An
appropriate method for assessing the accuracy
of derived data and the impact of parameters on
the data is to carry out tests using independent
check data in the object space. Quality control,
or checkpoints with a known elevation considered
to be true, were used for accuracy assessments
and were measured using DGPS (differential global
positioning system). Diapositives are used in
Analogue (A8 & AMH) and Analytical plotters
(BC3, SD2000).
To start a project on analogue/ analytical systems,
Ground Control Points (CP File) is required or
created for the entire area / model. In these
plotters one MD ?le (orientation parameter ?le)
is created for every model using control points.
In Analogue Machines, orientation is totally manual.
Inner Orientation is done on a light table where
four ?ducial points are brought in ?ducial axis
marked on the picture carrier plate on which the
diapositive is mounted. Later, it is mounted on
instrument for RO and AO. In Relative
Orientation Y-parallax are removed using Kappa,
Phi and Omega. After that Absolute orientation
is performed where Known GCP’s are measured.
It takes more than half an hour to orient a single
model.
In Analytical Plotters, orientation is automatic.
For making orientation parameter ?les (MD Files),
?rst of all, diapositives were mounted on instrument
and started with Inner Orientation. It starts
with left image followed by right image. These
are automatic instrument even then coordinates
at ?rst two ?ducial points were measured manually.
Later it reads remaining six ?ducial points automatically.
The same process is done for right photograph.
The RMS value of IO should be less than 10. Epipolar
Orientation follows inner Orientation where parallax
is removed manually at two points. After the Epipolar
orientation, Relative Orientation is performed.
During RO process, Y parallax is removed at least
at six points or maximum at 10 points. For Absolute
Orientation, ground control points are measured
and RMS is noted. After AO process, model becomes
ready for data extraction / map production.
For Digital Photogrammetry, photographs were scanned,
using an LH System’s photogrammetric scanner,
at a resolution of 14 microns and 24 microns per
pixel prior to reformatting and transfer into
the Socket set Digital Photogrammetric Workstation
(DPW). Full details of camera calibration parameters
were supplied to enable interior orientation to
be carried out. All processes like IO, RO and
AO are done for digital systems also. Stereo model
were constructed using premarked ground control
points positioned using post-processed differential
GPS. Subsequent analysis involved the calculation
of residual values produced by comparing the computer-generated
surface with a set of test points measured using
differential GPS. This research demonstrates that
the optimal digital system matched the performance
of analytical photogrammetry for the feature extraction.
|
