Affiliation:
1. National Research Mordovia State University named after N.P. Ogarev
2. Yugra State University; National Research Mordovia State University named after N.P. Ogarev
3. Voronezh State University of Forestry and Technologies named after G.F. Morozov
Abstract
The paper considers the possibilities of using modern software products to solve the problems of computer (including geoinformation) design of public places in urban areas, first of all, the AutoCAD computer-aided design system. The identified features of program use, its advantages and disadvantages, strong features and problems are presented, proven ways to overcome the latter are indicated. Based on the analysis of the experience of several projects of designing public places in Saransk (the capital of the Republic of Mordovia), carried out by the authors on the basis of topographic surveys of different years accompished by employees of LLC "Geostroiziskaniya", LLC "Cadastral Center", LLC "RNITS", materials are presented that give an idea of the options for incorrect and correct topography and illustrate the most common disadvantages of topographic bases, main steps of their processing and creation of a two-dimensional and three-dimensional topographic basis are shown on the example of the object "Novotroitsky shopping and office center". A number of indirect problems is also identified, generally related to computer-aided design of public places in urban areas, including problems with the use of licensed software, and really proven ways to overcome them are shown. This allowed to develop and practically implement geoinformation technology for computer-aided design of public places in urban areas.
Publisher
Federal State Budgetary Institution - All-Russian Research Geological Oil Institute
Reference41 articles.
1. Artemeva O.V., Pozdnjakova N.A., Gnevashev F.A. Application of geoinformation mapping methods for urbanized territories using remote sensing data. Geoinformatika. 2022;3:4–14. https://DOI:.org/10.47148/1609-364X-2022-3-4-14.
2. Bol'shakov B.E., Kuznetsov O.L. Inzheneriya ustoichivogo razvitiya [Sustainable Development Engineering]. Moscow: RAEN; 2012. 507 p.
3. Gorobtsov S.R., Chernov A.V. 3D-modeling and visualization of urban territories with use of modern geodetic and programming means. Vestnik of the Siberian State University of Geosystems and Technologies. 2018;23(4):165–179.
4. Gura T.A., Utkina O.A. Using BIM technologies in construction and designing. Scientific Works of the Kuban State Technological University. 2018;(2):272–284.
5. Eremeev S.V., Egai M.V., Abakumov A.V. Geoinformation technology for road surface planning and accounting. Geoinformatika. 2022;(2):18-24. https://DOI:.org/10.47148/1609-364X-2022-2-18-24.