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Figure 5 HIERARCHICAL . DESIGNED  georeferencing 
(including Individual object, Component and Complex): 
REGION based procedures. Examination of case studies typical 
of the lists of objects and flexible adaptation of the structuring 
procedures to their characteristics (complex objects without 
elucidation of their component objects, component objects 
without the complex object, adjacent components, complex 
objects with relative component objects, individual objects). 
*implementation in photogrammetric software of new formats 
in 3D laser models no longer based on finite elements, but on 
different families of surfaces for processing with 3D 
ORTHOPHOTOGRAPHS of architectonic elements (vaults and 
continuous mosaic surfaces, floors, elevations and facades, at 
different scales, from the architectonic to the urban). 
1.3 Archeological sites and complexs 
*Experimentation and use of MIVIS images integrated with 
high resolution satellite images (Quick Bird) for identification 
of submerged archaeological structures; 
*development of survey methodologies deriving from 
unconventional aerial shots (use of helium balloons or kites for 
preparing maps with a nominal scale of 1:5000 to values of 
1:50, 1:20). 
1.4 Setting up and proposing Web Gis for on line 
consultation of risk maps: nearing remote integration 
(Superintendentship, cadastre, regions). 
*To realize GIS constructed on different file card outlines for all 
the fields of research mentioned above; 
*development of an ‘on line’ access project from remote 
locations to different archives connected to the Risk Map and 
the different types of geographic data. 
Generally speaking, we believe that the results envisaged can 
validly contribute: 
*to support drafting risk maps and analytical risk processes 
done by experts in the different disciplines and sectors involved; 
*to use a GIS to monitor objects in order to head off emergency 
situations and to provide effective preventative measures; 
*to use survey technologies to contribute to a more in-depth 
interpretation of the cultural objects as part of a logic aimed at 
scheduling routine maintenance instead of special interventions; 
“to support changes and transformations with a view to 
sustainability of the interventions and active protection of the 
Cultural heritage. 
L5 Investigation of specific issues of environmental 
risk (subsidence and 3D territorial data) 
*Experimentation and application of the GPS technique for 
  
monitoring cultural objects in areas subject to subsidence and 
implementation with other themes and environmental hazard 
indices. 
  
  
  
  
  
  
  
  
  
  
  
  
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Figura 7 Tables with closed fields to guide the choice of users. 
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Figura 8 Definition of digitalization operations and 
georeferencing and editing the tables. Verification of the 
procedures and information. Prescriptions, accuracy, and 
outlining in the digitalization phase. Automatic generalisation to 
progressively smaller scales (from 1:2000 to 1:10000, from 
1:10000 to 1:25000,....). 
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