| as
ike
| of
ter,
ced
ors
be
ing
sor
INPUT PROCESSING OUTPUT
Satellite
Scanner 9-| Preprocessing
Data
I
Control denen
Points 9| Mosaicking and
ot Rectification
without| with
DTM DTM
]
Radiometrical
Mosaicking
]
Merging
Multisensor
Data
I
Postprocessing
I
Topographic p.| Cartographical
Information Processing
I
Digital Printing
Screening Original
Fig. 1: System overview for digital image
map production
The production line for the preparation of image maps
can be subdivided into several processing steps. The
main topics of each subsystem will be described in the
following chapters.
22 Preprocessing
The preprocessing of the raw satellite image data is a
prerequisite for all following processing steps and
influences the quality of the final results remarkable.
The preprocessing of the data depends on the used
sensor system. Therefore a wide range of reliable
algorithms must be available to enhance the sensor
depending effects in digital images:
- In the first step all data have to be treated by simple
histogram stretching in order to make full use of
the available gray value interval. In the most cases
the parameters have to be determined for each
scene individually because they are influenced by
specific illumination and athmospheric conditions.
- Sometimes bad pixels or lines caused e.g. by trans-
mitting errors may arise in digital image data. Those
errors can be detected and eliminated with a
method based on thresholding and filtering.
- All operational satellite scanners show more or less
typical striping effects depending on the sensor
construction. If this striping effect is systematically it
can be eliminated easily by adjusting each line
integral histogram onto an artificial median integral
histogram of all lines considered.
- Especially in dark areas of SPOT data noise influ-
ences the image quality. This effect can be elimi-
nated by filtering techniques in the frequeny
domain.
689
- Clouds or dust (particulary in industrial zones) can
reduce the image quality essentially. This effect can
be reduced by the treatment of data with partial
substitution (KÄHLER 1989).
- From analogue photographs the effect of the
illuminance fall-off is known. This effect can be
observed in KFA-1000 images also. Therefore in the
used software system a module is integrated which
allows the elimination of illuminance fall-off in
scanned photographs.
2.3 Geometrical Mosaicking and Rectification
It is essential for the integration of image data into a
GIS to mosaic several scenes in order to fit the re-
quirement of free map sheet administration of the
data. The mosaicking must be carried out in a way that
geometrical and radiometrical differences between the
images disappear.
For this purpose a method is used which takes advan-
tage of the double informations of adjacent scenes. The
input information is achieved by measuring a few
ground control points (GCP) in all scenens and tie
points in overlapping regions. All transformation
parameters for all scenes of the mosaic are then
calculated simultaneously in a least squares adjust-
ment.
a Ground Control Point
* Tie Point
m Map Surface
Fig. 2: Arrangement of ground control points and tie
points in a satellite image mosaick
The usage of tie points has also the advantage to
reduce the number of GCP's. This is very useful
because it is often very time-consuming to measure
GCP's in difficult areas (deserts, mountaineous
regions, etc.) The identification of tie points is done by
digital image correlation.
The rectification needs the process of resampling. For
this different methods can be used. It has to be chosen
that algorithm which guarantees good preserving of
the image quality at reasonable computer processing
time.
In mountaineous regions the influences of topo-
graphical relief causes displacements of the pixels
during rectification. Therefore the polynomials
