ÌÀÐÕÈ
ËÈ×ÍÛÉ ÊÀÁÈÍÅÒ ÑÒÓÄÅÍÒÀ
ÏÐÎÅÊÒÍÛÅ ÃÐÓÏÏÛ III ÊÓÐÑÀ 2024/2025 ó÷. ã.
ÊÎÍÔÅÐÅÍÖÈÈ 2023-2024
Âûáîðû çàâåäóþùèõ êàôåäðàìè. Êîíêóðñ ÏÏÑ
2024 - ÃÎÄ ÑÅÌÜÈ
ÂÌÅÑÒÅ ÏÐÎÒÈÂ ÊÎÐÐÓÏÖÈÈ
ÔÀÊÓËÜÒÅÒ ÏÎÂÛØÅÍÈß ÊÂÀËÈÔÈÊÀÖÈÈ
ÍÀÖÈÎÍÀËÜÍÛÉ ÏÐÎÅÊÒ "Íàóêà è Óíèâåðñèòåòû"
ÑÒÀƨРÌèíîáðíàóêè Ðîññèè
ÇÀÙÈÒÀ ÏÐÀÂ ÍÅÑÎÂÅÐØÅÍÍÎËÅÒÍÈÕ Â ÑÅÒÈ ÈÍÒÅÐÍÅÒ


English version Russian version



INTERNATIONAL SCIENTIFIC AND EDUCATIONAL ONLINE JOURNAL 
ARCHITECTURE AND MODERN INFORMATION TECHNOLOGIES

2(55) 2021


ArticleEnvironmental adaptation: compensatory techniques for transforming habitat space
Authors N. Saprykina
Moscow Institute of Architecture (State Academy), Moscow, Russia
Abstract The article focuses on the problem of the use of compensatory techniques in the adaptation of the habitat space, based on objective methods, which have developed, both in the natural sciences and in information technology. The purpose of the article is to consider approaches to solving the problem of identifying concepts that use compensatory techniques to modify the habitat space. The theoretical platform, preconditions and tools for the formation of compensatory techniques based on analysis of theoretical research and design and experimental developments have defined. This allows us to consider the very different properties of the ecosystem in the process of its creation, operation and further development. As the result of the study, modern progressive compensatory techniques have identified and precedents for their application in the formation of the habitat space have presented. Research results could be a generator of new information, social and cultural innovations to develop alternative approaches to improving people's living conditions.
Keywords: compensatory techniques, environmental adaptation, reorientation, transformation, conversion, modification, habitat space
article Article (RUS)
References

