ARCHITECTURE AND URBAN DEVELOPMENT. RESTRUCTURING AND RESTORATION

DEVELOPMENT OF THE UNDERGROUND SPACE OF CITIES IN TERMS OF THEIR SUSTAINABLE DEVELOPMENT

Vestnik MGSU 2/2014
  • Belyaev Valeriy L’vovich - Moscow State University of Civil Engineering (MGSU) Candidate of Technical Sciences, doctorate student, Associate Professor, Department of Building Design and Urban Planning, Moscow State University of Civil Engineering (MGSU), 26 Yaroslavskoe shosse, Moscow, 129337, Russian Federation.
  • Belyaev Vladimir Borisovich - Central Scientific, Research and Project Institute of Urban Planning (TsNIIP Gradostroitel'stva) Candidate of Technical Sciences, Central Scientific, Research and Project Institute of Urban Planning (TsNIIP Gradostroitel'stva), 29 Prosoekt Vernadskogo, 119331, Moscow, Russian Federation.

Pages 7-12

The article shows that the negative trends in the cities development, especially their territorial "sprawling" contributes to the onset of the global environmental crisis. This call requires setting the city planners mind on noosphere thinking and establishing an adequate system of spatial development of the cities. The formation of compact city models "new urbanism", "smart development" can be considered a progressive response and a world trend. It fully meets the course of integrated urban development of the underground space.In order to overcome the significant gap on this issue between Russia and many foreign countries the urban policy needs to be updated (disclosure of the fundamental principle of sustainable development), methodologies and tools of developing underground urbanity should be developed. The authors propose such a change of the underground space as an integrated spatial and geoenergy resource with the commitment to the strategic evaluation of its development during the entire life cycle of underground construction projects.The co-authors take into account the environmental effects of the proposed development under the direction of modern paradigms of the biosphere compatible, viable and growing cities, as well as the capacity to organize their own groups. As a base model, we take a city as a complex system of natural and man-caused, containing a fiber space where underground space and underground structures is one of the layers. The instrument for this approach implementation may be a biotechnospherical humanitarian balance of the city, including the parameters of underground layers. In addition, the calculations of the information flow (Entropy) between the layers is of great importance. The sustainable development of the city is dominated by a stream of negative entropy.On this basis, for the conditions of Moscow the device tools "physical planning" should be used in respect of the characteristics of underground space development (strategic and territorial planning, urban design, etc.). This takes into account the specificity of the territories of the historical city centre and the periphery, suggesting different approaches.

DOI: 10.22227/1997-0935.2014.2.7-12

References
  1. Vernadskiy V.I. Nauchnaya mysl' kak planetnoe yavlenie [Scientific Thought as a Planetary Phenomenon]. Moscow, Nauka Publ., 1991, 271 p.
  2. Gradostroitel'nyy kodeks Rossiyskoy Federatsii ot 29.12.2004 ¹ 190-FZ [Town-Planning Code of the Russian Federation from 29.12.2004 ¹ 190-FZ]. Available at: http://base.consultant.ru/cons/cgi/online.cgi?req=doc;base=LAW;n=148422;div=LAW;rnd=0.6729766398320589. Date of access: 05.12.2013.
  3. European Parliament Resolution from 9 July 2008 on «Towards a New Culture of Urban Mobility». Available at: http://www.europarl.europa.eu/sides/getDoc.do?type=TA&reference=P6-TA-2008-0356&language=EN&ring=A6-2008-0252. Data obrashcheniya: 05.12.2013.
  4. Belyaev V.L. Osnovy podzemnogo gradoustroystva [Fundamentals of the Underground Urban Development]. Moscow, MGSU Publ., 2012, 198 ð.
  5. Parriaux A., Blunier P., Maire P., Tacher L. The DEEP CITY Project: A Global Concept for a Sustainable Urban Underground Management. 11th ACUUS International Conference, Underground Space: Expanding the Frontiers. 10-13 September 2007, Athens, Greece, pp. 255—260.
  6. Segedinov A.A. Problemy ekonomiki razvitiya infrastruktury gorodov [The Economic Problems of City Infrastructure Development]. Moscow, Stroyizdat Publ., 1987, 216 p.
  7. ll'ichev V.A. Biosfernaya sovmestimost'. Tekhnologii vnedreniya innovaciy. Goroda, razvivayushchie cheloveka [Biosphere Compatibility. Innovation Implementation Technologies. Developing Human Cities]. Moscow, LIBROKOM Publ., 2011, 240 p.
  8. Belyaev V.B. Osnovy paradigmy dlya zhiznesposobnykh i razvivayushchikhsya naselennykh punktov [Paradigm Fundamentals for Sustainable and Developing Settlements]. Gradostroitel'stvo [Urban Development]. Moscow, 2012, no. 1, pp. 69—78.
  9. Husemoller D. Rassloennye prostranstva [Fibre Bundles]. Novokuznetsk, NFMI Publ., 2000, 440 p.
  10. Gerlovin I.L. Osnovy edinoy teorii vsekh vzaimodeystviy v veshchestve [Fundamentals of the Unified Theory of all the Interactions in a Substance]. Leningrad, Energoatomizdat Publ., 1990, 432 p.

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Formation of a new south-western direction in development of Yerevan city centre: consistency of architectural planning solutions

Vestnik MGSU 7/2013
  • Aloyan Artem Al’bertovich - Yerevan State University of Architecture and Civil Engineering (EGUAS) Candidate of Architectural Sciences, Associate Professor, Department of Theory of Architecture, Restoration and Restructuring of Historical and Architectural Heritage, Fine Arts and History, Yerevan State University of Architecture and Civil Engineering (EGUAS), 105 Teryana st., Yerevan, 0009, Republic of Armenia.

Pages 7-14

The author discusses the problem of consistency between the existing architectural environment and new architectural planning solutions in the south-western part of the Yerevan city centre.The article is based on the analysis and systematization of spatial planning, architectural, design, historical, and literary sources covering Yerevan and its architecture. Business districts of urban centres are also taken into account.The author analyzes the features of formation and development of the centre of Yerevan and interrelation between planning solutions and concepts at different stages of its master plan development. A detailed analysis of spatial planning solutions applicable to the south-western part of the city center as a territory full of cultural and historical landmarks is provided in the article.This area has the size of dozens of square kilometers, and it is composed of the main urban design dominants, such as the historical nucleus with the ensembles of citywide importance and monuments of the so-called Tamanian period, the Republic square, lake Yerevan, and Paskevich hill.Numerous historical settlements, such as the Urartian fortress, Karmir Blur, Shengavit, Yerevan fortress, old Nork and others are situated here. The area has historical gardens (Dalma, Sardur gardens), beautiful panoramic view sites as the best viewpoints for the visual perception of Ararat mountain, and natural landscapes.The importance of consistency of spatial planning policies of the urban development documentation such as the Master plan of Yerevan is emphasized. The analysis and substantiation of the value of the area is considered. Research-backed proposals are provided in terms of the optimization of architectural planning solutions.

DOI: 10.22227/1997-0935.2013.7.7-14

References
  1. Gasparyan M.A. Analiz razvitiya kompozitsii general’nogo plana Erevana [Analysis of Development of the Composition of the Yerevan Master Plan]. Arkhitektura, gradostroitel’stvo, stroitel’stvo. Sb. nauchnykh trudov. [Architecture, Urban Planning, Construction. Collection of Research Works]. Yerevan, 2003, EASI Publ., vol. 1, pp. 19—20.
  2. Gasparyan M.A. Arkhitektura Erevana XIX — nachala XX veka [The Architecture of Yerevan in Late 19th — Early 20th Century]. Yerevan, 2008, Ushardzan Publ., 262 p.
  3. Dolukhanyan L.K. Arkhitektura Sovetskoy Armenii: 20-e gody [Architecture of Soviet Armenia: the 20ies]. Erevan, Sovetakan grokh publ., 1980, 84 p.
  4. Khalpakhchyan O.Kh. Arkhitekturnye ansambli Armenii [Architectural Ensembles of Armenia]. Moscow, Iskusstvo Publ., 1980, 480 p.
  5. Arutyunyan V.M. Kamennaya letopis’ armyanskogo naroda [Stone Chronicles of the Armenian People]. Erevan, 1985, Sovetakan grokh publ., 200 p.
  6. Asratyan M. Armyanskaya arkhitektura rannego khristianstva [Armenian Architecture of Early Christianity]. Moscow, 2000, Inkombuk publ., 400 p.
  7. Yastrebova N. A. Sovremennyy gorod: osnovnye tendentsii i varianty vozmozhnogo razvitiya [Contemporary City: Core Trends and Options for Potential Development]. Vestnik Volgogr. gos. arkhit.-stroit. un-ta. Ser.: Str-vo i arkhit. [Vestnik VolgGASU. Series: Construction and Architecture]. 2012, no. 27(46), pp. 129—136.
  8. Puchkov M.V. Dekonstruktsiya i rekonstruktsiya urbanizirovannykh territoriy [Deconstruction and Reconstruction of Urbanized Territories]. Academia. Arkhitektura i stroitel’stvo. [Academy. Architecture and Construction]. 2009, no. 3, pp. 57—60.
  9. Dobritsyna I.A. Transnatsional’nyy kapitalizm i arkhitektura global’nykh gorodov [Transnational Capitalism and Architecture of Global Cities]. Arkhitektura i stroitel’stvo Moskvy [Moscow Architecture and Construction]. 2010, vol. 551, no. 3, pp. 11—20.
  10. Safaryan Yu., Aloyan A., Aloyan K. K probleme formirovaniya gradostroitel’noy strategii Armenii na sovremennom etape [On the Problem of Formation of the Present-day Urban Strategy of Armenia]. Sb. nauchnykh trudov EGUAS [Collection of research Works of the Yerevan State University of Architecture and Civil Engineering]. Erevan, 2008, vol. II (32), pp. 3—5.
  11. Rogers R., Gumuchdjian P. Cities for a Small Planet. London, Faber and Faber, 1997, 180 p.
  12. Safaryan Yu.A., Gasparyan M.A., Aloyan A.A. The master plan of Yerevan Proceedings of 3rd International Conference on Contemporary Problems in Architecture and Construction “Architecture and Urban Construction on the Low-carbon Strategies”. Beijing, China, November 20—24, 2011, pp. 1–30—1-35.

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METHODOLOGICAL APPROACHES FOR MODELING THE RURAL SETTLEMENT DEVELOPMENT

Vestnik MGSU 10/2017 Volume 12
  • Gorbenkova Elena Vladimirovna - Belarusian-Russian University Candidate of Technical Sciences, Adviser of the Russian Academy of Architecture and Construction Sciences, Associate Professor, Highways Department, Belarusian-Russian University, 3 Mira prospekt, Mogilev, 212030, Belarus.
  • Scherbina Elena Vital’evna - Moscow State University of Civil Engineering (National Research University) (MGSU) Doctor of Technical Sciences, Professor, Urban Planning Department, Moscow State University of Civil Engineering (National Research University) (MGSU), 26 Yaroslavskoe shosse, Moscow, 129337, Russian Federation.

