METHODOLOGICAL APPROACH TO PLANNING THE RECONSTRUCTION OF URBAN ENVIRONMENT
Abstract
The article substantiates the need for a comprehensive multidimensional reconstruction of the territories of cities and settlements, caused by social, urban planning and economic reasons. For effective planning of the reconstruction of sections of the urban environment, a systematic approach is proposed as a leading methodology, which allows one to design interrelated solutions for the reorganization of various objects of the urban environment in order to bring them in line with current norms and modern requirements. At the same time, sections of the urban environment are presented in the form of a complex hierarchical system - a system-integrated urban planning education - and are expressed by a subject structure with components and objects included in it. Physical deterioration, obsolescence, "technical comfort" are taken as indicators of the effectiveness of the functioning and development of a system-integrated urban planning education. Based on a systematic approach, a stratified mathematical model for the choice of options for actions, technical and technological solutions has been developed when designing the reconstruction of urban areas with minimization of resource consumption.
References
Kievsky, I. L., Kievsky, L. V., Argunov, S. V. (2018). Multiple effects of renovation. Renovation. Large scale urban dispersed building project. Russian school, Moscow.
Kasyanov, V.F., Chernysheva, O.I. (2016). Reconstruction as a form of city development. Scientific Review, no. 12.
Ilyichev, V.A., Kolchunov, V.I., Timofeeva, E.A., Bakaeva, N.V. (2016). Reconstruction of urban areas and engineering structures according to the principle of biosphere compatibility. Water supply and sanitary engineering, no. 3.
Rimshin, V.I., Kimyaeva, E.V. (2017). Comprehensive renovation of the southern microdistrict of the Lobnya urban district of the Moscow region. Housing construction, no. 12.
Lunyakov, M.A., Grabovy, P.G. (2017). Genesis and evolution of a single-industry city and the main directions of its modernization. Publishing house MISI-MGSU, Moscow.
Silka, D.N., Lukmanova, I.G., Afanasev, A.A., Kasyanov, M.A. (2015). Synchronization of processes related to economic activity with stages of development of spatially-organized systems. International. Journal of Economics and Financial Issues, vol. 5, no. 3.
Schreiber, K.A. (2008). Technology and organization of repair and construction production. ASV Publishing House, Moscow.
Novikov, D.A. (2016). Cybernetics: Navigator. History of cybernetics, current state, development prospects. LENAND, Moscow.
Burkov, V.N., Gubko, M.V., Korgin, N.A., Novikov, D.A. (2012). Theory of management of organizational systems and other sciences of management of organizations. Management problems, no. 4.
Burkov, V.N., Novikov, D.A. (2009). Theory of active systems (history of development and current state). Control problems. Special. release 3.1.
Blauberg, I.V., Sadovsky, V.N., Yudin, E.G. (1970). Systems approach in modern science. Problems of methodology of systemic research. Mysl ', Moscow.
Mesarovich, M., Mako, D., Takahara, I. (1973). Theory of hierarchical multi-level systems. Mir, Moscow.
Matreninsky, S.I., Mishchenko, V.Ya., Chernyshov, E.M. (2014). Methodological approach to decision-making on reconstruction of compact built-up development areas. Recent Advances in Environmental & Biological Engineering, p. 9-17.
Mishchenko, V.Ya., Matreninsky, S.I., Chertov, V.A. (2014). Justification of the form of territories of mass residential development for their reconstruction and renovation. Real estate: economics, management, no. 1-2.
Matreninsky, S.I., Mishchenko, V.Ya., Spivak, I.E. (2016). Methodological approach to the classification of areas of compact built-up development areas for selecting variants of actions and sequence of technical and technological solutions for the renovation of these areas. WSEAS Transactions on Environment and Development, vol. 12.
Matreninsky, S.I., Mischenko, V.Ya. (2016). Methodological approach to the substantiation of the form of compact built-up development areas with the aim of their renovation. WSEAS Transactions on Systems, vol. 15, no. 1.
Matreninskiy, S.I., Mischenko, V.Ya., Chernyshov, E.M. (2015). The systemic approach to modeling of compact built-up development areas and planning of their renovation. International Journal of Energy and Environment, vol. 9.
Matreninskiy, S.I., Mischenko, V.Y. (2015). Methodological approach to the formation of action variants and solutions implementing them for renovation of compact built-up development areas.
Proceedings of the 4th NAUN International Conference on Energy Systems, Environment, Entrepreneurship and Innovation (ICESEEI15), pp 18-23.
Panenkov , A., Lukmanova, I., Kuzovleva, I., Bredikhin, V. (2020). Methodology of the theory of change management in the implementation of digital transformation of construction: problems and prospects. 22nd International Scientific Conference on Energy Management of Municipal Facilities and Sustainable Energy Technologies, EMMFT, pp 05005
Bredikhin, V., Bredikhina, N., Ezerskiy, V. (2020). Modeling of property management process at territorial level. Journal of Applied Engineering Science, vol. 18, no.2, 257-261, DOI: 10.5937/jaes18-26306