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ARCHITECTURE AND MODERN INFORMATION TECHNOLOGIES
INTERNATIONAL ELECTRONIC SCIENTIFIC - EDUCATIONAL JOURNAL ON SCIENTIFIC-TECHNOLOGICAL AND EDUCATIONAL-METHODICAL ASPECTS OF MODERN ARCHITECTURAL EDUCATION AND DESIGNING WITH THE USAGE OF VIDEO AND COMPUTER TECHNOLOGIES


Article SELECTION OF THE OPTIMAL MODEL OF TERRESTRIAL LASER SCANNER FOR THE ANALYSIS OF THE URBAN ENVIRONMENT
Authors A. Shamarina, Perm National Research Polytechnic University, Perm, Russia
Abstract The article is devoted to the selection of the optimum range of terrestrial laser scanners for the analysis of the urban environment. By one of the modern methods of analysis the urban environment is terrestrial laser scanning. The essence of terrestrial laser scanning is a high-speed measurement of the distance from the workstation to the points of the object and the registration of vertical and horizontal angles. This method of data collection is gaining popularity over the last 10 years. This article gives an overview of modern scanning systems manufacturers. The main technical parameters of scanners. Analyzed the application of terrestrial laser scanners for example, separate buildings and dense urban areas in three historic districts of Perm. Conclusions about the possibility of using terrestrial laser scanning for the analysis of the urban environment.
Keywords: terrestrial laser scanner, pulsed, phase-based, urban environment, 3D building model, method of architectural analysis
article Article (RUS)
References

  1. Shamarina A.A., Bolshakova N.F. On Conservation and Restoration of Cultural Heritage of Perm Krai. World Applied Sciences Journal, 2014. Available at: http://www.idosi.org/wasj/wasj31(9)14/15.pdf
  2. Khoroshilova Z.A. O vozmozhnosti postroyeniya matematicheskikh modeley inzhenernykh ob"yektov podannym lazernogo skanirovaniya [Mathematical modeling of engineering structures by laser scanning. Geodesy, geoinformatics, cartography, Mine Surveying: a collection of materials in 3 volumes of the International Scientific Conference. Vol. 3]. Novosibirsk, SSGA, 2013, pp. 116 119.
  3. Shamarina A. Documentation of Spaso-Preobrazhensky (Holy transfiguration) monastery. Architettura eremitica. Sistemi progettuali e paesaggi culturali. Atti del Quarto Covegno Internazionale di Studi La Verna 2022 Settembre 2013. Italy, Edifir-Edizioni Firenze, 2013, P. 557.
  4. Khasiyeva S.A. Arkhitektura gorodskoy sredy. Uchebnoye posobiye [The architecture of the urban environment. The Tutorial]. Moscow, 2001, 200 p.
  5. Staiger Rudolf. Terrestrial Laser Scanning – Technology, Systems and Applications. 2nd FIG Regional Conference Marrakech, Morocco, December 2-5, 2003.
  6. Blais F., Beraldin J.-A., El-Hakim S., Godin G. New developments in 3D laser scanners from: static to dynamic multimodal systems. Procs. 6th Conference on Optical 3-D Measurement Techniques. Zurich, Switzerland, 2003, pp. 244–251.
  7. Parrinello S., Bertocci S., Vital R. Integrated survey and laser scanner survey. MASADA NOTEBOOKS REPORT OF THE RESEARCH PROJECT 2013. Vol. 1, Edifir-Edizioni Firenze, 2013, pp. 76-115.
  8. Bertocci S., Parrinello S. 3D laser scanner application in documentation of heritage riks: some experiences, historical towns and monuments in Italy, Malta and Russia. 15th International conference on laser optics "LO-2012". St. Petersburg, Russia, P. 78.