ARCHITECTURE AND URBAN DEVELOPMENT. RESTRUCTURING AND RESTORATION

Approach to defining the urban development borders of an area on the example of Kuzbass

Vestnik MGSU 1/2016
  • Samoylova Nadezhda Aleksandrovna - Moscow State University of Civil Engineering (National Research University) (MGSU) councellor, Central Office of the Government of the Russian Federation, councellor, Russian Academy of Architecture and Construction Sciences, Assistant Lecturer, Department of Building Design and Urban Planning, Moscow State University of Civil Engineering (National Research University) (MGSU), 26, Yaroslavskoye shosse, Moscow, Russia, 129337, Russian Federation; This e-mail address is being protected from spambots. You need JavaScript enabled to view it .

Pages 7-21

ON THE EXAMPLE OF KUZBASS The contemporary urban planning problems are of multifaceted character and are directly relevant to fundamental aspects of the development of the society - social sphere, economy, land and property relations, material environment and its safety, preservation of historical and cultural heritage, ecology. In spacial planning aspect urban planning is, first of all, planning and design, including scientifically justified legal regulation, spatial organization of territorial objects (of a country and its regions, settlements, components of planning structure: planning centers, axes, zones, etc., separate land plots), i.d. forecast of their future state - use, development or reconstruction. All these should be included into town planning documentation. The author specified the range of problematic urban planning issues, which refer to urban border areas. The methods, mechanisms and measures to define urban border areas including several interdependent urban and rural settlements situated in different city regions are offered using the example of Kuzbass. The backgrounds for the creation of BIM system for planning, design, construction and further management and operation of infrastructure objects are created within the formed urban border areas of coal mining.

DOI: 10.22227/1997-0935.2016.1.7-21

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  24. Federal’nyy konstitutsionnyy zakon № 12-FKZ ot 21.07.2014. O vnesenii izmeneniy v Federal’nyy konstitutsionnyy zakon «O prinyatii v Rossiyskuyu Federatsiyu Respubliki Krym i obrazovanii v sostave Rossiyskoy Federatsii novykh sub”ektov — Respubliki Krym i goroda federal’nogo znacheniya Sevastopolya» [Federal Constitutional Law “On Admission of Republic of Crimea into Russian Federation and Formation of New Constituent Territories within the Russian Federation — Republic of Crimea and a City of Federal Value Sevastopol”]. (In Russian)
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THE IMPACT OF INFORMATION MODELLING TECHNOLOGY ON THE DEVELOPMENT OF INVESTMENT-CONSTRUCTION PROCESS

Vestnik MGSU 7/2018 Volume 13
  • Churbanov Aleksey Evgenievich - Saint Petersburg State University of Architecture and Civil Engineering (SPSUACE) Candidate of sciences (economy), Associate Professor, Chair of Economics of entrepreneurship and innovation, Saint Petersburg State University of Architecture and Civil Engineering (SPSUACE), 4 2nd Krasnoarmeyskaya st., Saint-Petersburg, 190005, Russian Federation.
  • Shamara Yury Alekseevich - Investment and Engineering Holding, Kubanskaya Oil and Gas Company Ltd. (“KNGK Group” Ltd.) Candidate of sciences (economy), First Vice-President, Investment and Engineering Holding, Investment and Engineering Holding, Kubanskaya Oil and Gas Company Ltd. (“KNGK Group” Ltd.), off. 500, 117/1 Budennogo st., Krasnodar, 350000, Russian Federation.

Pages 824-835

Subject: transformation of relations between participants of investment and construction process and their documentation due to accelerated introduction of BIM modeling technology and its spread to the full lifecycle of the construction object. Research objectives: study of the composition and structure of the unified digital environment formed on the basis of technological platform of information modeling in construction, and analysis of the current state of affairs in this area in the Russian Federation; research of directions and mechanisms of transformation of the investment and construction process in terms of two currently used models of implementation of investment and construction projects: disintegrated procurement and integrated procurement models. Materials and methods: systematic approach, statistical and comparative analysis and method of expert assessments were used. Results: we have established a three-component composition of a unified digital environment in construction, including technological platform based on BIM-modeling technology, and in relation to a specific object - its information model; information and analytical systems associated with the BIM-model and providing its information content and updating; banks of normative, technical and methodological documentation. The following directions of investment and construction process transformation are identified: • early involvement of the construction contractor in the project; • extended application of integrated engineering models; • strengthening the role of unified state customers in the construction system for state needs; • implementation of the mechanism of documented partnership between the participants of investment and construction projects. Conclusions: the main direction of development of the investment and construction process in the digital environment, formed on the BIM technology platform, is the formation of mechanisms for in-depth cooperation of participants of investment and construction projects at all stages of the object’s lifecycle on the basis of a wide application of integrated engineering contracts, centralization of management in the system of public procurement and development of partnership mechanisms on the basis of multilateral partnership agreements made by the participants of investment and construction projects. Implementation of these mechanisms will require the appropriate development of regulatory, technical and methodological bases, as well as amendments to existing legislation related to public-private partnerships and public procurement.

