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DESIGNING AND DEVELOPING A FULLY AUTOMATIC INTERIOR ORIENTATION
METHOD IN A DIGITAL PHOTOGRAMMETRIC WORKSTATION
M. Ravanbakhsh
Surveying college, National Cartographic Center (NCC), Tehran, Iran, P.O.Box:13185-1684
Email address: Ravanb@ncc.neda.net.ir
Commission IVIV
KEY WORDS: Orientation, Accuracy, Digital, Transformation, Aerial, Pixel
ABSTRACT:
This paper is concerned with a comparative study and implementation of different image correlation techniques for Automatic Inner
Orientation in aerial images.
The implemented image correlation techniques are:
Cross Correlation Function (CCF), Binary Cross Correlation Function (BCCF) and Least Square Matching (LSM). The first two
approaches are used to determine the approximate position of the fiducial mark centres, which is then followed by a quadratic
surface fitting for precise fiducial centre determination. Wiener and constrained least square filter were used as pre-processing
techniques to improve the accuracy of algorithms.
All three algorithms are applied to the digital images with different resolution (namely: 15, 30 and 60 micrometers pixel size).
The test results show that the optimum solution can be achieved by a combination of CCF for approximate positioning followed by
LSM method, i.e. LSM approach shows better performance as far as pointing precision for fiducial mark(cross type)centres have
been 4.2 and 4.7 micrometers respectively when the optimum solution (i.e. CCF plus LSM)is used. Other aspects of fully automatic
Digital Inner Orientation with respect to image frame direction, and determination of whether or not a mirror image is scanned are
also investigated. The designed algorithms have the capability to achieve the accuracy mentioned above in any frame from different
aerial cameras.
1. INTRODUCTION the matrix including grey values but photo coordinate system is
defined by fiducial marks positions. If the relationship between
Although Several decades have passed since scientists in the scanner and camera coordinate system remain constant, inner
photogrammetric community started research work related to orientation will be eliminated from digital photogrammetric
automation of different processes in photogrammetry and stages. We have not had the chance of using such digital
remote sensing, with the dramatically fast progress of computer cameras to prepare high resolution images yet.
technology, great developments have occurred in recent years. We would be able to design an algorithm to achieve the goal of
With precise scanners and high memory fast performing performing interior orientation automatically if it is possible to
computer systems, the possibility of automation in Digital have a good knowledge of location, shape, illumination
Photogrammetric Workstations (DPW) has increased. New distribution and sizes of fiducial marks in digital scanned aerial
techniques such as machine vision and digital image processing photos. With respect to fully automation procedure concept, the
and the trend of commercial photogrammetric companies in algorithm should be able to include features listed below:
using DPW made the research grow quicker. 1- using images from various cameras
Inner orientation is a prerequisite for any project including 3D 2-using colorful and black & white images
computation as it is a complicated and time-consuming process 3-using fiducial marks with different of shapes
which making it automatic helps us to open a broad range of 4-using images with different pixel size
applications. Among orientations (inner, relative and absolute) 5-using positive or negative images
inner orientation has a special importance as any inaccuracy 6-using mirror images
will affect next stages in photogrammetric processes. 7-using rotated images
In 1995, Phodis Company developed a method of fully 8-using images scanned in different scanners
automatic inner orientation with overall accuracy of 0.2 pixel
and pointing accuracy of any individual fiducial mark of 0.1 3. DESIGNING AND IMPLEMENTING
pixel.
With respect to the kind of input data, several methods can be
2. INNER ORIENTATION AND AUTOMATION taken into account, however, two distinct algorithms performing
FEATURES two major successive stages of localization and precise
measurement differently and other minor six stages commonly.
In inner orientation process, we establish a geometric The six common stages are:
relationship between photo coordinate system and instrument |-extracting image patches
coordinate system. In metric imaging system, photo coordinate 2-resampling the template
System is defined by fidcual marks but in field of digital 3- Image pyramid derivation
photogrammetry instrument coordinate system is replaced by 4- Detection of the orientation of the image
pixel coordinate system. Image coordinate system is defined by 5-positive-negative recognition
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