![]() The work opens further research in various directions, identifying some pilot areas which test new managerial models, foreseeing simulation of management impacts both on business profitability and landscape configuration. The integration in Territorial Information System (S.I.T.) of historical information from Gregoriano Cadastre, of socio-economic analyses concerning business changes and in parallel the study of the transformations of territorial framework, showed to be a very important instrument for the area planning, allowing to identify specific planning approaches not only for urban settlement but also for restoration of variety and complexity of agricultural landscape. It was also possible to create a three-dimensional model of the historical landscapes which permits to visualize the cultural diversification of that historical period. The combination of the database with the digitalized maps has allowed to create an univocal relation between each parcel and the related historical data, obtaining an information system which integrally and completely evidences the original cadastre data as a final result. With the creation of a database, it has been possible to add to the maps the information gathered from the property registers concerning crop production and socioeconomic variables, in order to set up a Geographical Information System (G.I.S.). The cartographical working-out for our historical analysis has been conduct drawing up maps originating from the nineteenth century Gregoriano Cadastre (Catasto Gregoriano) maps preserved in the State Archive of Rome, which have been reproduced in digital format, georeferenced and vectorialized. Our analysis covered specifically an area located along the "internal Marche ridge" of the Apennines, in the province of Ancona (Marche Region, Italy). Gregoriano cadastre (1818-35) from old maps to a GIS of historical landscape dataįrazzica, V. Using this feature, the product is published as a DVD series by old counties as well as the distribution in the Internet. With the above given projection and datum parameters, the cadastral mosaic, based on the individual sheets and the digitized borders of the administrative units, is presented in any modern coordinate systems in GIS. The sheets were rectified by the calculated coordinates at the corner points. The Cassini projection can be used for GIS integration with a projection center at the Gellérthegy with longitude=19d 3m 5.55s east of Greenwich latitude=49d 29m 15.97s. ![]() The fundamental point of the geodetic datum was the eastern pillar of the later destroyed astronomical observatory on the Gellérthegy, Budapest and the abridging Molodensky parameters from this datum to WGS84 are: dX=+1763 m dY=+282 m dZ=+568 m. The base ellipsoid was the Zach-Oriani hybrid (a=6376130 m f=1/310). scanned over 46,000 cadastral sheets of the Provisional Cadastre, mostly covering the present-day Hungary but also some copies covering parts of the present-day Croatia, Slovakia and Austria. By the commission of the State Archives of Hungary, the Hungarian company Arcanum Ltd. Interestingly enough, this cadastral mapping, which was called in Hungary as 'Provisional' was surveyed simultaneously with the Stable Cadastre in the Austrian regions of the Empire. In the historical Hungary, as a part of the Habsburg Empire, the first preserved and systematic cadastral survey was carried out between 18. Georeferencing the historical cadastral map sheets of Hungary
0 Comments
Leave a Reply. |