Akcije

Journal of Applied Engineering Science
kako citirati ovaj članak
podeli ovaj članak

Metrika

  • citati u SCIndeksu: 0
  • citati u CrossRef-u:0
  • citati u Google Scholaru:[]
  • posete u poslednjih 30 dana:2
  • preuzimanja u poslednjih 30 dana:2

Sadržaj

članak: 8 od 202  
Back povratak na rezultate
2020, vol. 18, br. 4, str. 586-590
Reliability of constructional production line
(naslov ne postoji na srpskom)
Southwest State University, Department of Expertise and Real Estate Management, Mining Engineering, Kursk, Russia

e-adresaalexbredikhin_2003@mail.ru
Ključne reči: construction; constructional production line; reliability; reliability characteristics of constructional production line; reliability factors of constructional production line
Sažetak
(ne postoji na srpskom)
The article discusses the most important quantitative characteristics of the reliability of constructional production line. The reliability of constructional production line, in the general case, is understood as its property to maintain its parameters in permissible, predetermined limits. One of the main parameters of constructional production line is its intensity. In addition, intensity is one of the main indicators characterizing the efficiency of the production line. Generally speaking, efficiency serves as a measure of system productivity taking into account the external environment. Therefore, in a particular case, the reliability of constructional production line can be understood as the stability of its intensity.
Reference
Abramov, I.L., Lapidus, A.A. (2018) Formation of production structural units within a construction company using the systemic integrated method when implementing high-rise development projects. E3S Web of Conferences, p. 03066
Andrey, A.M., Dmitriy, V.K. (2016) Management of investment-construction projects basing on the matrix of key events. Vestnik MGSU, №11, 105-113
Assaf, S.A., Al-Hejji, S. (2006) Causes of delay in large construction projects. International journal of project management, 24(4): 349-357
Baronin, S.A., Kulakov, K.J. (2018) Modeling total cost of ownership residential real estate in the life cycles of buildings. International Journal of Civil Engineering and Technology, Vol. 9, № 10, 1140 - 1148
Bovteev, S., Kanyukova, S., Okrepilov, V., Rezvaia, A. (2016) Construction work tasks duration: New method of estimation and quality control. Journal of Applied Engineering Science, vol. 14, br. 1, str. 121-127
Bredikhin, V.V. (2012) Management of organizational and economic reliability of urban development. Proceedings of Southwest University, 3: 76-82
Bredikhin, V.V. (2012) Analysis of existing methods for solving the problem of reproduction of residential real estate objects. Kursk: SWSU, 112-112
Bredikhin, V.V., Shleenko, A.V., Bredikhina, N.V. (2016) Development of production and technical potential of the region's construction industry. Kursk: SWSU, 114-114
Bredikhin, V.V. (2012) Problems of managing the organizational and economic reliability of urban developmen. Real estate: Economics and management, № 2, 23-26
Graboviy, P.G. (2018) Organization of real estate construction and development: Construction organization. Moscow: ASV, Part 1
Grabovy, P., Orlov, A. (2018) Management of the LCC considering industrial construction life cycle contracts. u: MATEC Web of Conferences: International Scientific Conference 'Integration, Partnership and Innovation in Construction Science and Education' (IPICSE-2018) (VI), p. 05019
Harris, R.A., Scott, S. (2001) UK practice in dealing with claims for delay. Engineering Construction & Architectural Management, T. 8. №5-6. C. 317-324
Kolmogorov, A.N., Fomin, S.V. (1976) Elements of function theory and functional analysis. Moscow: Nauka
Kremer, N.S.H. (2016) Probability theory and mathematical statistics. Moscow: Yuniti
Lapidus, A., Abramov, I. (2020) An assessment tool for impacts of construction performance indicators on the targeted sustainability of a company. u: International Science and Technology Conference 'FarEastCon 2019', p. 042089
Lapidus, A.A., Makarov, A.N. (2017) Fuzzy model of development process organization. Proceedings of Universities. Investments. Constructions. Real estate, Vol.7, №1, 59-68
Lapidus, A.A., Abramov, I.L. (2019) Systemic integrated approach to evaluating the resource potential of a construction company as a bidder. u: World Multidisciplinary Civil Engineering, Architecture, Urban Planning Symposium (WMCAUS 2018) (3rd), p. 052079
Lapidus, A.A., Fel'dman, A.O. (2015) Valuation of organizational and technological capacity of a building project formed on the basis of information flows. Vestnik MGSU, 11(11): 193-201
Pakhomova, Y.G., Bredikhina, N.V. (2016) Probabilistic laws of destruction of a construction line. Proceedings of Southwest University, 6: 35-40
Viktorovich, B.V., Vladimirovna, B.N., Yurievna, A.I. (2019) Analysis of the development process of the territorial productive and technological potential of the region's construction organizations. Journal of Applied Engineering Science, vol. 17, br. 3, str. 395-399
Viktorovich, B.V., Bredikhina, N., Ezerskiy, V. (2020) Modeling of property management process at territorial level. Journal of Applied Engineering Science, vol. 18, br. 2, str. 257-261
Vladimirovna-Bredikhina, N. (2017) Basic principles of production-and-technical potential capacity formation in the construction industry of a region. Journal of Applied Engineering Science, vol. 15, br. 4, str. 495-497
 

O članku

jezik rada: engleski
vrsta rada: izvorni naučni članak
DOI: 10.5937/jaes0-28674
primljen: 02.10.2020.
prihvaćen: 02.11.2020.
objavljen u SCIndeksu: 25.12.2020.
metod recenzije: dvostruko anoniman
Creative Commons License 4.0

Povezani članci