Pages 1107-1114

Subject: the paper describes the research results on validation of a rural settlement developmental model. The basic methods and approaches for solving the problem of assessment of the urban and rural settlement development efficiency are considered. Research objectives: determination of methodological approaches to modeling and creating a model for the development of rural settlements. Materials and methods: domestic and foreign experience in modeling the territorial development of urban and rural settlements and settlement structures was generalized. The motivation for using the Pentagon-model for solving similar problems was demonstrated. Based on a systematic analysis of existing development models of urban and rural settlements as well as the authors-developed method for assessing the level of agro-towns development, the systems/factors that are necessary for a rural settlement sustainable development are identified. Results: we created the rural development model which consists of five major systems that include critical factors essential for achieving a sustainable development of a settlement system: ecological system, economic system, administrative system, anthropogenic (physical) system and social system (supra-structure). The methodological approaches for creating an evaluation model of rural settlements development were revealed; the basic motivating factors that provide interrelations of systems were determined; the critical factors for each subsystem were identified and substantiated. Such an approach was justified by the composition of tasks for territorial planning of the local and state administration levels. The feasibility of applying the basic Pentagon-model, which was successfully used for solving the analogous problems of sustainable development, was shown. Conclusions: the resulting model can be used for identifying and substantiating the critical factors for rural sustainable development and also become the basis of administrative decisions.

DOI: 10.22227/1997-0935.2017.10.1107-1114

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Organizational and technological modeling of the processes of the device of roofing coatings with modular system of greening

Vestnik MGSU 2/2019 Volume 14
  • Korol Elena A. - Moscow State University of Civil Engineering (National Research University) Doctor of Technical Sciences, Professor, Head of the Department of Housing and Communal Utility, Moscow State University of Civil Engineering (National Research University), 26 Yaroslavskoe shosse, Moscow, 129337, Russian Federation.
  • Shushunova Natalia S. - Moscow State University of Civil Engineering (National Research University) Postgraduate student of Department of Housing and Communal Utility, Lecturer of the Department of Environmental Engineering, Moscow State University of Civil Engineering (National Research University), 26 Yaroslavskoe shosse, Moscow, 129337, Russian Federation.

Pages 250-261

Introduction. Presents an approach to the development of organizational-technological models of the processes of the device of operated roofing coatings with landscaping systems, which allow the systematization of constructive-technological solutions. Are given the the organizational and technological parameters of the device roofing with landscaping. At present, the problems associated with the study of organizational and technological parameters when constructing unconventional energy-saving engineering systems are not well understood. Materials and methods. Analyzed of scientific and technical studies of domestic and foreign scientists in the field of green building technologies in relation to roofing. Formulated determination of organizational and technological parameters of technological processes and technological operations in the production of coatings. The study applied methods of mathematical modeling, as well as methods of structural-functional modeling. Results. Determined the organizational and technological parameters of green roof coverings the composition and sequence of technological processes and operations for roofing coverings with landscaping systems. The work ordering of technological processes of the device of modular landscaping systems of operated roofing coatings has been made. Spatial-technological and functional models of technological processes of the device of operated roofing coatings with landscaping systems have been built, which allow revealing reserves and eliminating technological non-production interruptions in the course of work. Conclusions. Established that in the field of green building technologies there is a need to develop new standards and supplement the provisions of the regulatory framework containing guidelines that cover the design and construction processes with a detailed description of the organizational, technological and structural characteristics. The constructed spatial-technological and functional models of the technological processes of the device of the operated roofing coatings with landscaping systems make it possible to identify reserves and eliminate technological non-production interruptions in the production process.

DOI: 10.22227/1997-0935.2019.2.250-261

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Environmental assessment of a city on the model of energy-ecological efficiency

Vestnik MGSU 12/2014
  • Kuzovkina Tat’yana Vladimirovna - Moscow State University of Civil Engineering (MGSU) postgraduate student, Department of Construction of the Objects of Thermal and Nuclear Power, Moscow State University of Civil Engineering (MGSU), 26 Yaroslavskoe shosse, Moscow, 129337, Russian Federation; +7 (495) 781-80-07; This e-mail address is being protected from spambots. You need JavaScript enabled to view it .

Pages 172-181

This article gives an overview of the analytical methodology for assessing the environmental safety in construction, the existing government programs in energy saving, and the analysis of the actual state of the investigated problem, proposed a method of assessment of environmental safety efficiency criteria of a city. The analysis is based on the data on housing and communal services of the City of Moscow. As a result of the consideration of the government programs and methods of assessing the environmental security in construction the conclusion was made that none of the programs reviewed and non of the methods include consideration of the relationship between environmental parameters of environmental security and energy efficiency (indicators of them are considered separately from each other). In order to determine the actual state of environmental safety analytical review was performed of energy efficiency programs of the government in Moscow and the methods of assessing the environmental safety of a construction. After considering a methodology for assessing the environmental safety of a construction, the author proposes to use the model for determining the indicator of efficiency of the city to ensure the environmental safety of the processes of life-support of the city, which takes into account the dependence of the parameters of environmental safety and energy efficiency. The author describes the criteria for selecting thr data on energy and environmental efficiency of the city. The article shows the sequence to identify the criteria for determining the indicator of efficiency of the city. In the article the author presents the results of ecological assessment of Moscow on the energy-ecological efficiency model, using the model defined performance indicators of the city to ensure environmental safety processes of life support of the city. The model takes into account the dependence of environmental safety parameters, environmental and energy efficiency. The correlation analysis of the effectiveness of the city of Moscow, the graphs for the regression assessment models of the data are described. The coefficient of efficiency indicators correlation of city support and the coefficient of life safety in the city are calculated. Performance indicator for Moscow in 2009-2012 is defined, which reflects the dependence of the processes of life support and life sustenance of the city. The proposed approach to the assessment of environmental safety may be used in the development of governmental programs on energy saving, as well as in the preparation of regulatory documents.

DOI: 10.22227/1997-0935.2014.12.172-181

References
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  2. Negrebov A.I., Slesarev M.Yu., Telichenko V.I. Upravlenie proektami rekonstruktsii ob”ektov stroitel’stva po ekologicheskim trebovaniyam [Management of Reconstruction Projects of Construction Objects Accoeding to Ecological Requirements]. Mekhanizatsiya stroitel’stva [Mechanization of Construction]. 2002, no. 6, pp. 10—12. (In Russian)
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  4. Prikaz Minenergo Rossii ot 30 iyunya 2014 g. ¹ 399 «Ob utverzhdenii metodiki rascheta znacheniy tselevykh pokazateley v oblasti energosberezheniya i povysheniya energeticheskoy effektivnosti, v tom chisle v sopostavimykh usloviyakh» [Order Russian ministry of Energy from 30.06.2014 no. 399 “Approving the Methods of Calculating the Targets Values in the Field of Energy Saving and Energy Efficiency, Including in Comparable Conditions]. LEKS-Konsalting. Available at: http://www.g-k-h.ru/upload/prikaz399.rtf. Date of access: 01.03.2013. (In Russian)
  5. Podprogramma energosberezheniya i povysheniya energeticheskoy effektivnosti Departamenta zhilishchno-kommunal’nogo khozyaystva i blagoustroystva goroda Moskvy [Sub-Programme on Energy Saving and Energy Efficiency Increase of the Department of Housing and Communal Services and Public Works of the City of Moscow]. Vestnik Mera i Pravitel’stva Moskvy [Proceedings of Moscow Major and Government]. 2008, no. 63, pp. 108—200. (In Russian)
  6. Polozhenie po provedeniyu energeticheskikh obsledovaniy organizatsiy RAO «EES Rossii» RD 153-34.9.09.162-00 [Regulations for Conducting Energy Investigations of Organizations of RAO “UES of Russia” RD 153-34.9.09.162-00]. Moscow, RAO «EES Rossii» Publ., 2000, 28 p. (In Russian)
  7. Fedorov M.P., Bocharov Yu.N., Porshnev G.P., Schislyaev S.M., Matveev I.A., Skvortsova I.V., Petkova A.P., Malinovskiy D.N., Dzektser N.N.N., Shkola A.V., Mityakov A.V. Patent 2439625 RF, MPK G01W. Sposob kompleksnogo energoekologicheskogo obsledovaniya energeticheskikh i promyshlennykh ob”ektov. ¹ 2010102375/28, Zayavl. 25.01.2010, opubl. 10.01.2012. Byul. ¹ 1 [Patent 2439625 RF, MPK G01W. Method of integrated energy-ecological survey of power and industrial facilities. No. 2010102375/28, appl. 25.01.2010, publ. 10.01.2012. Bulletin no. 1]. Patent Holder FGBOU VPO «SPbGPU», 16 p. (In Russian)
  8. BREEAM International New Construction Technical Manual: SD5075 Version: 2013.03/03/2014. Available at: http://www.breeam.org/page.jsp?id=109. Date of access: 01.03.2013.
  9. Foundations of the Leadership in Energy and Environmental Design, Environmental Rating System, A Tool for Market Transformation. U.S. Green Building Council. 2006, August. Available at: http://www.usgbc.org/Docs/Archive/General/Docs2039.pdf/. Date of access: 01.03.2013.
  10. Kukadia V., Upton S., Hall D. Control of Dust from Construction and Demolition Activities. RE Press, 2003. Available at: http://products.ihs.com/cis/Doc.aspx?AuthCode=&DocNum=262929. Date of access: 01.03.2013.
  11. Kukadia V., Upton S., Grimwood C. Controlling Particles, Vapour and Noise Pollution from Construction Sites — Set of Five Pollution Control Guides. BRE Press, 2003. Available at: http://www.brebookshop.com/details.jsp?id=144548. Date of access: 01.03.2013.
  12. Guidelines on Energy Efficiency of Lift & Escalator Installations. EMSD, 2007. Available at: http://www.emsd.gov.hk/emsd/e_download/pee/Guidelines_on_Energy_Efficiency_of_LiftnEsc_Installations_2007.pdf. Date of access: 01.03.2013.
  13. Nipkow J., Schalcher M. Energy Consumption and Efficiency Potentials of Lifts. Swiss Agency For Efficient Energy Use S.A.F.E. Available at: http://www.arena-energie.ch/d/_data/EEDAL-ID131_Lifts_Nipkow.pdf. Date of access: 01.03.2013.
  14. Zaytseva T.V. Ekologicheskaya bezopasnost’ ob”ektov zhilishchno-kommunal’nogo khozyaystva. Uchet vliyaniya meropriyatiy po energosberezheniyu i energoeffektivnosti [Environmental Safety of the Objects of Housing and Communal Services. Accounting for the Effects of Energy Saving and Energy Efficiency Measures]. Stroitel’stvo — formirovanie sredy zhiznedeyatel’nosti : sbornik dokladov XVI Mezhdunarodnoy mezhvuzovskoy nauchno-prakticheskoy konferentsii studentov, magistrantov, aspirantov i molodykh uchenykh (24—26 aprelya 2013 g., Moskva). Minobrnauki RF, MGSU [Construction — Forming Living Environment: Book of Reports Of The Sixteenth International Interuniversity Scientific And Practical Conference Of Students, Master And Postgraduate Students And Young Scientists (April, 24—26, 2013)]. Ministry of Education and Science of the Russian Federation, MGSU]. Moscow, MGSU Publ., 2013, no. 3 (6), pp. 596—601. (In Russian)
  15. Zaytseva T.V. Ekologicheskaya bezopasnost’ prirodno-tekhnicheskikh sistem, formiruemykh ob”ektami promyshlennogo, grazhdanskogo i gorodskogo stroitel’stva stroitel’stva [Environmental Security of Natural-Technical Systems Formed by Industrial, Civil and Urban Construction Objects]. Nauchnyy potentsial regionov na sluzhbu modernizatsii : mezhvuzovskiy sbornik nauchnykh statey [Scientific Potential of the Regions on Service of Modernization: Interuniversity Collection of Scientific Articles]. Astrakhan’, GAOU AO VPO «AISI» Publ., 2013, vol. 1, pp. 39—42. (In Russian)
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  17. Doklad rukovoditelya Departamenta prirodopol’zovaniya i okhrany okruzhayushchey sredy Moskvy A.O. Kul’bachevskogo na Kollegii Departamenta, posvyashchennoy itogam raboty v 2012 godu i planam na 2013 god [Report of the Head of the Department of Natural Resources Management and Environmental Protection of Moscow A.O. Kul’bachevskiy on the Department Board Dedicated to the Results of the Work in 2012 and Plans for 2013]. Available at: http://www.dpioos.ru/eco/ru/report_result/o_8635. Date of access: 01.03.2013. (In Russian)
  18. Doklad o sostoyanii okruzhayushchey sredy v gorode Moskve v 2011 godu [Report on the State of the Environment in the City of Moscow in 2011]. Available at: http://www.dpioos.ru/eco/ru/report_result/o_3992. Date of access: 01.11.2012. (In Russian)
  19. Doklad rukovoditelya Departamenta prirodopol’zovaniya i okhrany okruzhayushchey sredy goroda Moskvy A.O. Kul’bachevskogo «Ob osnovnykh napravleniyakh, rezul’tatakh deyatel’nosti Departamenta prirodopol’zovaniya i okhrany okruzhayushchey sredy goroda Moskvy v 2011 godu i zadachakh na 2012 god» [Report of the Head of the Department of Natural Resources Management and Environmental Protection of Moscow A.O. Kul’bachevskiy “On the Main Directions, Results of the work of the Department of Natural Resources and Environmental Protection of the City of Moscow in 2011 and tasks for 2013”]. Available at: http://www.dpioos.ru/eco/ru/report_result/o_4156. Date of access: 01.11.2012. (In Russian)
  20. Gosudarstvennaya programma goroda Moskvy «Energosberezhenie v gorode Moskve» na 2011, 2012—2016 gg.» [The State Program of Moscow “Energy Efficiency in Moscow in 2011, 2012—2016”]. Available at: http://dgkh.mos.ru/the-state-program/realizationof-the-state-programs/moscow-state-program-energosberezhanie-in-the-city-of-moscow-onthe-2011-2012-2016.php?. Date of access: 01.03.2013. (In Russian)
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STATE POLICY FUNDAMENTALS IN FORMATION OF A NATIONAL STANDARD OF "GREEN CONSTRUCTION" FOR ASSESSMENT OF ITEMS OF REAL PROPERTY

