CT MIB o» ate 7 EEE 
A SIMULATION STUDY ON THE IMPROVEMENT OF AERIAL 
TRIANGULATION BY NAVIGATION DATA 
Peter Friess 
Stuttgart University 
Stuttgart, Federal Republic of Germany 
Abstract 
  
Directly observed camera orientation data are highly 
effective, if processed together with photogrammetric 
measurements by joint block adjustment. Extensive simul- 
ations have been performed for different accuracy levels 
of the navigation data and for different ground control 
assumptions. The design and the most interesting results 
of the simulations are presented and the far reaching 
conclusions are briefly discussed. 
1. Introduction 
  
In the last few years new high precision navigation 
techniques have been coming up fast. The utilization of 
navigation data for aerial triangulation will soon be 
possible. The high effectivity of directly measured 
camera orientation data as "auxiliary" data in aerial 
triangulation is well known. The improvement of the 
accuracy of photogrammetric blocks is considerable, if 
photogramemtric and additional data are processed 
together by joint block adjustment, as earlier studies 
/1/2/ with statoscope and APR-data have shown. 
With the Global Positioning System (GPS), an inertial 
navigation system or an integrated navigation system, 
which consists of an inertial navigation unit and a GPS 
satellite receiver, one will have the possibility to 
record the exterior orientation elements continuously 
during the photo flight mission. A simulation study /3/ 
has shown that aircraft positioning with GPS alone 
provides a real time accuracy in the coordinates of 5 - 
12 m and with an integrated navigation system position 
accuracy of 0,5 m could be attainable. 
This paper presents extensive simulations which have 
been carried out in order to get a general survey of 
attainable accuracies in aerial triangulation, if 
navigation data could be used as additional data in the 
joint block adjustment. It is assumed that camera 
orientation elements are derived more or less directly 
from navigation systems. The data are treated as obser- 
vations (for exterior orientation  (OEO) and are 
introduced in the bundle block adjustment via additional 
observation equations. The bundle program PAT-B was 
extended accordingly and has been used. . for all 
computations. 
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