Full text: Papers accepted on the basis of peer-review full manuscripts (Part A)

  
ISPRS Commission III, Vol.34, Part 3A „Photogrammetric Computer Vision“, Graz, 2002 
  
appropriate for the methodology proposed. In order to simulate 
an accurate SAR image orientation, shifts in range and time 
were introduced in the object-to-image projection. 
4. INTEGRATION OF SAR AND SPOT MODELS 
4.1 SAR-SPOT intersection 
Both SAR and SPOT images are significantly affected by the 
terrain height. Relief displacements (AX) of a height ^ depend 
on the image incidence angle (o) on the imaged point and are 
expressed in the following ways: 
AX, =hcotay,, (6) 
AX spor =htan og; 
A pair composed of a SAR and a SPOT image provides a 
parallax effect, from which heights can be determined. Three- 
dimensional coordinates of SAR-SPOT conjugate points can be 
calculated using the sensor equations. In geometric terms this 
corresponds to determining the intersection of a straight line 
and a circle in space. Alternatively, heights can be calculated 
from parallaxes (Gongalves, 2001). 
SAR-SPOT stereopairs can be acquired with both satellites on 
the same side relative to the point or on opposite sides. Figure 6 
represents these two situations, where a point with height H 
above a reference datum is being observed. In the first case the 
two displacements, with respect to the reference datum, occur in 
opposite directions, resulting in an additive parallax. In the 
second case the parallax effect is subtractive, corresponding in 
principle to a less favourable situation for height determination. 
However, as the main contribution to the parallax comes from 
the SAR displacement, the accuracy is not significantly affected 
(Toutin, 2000). 
Spot Spot 
    
SAR®, 
/\H 
  
  
Pr PS PR : Ps 
(a) (b) 
Figure 6 — Same side (a) and opposite side (b) configurations in 
a SAR-SPOT stereopair. 
The SPOT and Radarsat image used in this work form a same- 
side stereopair. 
4.2 Image registration 
As the SPOT and the SAR images have different resolutions, 
registration is needed in order to measure parallaxes. In this 
work it was decided to register the SAR image to the SPOT 
image space using a set of points generated with the image 
orientation data. À point can be projected from the SPOT image 
onto the ellipsoid (equation 3) using the approximate 
orientation parameters and from there onto the SAR image 
(equation 3, with SAR model). This was done for a set of points 
on the SPOT image (grid of 7 by 7 points). Figure 7 shows the 
points in the SPOT and the SAR image. 
A - 128 
  
Figure 7 — Location, on both image spaces, of the points used 
for the registration 
A 3" degree polynomial was then fitted to these points, with 
residuals smaller than 0.1 pixels in absolute value. This 
polynomial function (later designated as R) was used in the 
registration of the SAR image to the SPOT image space. Figure 
8 shows the SPOT image (a) and the SAR image registered to 
the SPOT image space. 
    
(a) per 
Figure 8 — Full SPOT image (a) and registered SAR image (b) 
4.3 SAR-SPOT tie-point measurement 
Tie points had to be measured in the SAR-SPOT pair. 
Identification of well-defined individual points in the SAR 
image is extremely difficult, especially because the area does 
not have large cities or roads. However many polygonal features 
such as water bodies can be clearly identified on both images. 
The manual method used to generate tie-points from these 
features was the following: first the boundary is digitised, in 
vector format, on the SPOT image. Then, on the SAR image 
layer, the line is manually moved until matching the 
corresponding feature on the SAR image. Figure 8 represents 
the boundaries of a small lake and the vector line digitised on 
the SPOT image (a) and then dragged on the SAR image (b). 
   
Es M 
Figure 9 — Determination of tie-points using area features. 
The centroid of the polygon, or even any vertex of the line, can 
be used as a tie-point. Figure 10 represents the location of the 
tie-points on the SPOT image. Most of them were derived from 
lakes, reservoirs or river margins. If original SAR image 
coordinates are required, the registration function, R, should be 
used.
	        
Waiting...

Note to user

Dear user,

In response to current developments in the web technology used by the Goobi viewer, the software no longer supports your browser.

Please use one of the following browsers to display this page correctly.

Thank you.