Vestnik MGSU 12/2012
  • Kolchigin Mikhail Aleksandrovich - Moscow State University of Civil Engineering (MGSU) assistant lecturer, Department of Construction of Thermal and Nuclear Power Plants, Moscow State University of Civil Engineering (MGSU), 26 Yaroslavskoe shosse, Moscow, 129337, Russian Federation; This e-mail address is being protected from spambots. You need JavaScript enabled to view it .
  • Benuzh Andrey Aleksandrovich - Moscow State University of Civil Engineering (MGSU) engineer, Department of Construction of Thermal and Nuclear Power Plants, Moscow State University of Civil Engineering (MGSU), 26 Yaroslavskoe shosse, Moscow, 129337, Russian Federation; This e-mail address is being protected from spambots. You need JavaScript enabled to view it .

Pages 177 - 181

The authors analyze the problem of implementation of principles of "green construction" in the Russian Federation. Despite the availability of the appropriate legislation in the field of environmental safety of construction, there are no legal, social, or economic incentives that may boost development of "green" technologies.
Until recently, fundamentals of the state policy in the field of environmental protection of real estate development have not succeeded in motivating market players to implement advanced green technologies.
However, recently, the government has begun motivating the construction industry towards the use of "green" technologies. The first activity is aimed at improving the legislation and updating the international voluntary certification according to BREAM and LEED standards.
The result is the acceptance of the National Green Building Standard for real estate valuation that will open up new opportunities and prospects to the participants of the construction market. However, at the initial phase of implementation of "Fundamentals of the State Policy in the Field of Environmental Development of the Russian Federation", government authorities should provide their support to proponents of green buildings, including financial inflows.

DOI: 10.22227/1997-0935.2012.12.177 - 181

References
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  2. Kholopova E.N., Zakharova V.A. Ekologicheskaya ekspertiza: teoriya i praktika pravoprimeneniya [Environmental Review: Theory and Practice of Law Enforcement]. Ekspert kriminalist [Forensic Expert]. 2010, no. 2, pp. 28—32.
  3. Veklenko V.V., Popov I.V. Mesto ugolovnoy otvetstvennosti v sisteme yuridicheskoy otvetstvennosti, vozlagaemoy za ekologicheskie pravonarusheniya [Position of the Criminal Liability in the System of Legal Responsibility Imposed for Environmental Offenses]. Rossiyskiy sledovatel’ [Russian Investigator]. 2007, no. 24, pp. 2—9.
  4. Braun V.K., Polyakov A.N. Ekologicheskaya premiya zastroyshchika [Environmental Bonus for Builders]. Rukovoditel’ stroitel’noy organizatsii [Construction Company Executive]. 2011, no. 1, pp. 14—20.
  5. Telichenko V.I., Potapov A.D., Slesarev M.Yu., Shcherbina E.V. Ekologicheskaya bezopasnost’ stroitel’stva [Environmental Safety of Construction]. Moscow, Arkhitektura-S Publ., 2009, 311 p.
  6. Matiyashchuk S.V. Kommentariy k Federal’nomu zakonu ot 23 noyabrya 2009 g. ¹ 261-FZ «Ob energosberezhenii i o povyshenii energeticheskoy effektivnosti i o vnesenii izmeneniy v otdel’nye zakonodatel’nye akty Rossiyskoy Federatsii» (postateynyy) [Commentary on the Federal Law no. 261-FZ of November 23, 2009 “On Energy Saving and Improvement of Energy Efficiency and on Amendments to Certain Legislative Acts of the Russian Federation” (itemized)]. Moscow, Yustitsinform Publ., 2010, 208 p.
  7. Bol’sherotov A.L. Sistemy otsenki ekologicheskoy bezopasnosti stroitel’stva [Systems of Evaluation of Environmentally Safe Construction]. Moscow, ASV Publ., 2010, 216 p.
  8. Donovan F. Our Uncertain Future: Can Good Planning Create Sustainable Communities? University of Illinois, 2009, pp. 3—7.
  9. Paul F. Downtown Ecopolis: Architecture and Cities for a Changing Climate. Springer, New York, 2009, 628 p.

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Synergetic approach to the ecologization of industrial production

Vestnik MGSU 11/2015
  • Fokina Zoya Titovna - Moscow State University of Civil Engineering (National Research University) (MGSU) Candidate of Philosophic Sciences, Associate Professor, Department of History and Philosophy, Moscow State University of Civil Engineering (National Research University) (MGSU), 26 Yaroslavskoe shosse, 129337, Moscow, Russian Federation; This e-mail address is being protected from spambots. You need JavaScript enabled to view it .
  • Podlesnykh Alisa Igorevna - Moscow State University of Civil Engineering (National Research University) (MGSU) postgraduate student, Department of Engineering Geology and Geoecology, Moscow State University of Civil Engineering (National Research University) (MGSU), 26 Yaroslavskoe shosse, 129337, Moscow, Russian Federation; This e-mail address is being protected from spambots. You need JavaScript enabled to view it .

Pages 130-141

The questions of the relationship between economy and ecology of industrial production were described in the studies of the ecologization of cement production. The prospects of understanding of the production as a global integrated ecological-economic system were shown, the analysis of which should be applied by means of general principles of synergetics and by means of the ideas of the concept of sustainable development. Russia ranks fifth in terms of cement production in the world today. The cement industry is of great importance for the economic development of our country, because it produces the main type of construction materials for housing and industrial complex, and for the construction of infrastructure objects. Cement production is characterized by high resource and energy consumption. A significant increase in the production and consumption of cement causes the aggravation of the environmental situation and disruption to social and natural systems. For the optimization of the functioning of ecological-economic systems, it is necessary to analyze the socio-natural system from the standpoint of the ideas of synergetics. The main distinctive property of ecological-economic systems, which suggest its consideration using synergy, is its openness. The resources and other materials are coming from outside, after that it’s exposed, transformed and comes outside from the production cycle in the form of the final product and then comes to the users. During all stages of processing and during the use of final products the wastes are thrown away from the system. It causes pollution and harm to the ecological system. We can reduce this harm by means of the ideas of synergetics. One of the aspects of the following of the synergetic principles is the comparison of production and natural potentials. In order to achieve the balance it is necessary to carry out the following directions of ecologization of industrial production: recycling - reusing of raw materials and wastes; upgrading of the production, upgrading of the equipment, as well as the development and implementation of various innovative, resource-saving and low-waste technologies; creation and production of products with a longer work life; the improvement of treatment facilities of the cement plants and the use of different filtration and capture systems. It is necessary to note the fact that in practice each of these separated fields is able to solve only one local problem. To reduce environmental capacity of the cement production, we must unite different ways of the dialectic, following the principles of synergetics and methodological pluralism. Thus, there is a synergistic effect, contributing to the optimization of the functioning of ecological-economic systems and the solution of the problem of ecological production. Synergies should be defined as the interaction of two or more factors in which their combined effect significantly exceeds the effect of each individual component of their amount. Only on the basis of a synergistic, comprehensive, integrated approach to the ecologization of industrial production we can greatly reduce the pollution of nature, optimize the functioning of ecological-economic systems and implement the concept of sustainable development.

DOI: 10.22227/1997-0935.2015.11.130-141

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DEVELOPMENT OF ENVIRONMENTALLY SAFE, ENERGY EFFICIENT CELLULAR CONSTRUCTION MATERIAL CORRESPONDING TO THE PRINCIPLES OF GREEN CONSTRUCTION

Vestnik MGSU 3/2018 Volume 13
  • Ketov Petr Aleksandrovich - Perm National Research Polytechnic University (PNRPU) Postgraduate Student, Department of Environmental Protection, Perm National Research Polytechnic University (PNRPU), 29 Komsomol’skiy prospect, Perm, 614990, Russian Federation; This e-mail address is being protected from spambots. You need JavaScript enabled to view it .

Pages 368-377

Foamed glass is one of the most energy efficient construction materials. However, the existing technologies of foamed glass manufacture do not correspond to the principles of green construction because a special sulphate glass is used, produced from natural raw materials, and it causes emission of pollutants at all stages of the life cycle of the material. The resource and energy-saving technology for producing environmentally safe energy-efficient foam glass based on off-grade glass cullet, which is a component of solid municipal waste, has been developed, substantiated and implemented. In solving a particular problem of foam glass production, an algorithm of development of an environmentally safe building material based on or with addition of production and consumption wastes was proposed and approved. This algorithm is consistent with the principles of green construction. Subject: development of the technological scheme of manufacture and recycling of energy efficient cellular material corresponding to the requirements of ecological safety at all stages of its life cycle; proposition of an algorithm that solves the general problem of development of environmentally friendly construction materials and conforms to the principles of green construction. Materials and methods: analysis of existing technical solutions for manufacture and recycling of foam glass from the viewpoint of green construction principles and proposition of alternative environmentally friendly solutions. Results: as a result of elimination of the drawbacks inherent in the existing foam glass at all stages of its life cycle, technical solutions that ensure environmental safety of the material were substantiated. Conclusions: the results can be used for development of construction materials corresponding to the principles of green construction.

