Technologies of the Future: Smart Production in Industry

Technologies of the Future: Smart Production in Industry

In line with global trends of virtual production within the frames of the 4-th industrial revolution concept industrial enterprises facing new challenges and objectives have to transform their production processes in order to support competitiveness. Standard approaches to production management cann...

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Autor principal: S. B. Baurina
Formato: article
Lenguaje:RU
Publicado: Plekhanov Russian University of Economics 2020
Materias:
automation
industrial enterprise
artificial intellect
smart-manufacturing
iot technology
digital technologies
digital projecting
mathematic modeling
smart-production
manipulators
manipulating technologies
architecture
Economics as a science
HB71-74
Acceso en línea:https://doaj.org/article/59d9a6afbbb042f7bbbc0334b76f5193
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spelling oai:doaj.org-article:59d9a6afbbb042f7bbbc0334b76f51932021-11-15T05:20:49ZTechnologies of the Future: Smart Production in Industry2413-28292587-925110.21686/2413-2829-2020-2-123-132https://doaj.org/article/59d9a6afbbb042f7bbbc0334b76f51932020-04-01T00:00:00Zhttps://vest.rea.ru/jour/article/view/849https://doaj.org/toc/2413-2829https://doaj.org/toc/2587-9251In line with global trends of virtual production within the frames of the 4-th industrial revolution concept industrial enterprises facing new challenges and objectives have to transform their production processes in order to support competitiveness. Standard approaches to production management cannot retain enterprise profitability on the desirable level. Globalization rate increases at the expense of unprecedented development of information technologies. The article analyzes today’s trends of science-intensive industrial technology development, finding new priority lines in devising smart manufacturing in Russian industry. The author demonstrates the demand in technological process automation at industrial enterprises in Russia, shows opportunities and grounds practical necessity of using artificial intellect in manufacturing and introduction of smart-manufacturing at Russian enterprises. Successful practices of introducing IoT technologies at Russian and overseas enterprises were depicted. The author provides target figures for priority production technologies within the frames of the Federal project ‘Digital Technologies’: technologies of smart manufacturing (Smart Manufacturing); digital projecting, mathematic modeling and managing the life cycle of product or produce (Smart Design); manipulators and manipulating technologies. Technology of developing complex architecture and strategy for using smart-manufacturing was identified and target figures for the period up to 2014 by principle technological trends of developing smart-manufacturing in Russia were provided. Opportunities for shaping smart-potential and its strategic use in the interests of production development were described. The author develops the present economic and theoretical ideas dealing with industrial production digitsalization and problems of smart technologies introduction. The obtained results and conclusions can be used by top management of corporations in identifying lines and strategies of industrial enterprise development.S. B. BaurinaPlekhanov Russian University of Economicsarticleautomationindustrial enterpriseartificial intellectsmart-manufacturingiot technologydigital technologiesdigital projectingmathematic modelingsmart-productionmanipulatorsmanipulating technologiesarchitectureEconomics as a scienceHB71-74RUВестник Российского экономического университета имени Г. В. Плеханова, Vol 0, Iss 2, Pp 123-132 (2020)
institution DOAJ
collection DOAJ
language RU
topic automation
industrial enterprise
artificial intellect
smart-manufacturing
iot technology
digital technologies
digital projecting
mathematic modeling
smart-production
manipulators
manipulating technologies
architecture
Economics as a science
HB71-74
spellingShingle automation
industrial enterprise
artificial intellect
smart-manufacturing
iot technology
digital technologies
digital projecting
mathematic modeling
smart-production
manipulators
manipulating technologies
architecture
Economics as a science
HB71-74
S. B. Baurina
Technologies of the Future: Smart Production in Industry
description In line with global trends of virtual production within the frames of the 4-th industrial revolution concept industrial enterprises facing new challenges and objectives have to transform their production processes in order to support competitiveness. Standard approaches to production management cannot retain enterprise profitability on the desirable level. Globalization rate increases at the expense of unprecedented development of information technologies. The article analyzes today’s trends of science-intensive industrial technology development, finding new priority lines in devising smart manufacturing in Russian industry. The author demonstrates the demand in technological process automation at industrial enterprises in Russia, shows opportunities and grounds practical necessity of using artificial intellect in manufacturing and introduction of smart-manufacturing at Russian enterprises. Successful practices of introducing IoT technologies at Russian and overseas enterprises were depicted. The author provides target figures for priority production technologies within the frames of the Federal project ‘Digital Technologies’: technologies of smart manufacturing (Smart Manufacturing); digital projecting, mathematic modeling and managing the life cycle of product or produce (Smart Design); manipulators and manipulating technologies. Technology of developing complex architecture and strategy for using smart-manufacturing was identified and target figures for the period up to 2014 by principle technological trends of developing smart-manufacturing in Russia were provided. Opportunities for shaping smart-potential and its strategic use in the interests of production development were described. The author develops the present economic and theoretical ideas dealing with industrial production digitsalization and problems of smart technologies introduction. The obtained results and conclusions can be used by top management of corporations in identifying lines and strategies of industrial enterprise development.
format article
author S. B. Baurina
author_facet S. B. Baurina
author_sort S. B. Baurina
title Technologies of the Future: Smart Production in Industry
title_short Technologies of the Future: Smart Production in Industry
title_full Technologies of the Future: Smart Production in Industry
title_fullStr Technologies of the Future: Smart Production in Industry
title_full_unstemmed Technologies of the Future: Smart Production in Industry
title_sort technologies of the future: smart production in industry
publisher Plekhanov Russian University of Economics
publishDate 2020
url https://doaj.org/article/59d9a6afbbb042f7bbbc0334b76f5193
work_keys_str_mv AT sbbaurina technologiesofthefuturesmartproductioninindustry
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