ESTIMATION OF THE SHARE OF INNOVATIVE GOODS, WORKS AND SERVICES BY RUSSIAN REGIONS AND TYPES OF ACTIVITY
Keywords:Innovative Products, Innovative Organizations, Regions of Russia, Normal Distribution Functions, Estimation of Share of Innovative Products
Innovative activity of companies provides one of the most important directions of development of modern national economies. The purpose of our research is to assess the specific weights of the production volumes of goods, works, and services classified as innovative in the total production volumes of all organizations located in each of the regions of Russia, as well as those specializing in various types of economic activities. The study was based on official statistical information for all 82 regions of Russia and 45 types of economic activity. Economic and mathematical models describing the share of innovative goods, works, and services in total production volumes by region and industry have been developed. It is proved that the average share of innovative products for the period under review was about 5% of all manufactured products. It is shown that the values of the indicators were significantly differentiated by region and industry. The regions and types of economic activity with the maximum and minimum values of the share of innovative products are identified.
ABHYANKAR, R. The Government of India's Role in Promoting Innovation through Policy Initiatives for Entrepreneurship Development. Technology Innovation Management Review, 11-17, 2014.
ABOAL, D.; GARDA, P. Technological and non-technological innovation and productivity in services vis-à-vis manufacturing sectors. Economics of Innovation and New Technology, 25(5), 435-454, 2016.
ANDERSON, N.; POTOCNIK, K.; BLEDOW, R.; HULSCHEGER, W.R.; ROSING, K. Innovation and Creativity in Organizations, in Ones, D., Anderson, N., Visveswaran, K., and Sinangil, H. K. (ed.): Handbook of Industrial, Labor, and Organizational Psychology, London, Sage. 2016.
ARKHIPOVA, M.YU.; SIROTIN, V.P. Modeling of innovation activity of small and medium-sized businesses // Intelligence. Innovation. Investment, 5, 20-30, 2019.
BARTELSMAN, E.J.; FALK, M.; HAGSTEN, E.; Polder M. Productivity, technological innovations and broadband connectivity: Firm level evidence for ten European countries. Eurasian Business Review, 9, 25–48, 2019.
BEAUREGARD, Y.; POLOTSKI, V.; BHUIYAN, N.; THOMSON, V. Optimal usage level for lean product development in a multitasking context. International Journal of Production Research, 795-818, 2017.
BILGILI, B.; ERCIS, A.; UNAL, S. Applying the Kano model to new product development and customer satisfaction (adapting the traditional art of tile making to jewelry). Procedia Social and Behavioral Sciences, 829-846, 2011.
CARLBORG, P.; KINDSTRÖM, D.; KOWALKOWSKI, C. The evolution of research in service innovation: a critical review and synthesis. Service Industry Journal, 34(5), 373-398, 2014.
CROSSAN, M.M.; APAYDIN, M. The multidimensional structure of organizational innovation: a systematic review of the literature. Journal of Management Studies, 47(6), 1154-1191. 2010.
DAMANPUR, F.; ARAVIND, D. Management Innovation: Concepts, Processes, and Prerequisites, Management and Organization Review, 8(2), 423-454, 2012.
DERELI, D. Innovation management in the context of global competition and competitive advantages. Procedia-Social and behavioral sciences, 195, 1365-1370, 2015.
EMELYANOVA, E.V.; KHARCHIKOVA, N.V. Innovative potential of the Central Federal District regions: assessment of the main trends and prospects for development. Economics in Industry, 12(4), 443-454, 2019.
EZHOV, A.U. Modern problems of implementation and management of innovations in the Russian Federation. Innovations and Investments, 2, 12-14, 2020.
EXPÓSITO, A.; SANCHIS-LLOPIS, J.A. The relationship between types of innovation and SMEs’ performance: A multidimensional empirical as dimensional empirical assessment. Eurasian Business Review, 9, 115–135, 2019.
FEDERAL STATE STATISTICS SERVICE. SCIENCE AND INNOVATION. https://rosstat.gov.ru/folder/14477?print=1 (access date 15.01.2021).
FUSCO, E.; CONEGLIAN, S.; MUCHERONI, M. Informacional do ecossistema paulista de inivação: modelo computacional e semântico de apoio à inovação. XVIII National Control of Sand and Information, 1-20. Marília: ENANCIB. 2017.