  1. Ducev M.V. Koncepciya promezhutka v sovremennoj arxitekture. Privolzhskij nauchny`j zhurnal [The concept of a gap in modern architecture. Volga Scientific Journal]. N. Novgorod, 2010, no. 1, pp. 122–127. Available at: https://archinauka-2222.livejournal.com/1389.html
  2. Knyazeva E. N. Innovacionnaya slozhnost: metodologiya organizacii slozhnyx adaptivnyx i setevyx struktur. Filosofiya nauki i texniki [Innovative Complexity: Methodology for Organizing Complex Adaptive and Network Structures. Philosophy of Science and Technology]. 2015, vol. 20, no. 2, pp. 50–69.
  3. Kulyamin V.V. Komponentnaya arxitektura sredy` dlya testirovaniya na osnove modelej. PROGRAMMIROVANIE [Component architecture of the environment for model-based testing. Programming]. 2010, no. 5, pp. 54–75. Available at: https://www.ispras.ru/publications/komponentnaya_arkhitektura_sredy_dlya_testirovaniya_na_osnove_modeley.pdf
  4. Logvinov V.N. Ot «zelenogo stroitel`stva» k prirodo-integrirovannoj arxitekture. Princip regeneraciii [From green building to nature-integrated architecture. The principle of regeneration]. Part 1, (18.10.2016). Available at: https://ardexpert.ru/article/7604
  5. Tatarchenko A.V. Sredovoj podxod v arxitekture: ot teorii k realizacii. Sovremennye naukoemkie texnologii [Medium approach in architecture: from theory to implementation. Modern science-intensive technologies]. 2018, no. 9, pp. 115–119. Available at: http://top-technologies.ru/ru/article/view?id=37170
  6. Fundamentalnye aspekty kompensatorno-prisposobitelnyx processov: Materialy Devyatoj Vserossijskoj nauchno-prakticheskoj konferencii 22–24 sentyabrya 2020 g., g. Novosibirsk [Fundamental aspects of compensatory and adaptive processes: Materials of the Ninth All-Russian Scientific and Practical Conference September 22-24, 2020, Novosibirsk. Under ed. M.I. Vojvoda. Ministry of Science and Higher Education of the Russian Federation]. Novosibirsk, 2020, 160 p. DOI: 10.15372/FUNDAMENTAL2020VMI.
  7. Anthony K., Ming C. The Displacement or the Revolt of Abandoned Architecture (Hong Kong S.A.R). Available at: http://www.evolo.us/the-displacement-or-the-revolt-of-abandoned-architecture/#more-35010
  8. Ayala L., Navarro C. The dynamics of housing deprivation. Journal of Housing Economics. 2007, no. 16, pp. 72–97.
  9. Azevedo V.H., Xu C.L. The Boeing 737 Max Tower (USA) 2020. Available at: http://www.evolo.us/the-boeing-737-max-tower/#more-36665
  10. Chernikov B.V., Antonchikov S.N. Modeling of adaptive organization. Proceedings of 2017 10th International Conference Management of Large-Scale System Development (MLSD 2017). Danver, IEEE, 2017, pp. 1–4. DOI: 10.1109/MLSD.2017.8109605
  11. Dong J., Mou J., Han X., Liu X. Parallel Manhattan (China) 2017. Available at: http://www.evolo.us/parallel-manhattan/#more-35794
  12. Kalyanov G.N., Kuprianov B.V., Fiodorov I.G. The role of decomposition in organizational system modeling. CEUR Workshop Proceedings Volume 2064, 2017, pp. 380–387 2nd International Scientific Conference "Convergent Cognitive Information Technologies".
  13. Kasyanov N. Research on the Similarities of Morphogenesis in Architecture and Nature // Proceedings of the 2nd International Conference on Architecture: Heritage, Traditions and Innovations (AHTI 2020). Series: Advances in Social Science, Education and Humanities Research. Available at: https://doi.org/10.2991/assehr.k.200923.045
  14. Kee K.Y., Sue-Wern H. Transforming Abandoned Oil Rigs into Habitable Structures (Malaysia), 2011. Available at: http://www.evolo.us/author/admin/page/52/; https://www.trendhunter.com/trends/ku-yee-kee-and-hor-sue-wern
  15. Kim Y.W., Kwun S.H., Park J.Y., Park J.H. Oil Platforms Transformed into Sustainable Seascrapers, 2011. Available at: http://www.evolo.us/competition/oil-platforms-transformed-into-sustainable-seascrapers/
  16. Kizilova S.A. Form and functional features of modular floating structures. E3S Web of Conferences, 2019, vol. 91, pp. 05013 (1–7). DOI: 10.1051/e3sconf/20199105013
  17. Krasheninnikov I.A. Research Directions to Study Urban Tissue «Porosity». Architecture and Modern Information Technologies, 2017, no. 3(40), pp. 215–226. Available at: http://marhi.ru/eng/AMIT/2017/3kvart17/16_krasheninninkov/index.php
  18. Kukina I. The Architecture of the Conflicts. Proceedings of the 2nd International Conference on Architecture: Heritage, Traditions and Innovations (AHTI 2020). Series: Advances in Social Science, Education and Humanities Research. Available at: https://doi.org/10.2991/assehr.k.200923.066
  19. Liu T., Xie L. Vertical Factories in Megacities (USA), 2017. Available at: http://www.evolo.us/vertical-factories-in-megacities/#more-35759
  20. Nie Z.,  Shen C.,  Zheng J. Floating City: Cultivating The Gone Land (USA) 2020. Available at: http://www.evolo.us/floating-city-cultivating-the-gone-land/
  21. Pogorelov S., Kuratski S., Mikhalenko A., Neumiarzhytskaya A., Kiselev D. New City Grid Floating Above Existing Cities (Belarus), 2016. Available at: http://www.evolo.us/new-city-grid-floating-above-existing-cities/#more-35407
  22. Saprykina N.A. Innovative Tricks of Adaptations the Architectural Objects as Alternative Ecosystem. International science and technology conference "FarEastCon-2019" IOP Conf. Series: Materials Science and Engineering 753 (2020) 032003 IOP Publishing. DOI: 10.1088/1757-899X/753/3/032003
  23. Saprykina N.A., Saprykin I.A. Sustainable development of spatial habitat Environment as a challenge to civilization. IOP Conference Series: Materials Science and Engineering (MSE), 2018, vol. 463, pp. 1–6. DOI: 10.1088/1757-899X/463/2/022052
  24. Sun E., Wu J. New York Horizon (USA), 2016. Available at: http://www.evolo.us/new-york-horizon/#more-34989
  25. The governance of adaptation: choices, reasons, and effects. Introduction to the Special Feature. ECOLOGY AND SOCIETY September, 2016, 21(3):37 (210337). DOI: 10.5751/ES-08797-210337
  26. Tomozeiu D., Joss S. Adapting adaptation: the English eco-town initiative as governance process. Ecology and Society, 2014, no. 19 (2), p. 20. Available at: http://dx.doi.org/10.5751/ES-06411-190220
  27. Tourist infrastructure in the Chernobyl zone (Group of AA Architects) 2012. Available at: http://wiki.ru/sites/arkhitektura_i_stroitelstvo/id-news-397811.html
  28. Wang Z., Li X. Manhattan Ridge: Affordable Housing for Commuters (USA), 2018. Available at: http://www.evolo.us/manhattan-ridge-affordable-housing-for-commuters/#more-36183
  29. Yidong M., Zhonghui Z., Zhengyu Q., Zhe J. Noah Oasis Skyscraper transforms offshore oil rigs into vertical bio-habitats (China), 2015. Available at: https://www.evolo.us/noah-oasis-rig-to-vertical-bio-habitat/

For citation

Saprykina N. Environmental Adaptation: Compensatory Techniques for Transforming Habitat Space. Architecture and Modern Information Technologies, 2021, no. 2(55), pp. 17–36. Available at: https://marhi.ru/AMIT/2021/2kvart21/PDF/02_saprykina.pdf DOI: 10.24412/1998-4839-2021-2-17-36