Principal modeling of technological support for sustainable construction projects
The rationale for the choice of technological solutions in the framework of construction design is largely interrelated with the effectiveness of solving problems that arise during the stages of the project life cycle. The modeling of the project's technological support is based on a systematic...
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doaj-aa0ebf7d21f64efab080350c325600812021-05-28T14:35:22ZengEDP SciencesE3S Web of Conferences2267-12422021-01-012580908210.1051/e3sconf/202125809082e3sconf_uesf2021_09082Principal modeling of technological support for sustainable construction projectsBeliakov Sergei0Moscow State University of Civil EngineeringThe rationale for the choice of technological solutions in the framework of construction design is largely interrelated with the effectiveness of solving problems that arise during the stages of the project life cycle. The modeling of the project's technological support is based on a systematic approach, which is a connecting element between various tools and techniques by presenting the project's processes in the context of the life cycle, as well as their mutual correlation with technological solutions. This approach eliminates the adoption of chaotic decisions in the process of project development, since its implementation occurs directly at the initiation stage. As part of a comprehensive solution to this task, a system of principles of technological support for construction projects has been developed, including the principles of unity, balance, compliance and synergy. The results obtained in the framework of the study, the key of which are the scheme of principal modeling of technological support for construction projects and the algorithm for modeling technological support for construction projects, develop approaches to scientific and methodological approaches to managing the effectiveness of investment and construction activities in general and, in particular, to the development and justification of design solutions for construction. The key aspect of the implementation of the developed algorithm is the analysis of processes, for the methodological support of which it is proposed to use the unified form “Card determinant of the technological solution”. Practical application of the results obtained in the framework of the research can be carried out in a number of areas within the processes and procedures of investment and construction design, development of project documentation, construction consulting, technological engineering, financial and technical supervision and audithttps://www.e3s-conferences.org/articles/e3sconf/pdf/2021/34/e3sconf_uesf2021_09082.pdf |
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DOAJ |
language |
English |
format |
Article |
sources |
DOAJ |
author |
Beliakov Sergei |
spellingShingle |
Beliakov Sergei Principal modeling of technological support for sustainable construction projects E3S Web of Conferences |
author_facet |
Beliakov Sergei |
author_sort |
Beliakov Sergei |
title |
Principal modeling of technological support for sustainable construction projects |
title_short |
Principal modeling of technological support for sustainable construction projects |
title_full |
Principal modeling of technological support for sustainable construction projects |
title_fullStr |
Principal modeling of technological support for sustainable construction projects |
title_full_unstemmed |
Principal modeling of technological support for sustainable construction projects |
title_sort |
principal modeling of technological support for sustainable construction projects |
publisher |
EDP Sciences |
series |
E3S Web of Conferences |
issn |
2267-1242 |
publishDate |
2021-01-01 |
description |
The rationale for the choice of technological solutions in the framework of construction design is largely interrelated with the effectiveness of solving problems that arise during the stages of the project life cycle. The modeling of the project's technological support is based on a systematic approach, which is a connecting element between various tools and techniques by presenting the project's processes in the context of the life cycle, as well as their mutual correlation with technological solutions. This approach eliminates the adoption of chaotic decisions in the process of project development, since its implementation occurs directly at the initiation stage. As part of a comprehensive solution to this task, a system of principles of technological support for construction projects has been developed, including the principles of unity, balance, compliance and synergy. The results obtained in the framework of the study, the key of which are the scheme of principal modeling of technological support for construction projects and the algorithm for modeling technological support for construction projects, develop approaches to scientific and methodological approaches to managing the effectiveness of investment and construction activities in general and, in particular, to the development and justification of design solutions for construction. The key aspect of the implementation of the developed algorithm is the analysis of processes, for the methodological support of which it is proposed to use the unified form “Card determinant of the technological solution”. Practical application of the results obtained in the framework of the research can be carried out in a number of areas within the processes and procedures of investment and construction design, development of project documentation, construction consulting, technological engineering, financial and technical supervision and audit |
url |
https://www.e3s-conferences.org/articles/e3sconf/pdf/2021/34/e3sconf_uesf2021_09082.pdf |
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AT beliakovsergei principalmodelingoftechnologicalsupportforsustainableconstructionprojects |
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