DOI: 10.22227/1997-0935.2018.7.824-835

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Investment component in bim implementation projects

Vestnik MGSU 2/2016
  • Bachurina Svetlana Samuilovna - Plekhanov Russian University of Economics (PRUE) Doctor of Economic Sciences, Executive Secretary, Expert Council on town-planning activity at State Duma Committee on Construction and Land Relations, Professor, Department of Project and Program Management, Plekhanov Russian University of Economics (PRUE), 36 Stremyannyy pereulok, Moscow, 117997, Russian Federation; This e-mail address is being protected from spambots. You need JavaScript enabled to view it .
  • Golosova Tat’yana Sergeevna - Plekhanov Russian University of Economics (PRUE) postgraduate student, Department of Project and Program Management, Plekhanov Russian University of Economics (PRUE), 36 Stremyannyy pereulok, Moscow, 117997, Russian Federation; This e-mail address is being protected from spambots. You need JavaScript enabled to view it .

Pages 126-134

This article considers building information modeling (BIM) maturity levels as an ability to operate BIM technology both at an individual project and across the enterprise. The main indicator of BIM implementation maturity is the level of technological and organizational changes in a company. 3 levels of BIM maturity according to BIM Task Group are shown. This article shows some basic criteria of effective BIM-technology implementation. The core transformation is process reengineering, which gives a vector to all subsequent changes including conversion of organizational structure and material and technical equipment. In this regard, the early stages of BIM implementation major cost falls on process reengineering, especially on the transition from CAD to BIM. The radical conversion of work processes entails a review of the staff of the company in terms of the structure and qualification. Other types of BIM implementation investments for the subsequent stages of the project consist of the costs on structural changes, staff education, technical provision and infrastructure development. In order to estimate the investment in the process of implementing BIM all of the costs must be presented in monetary equivalent. This process is complicated by the necessity of converting high-quality information and time parameters, so it is advisable to appeal to the expert evaluation of the data. In addition to monetary costs of the implementation process there are some immeasurable ones. It is vital to take into account the losses associated with the absence of employees in the workplace at the time of re-education, as well as the costs of the process of evaluating the effectiveness of BIM.

