area of constant grey value 
Z-axis : 
0,5 
  
9100 
Y-axis 
Fig. 4.9a Surface 1 without area of constant grey value: 
reconstructed surface 
Fig. 4.7a Surface 3 with area of constant grey value: FAST Vision with adaptive regularization 
ace reconstructed surface 
FAST Vision with adaptive regularization 
ren of constant grey value. | 
az" Oy ER 
    
   
     
    
   
  
    
dZmax=0.131 m\ 
dZmin--0.164 m. ^ 
10540 
10550 
dZmax=0.121 m 
X-axi ; 
dZmin=-0.181 m e ridge 
Fig. 4.9b Surface 1 without area of constant grey value: 
differences between original and reconstructed surface 
Fig. 4.7b Surface 3 with area of constant grey value: FAST Vision with adaptive regularization 
differences between original and reconstructed surface 
   
ition Yat. 
FAST Vision with adaptive regularization 
area of constant grey value = 
0,5 
1010 
),0 
5 
X-axis 10000 9990 
Fig. 4.10a Surface 1 without area of constant grey value: 
reconstructed surface 
p FAST Vision with regularization by curvature minimization 
| Fig. 4.8a Surface 3 with area of constant grey value: 0,5 
reconstructed surface Wana = 
FAST Vision with regularization by curvature minimization 
area with constant grey value S op 
dz xu ; 
0,5 1405 
-0,0 Ÿ / [$110 
1010 
dZmax=0.275 m 
dZmin=-0.176 m 
Fig. 4.10b Surface 1 without area of constant grey value: 
differences between original and reconstructed surface 
FAST Vision with regularization by curvature minimization 
N 
dZmax-0.132 m NS 
dZmin--0.124 m 10850 
N 
X-axis x 
< 
is | qo ART axe 
“le 
Fig. 4.8b Surface 3 with area of constant grey value: 
differences between original and reconstructed surface 
FAST Vision with regularization by curvature minimization 
813