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English version Russian version



INTERNATIONAL SCIENTIFIC AND EDUCATIONAL ONLINE JOURNAL 
ARCHITECTURE AND MODERN INFORMATION TECHNOLOGIES

3(52) 2020


Article THE FUNCTIONAL AND PLANNING STRUCTURE OF TRANSPORTING BUILDINGS AND CONSTRUCTIONS ON the example OF MARINE PASSENGER TERMINALS
Authors

N. Vasilenko, N. Chernysh
Belgorod State Technological University named after V.G. Shukhov, Belgorod, Russia

Abstract The paper deals with the system-approach substantiation of functional and planning structure of transporting buildings and constructions. It is demonstrated that solving the relevant tasks of modernization of existing transporting buildings and constructions and creating new facilities as well as the development of transport system are possible only in conditions of using the advanced digital technologies, associated with developing mathematical models, which describe architectural objects from the perspective of system approach and general system principles. It has been determined that the leading functional processes, which single out transporting buildings and constructions into a specific typological group, are their operation functions. The specific operation function of seaport passenger terminals is producing the informational component of the system. The possibility of using transit area method in substantiating the quality of taken space-planning solutions of transporting buildings and constructions is demonstrated.
Keywords: transporting buildings and constructions, seaport passenger terminal, functional and planning structure, system approach, system principle, transit area method
article Article (RUS)
References

