Batukova L.R. (2016). To a question of economic model change. Part 1: Historical transformations of the structural and industrial organization of industrial sector (market) economy in the 20th century. Nauka i sovremennost’, 1(7), 28–56. Available at: http://ucom.ru/doc/ns.2016.01.028.pdf (in Russian).
Cao J., Law S.Н., Abdul Rahim A.S. et al. (2022). Effect of financial development and technological innovation on green growth – analysis based on spatial Durbin model. Journal of Cleaner Production, 365, 132865. DOI: 10.1016/j.jclepro.2022.132865
Chen H., Yi J., Chen A., Peng D., Yang J. (2023). Green technology innovation and CO2 emission in China: Evidence from a spatial-temporal analysis and a nonlinear spatial Durbin model. Energy Policy, 172, 113338. DOI: 10.1016/j.enpol.2022.113338
Demidova O.A., Kamalova E. (2021). Spatial econometric modeling of economic growth in Russian regions: Do institutions matter? Ekonomicheskaya politika, 16(2), 34–59. DOI: 10.18288/1994-5124-2021-2-34-59 (in Russian).
Deng J., Chen T., Zhang Y. (2023). Effect of collaborative innovation on high-quality economic development in Beijing – Tianjin – Hebei urban agglomeration – an empirical analysis based on the spatial Durbin model. Mathematics, 11, 1909. DOI: 10.3390/math11081909
Feng Z., Chen W. (2018). Environmental regulation, green innovation, and industrial green development: An empirical analysis based on the spatial Durbin model. Sustainability, 10, 223. DOI: 10.3390/su10010223
Glaz'ev S.Yu. (2011). Strategy of Russia's advanced development in the context of the global crisis. In: Strategiya operezhayushchego razvitiya – III. T. 1. Rossiiskie modernizatsii: Diagnozy i prognozy [Strategy for Advanced Development – 3 Volumes. Volume 1. Russian Modernization: Diagnoses and Forecasts]. Moscow: LENAND (in Russian).
Kondrat’ev N.D. (1925). Large cycles of conjuncture. Voprosy kon’’yunktury’, 1(1), 28–79 (in Russian).
Kuzyk B.N., Yakovets Yu.V. (2005). Rossiya-2050: strategiya innovatsionnogo proryva [Russia-2050: Strategy for Innovative Breakthrough]. Moscow: Ekonomika
Li G., Li X., Huo L. (2023). Digital economy, spatial spillover, and industrial green innovation efficiency: Empirical evidence from China. Heliyon, 9, e12875. DOI: 10.1016/j.heliyon.2023.e12875
Mariev O.S., Ignat’eva E.D., Naberezhneva E.P., Savin I.V. (2012). Economic modeling of regional factors of production forces innovational development in the resources-dependent Russian economy. Vestnik UrFU. Ser.: Ekonomika i upravlenie, 5, 133–145 (in Russian).
Mensch G. (1979). Stalemate in Technology: Innovations Overcome the Depression. New York.
Mosalev A.I. (2022). Optimal spatial models of interregional economic cooperation in the field of innovative economy. Ekonomika regiona=Economy of Region, 18(3), 638–652. DOI: 10.17059/ekon.reg.2022-3-2 (in Russian).
Naumov I.V., Barybina A.Z. (2020). The spatial autoregression model of innovative development of Russian regions. Vestnik Tomskogo gos. un-ta. Ekonomika=Tomsk State University Journal of Economics, 52, 215–232. DOI: 10.17223/19988648/52/13 (in Russian).
Polterovich V.M. (2009). The problem of creating a national innovation system. Ekonomika i matematicheskie metody, 2, 3–18 (in Russian).
Pushkarev A.A., Groznykh R.I., Nagieva K.M. (2018). Modeling of factors of innovative development for Russian regions. Zhurnal ekonomicheskoi teorii, 15(3). DOI: 10.31063/2073-6517/2018.15-3.20 (in Russian).
Schumpeter J. (1982). Teoriya ekonomicheskogo razvitiya [The Theory of Economic Development]. Moscow.
Shakleina M.V., Shaklein K.I. (2022). Drivers of entrepreneurship development in Russia’s regions: Assessment and the role of spatial interrelations. Ekonomicheskie i sotsial’nye peremeny: fakty, tendentsii, prognoz=Economic and Social Changes: Facts, Trends, Forecast, 15(5), 118–134. DOI: 10.15838/esc.2022.5.83.6 (in Russian).
Sosunova L.A., Serper E.A. (2010). Economic and mathematical modeling of innovative development of regional economy. Vestnik Samarskogo gos. ekon. un-ta, 7(69), 90–96 (in Russian).
Vandysheva E.S. (2017). Econometric analysis of factors of innovation activity in Russian regions. Nauchnye zapiski molodykh issledovatelei, 3, 20–26 (in Russian).
Wang H., Cui H., Zhao Q. (2020). Effect of green technology innovation on green total factor productivity in China: Evidence from spatial Durbin model analysis. Journal of Cleaner Production, 288, 125624. DOI: 10.1016/j.jclepro.2020.125624
Wu F., Yang X., Chen Y. (2023). Research on innovative mechanisms of financial agglomeration enabling green coordinated development in the Yangtze river delta of China. Heliyon, 9, e14172. DOI: 10.1016/j.heliyon.2023.e14172
Xiao Y., Chen J., Wang X.-L., Lu X. (2022). Regional green development level and its spatial spillover effects: Empirical evidence from Hubei Province, China. Ecological Indicators, 143, 109312. DOI: 10.1016/j.ecolind.2022.109312
Zhang X., Xiao Y., Wang L. (2023). Can the sci-tech innovation increase the China’s green brands value? Evidence from threshold effect and spatial Durbin model. Entropy, 25, 290. DOI: 10.3390/e25020290