The article deals with the analysis of population density with the help of geo information programs, the process of visualization of the integration of statistical and geographical data, the structure of the technological sequence. One of the methods for describing the relative productivity of land data is considered. Geo information systems can support the decision-making process in the design and selection phase with limited capabilities, and these systems provide a very static modeling environment. This limits their scope as a decision support tool, especially at stages where collaborative problem solving decisions are required.
The article deals with the analysis of population density with the help of geo information programs, the process of visualization of the integration of statistical and geographical data, the structure of the technological sequence. One of the methods for describing the relative productivity of land data is considered. Geo information systems can support the decision-making process in the design and selection phase with limited capabilities, and these systems provide a very static modeling environment. This limits their scope as a decision support tool, especially at stages where collaborative problem solving decisions are required.
№ | Муаллифнинг исми | Лавозими | Ташкилот номи |
---|---|---|---|
1 | Gulyamova L.. | teacher | UzMU |
2 | Shafkarova M.S. | teacher | UzMU |
3 | Rakhmonov D.N. | teacher | UzMU |
№ | Ҳавола номи |
---|---|
1 | E. Pebesma., B. Roger. “Classes and methods for spatial data”, 2018. |
2 | H.J. Robert. “Geosphere: spherical trigonometry”, 2017 |
3 | B. Roger., T. Keitt., B. Rowlingson. “Bindings for the geospatial data abstraction library”, 2018 |
4 | B. Roger., C. Rundel. “Rgeos: interface to geometry engine - open source”, 2017. |
5 | B. Roger. “Classint: choose univariate class intervals”, 2017. |
6 | E. Neuwirth. “Colorbrewer: colorbrewer palettes”, 2014. |
7 | B. Cynthia., W.H. Geoffrey., M.A. Harrower. “ColorBrewer in Print: A Catalog of Color Schemes for Maps. “Cartography and geographic information science”, 2003. |
8 | S.D. Michae. “Graticule: meridional and parallel lines for maps”, 2016. |
9 | E. Pebesma. “Simple features”, 2018. |
10 | R.Lovelace., J. Nowosad., J. Muenchow. “Geocomputation with R.”, 2018 |
11 | B.Roger., J. Nowosad., R.Lovelace. “Data: datasets for spatial analysis”, 2018. |
12 | E.Y Safarov., S.N. Abdurahmonov., M.M. Bozorov., H.A Abdurahimov. Geographical information systems. “Teaching methods manual”, 2010. 43 |
13 | L.H Gulyamova. “Textbook on geoinformation systems and technologies”, 2008 |
14 | E.Y. Safarov., I.M. Musaev., H.A. Abdurahimov. “Textbook on geoinformation systems and technologies”, 2012 |
15 | M. Abduvaliyeva. Innovative technologies in the field of geodesy and cartography. “International earth day-collection of articles”, 2019. 384 |
16 | Sh. Avchiyev. Applied geodesy. “Textbook publishing house”, 2007. 360 |
17 | O.B. Mukhtorov., A.N. Inamov., J.O. Lapasov. “Textbook on geoinformation systems and technologies”, 2017. 214 |
18 | M.J. Smith., J.K. Hillier., J.C. Otto., M. Geilhausen. “Geo visualization. in: treatise on geomorphology”, 2013. 299. |
19 | M.J. Smith., D.M. McClung. Avalanche frequency and terrain characteristics at Rogers’ pass, British Columbia, Canada. “Journal of glaciology”, 1997. 165. |
20 | S. Benetti., P. Dunlop., C.O. Cofaigh. Glacial and glacially-related features on the continental margin of northwest Ireland mapped from marine geophysical data. “Journal of maps”, 2010. 14. |
21 | J. Rose., M.J. Smith. Glacial geomorphological maps of the Glasgow region, western central Scotland. “Journal of maps”, 2008. 399. |