DOI: 10.22227/1997-0935.2016.2.126-134

References
  1. A Report for the Government Construction Client Group Building Information Modelling (BIM) Working Party Strategy Paper. March 2011.
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  3. Talapov V.V. Osnovy BIM: vvedenie v informatsionnoe modelirovanie zdaniy [Bases of BIM: Introducation into Building Information Modeling]. Moscow, DMK Press Publ., 2011, 392 p. (In Russian)
  4. Grakhov V.P., Mokhnachev S.A., Ishtryakov A.Kh. Razvitie sistem BIM proektirovaniya kak element konkurentosposobnosti [Development of BIM Design Systems as an Element of Competitiveness]. Sovremennye problemy nauki i obrazovaniya [Contemporary Problems of Science and Education]. 2015, no. 1-1. Available at: http://www.science-education.ru/ru/article/view?id=17950. (In Russian)
  5. Jernigan F. BIG BIM little bim. Second edition. Salisbury, 4 Site Press, 2008, 328 p.
  6. Miller R., Strombom D., Iammarino M., Black B. The Commercial Real Estate Revolution: Nine Transforming Keys to Lowering Costs, Cutting Waste, and Driving Change in a Broken Industry. John Wiley & Sons, 2009, 352 p.
  7. Kozlov I.M. Informatsionnoe modelirovanie pri sozdanii blokov nes”emnoy opalubki [Information Modeling in the Creation of Permanent Form Blocks]. SAPR i grafika [CAD and Grafics]. 2010, no. 4 (162), pp. 4—10. (In Russian)
  8. Chetverik N.P. Poetapnoe vnedrenie tekhnologiy informatsionnogo modelirovaniya (BIM) v stroitel’noy sfere [Stepwise Implementation of BIM in the Construction Field]. Stroitel’nye materialy, oborudovanie, tekhnologii XXI veka [Construction Materials, Equipment, Technologies of the 21st Century]. 2014, no. 12 (191), pp. 44—47. (In Russian)
  9. Rumyantseva E.V., Manukhina L.A. BIM-tekhnologii: podkhod k proektirovaniyu stroitel’nogo ob”ekta kak edinogo tselogo [BIM Technologies: Approach to the Design of a Construction Objects as a Whole]. Sovremennaya nauka: aktual’nye problemy i puti ikh resheniya [Contemporary Science: Current Problems and Ways of their Solution]. 2015, no. 5 (18), pp. 33—36. (In Russian)
  10. Adizes I. Managing Corporate Lifecycles. Prentice Hall Press; Revised edition, 1999, 460 p.
  11. Hambling A.C. Evaluation and Control of Training. Maidenhead, McGraw-Hill, 1974, 176 p.
  12. Bachurina S.S., Golosova T.S. Skvoznoe BIM-proektirovanie — osnova vozvrata investitsiy [End-to-End BIM Design as a Basis for Return on Investment]. Sovremennye problemy upravleniya proektami v investitsionno-stroitel’noy sfere i prirodopol’zovanii : sbornik trudov 5-y Mezhdunarodnoy nauchno-prakticheskoy konferentsii (g. Moskva, 10 aprelya 2015 g.)[Contemporary Problems of Project Management in Investment and Construction Sphere and Nature Management : Collection of Works of the 5th International Science and Practice Conference (Moscow, April 10th, 2015)]. Moscow, IPO «Grif i K» Publ., 2015, pp. 13—18. (In Russian)
  13. Holland R., Messner J., Parfitt K., Poerschke U., Pihlak M., Solnosky R. Integrated Design Courses Using BIM as the Technology Platform, Academic Best Practices. Implementing BIM into Higher Education Curriculum, National Institute of Building Sciences, Annual Meeting : EcoBuild America Conference 2010, December, 7. Washington, DC.
  14. Spryzhkov A.M., Privorotskiy D.S., Privorotskaya E.V. Mezhdistsiplinarnaya integratsiya BIM I IPD v vysshem professional'nom obrazovanii [Cross-Disciplinary Integration of BIM and IPD in Higher Professional Education]. Izvestiya Samarskogo nauchnogo tsentra Rossiyskoy akademii nauk [News of Samara Scientific Center of the Russian Academy of Sciences]. 2015, vol. 17, no. 1-2, pp. 348—351. (In Russian)

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Operation algorithm of the information system of improving organizational and technological reliability of construction projects using energy efficient technologies

Vestnik MGSU 10/2016
  • Ginzburg Aleksandr Vital’evich - Moscow State University of Civil Engineering (MGSU) (National Research University) Doctor of Technical Sciences, Professor, chair, Department of Information Systems, Technologies and Automation in Construction, Moscow State University of Civil Engineering (MGSU) (National Research University), 26 Yaroslavskoe shosse, Moscow, 129337, Russian Federation; This e-mail address is being protected from spambots. You need JavaScript enabled to view it .
  • Ryzhkova Anastasiya Igorevna - Moscow State University of Civil Engineering (MGSU) (National Research University) postgraduate student, Department of Information Systems, Technologies and Automation in Construction, Moscow State University of Civil Engineering (MGSU) (National Research University), 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 main source for the development of construction projects with energy-efficient technologies in use is investments. The traditional approaches of risk management: insurance, diversification and redundancy only raise the cost of the construction project, which has a negative impact on the investor’s decision to invest. In order to solve this problem an information system has been developed, which is based on the principle of insightful analysis of the potential “pure” risks and a list of recommendations of risk management. This tool allows identifying all the weaknesses of a construction project, improving the organizational and technological reliability, and imparting an understanding to the investor / a customer of the resources required for the project implementation.