DOI: 10.22227/1997-0935.2018.3.368-377

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The structure and content of system engineering modelof sustainable development in the investment and construction activities

Vestnik MGSU 2/2014
  • Sborshchikov Sergey Borisovich - Moscow State University of Civil Engineering (National Research University) (MGSU) Doctor of Economic Sciences, Professor, acting chair, Department of Technology, Organization and Management in the Construction, Moscow State University of Civil Engineering (National Research University) (MGSU), 26 Yaroslavskoe shosse, Moscow, 129337, Russian Federation; This e-mail address is being protected from spambots. You need JavaScript enabled to view it .
  • Lazareva Natal'ya Valer'evna - Moscow State University of Civil Engineering (MGSU) assistant, Department of Organization Technology and Management in Construction, Moscow State University of Civil Engineering (MGSU), 26 Yaroslavskoe shosse, Moscow, 129337, Russian Federation; This e-mail address is being protected from spambots. You need JavaScript enabled to view it .
  • Zharov Yaroslav Vladimirovich - Moscow State University of Civil Engineering (MGSU) assistant, Department of Technology, Management and Administration in the Construction, Moscow State University of Civil Engineering (MGSU), 26 Yaroslavskoe shosse, Moscow, 129337, Russia; This e-mail address is being protected from spambots. You need JavaScript enabled to view it .

Pages 210-218

This article discusses the background and aspects of model management of investment and construction activities (ICA) in order to optimize its processes. This system is designed for efficient management and balanced increase of work amount in the construction, reconstruction and renovation of facilities.The model is based on a systematic approach and the principles of integrated planned development, taking into account the requirements of saving energy and resources, environment, organizational and technical reliability and socio-political stability. Due to the nature of construction operations, as well as the connections with the parameters of sustainable development of the ICA, techno-economic system is characterized as a set of three main functional groups of subsystems: analysis and synthesis, main and auxiliary executive subsystems, resulting subsystems. The interaction of the elements of ICA is investigated: streams of resources and information arising in the course of implementation of projects. Within the article the schemes of functional elements of the ICA system with the description of their interrelations are presented. The systems engineering model of the ICA sustainable development is offered.

DOI: 10.22227/1997-0935.2014.2.210-218

References
  1. Sborshchikov S.B. Teoreticheskie zakonomernosti i osobennosti organizatsii vozdeystviy na investitsionno-stroitel'nuyu deyatel'nost' [Theoretical Patterns and Characteristics of the Impacts Management on Investment and Construction Activity]. Vestnik MGSU [Proceedings of Moscow State University of Civil Engineering]. 2009, no. 2, pp. 183—187.
  2. Sborshchikov S.B. Sistemotekhnicheskoe opisanie problemy razgranicheniya planirovaniya i tekushchey proizvodstvennoy deyatel'nosti v stroitel'nykh organizatsiyakh [System Integrators Description of the Problem Differentiation of Planning and Current Production Action in the Construction Organizations]. Vestnik MGSU [Proceedings of Moscow State University of Civil Engineering]. 2011, vol. 1, no. 1, pp. 215—220.
  3. Kostyuchenko V.V. Upravlenie protsessom povysheniya effektivnosti organizatsionno-tekhnologicheskikh stroitel'nykh sistem [Improving the Efficiency of the Organizational and Technological Building Systems]. Inzhenernyy vestnik Dona [Engineering Proceedings of Don]. 2012, vol.19, no. 1, pp. 18—23.
  4. Aleksanin A.V. Kontseptsiya upravleniya stroitel'nykh otkhodov na baze kompleksnykh i informatsionnykh logisticheskikh tsentrov [The Concept of Construction Waste Management on the Basis of Comprehensive Information and Logistics Centers]. Nauchnoe obozrenie [Scientific Review]. 2013, no. 7, pp. 132—136.
  5. Zharov Ya.V. Uchet organizatsionnykh aspektov pri planirovanii stroitel'nogo proizvodstva v energetike [Accounting for the Organizational Aspects in the Process of Planning Building Production in the Energy Sector]. Promyshlennoe i grazhdanskoe stroitel'stvo [Industrial and Civil Construction]. 2013, no. 5, pp. 69—71.
  6. Pobegaylov O.A., Shemchuk A.V. Sovremennye informatsionnye sistemy planirovaniya v stroitel'stve [Modern Information Systems of Planning in Construction]. Inzhenernyy vestnik Dona [Engineering Proceedings of Don]. 2012, no. 2, pp. 20—25.
  7. Shen W. et al. Systems integration and collaboration in architecture, engineering, construction, and facilities management: A review. Advanced Engineering Informatics. 2010, vol. 24, no. 2, pp. 196—207.
  8. Georges A., Romme L., Gerard Endenburg. Design: Construction Principles and Design Rules in the Case of Circular Design. Organization Science. 2006, vol. 17, no. 2, pp. 287—297. DOI: 10.1287/orsc.1050.0169.
  9. Dossick C., Neff G. Messy Talk and Clean Technology: Communication, Problem-solving and Collaboration using Building Information Modelling. Engineering Project Organization Journal. 2011, vol. 1, no. 2, ðð. 83—93. Online publication date: 16.06. 2011. DOI: 10.1080/21573727.2011.569929.
  10. Park C.S. Comparative Analysis of Strategic Planning in Construction Firms. Journal of Asian Architecture and Building Engineering. 2010, vol. 9, no. 1. pp. 25—30. DOI:10.3130/jaabe.9.25.

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Land resources as objects of investment

Vestnik MGSU 7/2014
  • Zhul'kova Yuliya Nikolaevna - Nizhny Novgorod State University of Architecture and Civil Engineering (NNGASU) Candidate of Economic Scienc- es, Associate Professor, Department of Real Estate, Investments, Consulting and Analysis, Nizhny Novgorod State University of Architecture and Civil Engineering (NNGASU), 65 Il'inskaya St., Nizhny Novgorod, 603950, Russian Federation; This e-mail address is being protected from spambots. You need JavaScript enabled to view it .

Pages 156-165

At the present stage the particular significance is gained by operational solutions of the problems of engaging in economic turnover of free land as a fundamental investment resource for socio-economic development of country and particular regions. The lack of obvious progress and positive dynamics of the main socio-economic indicators characterizing the growth tendency of living standard of the population and economy predetermines an essential demand in measures for effective use of land potential as a whole and in particular regions. One of the possible options for progressive social and economic development is the need for integration into the active circulation of land as an investment resource, to ensure the continued effective functioning and development facilities as well as the search for new approaches to the formation of the real estate market. With the development of land it makes sense to combine the three concepts: "development", "territory" and "quality". Thus, the qualitative development of the territory is a natural transition of land plots, which are in state, municipal, private or other forms of ownership to more perfect forms providing the ability to meet modern requirements of the market. It is expedient to apply the mechanism of combination of administrative and market ways of regulation of the specified processes to realize public policy objectives of efficient use of land fund. The mechanism for combining the efforts of the state, social and financial sectors of economy will allow to resolve most effectively the issues of ensuring the quality offered by natural and legal entities of the land plots, creating a network of infrastructures by forces of public sector, investor or through the public-private partnership, as well as enhancing the investment attractiveness of the territory. Due to the implementation of these tasks, involvement of land plots in economic circulation is accelerated and intensity of the processes of functioning of the land market increases. It provides the impulse to the development of the industrial complex, the solution of socially significant problems of housing and increase of life quality indicators of the population.

DOI: 10.22227/1997-0935.2014.7.156-165

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INFLUENCE OF RANDOM FACTORS ON THE TRAJECTORY OF THE SUSTAINABLE DEVELOPMENT OF INVESTMENT AND CONSTRUCTION ACTIVITY AT HIERARCHY LEVELS

Vestnik MGSU 10/2015
  • Sborshchikov Sergey Borisovich - Moscow State University of Civil Engineering (National Research University) (MGSU) octor of Economic Sciences, Candidate of Technical Sciences, Head of Department of Technology, Organization and Management in Construction, Moscow State University of Civil Engineering (National Research University) (MGSU), 26 Yaroslavskoe shosse, Moscow, 129337, Russian Federation.
  • Lazareva Natal’ya Valer’evna - Moscow State University of Civil Engineering (National Research University) (MGSU) Assistant Lecturer, Department of Technology, Organization and Management in the Construction, Moscow State University of Civil Engineering (National Research University) (MGSU), 26 Yaroslavskoe shosse, Moscow, 129337, Russian Federation.

Pages 162-170

Identification of the random component in the development of investment and construction activities play an important role in forecasting future conditions, as well as in determining the optimal technical and economic parameters of the system. In this regard, the task of the hierarchy level of an investment and construction activity is to set the range of possible trajectories and the likelihood of their realization. This is one of the possibilities to justify decisions aimed at bringing investment and construction activities to the path of sustainable growth. As part of the article common technical and economic systems and their constituents are discussed: certain elements (for example: construction production), the task of which is to speed up the overall process of economic growth. The creation principles of controllable economic impacts were formed, which are the driving force of the overall steady growth, which is particularly important in planning and management as a whole, as well as in the design of development trajectories. We described the required conditions for priority development of those elements of the system, which accelerate its overall growth. The Influence System (organizer of the construction) affects the dynamics of growth of the system (contractor). The scientific findings of the article describe the entropy of the probability space of sustained growth of investment and construction activities at a timepoint. Knowing the probability space of the growth of investment and construction activities and identification of entropy can be a useful tool for practical forecasting and planning of the construction and management systems at the levels of the hierarchy.

