High Precision Image Matching
or
Digital Terrain Model Generation
Armin W. Gruen, Emmanuel P. Baltsavias
Institute of Geodesy and Photogrammetry
Federal Institute of Technology
ETH-Hoenggerberg
CH - 8093 Zurich, Switzerland
ABSTRACT
The Adaptive Least Squares Correlation (ALSC), combining gray level correlation with geometric
conditions, was applied to a grid sampling mode for generation of Digital Terrain Models (DTM)
from aerial stereo models.
The heights of targets of different geometric and contrast quality in large scale digitized images
were determined using this technique and compared to results from manual measurements.
Both solutions showed an average difference of 0.016-0.038% and a maximum difference of
0.037-0.120%. flying height (hg), depending on the height approximation. Most cases
investigated required an initial height approximation at the 1-275, hg level. An average height
error of 0.2%. hg was cleared in each iteration step. The constraints imposed proved to define
the movement of the gray level image patches, thus limiting the search area and probability of
false correlation, and increasing the precision and reliability of height determination.
1. INTRODUCTION
One of the earliest attempts for automatic contour plotting is described in U.S. patent No.
2,283,226 issued to H.B. Porter in 1942. Since then, numerous instruments and techniques
have been developed for the automation of DTM generation. They can be divided into
analogue, hybrid and digital techniques, with the recent tendency towards digital solutions,
using specialized hardware in a parallel, distributed processing environment. Most of them made
use of the epipolar plane condition and used crosscorrelation as matching criterion.
Today the commercially available hardware and software is beyond the increasing needs for
generation of DTMs and has not reached a stage of maturity yet. They can handle primarily
medium and small scale images, lack flexibility and adaptability to the various terrain surfaces,
make no or little use of additional information which could be favourably exploited, and have only
little interactive operation capability. The failure rate is still high, control of the precision and
reliability of the results is limited, discontinuities of the terrain and geometric and radiometric
dissimilarities due to other factors remain a bottleneck.
This paper addresses the precision matching aspect for automatic DTM generation.
ALSC as a general and flexible image matching technique combines gray level correlation with
object point intersection conditions and other sensor and object constraints. The system
parameters allow for local geometric image shaping and radiometric corrections and are
automatically corrected and optimized during the least squares iterations. The quality of the
match and other system parameters can be assessed. The geometric conditions imposed lead
not only to an improved matching procedure, but in addition provide for a simultaneous
matching/object point positioning technique. Thus the conventional two Stage process is
replaced by a one stage solution, which is capable of utilizing all available radiometric and
geometric information at once.
The general mathematical model used is described in Gruen1985, Gruen,Baltsavias1985. This
algorithm is applied to a grid sampling mode for generation of DTMs from aerial stereo models,
requiring determination of the heights at given X,Y ground positions.
