ul 2004 
are the 
' gray- 
Te we 
| cost, 
t. The 
be the 
ve use 
Other 
n one 
nages. 
value 
check 
(3) 
npling 
of the 
Fa 
3). In 
ieness 
(4) 
S bi- 
International Archives of the Photogrammetry, Remote Sensing and Spatial Information Sciences, Vol XXXV, Part B3. Istanbul 2004 
3.3.2  Smoothness Constraint: The matching pixels must 
have similar intensity values(i.e. differ lower than a specified 
threshold) or the matching windows must be highly correlated. 
Thus, the next probability is proposed by using this 
characteristic. We calculate a variance in a disparity map that 
satisfies uniqueness constraint, note (Equation 4). Each value is 
extracted from weight-function: 
0.857 
w.(x,y)- 
575. (5) 
Consequently, we define local variance in the extracted 
disparity map: 
w Ww 
2 1 2 2 - . . . 2 
Gy(x.y)-7 N. S NS hw. Gr x, jt y) -x,j- yr 
V I. Ww s Ww 
S if Ss 
l x d - . . * 
> S ow Grex jy) dex jy) > 
(vy ime w ha 
Au. (6) 
Ww Ww 
2 
N, = > Sw +x. +). 
wow 
pd 
where 21-7 
Using these conventions, we define the smoothness reliability: 
fonte, (7) 
where 4 is an damping parameter to control the decreasing 
. "pn en ~ + ^r . d 2 . 
velocity of fp> . The function value of /p2 is large if op is small, 
whereas fz, will take small value in opposite case. 
3.3.3 Total Reliability 
The final reliability function is defined as a linear combination 
of f», and fs» : 
doe! = À Fr + As fis , (8) 
where À, and A, are weight coefficients satisfying the relation 
A + À, =], 
Here, we consider local intensity and smoothness constraint. 
The number of upper disparity vectors is 9 and that of current 
State vectors is 4. Each disparity map is obtained by calculating 
the mean absolute difference (MAD) and smoothness of upper 
disparity vectors between a pair of stereo. In the modified 
hierarchical BMA, we define cost functions S; and D; as: 
| 
1 ; 
S'(x, y,d) = S a^ (x, y )- D' : 
pee x =e) 
9) 
771 
wo wo 
D'(x,y.d)=are mi ] : A aC ? 
(x,y,d)=arg min | — > > Felx +x, p+") 
de(-») mn 0 
Mam T mm 5 
-Fuxtdex,y-y) 
(10) 
and we can compose our cost function as 
ai i i 
E=snD+nsS, (11) 
where Di denotes the cost function at level of the ith pyramid, 
the other parameters are the same as Equation(2), 7, and 7 are 
weight coefficients satisfying the relation y, + y,=1. 
4. EXPERIMENTS 
The simulation result indicates that proposed algorithm shows 
outstanding ability in low texture and projective distorted 
region such as the nose and cheek in Figure 9 and Figure 13. 
  
Image 
Items 
“Man” image 
“Claude” image 
  
Image size 
Actual disparity 
Searching range 
Block size 
384x384 
About -100—100 
-120~120 
7x5 
720x288 
About -30-30 
-45~45 
7x5 
  
T 6 S 
Weights (4, / 4) 0.5/0.5 0.5/0.5 
Weights (y;/ 72) 0.4/0.6 0.4/0.6 
  
  
  
Table 1. Parameters for correspondence estimation 
     
o 6 
Figure 8. The original stereo images of ‘man’, (a) Left image, 
(b) Right image. 
  
  
   
(a) 
Figure 9. “claude ” image pair. (a) Left image, (b) Right image.