Abstract
Searching for innovative solutions and investing in technology development determine competitiveness and progress of individual organizations and the entire economy. The research and development (R&D) expenditures are catalyst for innovation and therefore determine economic development which can be measured by the value of gross domestic product. The research is driven by a question how Poland is scored in comparison to other countries in this context, while more generally it aims to contribute to theoretical understanding of innovation role in economy development. Referring to the theory of endogenous growth, the research is driven by following questions: What is the relationship between GDP (gross domestic product) and GERD (gross domestic expenditures on research and development), and between VAI (value-added industry) and GERD? Does an increase in investment of GERD determine the growth of GDP and/or VAI? We studied the relations for selected countries with econometric modelling to set Poland in the global context. The panel data came from the World Bank databases. The results of analysis show generally a positive relationship between GDP and GERD, and between VAI and GERD.
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Notes
- 1.
Generalized least squares (GLS) was used for estimating the unknown parameters in both models when there was observed a certain degree of correlation between the residuals in a regression model, as in these cases, ordinary least squares (OLS) can be statistically inefficient, or even give misleading inferences.
References
Aghion P, Howitt P (1992) A model of growth through creative destruction. Econometrica 60(2):323–351. https://doi.org/10.2307/2951599
Aghion P, Harmgart H, Weisshaar N (2010) Fostering growth in CEE countries: a country-tailored approach to growth policy. European Bank for reconstruction and development working paper, 118/2010. http://www.ebrd.com/downloads/research/economics/workingpapers/wp0118.pdf. Accessed 10 Oct 2017
Archibugi D, Coco A (2005) Measuring technological capabilities at the country level: a survey and a menu for choice. Res Policy 34:175–194. https://doi.org/10.1016/j.respol.2004.12.002
Barro RJ (1990) Government spending in a simple model of endogenous growth. J Polit Econ 98(5):103–125
Barro RJ, Sala-i-Martin X (1995) Economic growth. McGraw-Hill, New York
Besley T, Coelho M, Van Reenen J (2013) Investing for prosperity: skills, infrastructure and innovation. Natl Inst Econ Rev 224(1):181–208
Carlsson B, Jacobsson S, Holmén M, Rickne A (2002) Innovation systems: analytical and methodological issues. Res Policy 31(2):233–245
Edquist C (2004) Systems of Innovation: perspectives and challenges. In: Fagerberg J, Mowery D, Nelson R (eds) The Oxford handbook of innovation. Oxford University Press, Oxford, pp 191–208
Égert B, Koźluk T, Sutherland D (2009) Infrastructure and growth: empirical evidence. OECD Economics department working papers no. 685, DOI: https://doi.org/10.1787/18151973
European Commission (2014) Guide to cost-benefit analysis of investment projects economic appraisal tool for Cohesion policy 2014–2020, December 2014. http://ec.europa.eu/regional_policy/sources/docgener/studies/pdf/cba_guide.pdf. Accessed 10 Oct 2017
European Innovation Progress Report (2006) http://www.eurosfaire.prd.fr/7pc/doc/1187850416_eipr_2006_final.pdf. Accessed 10 Oct 2017
Fagerberg J (1987) A technology gap approach to why growth rates differ. Res Policy 16:87–99
Fagerberg J, Srholec M (2008) National innovation systems, capabilities and economic development. Res Policy 37:1417–1435. https://doi.org/10.1016/j.respol.2008.06.003
Fagerberg J, Mowery D, Nelson R (2004) The Oxford handbook of innovation. Oxford University Press, Oxford
Gault F (2003) Understanding innovation in Canadian industry. McGill-Queens University press, Montreal
Griliches Z (1987) R&D and productivity: measurement issues and econometric results. Science 237:31–35
Grossman GM, Helpman E (1991) Innovation and growth in the global economy. The MIT Press, Cambridge
Hulten CR (1996) Infrastructure capital and economic growth: how well you use it may be more important than how much you have. National bureau of economic research working paper, No. 5847
Hunady J, Pisar P, Musa H, Musova Z (2017) Innovation support and economic development at the regional level: panel data evidence from Visegrad countries. J Int Stud 10(3):147–160. https://doi.org/10.14254/2071-8330.2017/10-3/11
Jang Y, Ko Y, Kim YS (2016) Cultural correlates of national innovative capacity: a cross-national analysis of national culture and innovation rates. J Open Innov: Technol Mark Complex 2:23. https://doi.org/10.1186/s40852-016-0048-6
Lederman D, Maloney WF (2003) Research and development (R&D) and development. Policy, research working paper no. WPS 3024. World Bank, Washington, DC. http://documents.worldbank.org/curated/en/778751468739477640/Research-and-development-R-D-and-development. Accessed 19 Nov 2017
Nadiri MJ (1993) Innovations and technological spillover. NBER working paper 4423. Cambridge. http://www.nber.org/papers/w4423.pdf. Accessed 10 Oct 2017
Pessoa A (2007) Innovation and economic growth: what is the actual importance of R&D? FEP working papers 254. Porto. University of Porto. http://www.fep.up.pt/investigacao/workingpapers/07.11.22_wp254_Pessoa.pdf. Accessed 10 Oct 2017
Pisu M, Hoeller P, Joumard I (2012) Options for benchmarking infrastructure performance. OECD Economics department working papers 956. OECD Publishing, Paris
Romer PM (1990) Endogenous technical change. J Polit Econ 22:71–102
Sutherland D, Araújo S, Égert B, Kozluk T (2011) Public policies and investment in network infrastructure. OECD J Econ Stud 2011(1). https://doi.org/10.1787/eco_studies-2011-5kg51mlvk6r6
Szopik-Depczyńska K, Kędzierska-Szczepaniak A, Szczepaniak K, Cheba K, Gajda W, Ioppolo G (2018) Innovation in sustainable development: an investigation of the EU context using 2030 agenda indicators. Land Use Policy 79:251–262. https://doi.org/10.1016/j.landusepol.2018.08.004
Teixeira A, Silva E, Mamede R (2014) Structural change competitiveness and industrial policy. Routledge, London
Uzawa H (1965) Optimal technical change in an aggregative model of economic growth. Int Econ Rev 6:18–31. https://doi.org/10.2307/2525621
Wojewnik-Filipkowska A, Kowalski R (2015) Investing in industrial-technology parks in city development - a cost - benefit analysis. Real Estate Manag Valua 23(1):24–41. https://doi.org/10.1515/remav-2015-0003
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This work was supported by the National Centre for Research and Development in Poland under Grant IS-2/88NCBR/2015.
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Wojewnik-Filipkowska, A., Zamojska, A., Szczepaniak, K. (2019). Innovation System in a Global Context: A Panel Approach. In: Jajuga, K., Locarek-Junge, H., Orłowski, L., Staehr, K. (eds) Contemporary Trends and Challenges in Finance. Springer Proceedings in Business and Economics. Springer, Cham. https://doi.org/10.1007/978-3-030-15581-0_19
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