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the loan of the Megaplus 4.2 and DCS200 cameras by Kodak U.S.A.
REFERENCES
BEYER, H. A., 1987. Some aspects of the geometric calibration of CCD cameras. Proceedings, International Society for
Photogrammetry and Remote Sensing Intercommission Conference on the Fast Processing of Photogrammetric
. Data, Interlaken, Switzerland, pp 68-81.
BOSEMANN, W., GODDING, R., and RIECHMANN, W., 1990. Photogrammetric investigation of CCD cameras.
Proceedings. SPIE Vol. 1395 Close Range Photogrammetry Meets Machine Vision, Zurich, Switzerland, pp 119-
BROOKS, J.D. and BEAMISH, J.K., 1977. Measurement of model aeroelastic deformations in the wind tunnel at
transonic speeds using stereophotogrammetry. NASA Technical Paper TP-1010, 41 pages.
BROWN, D. C., 1971. Close range camera calibration. Photogrammetric Engineering, 37(8) : 855-866.
BURNER, A. W., SNOW, W. L. and GOAD, W. K., 1985. Close range photogrammetry with video cameras. Proceedings,
Technical Papers, 51st American Society of Photogrammetry Annual Meeting, Washington, U.S.A., pp 62-77.
BURNER, A. W., SNOW, W. L, GOAD, W. K. and CHILDERS, B. A., 1987. A digital video model deformation system.
Proceedings, International Congress on Instrumentation in Aerospace Simulation, Williamsburg, U.S.A., pp 210-
220.
CASE, J. B., 1961. The utilization of constraints in analytical photogrammetry. Photogrammetric Engineering, 27(5) :
766-778.
CHILDERS B. A., SNOW, W. L., JONES, S. B., FRANKE, J. M. and SHORTIS, M. R., 1994. Support of wake vortex
detection research in flight and wind tunnel testing using videometric techniques. Proceedings, International
Society for Photogrammetry and Remote Sensing Commission 5 Inter-Congress Symposium, Melbourne,
Australia, pp 41-46.
EARLS, C. J., 1983. Accuracy potential of a system for analytical close range photogrammetry. Photogrammetric
Record, 11(62) : 169-182.
FAIG, W., and SHIH, T. Y., 1988. Functional review of additional parameters. Proceedings, Technical Papers Volume
3, ACSM-ASPRS Annual Convention, St. Louis, U.S.A., pp 158-168.
FRASER, C. S., 1986. Microwave antenna measurement by photogrammetry. Photogrammetric Engineering and Remote
Sensing, 52 (10) : 1627-1635.
FRASER, C. S. and SHORTIS, M. R., 1992. Variation of distortion within the photographic field. Photogrammetric
Engineering and Remote Sensing, 58 (6) : 851-855.
FRASER, C.S. and SHORTIS, M. R., 1995. Metric exploitation of still video imagery. In press for Photogrammetric
Record, 15(85) : April 1995.
FRYER, J. G. and MASON, S. O., 1989. Rapid lens calibration of a video camera. Photogrammetric Engineering and
Remote Sensing, 55(4) : 437-442.
GUSTAFSON, P. C., 1988. The application of real-time and near real-time photogrammetry in industry : A test of
accuracy. Proceedings, Commission 5, 16th Congress of the International Society for Photogrammetry and
Remote Sensing, Kyoto, Japan, pp 198-205.
HENTSCHEL, M. J. and SHORTIS, M. R., 1991. Calibration of cameras under operational conditions. The Australian
Surveyor, 36(1) : 61-74.
LENZ, R., 1987. Lens distortion corrected CCD-camera calibration with co-planar calibration points for real-time 3D
measurements. Proceedings, International Society for Photogrammetry and Remote Sensing Intercommission
Conference on the Fast Processing of Photogrammetric Data, Interlaken, Switzerland, pp 60-67.
MERCHANT, D. C. and TUDHOPE, R. L., 1989. Aerial photo system calibration over flat terrain. Photogrammetric
Engineering and Remote Sensing, 55(12) : 1755-1763.
SHORTIS, M. R., 1988. Precision evaluations of digital imagery for close range photogrammetric applications.
Photogrammetric Engineering and Remote Sensing, 54 (10) : 1395-1401.
SHORTIS, M. R., 1989. Industrial photogrammetry at the NASA Langley Research Center. Proceedings, Symposium
on Surveillance and Monitoring Surveys, University of Melbourne, Australia, pp 218-231.
SHORTIS, M. R., BURNER, A. W., SNOW, W. L., and GOAD, W. K., 1991. Calibration tests of industrial and scientific
CCD cameras. Invited Paper (Paper 6, Volume 1), First Australian Photogrammetric Conference, Sydney,
Australia, 12 pages.
SHORTIS, M. R., CLARKE, T. A. and SHORT, T., 1994. A comparison of some techniques for the subpixel location of
discrete target images. Videometrics Ill, SPIE Vol. 2350, pp 239-250.
SHORTIS, M. R. and HALL, C. J. 1989. Network design methods for close range photogrammetry. Australian Journal
of Geodesy, Photogrammetry and Surveying
50 : 51-72.
SHORTIS, M. R., SNOW, W. L., CHILDERS, B. A. and GOAD, W. K., 1993. The influence of storage media on the
accuracy and repeatability of photogrammetric measurements using CCD cameras. Videometrics Il, SPIE Vol.
2067, pp 80-92.
SNOW, W. L., CHILDERS, B. A. and SHORTIS, M. R., 1993. The calibration of video cameras for quantitative
measurements. 39th International Instrumentation Symposium, Albuquerque, New Mexico, May 1993, 28 pages.
TRINDER, J. C., 1989. Precision of digital target location. Photogrammetric Engineering and Remote Sensing, 55 (6) :
883-886.
WILEY, A. G. and WONG, K. W., 1995. Geometric calibration of zoom lenses for computer vision metrology.
Photogrammetric Engineering and Remote Sensing, 61 (1) : 69-74.
IAPRS, Vol. 30, Part 5W1, ISPRS Intercommission Workshop "From Pixels to Sequences", Zurich, March 22-24 1995