\ 
2558 MEAN OF A CLASS 
7 8 9 7 8 
224 
5 6 
e 
*. 4 5 6 
= 128 + 
U 3 4 
l 2 3 1 2 
32 
A 
0 32 128 224 255 
CH.1 
DISTRIBUTION OF CLASSES DISTRIBUTION OF 
SUB-CLASSES 
SUB-CLASS 
1234 56 7.8 
3 
2 
3 
N 
mn 4 
S 5 
O6 
7 
8 
9 
^ CH.2 
Figure 3.2 
The configuration of classes 
and sub-classes on the object 
image for simulations. 
—— 1298 PIXELS 0 — 
16 
PIXELS 
— 
12 I 24| 56 9| «e| 24 S6 g| 40 | : 
LINES _ 3 ail 241 241 40] 48] 861 56 
119 | 181 | 103 | 135 | 119 | 151 | 103 | 135 
8 al 24 | 24| 49| +40 | 56} 55 
215 237 199 231 215 247 199 231 
8 8| 241 241 40 | 48| 56| 55 
24 S6 8 +49 24 £6 8 49 
183 | 103 | 112 | 119 | 138 | 13S | 161 151 
198 
119 | 151 | 103 | 135 | 119 | 1S1 | 193 | 135 | LINES 
193 103 119 119 135 13 151 151 
2ıs 247 | 192 | 221 | 2158 | 247 | 122 | 221 
193 | 103 | 119 | 119 | 135 | 135 | 151 | 151 
24| ss 39 | 24 | se 8| an 
199 | 22 215 | 215 | 231 | 231 | 247 | 247 
119 Hs t02 1135 | 119 | 151 | 1803 | 125 
199 | 199 | 215 | 215 | 231 | 231 | 247 | 247 
215 | 247 | 199 | 221 | 215 | 247 | 199 | 231 
199 | 199 | 218 | 215 | 231 | 231 | 247 47 : 
  
  
  
  
  
  
  
  
  
  
  
  
  
  
  
  
  
  
  
  
  
  
- 631 - 
Figure 3.1 
The object image data in 
a feature space. 
channel value = N(m,1) 
m : mean of each 
sub-classes 
  
Figure 3.3 
The object image 
for simulations. 
Figure 3.4 
Mean values of sub-classes 
in the object image for 
simulations.