DOI: 10.22227/1997-0935.2015.10.162-170

References
  1. Volkov A.A., Losev Yu.G., Losev K.Yu. Informatsionnaya podderzhka zhiznennogo tsikla ob”ektov stroitel’stva [Information Support of Construction Project Lifecycle]. Vestnik MGSU [Proceedings of Moscow State University of Civil Engineering]. 2012, no. 11, pp. 253—258. (In Russian)
  2. Construction Owner Association of Alberta. Available at: http://www.coaa.ab.ca. Date of access: 09.07.2015.
  3. Zaguskin N.N. Osnovnye napravleniya razvitiya investitsionno-stroitel’noy deyatel’nosti v Rossii [The Main Directions of the Development of Investment and Construction Activities in Russia]. Ekonomicheskoe vozrozhdenie Rossii [Economic Revival of Russia]. 2012, no. 4 (34), pp. 135—141. (In Russian)
  4. Ng S.T., Fan R.Y.C., Wong J.M.W. An Econometric Model for Forecasting Private Construction Investment in Hong Kong. Construction Management and Economics. 2011, vol. 29, no. 5, pp. 519—534. DOI: http://dx.doi.org/10.1080/01446193.2011.570356.
  5. Shen L., Tam V.W.Y., Tam L., Ji Y. Project Feasibility Study: The Key to Successful Implementation of Sustainable and Socially Responsible Construction Management Practice. Journal of Cleaner Production. 2010, vol. 18, no. 3, pp. 254—259. DOI: http://dx.doi.org/10.1016/j.jclepro.2009.10.014.
  6. Sborshchikov S.B. Organizatsionnye osnovy ustoychivogo razvitiya energeticheskogo stroitel’stva [Institutional Framework for Sustainable Development of Energy Sector Construction]. Vestnik MGSU [Proceedings of Moscow State University of Civil Engineering]. 2010, no. 4, vol. 2, pp. 363—368. (In Russian)
  7. Mamedov Sh.M. Sistematizatsiya priznakov konkurentosposobnosti stroitel’noy organizatsii [Classification of the Competitiveness Signs of a Construction Organization]. Ekonomicheskoe vozrozhdenie Rossii [Economic Revival of Russia]. 2010, no. 2, pp. 84—89. (In Russian)
  8. Zharov Ya.V. Organizatsionno-tekhnologicheskoe proektirovanie pri realizatsii investitsionno-stroitel’nykh proektov [Process Organization Design within the Framework of Construction Projects]. Vestnik MGSU [Proceedings of Moscow State University of Civil Engineering]. 2013, no. 5, pp. 176—184. (In Russian)
  9. Zhang J.P., Hu Z.Z. BIM-and 4D-Based Integrated Solution of Analysis and Management for Conflicts and Structural Safety Problems During Construction: 1. Principles and Methodologies. Automation in Construction. 2011, vol. 20, no. 2, pp. 155—166. DOI: http://dx.doi.org/10.1016/j.autcon.2010.09.013.
  10. Lee N., Ponton R., Jeffreys A.W., Cohnet R. Analysis of Industry Trends for Improving Undergraduate Curriculum in Construction Management Education. ASC Proceedings of the 47th Annual International Conference, Omaha, NE, April 2011. Available at: http://www.engineering.unl.edu/durhamschool/events/ascconference2011/. Date of access: 21.01.2015.
  11. Sacks R., Pikas E. Building Information Modeling Education for Construction Engineering and Management. I: Industry Requirements, State of the Art, and Gap Analysis. Journal of Construction Engineering and Management. 2013, vol. 139, no. 11, pp. 196—201. DOI: http://dx.doi.org/10.1061/(ASCE)CO.1943-7862.0000759.
  12. Lukmanova I.G., Nezhnikova E.V. Perspektivnye napravleniya povysheniya kachestva v stroitel’stve [Perspective Directions of Quality Improvement in the Construction]. Promyshlennoe i grazhdanskoe stroitel’stvo [Industrial and Civil Engineering]. 2012, no. 12, pp. 81—83. (In Russian)
  13. Kutsygina O.A., Panaetova V.V. Tsenoobrazovanie v stroitel’stve i zhilishchno-komunal’nom khozyaystve s ispol’zovaniem metodov upravleniya zatratami [Pricing in the Construction and Housing and Communal Services Using Methods of Cost Management]. Promyshlennoe i grazhdanskoe stroitel’stvo [Industrial and Civil Engineering]. 2011, no. 10, pp. 60—61. (In Russian)
  14. Sborshchikov S.B. Logistika reguliruyushchikh vozdeystviy v investitsionno-stroitel’noy sfere (teoriya, metodologiya, praktika) : dissertatsiya doktora ekonomicheskikh nauk [Logistics of Control Actions in the Field of Investment and Construction (Theory, Methodology, Practice). Dissertation of the Doctor of Economical Sciences]. Moscow, 2012, 328 p. (In Russian)
  15. Artamonova Yu.S., Khrustalev B.B., Savchenkov A.V. Formirovanie innovatsionnoy strategii razvitiya regional’nykh stroitel’nykh kompleksov [Formation of innovative Development Strategy for Regional Building Complexes]. Izvestiya Penzenskogo gosudarstvennogo pedagogicheskogo universiteta im. V.G. Belinskogo [News of Penza State Pedagogical University named after V.G. Belinsky]. 2011, no. 24, pp. 168—170. (In Russian)
  16. Sborshchikov S.B. Teoreticheskie zakonomernosti i osobennosti organizatsii vozdeystviy na investitsionno-stroitel’nuyu deyatel’nost’ [Theoretical Patterns and Characteristics of Organizing Impacts on Investment and Construction Activity]. Vestnik MGSU [Proceedings of Moscow State University of Civil Engineering]. 2009, no. 2, pp. 183—187. (In Russian)
  17. Sborshchikov S.B., Lazareva N.V., Zharov Ya.V. Teoreticheskie osnovy mnogomernogo modelirovaniya ustoychivogo razvitiya investitsionno-stroitel’noy deyatel’nosti [Theoretical Bases of Multidimensional Modeling of Sustainable Development in Investment and Construction Activities]. Vestnik MGSU [Proceedings of Moscow State University of Civil Engineering]. 2014, no. 6, pp. 165—171. (In Russian)
  18. Aleksanin A.V. Kontseptsiya upravleniya stroitel’nykh otkhodov na baze kompleksnykh i informatsionnykh logisticheskikh tsentrov [Concept of Construction Waste Management on the Basis of Integrated Information and Logistics Centers]. Nauchnoe obozrenie [Scientific Review]. 2013, no. 7, pp. 132—136. (In Russian)
  19. Klyuev V.D., Zhuravlev P.A., Levchenko A.V. Metodicheskiy podkhod k sozdaniyu informatsionno-analiticheskikh sistem stoimostnogo monitoringa v stroitel’stve [Methodical Approach to the Creation of Information-Analytical Systems for Value Monitoring in the Construction]. Nauchnoe obozrenie [Scientific Review]. 2014, no. 1, pp. 214—218. (In Russian)
  20. Zhuravlev P.A., Klyuev V.D., Evseev V.G. Ispol’zovanie kvalimetricheskogo podkhoda dlya otsenki konkurentosposobnosti investitsionnykh stroitel’nykh proektov [Using Qualimetric Approach to Assess the Competitiveness of Investment Projects]. Nauchnoe obozrenie [Scientific Review]. 2014, no. 9, pp. 209—214. (In Russian)
  21. Ermolaev E.E. Upravlenie potrebitel’noy stoimost’yu ob”ektov stroitel’stva [Management of the Use Value of Construction Projects]. Gumanitarnye i sotsial’nye nauki [The Humanities and social sciences]. 2013, no. 3. Available at: http://www.hses-online.ru/2013/03/08_00_05/03.pdf. Date of access: 21.01.2015. (In Russian)
  22. Ermolaev E.E. Osobennosti opredeleniya fiksirovannoy stoimosti stroitel’stva v ramkakh gosudarstvennykh program [Features of Determining the Fixed Cost of Construction under Government Programs]. Vestnik universiteta (Gosudarstvennyy universitet upravleniya) [University Bulletin (State University of Management)]. 2013, no. 11, pp. 35—38. (In Russian)
  23. Popkov A.G. Autstaffing kak sposob upravleniya personalom [Outstaffing as a Way of Personnel Management]. Vestnik MGSU [Proceedings of Moscow State University of Civil Engineering]. 2009, no. 1, pp. 241—244. (In Russian)
  24. Sborshchikov S.B., Popkov A.G. Novye organizatsionnye metody formirovaniya podsistemy kadrovogo obespecheniya stroitel’nogo proizvodstva v usloviyakh inzhiniringovoy skhemy upravleniya [New Organizational Methods of Forming Staffing Subsystem for Building Production in the Conditions of the Engineering Management Schemes]. Vestnik MGSU [Proceedings of Moscow State University of Civil Engineering]. 2010, no. 2, pp. 22—30. (In Russian)
  25. Sborshchikov S.B., Lazareva N.V., Zharov Ya.V. Matematicheskoe opisanie informatsionnogo vzaimodeystviya v investitsionno-stroitel’noy deyatel’nosti [Mathematical Description of Information Interaction in Investment and Construction Activities]. Vestnik MGSU [Proceedings of Moscow State University of Civil Engineering]. 2014, no. 5, pp. 170—175. (In Russian)

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Cost engineering as the basis for integration of the processes of planning, financing and pricing in investment and construction activity

Vestnik MGSU 11/2015
  • Sborshchikov Sergey Borisovich - Moscow State University of Civil Engineering (National Research University) (MGSU) Doctor of Economic Sciences, Professor, acting chair, Department of Technology, Organization and Management in the Construction, Moscow State University of Civil Engineering (National Research University) (MGSU), 26 Yaroslavskoe shosse, Moscow, 129337, Russian Federation; This e-mail address is being protected from spambots. You need JavaScript enabled to view it .
  • Lazareva Natal’ya Valer’evna - Moscow State University of Civil Engineering (National Research University) (MGSU) Assistant Lecturer, Department of Technology, Organization and Management in the Construction, Moscow State University of Civil Engineering (National Research University) (MGSU), 26 Yaroslavskoe shosse, Moscow, 129337, Russian Federation; This e-mail address is being protected from spambots. You need JavaScript enabled to view it .

Pages 178-185

Current trends in the science and practice of construction indicate the ability to control the economic means of phenomena and processes occurring in the area of investment and construction activities, towards the realization of sustainable development goals. In this regard, the subsystem of planning, funding and pricing implement the problems of resource maintenance of the building complex on the hierarchy levels, the maintenance of homeostatic equilibrium of the system, as well as measure the effectiveness and profitability of production and ensuring processes. The purpose of the article is the search for capability to determine the impact, which are the change in prices for certain types of material and technical resources or reduction of unit costs. Our results are aimed at creating a model for cost control (costs, profit) of an investment and construction project and the development of theoretical foundations of value engineering. Another result of the article is an equation with which you can simulate the effects of intensity changes of individual streams, such as pay increase under certain conditions of construction, changes in the income of an enterprises and other. The features of the article include the recording of the construction hierarchy levels at each time point which depends on the concentration of a certain amount of labor, equipment and the volume of material resources, an optimal distribution between objects and areas of activity, reducing material costs and improving productivity constant. In this case, not only an objective necessity is considered, but also crucial prerequisite for sustainable development. The use of these factors leads to a decrease in the cost of construction of the object as a result of productivity growth and is reflected in the implementation of the final price of construction products.

