area of constant 
grey value 
ridge 
Fig. 4.11a Surface 2 with area of constant grey value: 
reconstructed surface 
FAST Vision with adaptive regularization 
area of constant £ 
0,5 
grey value = 
   
   
    
dZmax-0.276 m - 
X-axis 
dZmin=-0.411 m 
Fig. 4.11b Surface 2 with area of constant grey value: 
differences between original reconstructed surface 
FAST Vision with adaptive regularization 
   
   
      
area of constant 4 / 3 
grey value 
Fig. 4.12a Surface 1 with area of constant grey value: 
reconstructed surface 
FAST Vision with regularization by curvature minimization 
00 [3 5 
ie 
dZmax-0.472 ni 10550 
dZmin=-0.160m | X@xis 
ridge 
Fig. 4.12b Surface 1 with area of constant grey value: 
differences between original and reconstructed surface 
FAST Vision with regularization by curvature minimization 
814 
  
ridge 10560 
X-axis AS 090 
Fig. 4.13a Surface 1 without area of constant grey value: 
reconstructed surface 
FAST Vision with adaptive regularization 
    
    
    
dZ 
0,5 
-0,0 
-0,5 S 
dZminz-0.390 m 
Fig. 4.13b Surface 1 without area of constant grey value: 
differences between original and reconstructed surface 
FAST Vision with adaptive regularization 
  
Fig. 4.14a Surface 1 without area of constant grey value: 
reconstructed surface o 
FAST Vision with regularization by curvature minimization 
dZmax-0.251 m 
X-axis 
dZmin=-0.166 m 
ridge 
Fig. 4.14b Surface 1 without area of constant grey value: 
differences between original and reconstructed surface 
FAST Vision with regularization by curvature minimization