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In 1993 the Leica RC30 aerial camera system has been 
further enhanced by a new generation of lens cones of 
which the 15/4 UAG-S offers an exceptionally high 
resolution of approximately 120 Lp/mm (AWAR). 
In 1995 the PAV30 gyro-stabilised camera mount was 
introduced for angular motion compensation (AMC). 
Features like FMC, AMC, pin-point photography through 
GPS controlled flight management and the high resolution 
lens cone have made the Leica RC30 aerial camera system 
a most cost effective tool. 
Industrial measuring systems 
One decade after first introducing photogrammetric and 
geodetic 3D measuring techniques into the industrial 
environment, the systems from Leica are well established 
on the shop floors of a variety of industries. The main 
benefits are: 
* measurement without physical contact 
* mobile systems, measurements where best suitable 
* objects to be measured can remain in position. 
* objects to be measured can be sensitive, large or delicate 
* minimal interference to the manufacturing process. 
* replace expensive, time- and space- consuming physical 
gauges 
* improve manufacturing accuracy and quality standards 
* reduce time requirements up to 8096 
Within the reporting period the following systems have been 
further developed: 
* Industrial theodolite measuring systems 
* Laser Tracker system 
* Industrial software platform Axyz 
The  V-STARS digital photogrammetric — industrial- 
measuring system uses Kodak still video cameras to survey 
the object. The processing of the digital images is largely 
automatic, with the support of high-performance digital 
image processing programs. If certain points of the object 
have to be determined the targetless method with a cable- 
free probe can be applied. V-STARS systems are now in 
use in aeronautics, aerospace, automotive industries, in 
shipbuilding and in nuclear installations 
4. RESEARCH AND EDUCATION 
Research and development in Switzerland in the academic 
area is primarily conducted at the Departement of Geodetic 
Sciences, ETH Zurich and the Departement de Genie 
Rurale, EPF Lausanne. There are however a number of 
other institutions which are selectively active in either 
satellite remote sensing, image analysis, computer vision, 
machine vision, robot vision and related areas. Among 
those are 
- Institute of Geography, University of Zurich 
- Institute of Geography, University of Bern 
- Institute of Geography, University of Fribourg 
- Institute of Geography, University of Basel 
- Institute of Communication Technology, ETH Zurich 
- Institute of Electronics, ETH Zurich 
- Multi-Media Laboratory, University of Zurich 
79 
International Archives of Photogrammetry and Remote Sensing. Vol. XXXI, Part B6. Vienna 1996 
    
   
    
     
   
   
   
    
   
  
    
   
    
     
   
    
    
    
    
   
    
    
   
   
    
    
    
   
   
   
    
    
   
   
   
   
   
   
    
     
     
   
   
    
     
    
    
     
   
   
   
  
- Institute of Applied Physics, University of Bern 
Institute of Computer Science and Applied Mathematics, 
University of Bern 
- Center of Computer Science, University of Genéve 
- Institute of Microtechnology, University of Neuchatel 
- Institute of Mathematics and Computer Science, 
University of Neuchatel 
In 1994 the group Inter-University Partnership in Earth 
Observation and Geoinformatics“ has been founded, which 
consists of several Institutes and individuals from the 
University of Zurich and ETH Zurich. The common aims of 
the group are to support and coordinate research and 
teaching activities in the areas of remote sensing and 
geoinformation systems. The current membership includes 
professors/scientists from 
University of Zurich 
* Institute of Geography 
* Institute of Computer Science 
ETH Zurich 
* Institute of Geodesy and Photogrammetry 
* Institute of Cartography 
e Institute of Scientific Computing 
* Institute of Communication Technology 
e Institute of Information Systems 
* Institute of Theoretical Computer Science 
In November 1994 there was a first successful workshop of 
all members at Monte Verita, Ascona. The following 
research projécts were presented and discussed at this 
occasion: 
* Prof. K. Brassel, Prof. R. Weibel, Institute of Geography, 
University of Zurich 
- Modelling and visualization of topographic data 
- Generalization of spatial data; use of expert systems, 
artificial intelligence, neural networks 
* Prof. A. Carosio, Institute of Geodesy and Photogram- 
metry, ETH Zurich 
- Development of a software system for automatic pattern 
recognition in topographic maps of small scale (1:25000 
and smaller), based on template matching 
- 3-D Geographic Information Systems 
Modelling and Visualization of 3-D GIS data, based on 
topographic maps (raster data). 
- Database Management System for cartographic raster 
images 
- Query Language for geometry in raster-based GIS 
- International standardisation of geographic information 
exchange 
- Data transfer between GIS 
Prof. A. Gruen, Inst. of Geodesy and Photogrammetry, 
ETH Zurich 
- Automatic DTM Generation from digital images. 
The algorithm is based on multiphoto geometrically 
constrained matching, using strict geometric sensor 
models for aerial images and very good approximations 
for SPOT, TM, J-ERS OPS and MOMS-02 satellite 
images. 
Project ,AMOBE*“ 
In this interdisciplinary project, the expertise of the IGP in 
Digital Photogrammetry and that of the IKT 
(Communications Technology Lab, Prof. O. Kuebler) in 
Computer Vision/Image Understanding is being 
combined to develop novel, reliable and geometrically 
precise image analysis methods towards the semi- 
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