  1. Azarenkova Z.V. Transportno-peresadochnye uzly v planirovke gorodov [Transport hubs in urban planning]. Moscow, JSC «Typography «News»», 2011, 96 p.
  2. Safronov E.A. Transportnye sistemy gorodov i regionov [Transport systems of cities and regions]. Moscow, ASV, 2007, 288 p.
  3. Yenin A.Ye., Liventseva A.V. Obosnovanie effektivnosti primeneniya sistemnyh printzipov v formirovanii mnogofunktzional'nyh kommunikatzionnyh yzlov gorodskoy sredy [Justification of effective application of the system principles in the formation of multifunctional communication knots of an urban environment. Scientific Herald of the Voronezh State University of Architecture and Civil Engineering. Construction and Architecture]. 2013,no. 2 (30), pp. 114–121.
  4. Shevelev V.G. Hierarkhicheskaya structura kommynikatzionnogo karkasa gradostroitel'nyh system v ramkah kontzeptzii demoekologii [Hierarchical structure of the communication framework of the types of town-planing systems within the concept of demonology. Scientific Herald of the Voronezh State University of Architecture and Civil Engineering. Construction and Architecture]. 2013, no. 1 (29), pp. 114–120.
  5. Liventseva A.V. Optimizatziya funktzional'no-prostranstvennoy struktury gradostroitel'nogo karkasa krupnogo goroda (na primere sistemy gradostroitel'nyh uzlov gorodskoy sredy) [Optimization of functional and spatial structure of the urban frame of a large city (on the example of a system of urban nodesurban environment). City building. Infrastructure. Communication tools]. 2015, no. 1 (1), pp. 29–34.
  6. Levachev S.N., Korchagin E.A., Pilyaev S.I., Kantarzhi I.G., Shurukhin L.A. Porty I portovye sooruzheniya [Ports and port facilities]. Moscow, ASV, 2015, 536 p.
  7. Ponyatovsky V.V. Morskie porty i transport (evolutsiya) [Sea ports and transport (evolution)]. Moscow, Moscow State Academy of Water Transport, 2006, 429 p.
  8. Mayorov N. N. Metodologicheskiy basis organizatzii seti morskih passazhirskih perevozok [Methodological principles of the organization of the marine passenger traffic network. Vestnik of ASTU. Ser.: Marine engineering and technology]. 2018, no. 2, pp. 28–37,doi: 10.24143/2073-15742018-2-28-37. Available at: http://vestnik.astu.org/content/userimages/file/sea_2018_2/04.pdf
  9. Majorov N.N., Fetisov V.A. Issledovanie operatzionnyh protzessov obsluzhivaniya passazhirov v morskom passazhirskom termonale s ispol'zovaniem modelirovaniya [Research of operational processes of passenger service in the sea passenger terminal with the use of modeling. Vestnik GU Sea and River Fleet named after Admiral S.O. Makarov]. 2016, vol. 6 (40), pp. 70–80, doi: 10.21821/2309-5180-2016-8-6-70-80. Available at: https://journal.gumrf.ru/files/articles/40/70-80.pdf
  10. Korolkova A.V. Principles of architectural design of modern marine terminal complexes. Architecture and Modern Information Technologies, 2017, no. 1 (38), pp. 200–212. Available at: https://www.marhi.ru/AMIT/2017/1kvart17/korolkova/index.php
  11. Chernysh N.D., Vasilenko N.A. Osobennosti funktzional'no-tekhnologitcheskih reshenyi architekturnyh ob'ektov na primere morskih passazhirskih terminalov [Peculiarities of functional and technological solutions of architectural objects through an example of seaport passenger terminals. Vestnik BSTU named after V. G. Shukhov]. 2020, no. 1, pp. 40–50, doi: 10.34031/2071-7318-2020-5-1-40-50.
  12. Kuritsky B.Ya. Optimizatciya vokrug nas: Kak matematika pomogaet prinima't resheniya [Optimization around us: How mathematics helps in decision making]. Moscow, LENAND, 2018, 152 p.
  13. Peregudov F.I. and Tarasenko F.P. Vvedenie v sistemny analiz [Introduction to system analysis]. Moscow, 1989, 367 p.
  14. Rashevsky N. Modeli I matematicheskie printsipy v biologii [Models and mathematical principles in biology. Theoretical and mathematical biology]. Moscow, 1968, pp. 48–66.
  15. Lavrik G.I. Metodologicheskie osnovy raionnoy planirovki. Vvedenie v demoekologiy [The Methodological Basis of Settlement Planning. Introduction to Demoecology]. Belgorod, Belgorod State Technological University named after V.G. Shukhov Press, 2007, 118 p.
  16. Lavrik G.I. Metody otsenki kachestva zhilischa. Issledovanie. Proektirovanie. Ekspertiza [Methods for Assessing the Quality of Housing. Research, Design, Expertise]. Belgorod: Belgorod State Technological University named after V.G. Shukhov Press, 2007, 100 p.
  17. Vasilenko N. A. The System Principle of Compactness as a Defining One in the Formation of Functional and Planning Structure and in the Forming of Power-Saving, Power-Active, Environmentally-Friendly and Hi-Tech Buildings. IOP Conference Series: Materials Science and Engineering, 2018, Vol. 463, no 2, Article 032086, doi:10.1088/1757-899X/463/3/032086. Available at: https://iopscience.iop.org/article/10.1088/1757-899X/463/3/032086
  18. Vasilenko N. A. Parametric optimization of an architectural object's form as a method to improve its energy efficiency. IOP Conference Series: Materials Science and Engineering, 2018, Vol. 463, no 2, Article 012027. doi: 10.1088/1757-899X/552/1/012027. Available at: https://iopscience.iop.org/article/10.1088/1757-899X/552/1/012027
  19. Proekt rechnogo vokzala dlya morskogo passazhirskogo terminala-2: ofitzialny sait arhitekturnogo buro «A.Len». [Project of the river station for the sea passenger terminal-2: official website of the architectural Bureau «A.Len»]. Available at: https://www.a-len.ru/obekty/arhitekturnoe-proektirovanie-objektov/proekt-rechnogo-vokzala-dlya-morskogo-passazhirskogo-terminala-2/

For citation

Vasilenko N., Chernysh N. The Functional and Planning Structure of Transporting Buildings and Constructions on the Example of Marine Passenger Terminals. Architecture and Modern Information Technologies, 2020, no. 3(52), pp. 5883. Available at: https://marhi.ru/AMIT/2020/3kvart20/PDF/04_vasilenko.pdf DOI: 10.24411/1998-4839-2020-15204