Noernberg, Mauricio Almeida 
  
  
  
  
  
  
  
  
  
1 TU OU. 1 1 * M r TTTTT T TT T VS vrrDPUDPPUTTPTTTT T TPPPPPEPY T TTT 
| aos - 
5 i 
0.08} e 4 e ] 
L à » 
o + a.D6 - 
0.06 |- à X - > 
e A ole 
J > 2 i 
, e J 
0.D4 - 
a.04 - $e J 
L e 
] . ] 
«* L = 
g.pz2 r 2 - Q.D2 > 
1 e 
$. 5 | © $ où 
0500 LLL eere eee rei, a.00 1 1 ay, A 
10 20 30 40 10 20 30 40 
Figure 4. Statistical distributions associated with the Pistia class, at each polarization. 
  
  
  
   
  
  
  
  
  
  
  
  
  
  
  
  
  
  
  
TYPHA 
HH (Amplitude GO) VV (Amplitude GO) 
mp ———————————— DT TT TT TE err ng 
1 $ 7 7 
0.030 + 9 = 1 
| ] 0.030 " 
o.025 - À : 
] 1 
] ] 
0.020 % 0.020 i 
0.015} À 1 
0.010} d 0.010f 3 
[ J 
0.005 7 
EE. j 
0.000 BE" 0.000 LS 
HV (Amplitude GO) VH (Amplitude GO) 
FT rompre —M— TTT TP 
0.10 $ -l L | 
1 ado} - 
2 = L J 
- 4 ve + 
0.08 + o 4 + 
be 4.08 = 
1 I ] 
L € 5 a e 
0.D6 - $ = [ » 7 
A a.ns "] 
r s ] E vis 
0.04} ^ [ ] 
] 0.04 z 
= [ 9 7 
+ À 
g.D2 [ - a.02 - - 
$; ? ; 
Le es E 2 on 
0.DO a L 1 ll a.po L.S Le i Lena S "n 
5 10 18 20 25 30 35 10 20 30 40 
Figure 5. Statistical distributions associated with the Typha class, at each polarization. 
  
1016 International Archives of Photogrammetry and Remote Sensing. Vol. XXXIII, Part B7. Amsterdam 2000.