Determination of Reserves for Reducing Delays and Increasing the Capacity of the Street-Road Network in Gomel as a Factor of Reducing Losses in Traffic

D. P Khodoskin

doi:10.15802/stp2021/229169

Authors

D. P. Khodoskin Belarusian State University of Transport, Ukraine https://orcid.org/0000-0002-0870-0250

DOI:

https://doi.org/10.15802/stp2021/229169

Keywords:

traffic capacity, road network, accident losses, economic losses, infrastructure, road traffic

Abstract

Purpose. Often, the existing level of traffic capacity of road network facilities in large cities is insufficient. This is often due to the fact that urban growth is significantly ahead of the reconstruction and renovation of the corresponding infrastructure. As a result, traffic delays of various kinds occur on city roads, accompanied, first of all, by economic losses. Therefore, the search for reserves to reduce various types of losses associated with insufficient traffic capacity of the road network when organizing urban traffic is the purpose of this work. Methodology To determine the reserves for increasing the traffic capacity of the road network and reducing various kinds of delays, the method of deterministic analysis was used, the method for calculating the cycle according to F. Webster, based on the use of phase coefficients and time lost in the cycle (as the sum of transient intervals), the method for measuring the intensity of car traffic in the traffic flow, as well as the methodology for calculating economic losses arising from delays in the movement of vehicles. Findings. A study of delays and time expenditures and the corresponding economic losses that occur at typical objects of the city's street-road network (regulated intersections) has been carried out. The reserves of their reduction, and as a consequence, the increase in the capacity of both individual sections and the city's road network as a whole, have been determined. Originality. The use of this method on real objects of the road network allows developing the scientific interpretation of the methods used and expanding the scope of their application. Practical value. Assessment of emerging problems of traffic capacity and associated losses (including economic ones) makes it possible to determine the most promising ways to determine the traffic capacity reserves and, as a result, reduce economic losses.

References

Renkin, V. U., Klafi, P., & Khalbert, S. (Transl.). (1981). Avtomobilny eperevozki i organizatsiya dorozhnogo dvizheniya : spravochnik. Moscow: Transport. (in Russian)

Palchik, A., & Dodukh, K. (2015). Practical capacity of road lane. Modern management review, XX, 155-171. DOI: https://doi.org/10.7862/rz.2015.mmr.12 (in Russian)

Birulina, A., & Chilinger, L. (2019). Analysis of the development of the street-road network of tomsk. Interexpo GEO-Siberia, 3(2), 17-25. DOI: https://doi.org/10.33764/2618-981x-2019-3-2-17-25 (in English)

Dergunov, S. A., & Feoktistova, K. B. (2018). Approaches to optimizing the capacity of the road network. Ten-dentsii razvitiya nauki i obrazovaniya, 65-68. DOI: https://doi.org/10.18411/lj-10-2018-118 (in Russian)

Dovganіuk, A. (2020). The development of the planning structure of the street and road network and the transport infrastructure of the city of chernivtsi. Urban Development and Spatial Planning, 74, 102-119. DOI: https://doi.org/10.32347/2076-815x.2020.74.102-119 (in English)

Filatova, A., Kazakova, G., & Muraveva, N. (2015). Investigation of the parameters sections of the road net-work in the city of saratov using simulation. Alternative Energy Sources in the Transport-Technological Complex: Problems and Prospects of Rational Use Of, 2(1), 192-195. https://doi.org/10.12737/14019 (in English)

Gorodokin, V., Mavrin, V., Almetova, Z., & Shepeleva, E. (2020). Method to ensure crossing capacity when lim-iting the cycle time and roadway width. Transportation Research Procedia, 50, 167-173. DOI: https://doi.org/10.1016/j.trpro.2020.10.021 (in English)

Háznagy, A. (2018). Street network analysis based on subdistricts of Budapest. Road and Rail Infrastructure V, 1607-1613. DOI: https://doi.org/10.5592/co/cetra.2018.822 (in English)

Kachmar, R., & Lanets, O. (2020). The impact of parameters of traffic flows of Lviv street-road network on the level of environmental and economic losses. Transport Technologies, 2020(1), 83-91. DOI: https://doi.org/10.23939/tt2020.01.083 (in English)

Kapskiy, D. V., Navoy, D. V., & Pegin, P. A. (2019). Development of Model for Traffic Flows on Urban Street and Road Network. Science & Technique, 18(1), 47-54. DOI: https://doi.org/10.21122/2227-1031-2019-18-1-47-54 (in English)

Nemchinov, D., Mikhailov, A., Martiahin, D.,& Martiahina, N. (2019). Assessment of the required street and road network development in urban agglomerations. Urban Transport XXV, 186, 1-10. DOI: https://doi.org/10.2495/ut190011 (in English)

Nesterenko, D. H. (2019). Investigation of the influence of the structure of motor traffic on the efficiency of the use of the road network section. Intelligence. Innovations. Investment, 1, 90-96. DOI: https://doi.org/10.25198/2077-7175-2019-1-90 (in English)