The architecture of "smart factories" Authors Alena Dmitrieva MArchI Downloads PDF (Русский) DOI: https://doi.org/10.51461/projectbaikal.65.1690 Keywords: smart factory, contemporary industrial architecture, sustainable architecture, humanization of the production environment, functional diversification Abstract The article considers the need to develop a fundamentally new concept of industrial architecture – "smart factory". The factors that influence the architectural solutions of contemporary enterprises are listed. The principles of forming the architecture of "smart factories" are formulated and unveiled. Examples of production facilities that meet these principles are given. The conclusion about the positive impact of these principles on the architecture of high-tech industrial facilities is made. How to Cite Dmitrieva, A. (2021). The architecture of "smart factories". Project Baikal, 17(65), 132–139. https://doi.org/10.51461/projectbaikal.65.1690 More Citation Formats ACM ACS APA ABNT Chicago Harvard IEEE MLA Turabian Vancouver Download Citation Endnote/Zotero/Mendeley (RIS) BibTeX Published 2021-01-05 Issue No. 65 (2020): province Section refereed articles License This work is licensed under a Creative Commons Attribution 4.0 International License. References Allen, TH. J., & Henn, G. W. (2006). The Organization and Architecture of Innovation: Managing the Flow of Technology. Oxford (UK): Butterworth – Heinemann. Burke R., Mussomeli, A., Laaper, St., Hartigan, M., & Sniderman, Br. (2017). The smart factory: Responsive, adaptive, connected manufacturing. New York: Deloitte University Press. Retrieved May 06, 2020 from https://docplayer.net/56014630-The-smart-factory-responsive-adaptive-connected-manufacturing.html Caterino, J. (2011). Green Industrial. Architect, 1, 50–58. Corporate architecture (2007). Innsbruck: ATP architects and engineers. Cox, L. (2011). Copenhagen Declaration as of December 7, 2009. Project Baikal, 8(27), 42-43. https://doi.org/10.7480/projectbaikal.27.356 Fabriki budushchego [Factories of the future]. (n.d.). Retrieved May 06, 2020 from https://technet-nti.ru/article/fabriki-buducshego Gazar'yan, R. K. (2013). Principy formirovaniya adaptivnoj arhitektury nauchno-issledovatel'skih informacionnyh centrov: avtoref. dis. kand [Principles of forming adaptive architecture of research information centers: cand. dis. thesis]. Moscow. Hatuka, T., Ben-Joseph, E., & Peterson, S. M. (2016). Facing Forward: Trends and Challenges in the Development of Industry in Cities. Built Environment, 1(43), 145-155. Kovalev, V. A. (1989). Problemy promyshlennoj arhitektury: gumanisticheskij aspect [Problems of industrial architecture: humanistic aspect]. Moscow: Obshchestvo "Znanie" RSFSR. Mochenov, A., & Fedulova, V. (2018, February 27). Budushchee rynka truda: posle 2020-go [The Future of the labor market: after 2020]. Retrieved May 06, 2020 from https://www.if24.ru/totalnyj-diktant-kak-vsemirnoe-obrazovatelnoe-sobytie-pr-proekta/ Morozova, E. B. (2003). Arhitektura promyshlennyh ob"ektov: proshloe, nastoyashchee i budushchee [Architecture of industrial facilities: past, present and future]. Minsk: UP «Tekhnoprint». Shvab, K. (2016). Chetvertaya promyshlennaya revolyuciya [Fourth industrial revolution]. Moscow: Eksmo. Volkov, A. A. (2012). Intellekt zdanij: formula [The intelligence of buildings: formulation]. Promyshlennoe i grazhdanskoe stroitel'stvo, 3, 54-57. Wagner, J., & Watch, D. (2017). Innovation Spaces: The New Design of Work. Washington: The Brookings Institution. Retrieved May 06, 2020 from https://www.brookings.edu/wp-content/uploads/2017/04/cs_20170404_innovation_spaces_pdf.pdf