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Annals of Computer Science and Information Systems, Volume 21

Proceedings of the 2020 Federated Conference on Computer Science and Information Systems

Peculiarities of Modern Street Addressing System toward to Implementation of the Smart City Conception

DOI: http://dx.doi.org/10.15439/2020F68

Citation: Proceedings of the 2020 Federated Conference on Computer Science and Information Systems, M. Ganzha, L. Maciaszek, M. Paprzycki (eds). ACSIS, Vol. 21, pages 543552 ()

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Abstract. Implementation of Smart City conception is direction of developing many modern cities. Rapid urbanization leaded to constant increasing urban population. At the same time technological growth is cause of increasing of density and complexity of urban infrastructure. Street Addressing system is an essential component of city management, quality of citizens' life, and other spheres of city's economy. This paper considers peculiarities of Street Addressing system from human and technologies perspectives to be an essential part of the Smart Cities concept implementation.


  1. M.Finger, “Smart City – Hype and/or Reality?”, IGLUS Quarterly, vol. 4, issue 1, June 2018.
  2. C. Farvacque-Vitkovic, L. Godin, H. Leroux, F. Verdet, R. Chavez, “Street Addressing and the Management of Cities”, The World Bank, Washington DC, ISBN 0-8213-5815-4, 2005.
  3. S. Dharmavaram, C. Farvacque-Vitkovic, “Street addressing - a global trend”, 2017 world bank conference on land and poverty, The World Bank, Washington DC, 2017.
  4. D. Gakh, “Analysis of World-Class Location Based Services, Survey Report of Kabul City, and Assessment on the requirements of the Numbering and the Addressing Systems”, Ministry of Communications and Information Technology, Islamic Republic of Afghanistan, Kabul, 2014.
  5. D. Gakh, “Essentials of Street Addressing Programme for Kabul City”, Ministry of Communications and Information Technology, Islamic Republic of Afghanistan, Kabul, 2014.
  6. V. Albino, U. Berardi, R. Maria Dangelico, “Smart Cities: Definitions, Dimensions, Performance, and Initiatives”, Journal of Urban Technology, vol. 22, no. 1, 2015, pp. 3–21.
  7. F. Mosannenzadeh and D. Vettorato, “Defining Smart City. A Conceptual Framework Based on Keyword Analysis”, TeMA, May 2014.
  8. H. Kopackova and P. Libalova, "Smart city concept as socio-technical system", 2017 International Conference on Information and Digital Technologies (IDT), Zilina, 2017, pp. 198-205, http://dx.doi.org/10.1109/DT.2017.8024297.
  9. P. Simpson, "Smart cities: understanding the challenges and opportunities", SmartCitiesWorld in association with Philips, Jan 2018.
  10. V. Moustaka, A. Maitis, A. Vakali, L. Anthopoulos, "CityDNA Dynamics: A Model for Smart City Maturity and Performance Benchmarking", WWW '20: Companion Proc. of the Web Conf. 2020, pp. 829–833, http://dx.doi.org/10.1145/3366424.3386584.
  11. "Do street vendors have a right to the city ?", Centre for civil society, IGLUS, October 2019.
  12. J. Brad, "Examining the Role of the Construction Industry in Building Smart Cities", IGLUS, Apr 2020.
  13. Google Developers / Geocoding API / Get Started, https://developers.google.com/maps/documentation/geocoding/start, accessed in April, 2020.
  14. National Geographic, GIS (geographic information system), https://www.nationalgeographic.org/encyclopedia/geographic-information-system-gis, accessed in April, 2020.
  15. J. Willis, S. Dam, “The Forgotten “-ilities””, SPEC Innovations, 2011.
  16. D. Chappell, “The three aspects of software quality: functional, structural, and process”, David Chappell & Associates, 2011.
  17. P. Berander, L.-O. Damm, J. Eriksson, T. Gorschek, K. Henningsson, P. Jönsson, S. Kågström, D. Milicic, F. Mårtensson, K. Rönkkö, P. Tomaszewski, “Software quality attributes and trade-offs”, Blekinge Institute of Technology, 2005.
  18. S. Steiniger, M. Neun, A. Edwardes, "Foundations of Location Based Services", University of Zurich, 2011.
  19. A. Edwardes, “Geographical Perspectives on Location for Location Based Services”, LOCWEB '09, in Proc. of the 2nd International Workshop on Location and the Web, April 2009, article no.: 5 pp. 1–4, http://dx.doi.org/10.1145/1507136.1507141.
  20. V. Rwerekane, M. Ndashimye, "The MappGuru, a universal addressing system", SCA '18: Proc. of the 3rd International Conf. on Smart City Applications, October 2018, article no. 19, pp. 1–7, http://dx.doi.org/10.1145/3286606.3286796.
  21. S. Coetzee, A. Cooper, P. Piotrowski, M. Lind, M. Mccart Wells, E. Wells, N. Griffiths, M. Nicholson, R. Kumar, J. Lubenow, J. Lambert, C. Anderson, S. Yurman, R. Jones, "What address standards tell us about addresses", South African Journal of Science, 2007, 103 (11), pp. 449-458.
  22. “Nəqliyyat infrastrukturu obyektlərinə adlarin verilməsi, daşinmaz əmlak obyektlərİnə ünvan nömrələrinin təyini, ünvan lövhələrinin yerləşdirilməsi”, Azərbaycan Respublikası standartlaşdırma, metrologiya və patent üzrə dövlət komitəsi, AZS 749-2013, 2013.
  23. M. Tegmark, “An Open Letter: Research Priorities for Robust and Beneficial Artificial Intelligence”, https://futureoflife.org/ai-open-letter, accessed in April, 2020.
  24. D. Gakh, “A review of street addressing systems within the realization of conception of Smart City”, in Proc. Internet-Education-Science 2020, Vinnytsia, May 2020, pp. 96-98.