DOI: 10.22227/1997-0935.2016.10.112-119

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Problem solving on the basis of information models of buildings

Vestnik MGSU 9/2012
  • Ignatova Elena Valentinovna - Moscow State University of Civil Engineering (MGSU) Candidate of Technical Sciences, Associate Professor, Department of Information Systems, Technology and Automation in Civil Engineering 8 (499) 182-66-38, 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 241 - 246

The author considers the potential of information models of buildings exemplified by the application
of Allplan technologies. Consecutive stages of research and problems under consideration
are described. The efficiency of different tools and approaches are discussed.
At the first stage, standard Allplan tools are analyzed. At the second stage, the problem of
integration and interoperability of different software programmes is analyzed. At the third stage,
the attempt to further the functional capabilities of the software programme by developing supplementary
plug-ins is made. At the fourth stage, compilation of electronic passports of buildings is
considered. The article deals with the prospects for the development of the information technology
of building models.

DOI: 10.22227/1997-0935.2012.9.241 - 246

References
  1. Ignatova E.V. BIM-aktual’naya tendentsiya v avtomatizatsii proektirovaniya [BIM as a Relevant Trend in Computer Aided Design]. Vestnik MGSU [Proceedings of Moscow State University of Civil Engineering]. 2009, Special Issue, pp. 225 — 226.
  2. Ignatov V.P., Ignatova E.V. Analiz napravleniy issledovaniy, osnovannykh na kontseptsii informatsionnogo modelirovaniya stroitel’nykh ob”ektov [Analysis of Lines of Research Based on the Concept of Information Modeling of Buildings]. Vestnik MGSU [Proceedings of Moscow State University of Civil Engineering]. 2011, no. 1, vol.1, pp. 325 — 330.
  3. Ignatov V.P., Ignatova E.V. Effektivnoe ispol’zovanie informatsionnoy modeli stroitel’nogo ob”ekta [Building Information Model: Effective Use]. Vestnik MGSU [Proceedings of Moscow State University of Civil Engineering]. 2011, no. 1, vol.1, pp. 321 — 324.

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INFORMATION SUPPORT OF LIFE CYCLES OF CONSTRUCTION FACILITIES

Vestnik MGSU 11/2012
  • Volkov Andrey Anatolevich - Moscow State University of Civil Engineering (MGSU) Doctor of Technical Sciences, Professor, Chair, Department of Information Systems, Technology and Automation in Civil Engineering, 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 .
  • Losev Yuriy Grigorevich - Staryy Oskol Branch of Moscow State Institute of Steel and Alloys (MISIS) Candidate of Technical Sciences, Associate Professor, Chair, Department of Industrial and Сivil Engineering, Staryy Oskol Branch of Moscow State Institute of Steel and Alloys (MISIS), 42 Makarenko District, Staryy Oskol, 309516, Russian Federation; This e-mail address is being protected from spambots. You need JavaScript enabled to view it .
  • Losev Konstantin Yurevich - Moscow State University of Civil Engineering (MGSU) Candidate of Technical Sciences, Associate Professor, Department of Information Systems, Technology and Automation 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 .

Pages 253 - 258

The authors have completed a research project that consists in the study of scientific and
technological fundamentals of an innovative construction technology that incorporates elements
of Product Life Cycle Management (PLM-elements) applied to low-rise buildings. Unified Modeling
Language (UML) has been applied to describe domain models of the construction technology. The
concept of low-rise construction that has PLM elements is based on a common information netspace
and a unified information model of a construction facility, or a BIM model. The BIM model
is developed on the basis of the Autodesk platform using Revit Suite software. The processes of
Product Data Management support are operated by PLM/PDM system, such as Lotsia PDM Plus
software. The main conclusion has been made that the implementation of the above technology is
only possible for an industrial cluster of low-rise residential buildings. Development of the above
cluster is a separate theoretical and practical challenge.

