This work is licensed under the Creative Commons Attribution-NonCommercial-NoDerivatives 4.0 License.
Altan, Ş., Dogan, S., & İloğlu, H. (2016). Maximization of National Income with Linear Programming and Input-Output Analysis: An Application for Turkey. Journal of Business & Economic Policy, 3(2), 29–37.AltanŞ.DoganS.İloğluH.2016Maximization of National Income with Linear Programming and Input-Output Analysis: An Application for TurkeyJournal of Business & Economic Policy322937Search in Google Scholar
Can, T. (2012). Input-Output Analysis with Linear Programming: The Case of Turkey. International Research Journal of Finance and Economics, 89, 38–145CanT.2012Input-Output Analysis with Linear Programming: The Case of TurkeyInternational Research Journal of Finance and Economics8938145Search in Google Scholar
Čapek, J. (2016). Structural Changes in the Czech Economy: A DSGE Model Approach. Prague Economic Papers, 25(1), 37–52. doi: 10.18267/j.pep.535ČapekJ.2016Structural Changes in the Czech Economy: A DSGE Model ApproachPrague Economic Papers251375210.18267/j.pep.535Open DOISearch in Google Scholar
Ishchuk, S. O. (Ed.), & Sozanskyy, L. Jo. (2018). Competitive Advantages of the Industrial Sector of Ukraine's Economy: Regional Dimension. Lviv, Ukraine: Institute of Regional Research named after M.I. Dolishniy of the NAS of Ukraine.IshchukS. O.(Ed.),SozanskyyL. Jo.2018Competitive Advantages of the Industrial Sector of Ukraine's Economy: Regional DimensionLviv, UkraineInstitute of Regional Research named after M.I. Dolishniy of the NAS of UkraineSearch in Google Scholar
Olczyk, M., & Kordalska, A. (2017). International Competitiveness of Czech Manufacturing – A Sectoral Approach with Error Correction Model. Prague Economic Papers, 26(2), 213–226. doi: 10.18267/j.pep.605OlczykM.KordalskaA.2017International Competitiveness of Czech Manufacturing – A Sectoral Approach with Error Correction ModelPrague Economic Papers26221322610.18267/j.pep.605Open DOISearch in Google Scholar
Organisation for Economic Cooperation and Development (OECD). Input-Output Tables 2018 edition. Retrieved from https://stats.oecd.org/index.aspx?r=705558Organisation for Economic Cooperation and Development (OECD)Input-Output Tables 2018 editionRetrieved from https://stats.oecd.org/index.aspx?r=705558Search in Google Scholar
Sharify, N. (2018). A nonlinear supply-driven input-output model. Prague Economic Papers, 27(4), 494–502. doi: 10.18267/j.pep.657SharifyN.2018A nonlinear supply-driven input-output modelPrague Economic Papers27449450210.18267/j.pep.657Open DOISearch in Google Scholar
Sozanskyy, L. (2018a). Models of optimization of the structure of industry in Ukraine. Economy and Forecasting, 1, 79–97. doi: 10.15407/eip2018.01.079SozanskyyL.2018aModels of optimization of the structure of industry in UkraineEconomy and Forecasting1799710.15407/eip2018.01.079Open DOISearch in Google Scholar
Sozanskyy, L. (2018b). Structurale assessment of the Industry of Ukraine and Poland. Transborder Economics International Journal on Transborder Economics, Politics and Statistics, 3(1), 83–93.SozanskyyL.2018bStructurale assessment of the Industry of Ukraine and PolandTransborder Economics International Journal on Transborder Economics, Politics and Statistics318393Search in Google Scholar
State Statistics Service of Eurostat (2016). Manufacturing groups are formed in accordance with Eurostat indicators on High-tech industry and Knowledge – intensive services: Aggregations of manufacturing based on NACE Rev.2. Retrieved from http://ec.europa.eu/eurostat/cache/metadata/Annexes/htec_esms_an3.pdfState Statistics Service of Eurostat2016Manufacturing groups are formed in accordance with Eurostat indicators on High-tech industry and Knowledge – intensive services: Aggregations of manufacturing based on NACE Rev.2Retrieved from http://ec.europa.eu/eurostat/cache/metadata/Annexes/htec_esms_an3.pdfSearch in Google Scholar
