Perspective Cylindrical Projections for Data Integration in a Geographic Information System

Perspective cylindrical projections in normal aspect are used all over the world. They are described in Russian and foreign literature and included in the list of cartographic projections of most GIS software. However, the oblique perspective cylindrical projections developed in our country in the 1920s are not supported by the most popular cartographic software. This makes it difficult to integrate data into GIS from numerous maps compiled in our country in these projections. To include oblique perspective cylindrical projections into a special library of cartographic projections used by many GIS software, and further use these projections in GIS, a complete description is given in this article. The geometry of the projections is shown. The existing formulas were collected and adapted for GIS and the missing ones were derived, programs for calculation were written in Python. Perspective cylindrical projections of the sphere are supplemented by a transition from the surface of an ellipsoid of revolution to a sphere, which allows using a small-scale map as part of a multiscale GIS as a basis for georeferencing maps of a larger scale. Examples of maps created in oblique perspective cylindrical projections and maps transformed to other projections are given.

1. Ginzburg G.A., Karpov N.S., Salmanova T.D. Matematicheskaya kartografiya v SSSR [Mathematical Сartography in the USSR]. Tr. TsNIIGAiK, vol. 99. Moscow: Geodezizdat Publ., 1955, part 1. 232 p.

2. Ginzburg G.A., Salmanova T.D. Atlas dlya vybora kartograficheskikh proektsii [Atlas for Selection of Map Projections]. Tr. TsNIIGAiK, vol. 110. Moscow: Geodezizdat Publ., 1957. 239 p.

3. Koshkarev A.V. Regular spatial grids for the information maintenance of mathematical-cartographic studies. In Symposium: Mathematical Processing of Cartographic Data (Tallinn, December 18-19, 1979). Summaries. Tallinn: Estonian Acad. Sci., 1979, pp. 23–25.

4. Koshkarev A.V., Ryakhovskii V.M., Serebryakov V.A. Distributed storage, search, and transformation infrastructure for spatial data. Otkrytoe Obrazovanie, 2010, vol. 5, pp. 61–72. (In Russ.).

5. Natsional’nyi atlas Arktiki [National Atlas of the Arctic Region]. Moscow: Roskartografiya Publ., 2017. 496 p.

6. Natsional’nyi atlas Rossii [National Atlas of Russia]. Mos-cow: Roskartografiya Publ., 2004–2008, 4 vols.

7. Nikiforova A.A., Fleis M.E., Borisov M.M. Thematic integration of spatial data on natural landscape elements in GIS. Izv. Akad. Nauk, Ser. Geogr., 2014, no. 1, pp. 85–93. (In Russ.).

8. Snyder J.P. Map Projections – A Working Manual. U.S. Geological Survey Prof. Paper 1395. Washington, D.C.: U.S. Government Print. Office, 1987. 383 p.

9. Snyder J.P., Voxland P.M. An Album of Map Projections. U.S. Geological Survey Prof. Paper 1453. Washington, D.C.: U.S. Government Print. Office, 1989. 249 p.

10. Sokolov S.Ya., Svyazeva O.A., Kubli V.A. Arealy derev’ev i kustarnikov SSSR [Areas of Trees and Shrubs of the USSR]. Leningrad: Nauka Publ., 1977, vol. 1. 164 p.

11. Solov’ev M.D. Matematicheskaya kartografiya [Mathematic Cartography]. Moscow: Nedra Publ., 1969. 288 p.

12. Tolkovyi slovar’ russkogo yazyka [Explanatory Dictionary of the Russian Language]. Ushakova D.N., Ed. Moscow: OGIZ, 1935, vol. 1.