DOI: 10.22227/1997-0935.2012.11.253 - 258

References
  1. Ferronskaya A.V., editor. Gips v maloetazhnom stroitel’stve [Gypsum in Low-rise Construction]. Moscow, ASV Publ., 2008, pp. 169—178.
  2. Neyshtadt A. UML i unifi tsirovannyy protsess: prakticheskiy ob”ektno-orientirovannyy analiz i proektirovanie [UML and Unifi ed Process: Practical Object-orientated Analysis and Design]. Moscow, Lori Publ., 2008, 624 p.
  3. Lantsov A.L. Komp’yuternoe proektirovanie zdaniy [Computer Aided Design of Buildings]. Moscow, Foyli Publ., 2009, 619 p.
  4. Lotsia PDM Plus, Manual. Moscow, Lotsiya Softvea Publ., 2009, 268 p.
  5. Gromyko Yu.V. Chto takoe klastery i kak ikh sozdavat’? Epistemotekhnologicheskiy podkhod [What Are Clusters and How Can They Be Developed? An Epistemological Approach]. Al’manakh «Vostok» [“The East” Almanac]. 2007, no. 1(42). Available at: http://www.situation.ru/app/j_art_1178.htm. Date of access: 01.08.2012.
  6. Losev Yu.G., Losev K.Yu. Formirovanie podsistem prinyatiya resheniy gibkogo avtomatizirovannogo proizvodstva ob»ektov stroitel›stva [Formation of Decision Making Sub-systems for Systems of Flexible Computer-aided Production of Construction Facilities]. Promyshlennoe i grazhdanskoe stroitel’stvo [Industrial and Civil Engineering]. 2005, no. 10, pp. 36—37.
  7. Losev Yu.G., Losev K.Yu. Tekhnologiya informatsionnoy podderzhki innovatsionnoy stroitel’noy sistemy. III-y etap: «Issledovanie podsistemy IPI MZhS STS «EKODOM» na real’nom SO» [Technology of Information Support of an Innovative Construction Technology. 3rd stage. Research of Operation of Ecodom Sub-system Applicable to Real Construction Facilities]. Nauchno-tekhnicheskiy otchet (zaklyuchitel’nyy) vypolneniya III etapa Gosudarstvennogo kontrakta ¹ P1457. Federal’naya tselevaya programma «Nauchnye i nauchno pedagogicheskie kadry innovatsionnoy Rossii» na 2009—2013 gg. [Scientific and Technical Report (Final Report) of Completion of the 3d Stage of the State Contract no. P1457. Federal Target-oriented Programme “Research and Academic Training Staff of Innovative Russia in 2009—2013]. Moscow, MISIS Publ., 234 p.
  8. Malakhov V.I. Kontraktnye modeli vnedreniya investitsionnykh i stroitel’nykh proektov [Contractbased Models of Implementation of Investment and Construction Projects]. Available at: http://www.cfin.ru. Date of Access: 30.09.2009.
  9. Arakcheev D.V. Analiticheskoe i programmno-tekhnologicheskoe obespechenie podderzhki adaptatsii administrativnykh resheniy v ekologicheskom menedzhmente [Analytical, Software and Engineering Support of Adjustment of Administrative Decisions in Environmental Management]. Dubna, 2005, 23 p.
  10. Volkov A.A., Shul’zhenko S.N. Issledovanie i sistematizatsiya faktorov, vliyayushchikh na organizatsionnye i tekhnologicheskie usloviya stroitel’stva podzemnykh kommunikatsiy [Research and Systematization of Factors of Infl uence onto Organizational and Technological Conditions of Construction of Underground Utilities]. Vestnik MGSU [Proceedings of Moscow State University of Civil Engineering]. 2011, no. 6, pp. 491—500.

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Решение задач на основе информационной модели здания

Vestnik MGSU 9/2012
  • Игнатова Елена Валентиновна - Московский государственный строительный университет (ФГБОУ ВПО «МГСУ») доцент, кандидат технических наук, доцент кафедры информационных систем, технологий и автоматизации в строительстве (ИСТАС) 8(499)182-66-38, Московский государственный строительный университет (ФГБОУ ВПО «МГСУ»), 129337, г. Москва, Ярославское шоссе, д. 26; This e-mail address is being protected from spambots. You need JavaScript enabled to view it .

Pages 241 - 246

Проанализированы возможности использования технологии на примере работы с программным комплексом Описаны этапы исследования и решаемые задачи.
Обсуждена эффективность различных инструментов и методик.

DOI: 10.22227/1997-0935.2012.9.241 - 246

References
  1. Игнатова Е.В. BIM-актуальная тенденция в автоматизации проектирования // Вестник МГСУ. 2009. Спецвып. 1. С. 225-226.
  2. Игнатов В.П., Игнатова Е.В. Анализ направлений исследований, основанных на концепции информационного моделирования строительных объектов // Вестник МГСУ. 2011. № 1. Т. 1 С. 325-330.
  3. Игнатов В.П., Игнатова Е.В. Эффективное использование информационной модели строительного объекта // Вестник МГСУ. 2011. № 1. Т. 1 С. 321-324.

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