State Statistics Service of Eurostat (2019). National accounts aggregates by industry (up to NACE A*64). Retrieved from https://appsso.eurostat.ec.europa.eu/nui/show.do?dataset=nama_10_a64&lang=enState Statistics Service of Eurostat2019National accounts aggregates by industry (up to NACE A*64)Retrieved from https://appsso.eurostat.ec.europa.eu/nui/show.do?dataset=nama_10_a64&lang=enSearch in Google Scholar
Tan, R. R., Aviso, K. B., Promentilla, M. A. B., Yu, K. D. S., & Santos, J. R. (2019). Input-output models for sustainable industrial systems: implementation using LINGO. Singapore: Springer Nature Singapore Pte Ltd. doi: 10.1007/978-981-13-1873-3_5TanR. R.AvisoK. B.PromentillaM. A. B.YuK. D. S.SantosJ. R.2019Input-output models for sustainable industrial systems: implementation using LINGOSingaporeSpringer Nature Singapore Pte Ltd.10.1007/978-981-13-1873-3_5Open DOISearch in Google Scholar
Taušer, Jo., Arltova M., & Žamberský, P. (2015). Czech Exports and German Gdp: A Closer Look. Prague Economic Papers, 24(1), 17–37. doi: 10.18267/j.pep.498TaušerJo.ArltovaM.ŽamberskýP.2015Czech Exports and German Gdp: A Closer LookPrague Economic Papers241173710.18267/j.pep.498Open DOISearch in Google Scholar
United Nations Industrial Development Organization (UNIDO) (2019). Manufacturing industries at the 2-digit level of ISIC Rev 4 by technological intensity. Classification of manufacturing sectors by technological intensity (ISIC Revision 4). Retrieved from https://stat.unido.org/content/focus/classification-of-manufacturing-sectors-by-technological-intensity-%2528isic-revision-4%2529;jsessionid=4DB1A3A-5812144CACC956F4B8137C1CFUnited Nations Industrial Development Organization (UNIDO)2019Manufacturing industries at the 2-digit level of ISIC Rev 4 by technological intensity. Classification of manufacturing sectors by technological intensity (ISIC Revision 4)Retrieved from https://stat.unido.org/content/focus/classification-of-manufacturing-sectors-by-technological-intensity-%2528isic-revision-4%2529;jsessionid=4DB1A3A-5812144CACC956F4B8137C1CFSearch in Google Scholar
Vogstad, K.-O. (2009). Input-Output Analysis and Linear Programming. In S. Suh (Eds.), Handbook of Input-Output Economics in Industrial Ecology. Eco-Efficiency in Industry and Science, 23, Springer. doi: 10.1007/978-1-4020-5737-3_36VogstadK.-O.2009Input-Output Analysis and Linear ProgrammingInSuhS.(Eds.),Handbook of Input-Output Economics in Industrial EcologyEco-Efficiency in Industry and Science, 23,Springer10.1007/978-1-4020-5737-3_36Open DOISearch in Google Scholar
Wlodarczyk, A. (2013). The optimization of the structure of the factors of production in the food industry in Poland – the approach based on the production function methodology. C. B. Illes, F. Bylok, A. Dunay, L. Cichobłaziński (Eds.), People, Knowledge and Modern Technologies in the Management of Contemporary Organizations. Theoretical and Practical Approaches (pp. 225–239). Częstowchowa, Poland: Czestochowa University of Technology.WlodarczykA.2013The optimization of the structure of the factors of production in the food industry in Poland – the approach based on the production function methodologyIllesC. B.BylokF.DunayA.CichobłazińskiL.(Eds.),People, Knowledge and Modern Technologies in the Management of Contemporary Organizations. Theoretical and Practical Approaches225239Częstowchowa, PolandCzestochowa University of TechnologySearch in Google Scholar
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