reover,
he need
respect
method
imilar,
medical
(1988),
et al.
s, e.g.
these
et the
of the
ps not
devices
region
by the
as been
E
633
32
rived
device
al soft
bly and
as been
| system
ng what
gh with
ing and
The
ot been
squares
eptable
litates
atching
an be a
image
opriate
els of
can be
Low
ber of
vides a
à high
nue, to
overage
ust be
model
evice.
6. ACKNOWLEDGMENTS
The innumerable contributions of colleagues at the
University of Newcastle, including Mr M.H. Elfick,
Prof. J.G. Fryer and Dr H.T. Kniest cannot go
unthanked. Dr S. Robson of City University, London,
made extensive contributions to programming.
Financial support for the purchase of hardware was
provided by the University of Newcastle. ADAM
Technology of Perth, Western Australia, provided
valuable material assistance and travel support to
permit the writer to attend informative meetings and
conferences. Early work on this project was
facilitated by the writer's visit to the Department
of Photogrammetry at the Royal Institute of
Technology, Stockholm.
7. REFERENCES
Ackermann, F., 1984. Digital image correlation:
performance and potential application in
photogrammetry. Photogrammetric Record, 11(64):429-
439.
Adams, L.P., H. Rüther, & M. Klein, 1988. Development
of a PC-based near real Time Photogrammetry System
for Evaluating Regional Body Surface During
Breathing. Biostereometrics '88, 5th. International
Meeting, SPIE 1030:352-360.
Albertz, J. & W. Kreiling, (1989). Photogrammetric
Handbook. Herbert Wichmann, Karlsruhe: 292 pages.
Baj, E.A. & G. Bozzolato, 1986. On line restitution
in biostereometrics using one photogram and a metric
projector. In: International Archives of
Photogrammetry & Remote Sensing, 26(5):271-278.
Baumann, J.U. & RE. ‘Herron (eds), 1989.
Biostereometrics ’88, 5th. International Meeting,
SPIE 1030.
Deacon, A.T., A.G. Anthony, S.N. Bhatia, J-P. Muller,
1991. Evaluation of a CCD-based facial measurement
system. Medical Information, 16(2):213-228.
Dowideit, G.R., D.G. Newman, & C.M. Young, 1983. A
new automated approach to high-density facial
measurement. Part 1: the image capturing and
processing hardware. International Journal of
Bio-Medical Computing, 14:403-409
Fórstner, W. & E. Gülch, 1987. A fast operator for
detection and precise location of distinct points,
corners and centres of circular features. In:
Proceedings International Conference on Fast
Processing of Photogrammetric Data: 24pp.
Frobin, W. & E. Hierholzer, 1991. Video
rasterstereography: a method for on-line measurement
of body surfaces. Photogrammetric Engineering &
Remote Sensing, 57 (10): 1341-1345.
Pryer, J.G. & S.0. Mason, 1989. Rapid Lens
Calibration of a Video Camera. Photogrammetric
Engineering & Remote Sensing, 55(4):437-442.
Pryer, J.G. & Mitchell, H.L., 198% Radial
distortion and close-range stereophotogrammetry.
Australian Journal of Geodesy Photogrammetry &
Surveying, 46:123-138.
Fryer, J.G. & Parbery, 1992. Monitoring as-built
shapes. Submitted to: Australian Journal of Geodesy
Photogrammetry & Surveying: 10 pages.
Grin, A. & E. Baltsavias, 1988. Automatic 3-D
measurement of human faces with CCD-cameras.
Biostereometrics ‘88, 5th. International Meeting,
SPIE 1030:106-116.
Hannah, M.J., 1989. A system for digital stereo
image matching. Photogrammetric Engineering & Remote
Sensing, 55(12):1765-1770.
Heipke, C., 1990. An integral approach to digital
image matching and object surface reconstruction.
Optical 3D Measurement Techniques, Herbert Wichmann,
Karlsruhe: 347-359.
Heipke, C., 1992. A global approach for least-squares
image matching and surface reconstruction in object
space. Photogrammetric Engineering & Remote Sensing,
58(3):317-323.
Li, M., 1991. Hierarchical multi-point matching with
simultaneous detection and location of breaklines.
Photogrammetric Report, No. 55, Department of
Photogrammetry, Royal Institute of Technology,
Stockholm: 184 pages.
Mesqui, F., F. Kaeser, & P. Fischer, 1986. On-line
three-dimensional light spot tracker and its
application to clinical dentistry. In: International
Archives of Photogrammetry & Remote Sensing,
26(5):310-317.
Neugebauer, H. & G. Windischbauer (eds.), 1990.
Surface Topography and Body Deformity. Gustav Fischer
Verlag, Stuttgart.
Newman, D.G., G.R. Dowideit, & C.M. Young, 1982. High
density facial measurement: a new automated approach.
International Journal of Bio-Medical Computing,
13:175-187.
Ng K.C. and B. Alexander, 1991. 3D shape measurement
by active triangulation and structured lighting.
Proc. 1st. Australian Photogrammetric Conference,
Sydney: paper 33.
Pilgrim, L.J., 1991. Simultaneous three dimensional
object matching and surface difference detection in
a minimally restrained environment. Research Report
066.08.1991, Dept. Civil Engineering and Surveying,
University of Newcastle, Australia: 215 pages.
Rather, H., 1989. Near-Real-Time Photogrammetry in
a Personal Computer - PHOENICS. Proc. Conference,
Southern African Surveyors, Paper 3-2.
Ruther, a, & R. Wildschek, 1989. Digital
photogrammetry for the acquisition of surface data
for automatic milling processes. Optical 3D
Measurement Techniques, Herbert Wichmann, Karlsruhe:
347-359.
Trinder, J.C., T. Tjugiarto & B.E. Donnelly, 1990b.
A close-range digital photogrammetric system. Close-
Range Photogrammetry meets Machine Vision, (Grün &
Baltsavias, eds.) Proc. SPIE Vol. 1395: 28(5/1):440-
447.
Turner-Smith, À. R., 1988. A television/computer
three-dimensional surface shape measurement system.
Journal of Biomechanics 21(6):515-529.
Weisensee, M. & B.P. Wrobel, 1991. State-of-the-art
of digital image matching for object reconstruction.
Digital Photogrammetric Systems (Ebner, Fritsch &
Heipke, eds.), Herbert Wichmann, Karlsruhe:135-151.
Wrobel, B., 1991. Least-squares methods for surface
reconstruction from images. ISPRS Journal of
Photogrammetry and Remote Sensing, 46:67-84.