The concept for developing a programme model for the scientific and technical support of lifecycles of unique deeply embedded buildings

Author:

Lapidus Azariy A.1,Topchiy Dmitry V.1,Shevchenko Irina S.1

Affiliation:

1. Moscow State University of Civil Engineering (National Research University) (MGSU)

Abstract

Introduction. Scientific and technical support (STS) serves as a quality control tool and a safety assurance instrument employed in the process of construction of unique buildings and structures having higher levels of importance. However, along with the lack of approved provisions on performance of these types of work at the stages of engineering surveys, design and construction, no scope of work is specified for deeply embedded buildings and structures. The aim of the study is to develop a model of a programme that will ensure the automated selection of works on the basis of pre-set parameters for of unique deeply embedded buildings and structures. Materials and methods. The authors propose a step-by-step development pattern for an STS support programme model for unique deeply embedded buildings and structures. A step-by-step development of the model of a program for scientific and technical support of unique buildings and structures with the large deepening is proposed, which is based on: a comprehensive analysis of modern regulatory documents and existing ideas for improving the process of scientific and technical support, which forms a database of works of STS; general and special parameters for selecting works from a database of works have been established, which correspond with the under consideration type of unique object; the need for these parameters is reflected in the development of the model of a program and further use. The authors have proven the need to use these parameters in the process of developing the programme model. Results. The programme model of STS support for unique deeply embedded buildings and structures tracks the actions taken by its users, the programme operation, the use of parameters by the programme, as well as internal interactions between the programme and the database. Conclusions. The presented stages of developing a programme model will not only computerize the selection of works on the basis of general and special parameters within the framework of STS, they will also improve the STS support in general.

Publisher

Moscow State University of Civil Engineering

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