2-5-8
The two 3D point sets, derived from each epoch, are then
analyzed for temporal correspondence. This analysis is still
currently under investigation. A linear, three-dimensional, least
squares similarity transformation is proposed, in which the
second 3D point set is transformed onto the first. The computed
transformation parameters then represent the relative motion
between exposures. More detailed description can refer to
Chaplin and Chapman (1998). Tests on simulated and real data
have shown the viability of the technique provide that the
solution is appropriately constrained.
5. CONCLUSIONS
The combination of computational vision and digital
photogrammetry technologies is the principal methodology used
throughout the thesis research. It is a key to the development
and implementation of the three automated approaches. The
thorough understanding of the imaging geometry and the
extensive development of valid constraints constitute very
important parts of our research work. A number of state-of-the-
art computer vision methods, namely, model-driven feature
extraction, multiple-image matching and shape from image
sequences, are developed.
Another methodology extensively applied is the human-
computer collaborative semi-automatic scheme. An interesting
aspect of the history of mankind is the relationship between
human and computer. Although the great achievements have
been made in recent 10 years, the realization of fully automatic
feature extraction is still restricted especially in
photogrammetry. Since we acknowledge that it is a long time
before the automated feature extraction algorithm can be
available as a production tool, and there is no much probability
to separate the operator from the system, why should we not
take the operator as a component of the system at the beginning
of the system design? (Tao and Lin, 1994). A combination of
the computational power of the computer and the interpretative
ability and knowledge of the human brain has been
implemented in the approaches of object measurement and
extraction of vertical line features. It has been demonstrated that
the use of this methodology makes the system work more
reliably and efficiently.
The following conclusions can be drawn based on the research
results and real data tests:
• The model-driven feature extraction methods have been
proposed in the extraction of road centerline features and
vertical line features. The geometric and photometric
models of the specific features are established firstly. Then,
the algorithms tailored to these models are designed. For
example, in the extraction of centerline features, the
algorithms of oriented edge detection, dual-edge detection
and edge filtering by a new majority voting technique are
developed. In the extraction of vertical line features, the
algorithms of initial edge detection, edge thinning,
vertically oriented edge detection, primary line grouping
and secondary line grouping are implemented. •
• The multinocular epipolar constraint has been successfully
used to design an effective strategy of multiple-image
matching. The matching ambiguities can be greatly
reduced by using multiple-image matching associated with
the weighted cross-correlation, the correlation coefficient
analysis, the disparity range constraint, and the two-way
matching double-check techniques. The method and its
similar versions have been used in all these proposed
approaches. It is seen that the method can be applied to not
only point-feature correspondence, but also line-feature
correspondence. More importantly, the accuracy and
reliability of the 3-D reconstruction results can also be
greatly improved using the multiple corresponding points
or lines derived by the multiple-image matching method.
• The concept and method of shape from image sequences
are proposed and developed. This is, essentially, a closely
coupled bottom-up and top-down reconstruction strategy.
The whole reconstruction process is designed based on an
interaction between a 3-D deformable model and updating
information derived from the stereoscopic image
sequences. This design leads to a robust result because the
local and global shape of the model is controlled under the
combinations of the actions of the internal energy (model)
and the external energy (image). The synthesis of multiple
constraints has been implemented by the least action
principle, a physically-based mechanism for constraint
combination. The advantages of the method are that
constraints both from model assumptions and image
sequences can be incorporated into a mathematical model,
and the constraint combination can be solved by a
Lagrangian motion equation. This approach represents a
successful accommodation of multiple constraints from a
mobile mapping system.
• Image bridging is one of the new concepts in the
development of mobile mapping systems. Current work
involves the investigation of techniques for the automatic
and robust establishment of correspondence between two
3D point sets, and techniques for verifying the
correspondence, for example, back-projection and
matching in image space. Following this, sequential
position and orientation updating procedures will be
applied.
6. THE FUTURE WORK
• Image capture rate
The stereo-motion cooperation based approach has
demonstrated great advantages on the correspondence issue. If a
high image capture rate is available, an improvement to a more
robust matching can be achieved by using a fusion of feature
correspondence and optical flow methods.
• Image compression
The fast image compression and communication techniques
should be developed, due to the huge volume of image data
generated. Data link from the mobile vehicle to an office GIS
and data dissemination through internet/intranet should also be
considered.
• Multi-sensor information fusion
It is believed that the automatic sensing ability will be greatly
enhanced by using multi-sensor information, such as color,
laser, and sonar. For example, if a laser ranging device is used
and angled downward/forward the road, the elevation data of
the road surface can be collected. This information can be
further incorporated to improve the reliability of the automated
methods. However, some issues have to be addressed, such as
multiple information fusion, registration, management and
computational complexity.