DOI: 10.22227/1997-0935.2015.11.178-185

References
  1. Volkov A.A., Losev Yu.G., Losev K.Yu. Informatsionnaya podderzhka zhiznennogo tsikla ob”ektov stroitel’stva [Information Support of Construction Project Lifecycle]. Vestnik MGSU [Proceedings of Moscow State University of Civil Engineering]. 2012, no. 11, pp. 253—258. (In Russian)
  2. De la Garza J.M., Rouhana K.G. Neural Networks Versus Parameter-Based Applications in Cost Estimating. Cost Engineering. 1995, vol. 37, no. 2, pp. 14—18.
  3. Zaguskin N.N. Osnovnye napravleniya razvitiya investitsionno-stroitel’noy deyatel’nosti v Rossii [The Main Directions of Development of Investment and Construction Activities in Russia]. Ekonomicheskoe vozrozhdenie Rossii [Economic Revival of Russia]. 2012, no. 4 (34), pp. 135—141. (In Russian)
  4. Thomas Ng.S., Fan R.Y.C., Wong J.M.W. An Econometric Model for Forecasting Private Construction Investment in Hong Kong. Construction Management and Economics. 2011, vol. 29, no. 5, pp. 519—534. DOI: http://dx.doi.org/10.1080/01446193.2011.570356.
  5. Shen L., Tam V.W.Y., Tam L., Ji Y. Project Feasibility Study: the Key to Successful Implementation of Sustainable and Socially Responsible Construction Management Practice. Journal of Cleaner Production. 2010, vol. 18, no. 3, pp. 254—259. DOI: http:// dx.doi.org/10.1016/j.jclepro.2009.10.014.
  6. Sborshchikov S.B. Organizatsionnye osnovy ustoychivogo razvitiya energeticheskogo stroitel’stva [Organizational Bases for Sustainable Development of Power Plant Construction]. Vestnik MGSU [Proceedings of Moscow State University of Civil Engineering]. 2010, no. 4, vol. 2, pp. 363—368. (In Russian)
  7. Mamedov Sh.M. Sistematizatsiya priznakov konkurentosposobnosti stroitel’noy organizatsii [Classification of Competitiveness Features of a Construction Organization]. Ekonomicheskoe vozrozhdenie Rossii [Economic Revival of Russia]. 2010, no. 2, pp. 84—89. (In Russian)
  8. Zhang J.P., Hu Z.Z. BIM and 4D-based Integrated Solution of Analysis and Management for Conflicts and Structural Safety Problems during Construction: 1. Principles and Methodologies. Automation in Construction. 2011, vol. 20, no. 2, pp. 155—166. DOI: http://dx.doi.org/10.1016/j.autcon.2010.09.013.
  9. Lee N., Ponton R., Jeffreys A.W., Cohn R. Analysis of Industry Trends for Improving Undergraduate Curriculum in Construction Management Education. ASC Proceedings of the 47th Annual International Conference, Omaha, NE, April 2011. Available at: http://www.engineering.unl.edu/durhamschool/events/ascconference2011/. Date of access: 03.06.2015.
  10. Sacks R., Pikas E. Building Information Modeling Education for Construction Engineering and Management. I: Industry Requirements, State of the Art, and Gap Analysis. Journal of Construction Engineering and Management. 2013, vol. 139, no. 11, pp. 196—201. DOI: http://dx.doi.org/10.1061/(ASCE)CO.1943-7862.0000759.
  11. Dey P.K. Project Risk Management: A Combined Analytic Hierarchy Process and Decision Tree Approach. Cost Engineering. 2002, vol. 44, no. 3, pp. 13—27.
  12. Kutsigina O.A., Panaetova V.V. Tsenoobrazovanie v stroitel’stve i zhilishchno-komunal’nom khozyaystve s ispol’zovaniem metodov upravleniya zatratami [Pricing in the Construction and Housing and Communal Services using Methods of Cost Management]. Promyshlennoe i grazhdanskoe stroitel’stvo [Industrial and Civil Engineering]. 2011, no. 10, pp. 60—61. (In Russian)
  13. Sborshchikov S.B., Lazareva N.V. Sistemotekhnicheskoe opisanie nauchno-tekhnicheskogo obespecheniya investitsionno-stroitel’noy deyatel’nosti [System Technical Description of Scientific and Technical Supply of Investment and Construction Activity]. Vestnik Tomskogo gosudarstvennogo arkhitekturno-stroitel’nogo universiteta [Vestnik of Tomsk State University of Architecture and Building]. 2014, no. 3 (44), pp. 210—215. (In Russian)
  14. Artamonova Yu.S., Khrustalev B.B., Savchenkov A.V. Formirovanie innovatsionnoy strategii razvitiya regional’nykh stroitel’nykh kompleksov [Formation of Innovative Strategy of Development of the Regional Building Complex]. Izvestiya Penzenskogo gosudarstvennogo pedagogicheskogo universiteta im. V.G. Belinskogo [News of Penza State Pedagogical University]. 2011, no. 24, pp. 168—170. (In Russian)
  15. Sborshchikov S.B. Teoreticheskie zakonomernosti i osobennosti organizatsii vozdeystviy na investitsionno-stroitel’nuyu deyatel’nost’ [Theoretical Regularities and Features of Impacts on Investment and Construction Activity Organization]. Vestnik MGSU [Proceedings of Moscow State University of Civil Engineering]. 2009, no. 2, pp. 183—187. (In Russian)
  16. Sborshchikov S.B., Lazareva N.V., Zharov Ya.V. Teoreticheskie osnovy mnogomernogo modelirovaniya ustoychivogo razvitiya investitsionno-stroitel’noy deyatel’nosti [Theoretical Bases of Multidimensional Modeling of Sustainable Development in Investment and Construction Activities]. Vestnik MGSU [Proceedings of Moscow State University of Civil Engineering]. 2014, no. 6, pp. 165—171. (In Russian)
  17. Aleksanin A.V. Kontseptsiya upravleniya stroitel’nykh otkhodov na baze kompleksnykh i informatsionnykh logisticheskikh tsentrov [Concept of Construction Waste Management on the Basis of Comprehensive Information and Logistics Centers]. Nauchnoe obozrenie [Scientific Review]. 2013, no. 7, pp. 132—136. (In Russian)
  18. Klyuev V.D., Zhuravlev P.A., Levchenko A.V. Metodicheskiy podkhod k sozdaniyu informatsionno-analiticheskikh sistem stoimostnogo monitoringa v stroitel’stve [Methodical Approach to the Creation of Information-Analytical Systems for Monitoring the Value in Construction]. Nauchnoe obozrenie [Scientific Review]. 2014, no. 1, pp. 214—218. (In Russian)
  19. Klyuev V.D., Zhuravlev P.A., Evseev V.G. Ispol’zovanie kvalimetricheskogo podkhoda dlya otsenki konkurentosposobnosti investitsionnykh stroitel’nykh proektov [Using Qualimetric Approach to Assess the Competitiveness of Investment Projects]. Nauchnoe obozrenie [Scientific Review]. 2014, no. 9 (2), pp. 637—640. (In Russian)
  20. Ermolaev E.E. Upravlenie potrebitel’noy stoimost’yu ob”ektov stroitel’stva [Management of the Use Value of Construction Objects]. Gumanitarnye i sotsial’nye nauki (elektronnyy zhurnal) [The Humanities and Social Sciences (Electronic Journal)]. 2013, no. 3, pp. 5—11. (In Russian)
  21. Ermolaev E.E. Osobennosti opredeleniya fiksirovannoy stoimosti stroitel’stva v ramkakh gosudarstvennykh programm [Features of Determining the Fixed Cost of Construction under Government Programs]. Vestnik universiteta (Gosudarstvennyy universitet upravleniya) [University Bulletin (State University of Management)]. 2013, no. 11, pp. 35—38. (In Russian)
  22. Popkov A.G. Novye organizatsionnye metody formirovaniya podsistemy kadrovogo obespecheniya stroitel’nogo proizvodstva v usloviyakh inzhiniringovoy skhemy upravleniya [New Organizational Methods of Forming Subsystem of Staffing of Building Production in the Conditions of the Engineering Management Schemes]. Vestnik MGSU [Proceedings of Moscow State University of Civil Engineering]. 2010, no. 2, pp. 22—30. (In Russian)
  23. Sborshchikov S.B., Lazareva N.V., Zharov Ya.V. Matematicheskoe opisanie informatsionnogo vzaimodeystviya v investitsionno-stroitel’noy deyatel’nosti [Mathematical Description of Information Interaction in Investment and Construction Activities]. Vestnik MGSU [Proceedings of Moscow State University of Civil Engineering]. 2014, no. 5, pp. 170—175. (In Russian)

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FORMATION OF INFORMATIVE AND INNOVATIVE BASIS OF THE SUSTAINABLE DEVELOPMENT OF INVESTMENT AND CONSTRUCTION COMPLEX

Vestnik MGSU 4/2016
  • Uvarova Svetlana Sergeevna - Voronezh State University of Architecture and Civil Engineering (Voronezh GASU) Doctor of Economical Sciences, Associate Professor, Department of Economy and Bases of Entrepreneurship, Voronezh State University of Architecture and Civil Engineering (Voronezh GASU), 84 20-letiya Oktyabrya str., Voronezh, 394006, Russian Federation; This e-mail address is being protected from spambots. You need JavaScript enabled to view it .
  • Belyaeva Svetlana Viktorovna - Voronezh State University of Architecture and Civil Engineering (Voronezh GASU) Candidate of Economical Sciences, Associate Professor, Department of Economy and Bases of Entrepreneurship, Voronezh State University of Architecture and Civil Engineering (Voronezh GASU), 84 20-letiya Oktyabrya str., Voronezh, 394006, Russian Federation; This e-mail address is being protected from spambots. You need JavaScript enabled to view it .
  • Panenkov Andrey Anatol’evich - Voronezh State University of Architecture and Civil Engineering (Voronezh SUACE) postgraduate student, Department of Economy and Fundamentals of Entrepreneurship, Voronezh State University of Architecture and Civil Engineering (Voronezh SUACE), ; This e-mail address is being protected from spambots. You need JavaScript enabled to view it .

Pages 130-139

The authors determined the trends of sustainable development of the complex and the limitations obstructing them. The dynamics of investment and construction complex is considered as a self-organization process basing on information interchange, which allowed presenting a conceptual scheme and lifecycle of the changes in the system as a process of accumulation and dynamics of different innovations. The theoretical assumptions on the essence of the management process were proved thanks to empirical analysis of control system changes of investment and construction complex basing on the model of converging development spiral.