GAULT, F. Defining and measuring innovation in all sectors of the economy. Research Policy, 47(3), 617-622, 2018.
GMURMAN, V.E. Theory of probability and mathematical statistics. Moscow: Higher School. 2003.
GOCER, I.; ALATAS, S.; PEKER, O. Effects of R&D and innovation on income in EU countries: new generation panel cointegration and causality analysis. Theoretical and Applied Economics, XXIII, 4(609), 153–164, 2016.
GÖSSLING, T.; RUTTEN, R. Innovation in Regions. European Planning Studies. 15(2), 253-270, 2007.
GUNDAY, G.; ULUSOY, G.; KILIC, K.; ALPKAN, L. The influence of innovation types on the efficiency of the company. International Journal of Production Economics, 133(2), 662-676, 2011.
GUPTA, M. The Innovation Process from Idea to Final Product: A Literature Review. International Journal Comparative Management, 1(4), 2018.
HU, Y.; AZIZ. E-S.S. An innovative design environment based on creativity, in support of robust product development. International Journal of Interactive Design and Production (IJIDeM), 10, 335-353, 2016.
KARPUNINA, E.K.; KLIMENTOVA, E.A.; DUBOVITSKY, A.A. Influence of innovative activity of small business on regional economic growth. Izvestiya Yugo-Zapadnogo gosudarstvennogo universiteta. Series: Economics. Sociology. Management, 9(1), 19-29, 2019.
KOTSEMIR, M.N.; MEISSNER, D. Conceptualizing the innovation process – Trends and outlook. Higher School of Economics Research Paper No. WP BPR, 10, 2013.
KRAMER, H. Mathematical methods of statistics. Princeton, University Press. 1999.
KUSIAK, A. Innovation: A data-driven approach. International Journal of Production Economics, 122(1), 440–448, 2009.
LEIPONEN, A.; HELFAT, C.E. The goals of innovation, the sources of knowledge, and the benefits of breadth. Journal of Strategic Management, 31(2), 224-236, 2010.
LOPES, P.; SANTOS, S.; SILVA, V.; MARTINS, G. Fatores determinantes da inovação gerencial. Revista Eletrônica Gestão & Sociedade, 12(33), 2541-2563, 2018.
MAKHOVA, A.V.; GRUZDEVA, E.V. Analysis of individual indicators of innovation activity in Russia 2000-2019. Trends in the development of science and education, 69(3), 42-46, 2021.
MARENKOV, I.M. Innovations in the Russian industry: state and prospects of development // Intelligence. Innovation. Investment, 1, 35-42, 2019.
MATHEMATICAL ENCYCLOPEDIA (in 5 volumes). Edited by I. M. Vinogradov. Moscow, Soviet encyclopedia. 1977.
MOMPO, R.; REDOLI, J. Innovative strategies for small and medium-sized enterprises. Innovations, 9(1), 57-59, 2009.
MTAR, K., BELAZREG, W. Causal nexus between innovation, financial development, and economic growth: The case of OECD countries. Journal of the Knowledge Economy, 12, 310–341, 2020.
NORMAN, D.A., VERGANTI, R. Incremental and Radical Innovation: Design Research vs. Technology and Changing Meaning. Design Issues, 30(1), 78-96, 2014.
OECD. Eurostat, Oslo Manual 2018: Guidelines for Collecting, Reporting and Using Data on Innovation, 4th Edition, The Measurement of Scientific, Technological and Innovation Activities, OECD Publishing, Paris. Eurostat, Luxembourg, 258, 2018.
OKSANEN, K., HAUTAMÄKI, A. Transforming regions into innovation ecosystems: A model for renewing local industrial structures. The Innovation Journal: The Public Sector Innovation Journal, 19(2), 1-16, 2014.
OKUMU, I.M., BBAALE, E., GULOBA, M.M. Innovation and employment growth: data from manufacturing firms in Africa. Journal of Innovation and Entrepreneurship, 8(1), 7, 2019.
ORLOV, A.I. Econometrica. Moscow, Exam. 2004.
PINKOVETSKAIA, I.S. Methodology of research of indicators of activity of entrepreneurial structures. Proceedings of the Karelian Scientific Center of the Russian Academy of Sciences, 3, 83-92, 2015.
PRAJOGO, D.; MCDERMOTT, C. Prerequisites for innovation in the service sector in SMEs: A comparison of the impact of external and internal factors. Journal of Small Business Management, 52, 521-540, 2014.
