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The International Archives of the Photogrammetry, Remote Sensing and Spatial Information Sciences. Vol. XXXVII. Part B5. Beijing 2008
Figure 8. Comparing Observed Value Graph
about 200 pictures, the weight is lessen than 3kg so that one
person can operate alone.
The third, geo information can be gained and processed easily
by Development of Positioning Information realized Digital
Close-Range Photogrammetric System so that financial damage
is can be decreased.
The forth, it can be used for developing cities as element data
by monitoring geo information systematically.
In the future, we will improve civil industry and other industries
by inventing high detail GPS receiver so that positional
accuracy could be lessen than 3cm.
4. CONCLUSIONS
In this research, the point of development of Positioning
Information realized Digital Close-Range Photogrammetric
System is to increase efficiency when renewing old result of
digital map for changed topography rapidly and when you need
real time information. And the results are :
The first, in comparison with Ordinary System surveying
results, latitude error is 19.383m, longitude error is 9.090m and
Altitude error is 8.413m. However development system has
shown that latitude error is 7.203m, longitude error is 4.544m
and altitude error is 5.735m.
The second, consumption of battery is one of the most
important things for photogrammetry, the old system can
observe about 30 pictures but development system can observe
REFERENCE
Gayde, J.C., Humbertclaude, C. and Lasseur, C., 1997,
Prospects of close range digital photogrammetry in large
physics installations, Accelerator Alignment Workshop, Geneva,
Switzerland.
K.B. Atkinson, 1996, Close Range Photogrammetry and
Machine Vision, Whittles Publishing, pp.52-150
Kraus, K. 199) Photogrammetry I, II, 4th edition, Ferd.
Dummlers Verlag, Germany.
Wolf, P.R. and B.A. Dewitt, 2000, Elements of
Photogrammetry with Application in GIS, 3 rd ed., MacGraw-
Hill, New York