DOI: 10.22227/1997-0935.2016.4.130-139

References
  1. Silka D.N. Mechanisms to Actuate Growth in Conditions of Stagnation of Russian Economy. World Applied Sciences Journal. 2014, vol. 31, no. 1, pp. 148—150. DOI: http://dx.doi.org/10.5829/idosi.wasj.2014.31.01.14289.
  2. «Ekspert» — innovatsii : sbornik analiticheskikh materialov [“Expert” — Innovations : Collection of Analytical Materials]. RAEX («Ekspert RA»). Available at: http://raexpert.ru/researches/expert-inno/. Date of access: 12.02.2016. (In Russian)
  3. Tsay T.N., Grabovyy P.G., Marashda Bassam Sayel. Konkurentsiya i upravlenie riskami na predpriyatiyakh v usloviyakh rynka [Competition and Risk Management at the Enterprises in Market Conditions]. Moscow, Alans Publ., 1997, 288 p. (In Russian)
  4. Lapidus A.A. Potentsial effektivnosti organizatsionno-tekhnologicheskikh resheniy stroitel’nogo ob”ekta [Efficiency Potential of Management and Technical Solutions for a Construction Object]. Vestnik MGSU [Proceedings of Moscow State University of Civil Engineering]. 2014, no. 1, pp. 175—180. (In Russian)
  5. Rodionova S.V. Razrabotka metodiki otsenki effektivnosti organizatsionnykh innovatsiy s tochki zreniya kommunikatsionnogo podkhoda [Efficiency Estimation Method of Organizational Innovations in the Context of Communicational Approach]. Vestnik MGSU [Proceedings of Moscow State University of Civil Engineering]. 2015, no. 6, pp. 131—139. (In Russian)
  6. Vedin N.V. Postindustrial’naya transformatsiya ekonomicheskikh sistem: problema teoreticheskoy rekonstruktsii [The Post-Industrial Transformation of Economic Systems: The Problem of Theoretical Reconstruction]. Vestnik TISBI [Proceedings of TISBI]. 2013, no. 4 (56), pp. 31—44. Available at: http://www.tisbi.org/assets/Site/Science/Documents/413/vedin45.pdf. Date of access: 10.11.2015. (In Russian)
  7. Kolodyazhnyy S.A., Uvarova S.S., Belyaeva S.V., Vlasenko V.A., Panenkov A.A. Organizatsionno-ekonomicheskie izmeneniya investitsionno-stroitel’nogo kompleksa na innovatsionnoy osnove kak protsess obespecheniya ego ustoychivogo razvitiya [Organizational-Economic Changes in the Investment and Construction Complex on Innovation Basis as a Process to Ensure Its Sustainable Development]. Voronezh, VGASU Publ., 2014, 146 p. (In Russian)
  8. Papel’nyuk O.V., Romashova S.V. Obosnovanie spetsifiki innovatsionnoy deyatel’nosti malykh stroitel’nykh predpriyatiy v sisteme gosudarstvennogo stroitel’nogo zakaza [Substantiation of the Specifics of the Innovation Activities of Small Construction Companies in the System of State Order in the Construction]. Ekonomika i predprinimatel’stvo [Economy and Entrepreneurship]. 2014, no. 11—2 (52—2), pp. 598—600. (In Russian)
  9. Gumba Kh.M., Mamaev M.I. Kontseptual’nye osnovy formirovaniya ustoychivykh konkurentnykh preimushchestv [Conceptual Bases of the Formation of Sustainable Competitive Advantages]. Izvestiya Irkutskoy gosudarstvennoy ekonomicheskoy akademii (Baykal’skiy gosudarstvennyy universitet) [Baikal Research Journal]. 2014, no. 1, article 11. Avalable at: http://eizvestia.isea.ru/reader/article.aspx?id=18736. (In Russian)
  10. Inshakov O.V. Homo institutius — Chelovek institutsional’nyy [Homo institutius — Institutional Human]. Volgograd, VslGU Publ., 2005, 854 p. (In Russian)
  11. Abdeev R.F. Filosofiya informatsionnoy tsivilizatsii : Dialektika progressivnoy linii razvitiya kak gumannaya obshchechelovecheskaya filosofiya dlya XXI v. [Philosophy of information civilization : Dialectics of the Progressive Development Line as a Humane Filosophy of the Humankind for the 21st Century]. Moscow, Gumanitarnyy izdatel’skiy tsentr «VLADOS» Publ., 1994, 335 p. (In Russian)
  12. Sborshchikov S.B., Lazareva N.V. Stoimostnoy inzhiniring kak osnova integratsii protsessov planirovaniya, finansirovaniya i tsenoobrazovaniya v investitsionnostroitel’noy deyatel’nosti [Cost Engineering as the Basis for Integration of the Processes of Planning, Financing and Pricing in Investment and Construction Activity]. Vestnik MGSU [Proceedings of Moscow State University of Civil Engineering]. 2015, no. 11, pp. 178—185. (In Russian)
  13. Uvarova S.S., Papel’nyuk O.V., Panenkov A.A. Kontseptual’nye i metodicheskie aspekty upravleniya innovatsionnym razvitiem stroitel’nogo predpriyatiya v proektsii teorii organizatsionno-ekonomicheskikh izmeneniy [Conceptual and Methodological Aspects of the Management of Innovative Development of a Building Enterprise in the Projection of the Theory of Organizational and Economic Changes]. Ekonomika i predprinimatel’stvo [Economy and Entrepreneurship]. 2015, no. 3—2 (56—2), pp. 809—811. (In Russian)
  14. Fedos’ina A.V. Metody snizheniya riskov innovatsionnykh protsessov [Methods to Reduce the Risks of Innovation Processes]. Aktual’nye problemy menedzhmenta predpriyatiy investitsionno-stroitel’noy sfery : sbornik trudov [Current Problems of Companies Management of Investment and Construction Sector]. Moscow, MGSU Publ., 2010, no. 4, pp. 103—111. (In Russian)
  15. Khokhlov N.V. Upravlenie riskom [Risk Mnagement]. Moscow, YuNITI Publ., 1999, 239 p. (In Russian)

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Cost management as basis of harmonious approaches to the development of the construction business

Vestnik MGSU 11/2016
  • Matveev Nikita Mikhaylovich - Moscow State University of Civil Engineering (National Research University) (MGSU) external doctorate student, Department of Economy and Management in Construction, Moscow State University of Civil Engineering (National Research University) (MGSU), 26 Yaroslavskoe shosse, Moscow, 129337, Russian Federation.

Pages 114-123

The management of construction companies’ development is rarely aimed at harmonization of business and at the development of the ways of its sustainable development. Case studies and the application scope for harmonization as an approach allowing systematic and balanced development of business showed its practical relevance. The use of this approach allows not only correlating the objectives, clarifying the mission, structuring the problems, or determining the optimal salary of employees, but also correlating the costs to each other, which is particularly important in light of the need for rapid transformation of the building production methods. They are based on competent use of system properties of the systems. The properties of emergence, resonance, measurability, and others are of particular importance. Their accounting allows achieving the optimal cost outlay required in the process of investment and construction activities. It complies with the requirements and conditions of the market economy. The mentioned advantages of the use of harmonization technologies to ensure the stability and sustainability of investment and construction activities enable to confirm the hypothesis of the impossibility to achieve the optimum cost, for example, for the implementation of an investment and construction project without implementation of the system properties of a harmonious approach.

DOI: 10.22227/1997-0935.2016.11.114-123

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Real estate space-territorial development

Vestnik MGSU 1/2015
  • Sarchenko Vladimir Ivanovich - Moscow State University of Civil Engineering (MGSU) Candidate of Economic Sciences, Doctoral student, Department of Economy and Management in Construction Water Supply, Moscow State University of Civil Engineering (MGSU), 26 Yaroslavskoe shosse, Moscow, 129337, Russian Federation; +7 (495) 287-49-19; This e-mail address is being protected from spambots. You need JavaScript enabled to view it .

Pages 103-111

Urbanization is one of the main sustainable tendencies of modern development. The contemporary state of real estate structure is characterized by high level of heterogeneity. In general, the consolidated design document of Moscow urban development, reconstruction and other forms of developing city territories doesn’t take into account the main tendencies of social and economic development, change of scales and structure of city production capacities, priorities of national economy development, or demand particularities, traditional and perspective preferences of citizens of different categories. The article focuses on systematization of basics of real estate space-territorial development strategic analysis. The author analyses the essence of analytical methods, their purpose, levels and analysis projections. The article emphasizes the estimation of economic effectiveness and revelation of urban environment development reserves.

DOI: 10.22227/1997-0935.2015.1.103-111

References
  1. Glazychev V.L. Strategiya razvitiya kak iskusstvo vybora prioritetov [Development Strategy as Art of Choosing Priorities]. Politiya [Polity]. 2012, no. 1 (64), pp. 147—164. (In Russian)
  2. Giffinger R. Territorial Capital — Understanding and Challenges for a Knowledge Based Strategic Approach. Territorium. 2008, no. 8, pp. 7—15.
  3. Yas’kova N.Yu. Instrumentariy obespecheniya kachestva gorodskoy sredy [Tools of Providing the Quality of City Environment]. Vestnik Irkutskogo gosudarstvennogo tekhnicheskogo universiteta [Vestnik of Irkutsk State Technical University]. 2013, no. 10 (81), pp. 380—382. (In Russian)
  4. Yas’kova N.Yu. Sovremennye formaty strategii razvitiya gorodskoy nedvizhimosti [Modern Forms of City Real Estate Development Strategies]. Nauchnoe obozrenie [Science Review]. 2014, no. 7-1, pp. 392—396. (In Russian)
  5. Gertsberg L.Ya. Kachestvo gorodskoy sredy: problemy proektirovaniya i realizatsii [Quality of City Environment: Problems of Design and Implementation]. Gradostroitel’stvo [Urban Development]. 2013, no. 2 (24), pp. 29—33. (In Russian)
  6. Ahlke B., Perner A., Schön K.P. The Future of European Spatial Development Policy II Research Review. Federal Institute for Research on Building, Urban Affairs and Spatial Development. 2010, no. 21, pp. 2—5.
  7. Riguelle F., Thomas I., Verhetsel A. Measuring Urban Polycentrism: A European Case Study and its Implications. Journal of Economic Geography. 2007, vol. 7, issue 2, pp.193—215. DOI: http://dx.doi.org/10.1093/jeg/lbl025.
  8. Larionov A.N. Problemy formirovaniya teorii i realizatsii praktiki stroitel’stva «zhivogo doma» v Rossiyskoy Federatsii [The Problems of Theory Formation and Practice Implementation of the Construction of “Alive House” in the Russian Federation]. Ekonomika i upravlenie narodnym khozyaystvom [Economy and Management of the National Economy]. 2014, no. 1/2 (30/31), pp. 46—59. (In Russian)
  9. Larionov A.N. Metodologicheskiy podkhod k optimizatsii ekologichnogo zhilishchnogo stroitel’stva [Methodological Approach to Ecological Housing Construction Optimization]. Vestnik Instituta ekonomiki RAN [Proceedings of the Economics Institute Of RAS]. 2009, no. 34, pp. 197—210. (In Russian)
  10. Yas’kova N.Yu., Matveeva M.V. Innovatsionnyy fokus investitsionnoy deyatel’nosti v ramkakh modernizatsii natsional’noy ekonomiki [Innovational Focus of the Investment Activity in Frames of National Economy Modernization]. Ekonomichniy chasopis-XXI [Economical Journal-21]. 2014, vol. 1, no. 1—2, pp. 42—45. (In Russian)
  11. Coiacetto E. Industry Structure in Real Estate Development: Is City Building Competitive? Urban Policy and Research. 2009, vol. 27, no. 2, pp. 117—135. DOI: http://dx.doi.org/10.1080/08111140802499080.
  12. Potapov A.D., Senyushchenkova I.M., Novikova O.O., Gudkova E.A. Problema ispol’zovaniya gorodskikh narushennykh territoriy [Problem of Use of Disturbed Urban Areas]. Vestnik MGSU [Proceedings of Moscow State University of Civil Engineering]. 2012, no. 9, pp. 197—202. (In Russian)
  13. Sadovnikova N.P., Sanzhapov B.Kh., Gnedkova E.P. Razrabotka kontseptsii sistemy podderzhki prinyatiya resheniy po obespecheniyu ekologicheskoy bezopasnosti razvitiya gorodskikh territoriy [Concept Development of Support System of Decision Making on Ecological Safety of City Area Development]. Vestnik Volgogradskogo gosudarstvennogo arkhitekturno-stroitel'nogo universiteta [Internet Proceedings of Volgograd State University of Architecture and Civil Engineering]. 2011, no. 25, pp. 427—432.
  14. Khaynish S.V. Menedzhment i biznes v slabostrukturirovannom mire: Aktual’nye secheniya, paradoksy, resheniya (iz opyta upravlencheskogo konsul’tirovaniya) [Management and Business in Poorly Structures World: Current Sections, Paradoxes, Solutions (According to the Experience of Management Consulting)]. Moscow, Editorial URSS, 2014, 704 p. (In Russian)
  15. Kerzner H. Project Management Metrics, KPIs, And Dashboards: A Guide to Measuring and Monitoring Project Performance. Wiley, 2011, 379 p.
  16. Pyhrr S.A., Born W.L., Webb J.R. Development of a Dynamic Investment Strategy under Alternative Inflation Cycle Scenarios. Journal of Real Estate Research. 1990, vol. 5, no. 2, pp. 177—194.
  17. Krushlinskiy V.I., Sarchenko V.I. Genplan i kachestvo sredy goroda [General Layout and City Environment Quality]. Krasnoyarsk, SFU Publ., 2014, 122 p. (In Russian)
  18. Smart S.B., Gitman L.J., Joehnk M.D. Fundamentals of Investing. 12th edition. 2013, Prentice Hall, 672 p.
  19. Friedman J.P., Ordway N. Income Property Appraisal and Analysis. Englewood Cliffs, N.J. : Prentice Hall, 1989, 474 p.
  20. Schmitz A., Peck S., Engebretson P. The New Shape of Suburbia. Trends in Residential Development. Washington, D.C., ULI — the Urban Land Institute, 2003, 221 p.