REGUIA, C. Product innovation and competitive advantage. European Scientific Journal, 1, 1857-7881, 2014.
RONDÉ, P.; HUSSLER, C. Innovation in regions: What does really matter? Research Policy. 34(8), 2005, 1150-1172.
ROZENFELD, H.; FORCELLINI, F.; AMARAL, D.; TOLEDO, J.; SILVA, S.; ALLIPRANDINI, D.; SCALICE, R. Gestão do Desenvolvimento de Produtos: uma referência para a melhoria do processo. São Paulo: Saraiva. 2006.
SCARINGELLA, L.; MILES, R.E.; Truong Yu. Customer engagement and Firm Potential for Radical innovation: an Example of Technical spin-offs. Technological Forecasting and Social Change, 120, 144-162, 2017.
SHANKAR, V.; NARANG, U. Innovation in emerging markets: unique and differentiated factors, implications for practitioners, and a research agenda. Journal of the Academy of Marketing Sciences, 48, 1030-1052, 2020.
SEMENOVA, N.N. Financing of innovations as a condition for the formation of a new model of economic development in Russia, 1, 77-82, 2019.
SIYANBOLA, W.; ADEYEYE, A.; OLAOPA, O.; HASSAN, O. Science, technology and innovation indicators in policy-making: the Nigerian experience. Industry and Higher Education, 27(4), 323-331, 2013.
STRIZHAKOVA, E.N.; STRIZHAKOV, D.V. Development of innovative economy: problems and opportunities. Bulletin of Eurasian Science, 11(1), 1-19, 2019.
SZOPIK-DEPCZYŃSKA, K.; CHEBA, K.; WIŚNIEWSKA, J. Innovative, research and user-oriented innovation activities in R & D departments in Poland. Multi-Criteria Analysis. Procedural Computer Science, 176, 2705-2713, 2020.
THAKURA, R.; HALE, D. Service innovation: a comparative study of American and Indian service firms. Journal of Business Research, 66(8), 1108-1123, 2013.
ULRICH, K.T.; EPPINGER, S.D. Product design and development. Boston: McGraw-Hill, 2004.
WENTZEL, E.S. The theory of probability. Moscow, KnoRus. 2010.
WOSCHKE, T.; HAASE, H. Expand the capacity of small and medium-sized enterprises to develop new products through management innovation. Journal of Research in the field of high-tech management, 27, 53-64, 2016.
ZAKHAROVA, T.V. Dynamics of innovative activity in the region. Education and science without borders: fundamental and applied research, 12, 13-18, 2020.
ZAKSHEVSKAYA-BELYAVSKAYA, A. Strategic dilemmas of innovative enterprises: proposals for high-tech sectors. Management of R & D, 42(5), 303-314, 2012.
ZHELYAZINSKY, T.; EKELSKY, A.; TULSKAYA, E.; VLADUT, V.; DURCHAK, K. The use of wood dust to improve the selected properties of thermoplastic starch. INMATECH-Agricultural Engineering, 58(2), 37-44, 2019.
ZILLNER, S.; BECKER, T.; MUNNÉ, R.; HUSSAIN, K.; RUSITSCHKA, S.; LIPPELL, H.; CURRY, E.; OJO, A. Big Data-Driven Innovation in Industrial Sectors. New Horizons for a Data-Driven Economy: A Roadmap for Usage and Exploitation of Big Data in Europe Publisher: Springer Berlin. Heidelberg Editors: Cavanillas, Jose Maria and Curry, Edward and Wahlster, Wolfgang, 169-178, 2015.
ZUHDI, U. Indonesia's creative industry Sector dynamics: an input–output analysis. Journal of Knowledge Economics, 6, 1177-1190, 2015.
ZVYAGINTSEV, P.S. State property as a driver of development of innovative economy of Russia. Bulletin of the Institute of Economics of the Russian Academy of Sciences, 3, 111-128, 2020.
This Journal is licensed under a Creative Commons Attribution-Non Commercial-No Derivers 4.0 International license.
1.The author (s) authorize the publication of the article in the journal;
2.The author (s) warrant that the contribution is original and unpublished and is not in the process of being evaluated in other journal (s);
3. The journal is not responsible for the opinions, ideas and concepts emitted in the texts, as they are the sole responsibility of its author (s);
4. The editors are entitled to make textual adjustments and to adapt the articles to the standards of publication.