %.3f         %.3f\n', R_nut(iteri)*3.2, relerrnut(iteri), relerrkite(iteri))
+    fprintf('   %.1f    %.3f         %.3f\n', R_nut(iteri)*3.2, round(relerrnut(iteri),3), round(relerrkite(iteri),3))
 end
 
 % Numerical reconstruction with l1xl1-minimization:
@@ -285,7 +285,7 @@ end
 disp('Table 5.1 (right): Relative errors of far field operator splitting with l1xl1-minimization for varying size of the nut:')
 fprintf('   R_nut  epsilon_nut   epsilon_kite\n')
 for iteri = 1:nr_rep
-    fprintf('   %.1f    %.3f         %.3f\n', R_nut(iteri)*3.2, relerrnut(iteri), relerrkite(iteri))
+    fprintf('   %.1f    %.3f         %.3f\n', R_nut(iteri)*3.2, round(relerrnut(iteri),3), round(relerrkite(iteri),3))
 end
 
 % Plot of geometry:

src/example_5_2.m

@@ -85,7 +85,7 @@ disp('Table 5.2 (left): Relative errors of far field operator completion with le
 fprintf('   |Omega|/(4pi^2)  epsilon   epsilon_Omega\n')
 for iteri = 1:nr_rep
     ratio = sum(sum(P_Omega{iteri}))/(sampling.nxhat*sampling.nd);
-    fprintf('   %.2f             %.3f     %.3f\n', ratio, relerr(iteri), relerrOmega(iteri))
+    fprintf('   %.2f             %.3f     %.3f\n', ratio, round(relerr(iteri),3), round(relerrOmega(iteri),3))
 end
 
 % Numerical reconstruction with l1xl1-minimization:
@@ -108,7 +108,7 @@ disp('Table 5.2 (left): Relative errors of far field operator completion with l1
 fprintf('   |Omega|/(4pi^2)  epsilon   epsilon_Omega\n')
 for iteri = 1:nr_rep
     ratio = sum(sum(P_Omega{iteri}))/(sampling.nxhat*sampling.nd);
-    fprintf('   %.2f             %.3f     %.3f\n', ratio, relerr(iteri), relerrOmega(iteri))
+    fprintf('   %.2f             %.3f     %.3f\n', ratio, round(relerr(iteri),3), round(relerrOmega(iteri),3))
 end
 
 % Plot of geometry:
@@ -287,7 +287,7 @@ disp('Table 5.2 (right): Relative errors of far field operator completion with l
 fprintf('   |Omega|/(4pi^2)  epsilon   epsilon_Omega\n')
 for iteri = 1:nr_rep
     ratio = sum(sum(P_Omega{iteri}))/(sampling.nxhat*sampling.nd);
-    fprintf('   %.2f             %.3f     %.3f\n', ratio, relerr(iteri), relerrOmega(iteri))
+    fprintf('   %.2f             %.3f     %.3f\n', ratio, round(relerr(iteri),3), round(relerrOmega(iteri),3))
 end
 
 % Numerical reconstruction with l1xl1-minimization:
@@ -310,7 +310,7 @@ disp('Table 5.2 (right): Relative errors of far field operator completion with l
 fprintf('   |Omega|/(4pi^2)  epsilon   epsilon_Omega\n')
 for iteri = 1:nr_rep
     ratio = sum(sum(P_Omega{iteri}))/(sampling.nxhat*sampling.nd);
-    fprintf('   %.2f             %.3f     %.3f\n', ratio, relerr(iteri), relerrOmega(iteri))
+    fprintf('   %.2f             %.3f     %.3f\n', ratio, round(relerr(iteri),3), round(relerrOmega(iteri),3))
 end
 
 % Plot of Omega_2:

src/example_5_3.m

@@ -93,7 +93,7 @@ disp('Table 5.3 (left): Relative errors of far field operator completion and spl
 fprintf('   |Omega|/(4pi^2)  epsilon   epsilon_Omega\n')
 for iteri = 1:nr_rep
     ratio = sum(sum(P_Omega{iteri}))/(sampling.nxhat*sampling.nd);
-    fprintf('   %.2f             %.3f     %.3f\n', ratio, relerr(iteri), relerrOmega(iteri))
+    fprintf('   %.2f             %.3f     %.3f\n', ratio, round(relerr(iteri),3), round(relerrOmega(iteri),3))
 end
 
 % Numerical reconstruction with l1xl1-minimization:
@@ -121,7 +121,7 @@ disp('Table 5.3 (left): Relative errors of far field operator completion and spl
 fprintf('   |Omega|/(4pi^2)  epsilon   epsilon_Omega\n')
 for iteri = 1:nr_rep
     ratio = sum(sum(P_Omega{iteri}))/(sampling.nxhat*sampling.nd);
-    fprintf('   %.2f             %.3f     %.3f\n', ratio, relerr(iteri), relerrOmega(iteri))
+    fprintf('   %.2f             %.3f     %.3f\n', ratio, round(relerr(iteri),3), round(relerrOmega(iteri),3))
 end
 
 %% Example 5.3 (Completion and Splitting) for Omega_2:
@@ -217,7 +217,7 @@ disp('Table 5.3 (right): Relative errors of far field operator completion and sp
 fprintf('   |Omega|/(4pi^2)  epsilon   epsilon_Omega\n')
 for iteri = 1:nr_rep
     ratio = sum(sum(P_Omega{iteri}))/(sampling.nxhat*sampling.nd);
-    fprintf('   %.2f             %.3f     %.3f\n', ratio, relerr(iteri), relerrOmega(iteri))
+    fprintf('   %.2f             %.3f     %.3f\n', ratio, round(relerr(iteri),3), round(relerrOmega(iteri),3))
 end
 
 % Numerical reconstruction with l1xl1-minimization:
@@ -245,5 +245,5 @@ disp('Table 5.3 (right): Relative errors of far field operator completion and sp
 fprintf('   |Omega|/(4pi^2)  epsilon   epsilon_Omega\n')
 for iteri = 1:nr_rep
     ratio = sum(sum(P_Omega{iteri}))/(sampling.nxhat*sampling.nd);
-    fprintf('   %.2f             %.3f     %.3f\n', ratio, relerr(iteri), relerrOmega(iteri))
+    fprintf('   %.2f             %.3f     %.3f\n', ratio, round(relerr(iteri),3), round(relerrOmega(iteri),3))
 end
\ No newline at end of file