ÌÀÐÕÈ
ËÈ×ÍÛÉ ÊÀÁÈÍÅÒ ÑÒÓÄÅÍÒÀ
ÏÐÎÅÊÒÍÛÅ ÃÐÓÏÏÛ III ÊÓÐÑÀ 2024/2025 ó÷. ã.
ÊÎÍÔÅÐÅÍÖÈÈ 2023-2024
Âûáîðû çàâåäóþùèõ êàôåäðàìè. Êîíêóðñ ÏÏÑ
ÔÀÊÓËÜÒÅÒ ÏÎÂÛØÅÍÈß ÊÂÀËÈÔÈÊÀÖÈÈ
Ïîäãîòîâèòåëüíûå êóðñû
ÂÌÅÑÒÅ ÏÐÎÒÈÂ ÊÎÐÐÓÏÖÈÈ
2024 - ÃÎÄ ÑÅÌÜÈ
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

4(45) 2018


Article Inventive practices as an important component of the Forecasting of architectural objects
Authors

N. Saprykina, Moscow Institute of Architecture (State Academy), Moscow, Russia

Abstract The article is devoted to an actual problem of architectural objects in the context of the study of inventive practices as an important component of project forecasting. Particular emphasis is concentrates on modern patent practice as information for future developments in solving creative problems in project forecasting. The purpose of the article is to promote the use of patent information, necessary for the objective evaluation of world - class scientific and technical solutions in architectural practice. It is noted that the techniques of project forecasting modeling of architectural object using information technologies are almost unlimited and act at all stages of its creation. Found that when solving creative problems when creating architectural objects used information technologies of design that allow you to anticipate increasing their penetration into real life. The results obtained can be useful for the theory and practice of formation of architectural objects, opening up completely new possibilities in architecture.
Keywords: inventive practices, Forecasting, copyright, architectural thinking, simulation, virtual reality
article Article (RUS)
References

  1. Avramchenko O. Osobennosti proektnogo myshleniya i tvorcheskoj deyatel'nosti v arhitekture i dizajne [Features of design thinking and creativity in architecture and design]. Available at: http://www.taby27.ru/studentam_aspirantam/aspirant/filosofiya-nauki.-arxitekture-dizajnu-dpi/osobennosti-proektnogo-myshleniya.html
  2. Volynskov V.E. Informacionno-tekhnologicheskie metody proektirovaniya v arhitekturnom formoobrazovanii [Information technology in architectural design shaping (Cand. Dis. Thesis)]. Moscow, 2012.
  3. Goldin Ya.S., Bobrov Yu.L. Stroitelyu ob izobretatel'stve i racionalizacii [The Builder about the invention and rationalization]. Moscow, Strojizdat, 1989, 17 p.
  4. Kiber-organizm s virtual'noj dushoj [Cyber-organism with a virtual soul]. Available at:  http://trendclub.ru/7467
  5. Kulikov D.A. Principy organizacii resursosberegayushchego arhitekturnogo prostranstva [Principles of the conservation of architectural space (Cand. Dis. Thesis)]. Nizhnij Novgorod, 2011.
  6. Lyukshin A. M. Obekty avtorskogo prava na proizvedeniya arhitektury [Objects of copyright in works of architecture]. Available at: http://ppt.ru/news/25588
  7. Nichkasov A., Adamenko G., Gorbachev N. Vnedrenie sovremennyh tekhnologij v proektirovanie [Introduction of modern technologies in design]. Available at: http://ais.by/story/415
  8. O'Konnor Dzh., Makdermott Ian. Iskusstvo sistemnogo myshleniya: Neobhodimye znaniya o sistemah i tvorcheskom podhode k resheniyu problem [The art of systems thinking: essential knowledge about systems and creative approach to problem-solving]. Moscow, 2006, 256 p.
  9. Osnovnye ponyatiya imitacionnogo modelirovaniya [Basic concepts of simulations modeling]. Available at: http://www.mlmcom.ru/imitac_ststi/osnovnye_ponyatiya/index.html
  10. Saprykina N.A. Osnovy dinamicheskogo formoobrazovaniya v arhitekture [The basics of dynamic morphology in architecture]. Moscow, 2018, 372 p.
  11. Saprykina N.A. Proektnoe prognozirovanie v arhitekture kak metod modelirovaniya i formirovaniya prostranstvennoj sredy obitaniya [Project forecasting in architecture as a method of modeling and forming spatial habitat Environment. Proceedings of the International scientific-practical conference of the faculty, students and young scientists]. Moscow, MARHI, 2013, pp. 225-260.
  12. Saprykina N.A., Saprykin I.A. "Paperless" architecture in the context of virtual reality. Architecture and Modern Information Technologies. – 2012. Available at:  http://www.marhi.ru/eng/AMIT/2012/special_12/saprykina/abstract.php
  13. Talapov V.V. Informacionnaya model' zdaniya (BIM): osnovnye zakazchiki i pol'zovateli [Building information model (BIM): major customers and users]. Available at: http://www.a3d.ru/architecture/stat/265
  14. Teoreticheskie i metodologicheskie osnovy social'nogo prognozirovaniya [Theoretical and methodological bases of social forecasting]. Available at: http://kurs.ido.tpu.ru/courses/prediction_designing_sw/tema2.html
  15. Fathutdinov P.A. Razrabotka upravlencheskogo resheniya [Development of management solutions]. Available at: http://www.bibliotekar.ru/upravlenie-3/index.htm
  16. Hajman E. Skript v Arhitekture. Arhitektor kak Rezhisser-Programmist [Script in architecture. The architect as a Programmer]. Available at: http://www.archmag.ru/archives/2008/02/03/324
  17. @rchi-USTOJCHIVOST' – Special'nyj vypusk ¹ 1, posvyashchennyj 24 Kongressu UIA 2011 v Tokio [@rchi-SUSTAINABILITY - a special edition No. 1, dedicated 24 Congress UIA Tokyo 2011]. Available at:  www.rsabc.ru www.rsabc.livejournal.com

For citation

Saprykina N. Inventive Practices as an Important Component of the Forecasting of Architectural Objects. Architecture and Modern Information Technologies, 2018, no. 4(45), pp. 225-236. Available at: http://marhi.ru/eng/AMIT/2018/4kvart18/16_saprykina/index.php