photogrammetry of that period was linked with making 
1:5000 and 1:2000 scale photomaps of several 
residential areas and irrigation basins of water dams. 
Aerial stereophotogrammetry was introduced for making 
the Large-scale topographic map of the country (1:5000 
and 1:10 000) in the end of 1954 when a C-8 Zeiss 
Stereoplanigraph was imported. During the next couple 
of years deliveries were effected of Zeiss C-5 
stereoplanigraphs, Drobishev (Russia) stereometers, 
Zeiss stereometrographs and other photogrammetric 
apparatus. 
3. PRESENT STATE 
Nowadays numerous companies and offices in Bulgaria 
are developing and using photogrammetry in various 
fields of human endeavor in the country and abroad. 
Presently we have at our disposal the necessary number 
and types of photogrammetric apparatus and systems as 
well as qualified specialists capable of coping with any 
type and volume of tasks in the field of photogrammetry. 
3.1. Production Enterprises 
Intensive photogrammetric production is carried out by 
. Geoplanproekt Co. for Surveying and Mapping, Geodesia 
Co. for Surveying and Mapping (city of Plovdiv) and 
National Centre of Cadastre Ltd., belonging to the 
system of the Main Department of Cadastre and 
Geodesy. 
Besides, photogrammetry is applied also by Patproekt 
Ltd., a road designing enterprise; Transproekt Ltd., an 
enterprise for design of railways and other transport 
projects; Agrolesproekt, an enterprise for research and 
design of forestry and land management; Niproruda, a 
national research and design enterprise for mining 
projects; the National Institute for Monuments of Culture, 
and elsewhere. 
3.2. Education and Research 
Training in photogrammetry is the concern mainly of the 
Faculty of Geodesy at the University of Civil Engineering, 
Architecture and Geodesy in Sofia, as well as of the 
respective chairs at the Mining and Geology University 
and the Forest University, both in Sofia. Photogrammetry 
is also taught in other six technical high schools in the 
country. 
Research is carried out by the Research in Geodesy and 
Photogrammetry Ltd. at the Main Department of 
Cadastre and Geodesy as well as by the respective 
chairs of the above mentioned technical universities and 
by some other research and design institutes. Particular 
attention is being paid to automated data processing 
systems, aerial triangulation, orthophotoscopy, remote 
sensing methods for Earth study and to architectural 
photogrammetry. 
The 1930 photogrammetry textbook has long been 
replaced by other textbooks, instructions, manuals and 
technologies while the number of theoretical and applied 
8 
International Archives of Photogrammetry and Remote Sensing. Vol. XXXI, Part B6. Vienna 1996 
   
publications on photogrammetry in year 
collections and magazines exceeds 1000. 
books, 
3.3. Public Activity 
Public activity of Bulgarian photogrammetrists is 
organized by the Scientific and Technical Section of 
Photogrammetry and Remote Sensing at the Union of 
Surveyors and Land Managers in Bulgaria, through 
which they are affiliated to the International Society for 
Photogrammetry and Remote Sensing. The section 
annually organizes conferences, symposia and 
consultations, some of them with international 
participation. 
4. PRODUCTION 
4.1. Aerial Photography 
Various parts of the country's territory are periodically 
covered by aerial photographs at scales ranging from 
1:40 000 to 1:3000, used for a variety of purposes. The 
instruments applied are mainly wide-angle and normal- 
angle aerial cameras (of focal lengths respectively 15 
and 30 cm and 23x23 cm format), made by Zeiss and 
Wild. Aerial photos are taken by specially equipped AN- 
30 (Russia) and L-410 (Czech) aircraft. Agfa-Gevaert 
and Kodak aerial films and diapositives are used. 
Photolaboratory equipment used is Zeiss, Pentacon, etc. 
Pictures taken of the territory of the country by satelites 
are used for economic purposes as complex space 
information. 
4.2. Topographic Mapping 
Principal photogrammetric activity in Bulgaria consists of 
making and revision of topographic maps at 1:25 000, 
1:10 000, 1:5000 and 1:2000 scales with contour interval 
ranging from 10 m to 1 m; urban maps and such of out- 
of-town and industrial zones at 1:1000 and 1:500 scales 
with 1 m contour interval, as well as maps serving the 
special needs of study and design at scales from 1:10 
000 to 1:500 and orthophoto maps at 1:10 000, 1:5000 
and 1:2000 scales to serve as a basis for rural cadastre. 
The 1:25 000 scale map is revised on the basis of aerial 
photographs at scales ranging from 1:25 000 to 1:40 000. 
The 1:10 000, 1:5000 and 1:2000 scales maps are made 
and revised on the basis of aerial photographs at 
respective scales from 1:16 000 to 1:30 000 from 1:12 
000 to 1:18 000 and from 1:6000 to 1:8000. Making and 
revision of urban maps at scales of 1:1000 and 1:500 is 
effected from aerial pictures at scales from 1:6000 to 
1:3000. Orthophotomaps at scales of 1:5000 and 1:10 
000 are made of aerial pictures at respective scales of 
1:16 000 and 1:30 000 to serve as a basis for rural 
cadastre. 
4.3. Special Mapping 
Maps at scales ranging from 1:500 to 1:10 000 are made 
to meet the special needs of investigation and design of 
  
  
    
   
   
   
    
    
  
      
   
   
  
  
     
  
   
   
  
  
    
  
   
     
   
  
   
   
    
      
    
    
     
   
  
     
  
    
     
  
   
   
    
     
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