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Cyclic “deja vu” of real estate industry development paradigms

Vestnik MGSU 1/2015
  • Yas’kova Natal’ya Yur’evna - Moscow State University of Civil Engineering (National Research University) (MGSU) Doctor of Economic Sciences, Professor, Department of Economy and Management in the Construction, Moscow State University of Civil Engineering (National Research University) (MGSU), 26 Yaroslavskoe shosse, Moscow, 129337, Russian Federation; This e-mail address is being protected from spambots. You need JavaScript enabled to view it .

Pages 112-119

The practical projections of cyclic theories are of a great interest. Our preferences moved again from apartment houses and vertical cities to low-rise buildings. Circles set the development vector for natural, human sciences and sciences on society. The article researches the problem of cyclic development of scientific schools and their innovation ideas in the sphere of space-territory property development. The phases of the cycle were researched on the example of Bauhaus architecture school. This enables to reveal the demands and specifics of the development of new technological platforms, as well as to create the effective formats of public-private partnership. Cyclicity of business activity development under the conditions of awareness of the evolution of senses of interdisciplinary approaches utilization permits to produce the adequate development paradigm.

DOI: 10.22227/1997-0935.2015.1.112-119

References
  1. Yas’kova N.Yu., Sergeev I.M., Polinov A.A. Nezavershennoe stroitel’stvo i virtual’nyy ekonomicheskiy rost [Construction in Progress and Virtual Economic Growth]. Ekonomika stroitel’stva [Construction Economy]. 2004, no. 8, pp. 2—13. (In Russian)
  2. Yas’kova N.Yu. Tendentsii razvitiya stroitel’nykh korporatsiy v novykh usloviyakh [Development Trends of Construction Corporations in New Environment]. Nauchnoe obozrenie [Scientific Review]. 2013, no. 6, pp. 174—178. (In Russian)
  3. Yas’kova N.Yu. Razvitie kontseptual’nykh polozheniy upravleniya protsessami investitsionno-stroitel’noy deyatel’nosti [Development of Conceptual Provisions of Process Management in Investment and Construction Activities]. Vestnik IrGTU [Bulletin of Irkutsk State Technical University]. 2012, no. 11(70), pp. 278—280. (In Russian)
  4. Droste M. Baukhauz (1919—1933). Reforma i avangard [Bauhaus Bauhaus 1919—1933. Reform and Avant-garde]. Translated from French by Yu.Yu. Kotova. Moscow, Art-Rodnik Publ., 2008, 96 p. (In Russian)
  5. Kharshak M. «Baukhaus» — mesto, gde rodilsya dizayn [Bauhaus — a Place Where Design Was Born]. Advertology.Ru. Available at: http://www.advertology.ru/article13833.html. Date of access: 15.12.2014. (In Russian)
  6. Gropius W. Granitsy arkhitektury [Boundaries of Architecture]. Translated from English by A.S. Pinsker, V.R. Aronov, V.G. Kalish. Moscow, Iskusstvo Publ., 1971, 286 p. (In Russian)
  7. Samin K.D. 100 velikikh arkhitektorov [100 Grear Architects]. Moscow, Veche Publ., 2001, 385 p. (In Russian)
  8. Rakhmanova A. Baukhauz 90 let spustya [Bauhaus 90 Years Later]. Deutsсhe Welle. 2009. Available at: http://dw.de/p/HMNP/. Date of access: 15.12.2014. (In Russian)
  9. Yakobi A., Khartman G., Dendra G. Baukhauz segodnya : lektsiya v ramkakh programmy OVERVIEWM [Bauhaus Today : a Lecture in Frames of the Program OVERVIEWM]. Vysshaya shkola arkhitektury Dessau [Higher School of Architecture DIA]. Transkated from German by O.T. Ivanova. 2008. Available at: http://archi.ru/events/1490/vysshaya-shkola-arhitektury-dessau-dia-bauhaus-segodnya-alfred-yakobi-gunnart-hartman-daniel-dendra-germaniya/. Date of access: 15.12.2014. (In Russian)
  10. Koveshnikova N.A. Dizayn: istoriya i teoriya [Design: History and Theory]. Moscow, Omega-L Publ., 2009, 224 p. (In Russian)
  11. Meyer H. Bauen und Gesellschaft. Schriften, Briefe, Projekte. Dresden, VEB Verlag der Kunst Dresden, 1980, 412 s.
  12. Semina A. Obratim remeslo na blago iskusstva [Let Us Turn Craft for the Benefit of Art]. Daydzhest nedvizhimosti [Real Estate Digest]. 2014, no. 8 (95), pp. 59—64. (In Russian)
  13. Kuznetsov O.L., Bol'shakov B.E. Ustoychivoe razvitie: universal'nyy printsip sinteza estestvennykh, tekhnicheskikh i sotsial'nykh znaniy [Sustainable Development: The Universal Principle of the Synthesis of Natural, Technical and Social Knowledge]. Ustoychivoe razvitie: nauka i praktika [Sustainable Development: Science and Practice]. 2009, no. 1 (2), pp. 1—12. (In Russian)
  14. Yas’kova N.Yu. Mekhanizmy investirovaniya v ustoychivoe razvitie [Mechanisms of Investing in Sustainable Development]. Ekonomika stroitel’stva [Construction Economy]. 2010, no. 2, pp. 40—45 (In Russian)
  15. Yas’kova N.Yu., Matveeva M.V. Innovatsionnyy fokus investitsionnoy deyatel’nosti v ramkakh modernizatsii natsional’noy ekonomiki [Innovative Focus of Investment Activity in the Framework of National Economy Modernization]. Ekonomichniy chasopis-XXI [Economy Journal-21]. 2014, vol. 1, no. 1—2, pp. 42—45. (In Russian)

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ANALYSIS OF THE CONCEPT OF "GREEN" CONSTRUCTION AS A VEHICLE TO ENSURE THE ENVIRONMENTAL SAFETY OF CONSTRUCTION ACTIVITIES

Vestnik MGSU 12/2012
  • Benuzh Andrey Aleksandrovich - Moscow State University of Civil Engineering (MGSU) engineer, Department of Construction of Thermal and Nuclear Power Plants, Moscow State University of Civil Engineering (MGSU), 26 Yaroslavskoe shosse, Moscow, 129337, Russian Federation; This e-mail address is being protected from spambots. You need JavaScript enabled to view it .
  • Kolchigin Mikhail Aleksandrovich - Moscow State University of Civil Engineering (MGSU) assistant lecturer, Department of Construction of Thermal and Nuclear Power Plants, Moscow State University of Civil Engineering (MGSU), 26 Yaroslavskoe shosse, Moscow, 129337, Russian Federation; This e-mail address is being protected from spambots. You need JavaScript enabled to view it .

Pages 161 - 165

The authors demonstrate that the number of buildings in the world exceeds one billion according to the statistical data; their potential negative impact on the environment can be disastrous; moreover, the main cause of the ever-growing demand for buildings consists in the constant growth of the world population that makes the global environmental situation even more complicated.
As a main conception, the authors focus on the concept of sustainable development. They consider that the core idea of this concept is that the present-day generation should do everything in their power to preserve the natural environment and its resources for the future generations. The authors mention that back in the middle of the 20th century academician V.I. Vernadsky formulated the concept of the noosphere closely linked to the notion of sustainable development.
According to the authors, "green" construction can be considered as a vehicle for sustainable development of territories that accommodate construction sites. The authors define "green" construction as a comprehensive system of knowledge structured on the basis of design and construction standards. "Green" buildings demonstrate their high construction quality along with minimal costs and maximal comfort. Although a "green" technology is a new and not the simplest way of development, it has proven its incredible efficiency.
The major achievement of the authors consists in the classification of principles, approaches and available technologies that can be applied or are applied in the "green" construction to ensure the environmental safety of construction activities. The authors have also selected environmental, economic and social benefits of "green" construction and provided their recommendations concerning the implementation of "green" technologies in Russia.

DOI: 10.22227/1997-0935.2012.12.161 - 165

References
  1. Guarnieri Timothy J. The Real Cost of Sustainable Development. AACE International Transactions, 2008, pp. 1—7.
  2. Telichenko V.I., Potapov A.D., Slesarev M.Yu., Shcherbina E.V. Ekologicheskaya bezopasnost’ stroitel’stva [Environmental Safety of Construction]. Moscow, Arkhitektura-S Publ., 2009, 311 p.
  3. Telichenko V.I. Ot ekologicheskogo i «zelenogo» stroitel’stva — k ekologicheskoy bezopasnosti stroitel’stva [From Ecological and “Green” Construction to Environmental Safety of Construction]. Promyshlennoe i grazhdanskoe stroitel’stvo [Industrial and Civil Engineering] 2011, no 2, pp. 47—51.
  4. Lockwood C. Building the Green Way. Harvard Business Publishing, 2006, pp. 129—135.
  5. Amanjeet Singh, Matt Syal, Sue C. Grady, Sinem Korkmaz. Effects of Green Buildings on Employee Health and Productivity, Am J Public Health, 2010, pp. 1665—1668.
  6. Ya. Roderick, David McEwan, Craig Wheatley, Carlos Alonso. A Comparative Study of Building Energy Performance. Building simulation, 2010, pp. 1167—1176.
  7. Alexia Nalewaik, Valerie Venters. Costs and Benefi ts of Green Building. AACE International Transactions. 2008, pp. 248—256.

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GREEN TECHNOLOGIES OF LIVING ENVIRONMENT: CONCEPTS, TERMS, STANDARDS

Vestnik MGSU 4/2017 Volume 12
  • Telichenko Valeriy Ivanovich - Moscow State University of Civil Engineering (National Research University) (MGSU) Doctor of Technical Sciences, Professor, Honored Worker of Science of the Russian Federation, President, Moscow State University of Civil Engineering (National Research University) (MGSU), 26 Yaroslavskoe shosse, Moscow, Russian Federation, 129337.

Pages 364-372

The article deals with the main principles, concepts, terms that characterize the scientific approach to the formation of a safe and comfortable living environment on the basis of the development and wide application of the sustainable development principles in urban development practice. Definitions of the basic concepts related to the tasks of developing green technologies of the living environment are proposed. The purpose of the study is to select methodological tools for creating a national system of green standardization and certification of urban development objects. This requires technical regulation and standardization; analysis and management of object life cycles; integrated safety, building materials science; energy efficiency and energy saving; development and application of green standards; BIM-technology; rating systems of green certification; construction systems. It is established that the main characteristics that define the “green technologies” concept are energy efficiency, safety, non-wasting, comfort. The factors preventing the achievement of the stated purposes are shown. Positive shifts in this direction and examples of practical implementation of voluntary certification systems for urban development projects have been noted.

DOI: 10.22227/1997-0935.2017.4.364-372

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