Modeling the Influence of Weather and Climatic Conditions on the Safety Characteristics of the Construction Process

This study investigates the influence of climatic conditions on the performance of the construction process and the characteristics of the elements of the construction process: construction machines, workers, the estimated cost of construction, and the reliability of construction deadlines. As an integral indicator of weather and climatic conditions, the indicator of “weather hardness” was chosen. The method of simulation modeling with its ability to generate random numbers with the given parameters is chosen as a mathematical model on a computer. The aim of the study is to identify the regression and correlation relationships between the indicators of weather hardness and the corresponding indicators of the elements of the construction process: the Fund for working time of workers, the coefficient of technical readiness of construction equipment, increasing the estimated cost of construction, increasing labor costs for the re-installation of construction equipment, identification of additional costs by types of work, for all the stated dependencies, regression equations are obtained. The results are presented in graphical form, and the results show that the proposed simulation model of the impact of weather and climatic conditions on the characteristics of the construction process allows to optimize management decisions, and reduce construction risks, reduce the estimated cost of construction.

[1]  V. Polyakova,et al.  Reduction of Ecological and Economic Risks in Utilization of Solid Domestic Wastes and Construction Waste , 2018 .

[2]  Victoria Borkovskaya,et al.  The Concept of Innovation for Sustainable Development in the Construction Business and Education , 2013 .

[3]  V. Rimshin,et al.  The General theory of degradation , 2018, IOP Conference Series: Materials Science and Engineering.

[4]  A. Pleshivtsev,et al.  Ecological and Economic Risks of Fire Protection of Warehouses and Tank Parks , 2018 .

[5]  Victoria Borkovskaya,et al.  Behavioral Engineering Model to Identify Risks of Losses in the Construction Industry , 2018, Smart Technologies and Innovations in Design for Control of Technological Processes and Objects: Economy and Production.

[6]  V. Borkovskaya,et al.  Interactive Teaching of Risk Management in the Russian Construction Industry , 2018, IOP Conference Series: Materials Science and Engineering.

[7]  V. Borkovskaya,et al.  Environmental economic model of risk management and costs in the framework of the quality management system , 2018 .

[8]  V. Borkovskaya Environmental and Economic Model Life Cycle of Buildings Based on the Concept of "Green Building” , 2013 .

[9]  V. Rimshin,et al.  Mathematical modeling of groundwaters pressure distribution in the underground structures by cylindrical form zone , 2018 .

[10]  V. Borkovskaya,et al.  Sustainability Risk Management: The Case for Using Interactive Methodologies for Teaching, Training and Practice in Environmental Engineering and Other Fields , 2018, Smart Technologies and Innovations in Design for Control of Technological Processes and Objects: Economy and Production.

[11]  Evgeniy Degaev,et al.  New classification of foaming agents for fire extinguishing , 2018 .

[12]  Victoria Borkovskaya,et al.  Complex Models of Active Control Systems at the Modern Developing Enterprises , 2014 .

[13]  D. Passmore,et al.  Application of failure mode and effects analysis in ecology in Russia , 2018 .

[14]  Reza Barkhi,et al.  Qualitative Risk Assessments in Project Management in Construction Industry , 2018 .