Abdi, E., Dashti, Gh, Ghahremanzadeh, M & .Hosseinzad, J .(2016) Analyzing the technical efficiency and technology gap of poultry units in Sanandaj county. Animal Science Researches,49-61 .(In persian)
Abramovitz, M. .(1986). Catching up, forging ahead, and falling behind. The Journal of Economic History, 46(2) 385-406
Adab, A., Ghazinoory, S, Ghazinoori, S, &Shahverdi, H .(2018). The Strategies of Iran Steel Industry Value Chain Upgrading through Innovation System Perspective. Science & Technology Policy, 10 (4), 1-97. (In persian)
Ali, K. E., & Samad, Q. A .(2013). A metafrontier production function for estimation of technical efficiencies of wheat farmers under different technologies. Journal of Asian Scientific Research, 3(9) 933-944.
Alizadeh, M.,Hatamzadeh, Y., Mahdavi, H., Tabibi, M., & Mousavifard, H .(2013). Supporting technology development in large corporations of Iran. Tehran, Iran: Vice President of Science and Technology - Science and Technology Policy Office. (In persian)
Arestis, P, Sawyer, M .(1994). Technology Gap. USA: Published by Edward Elgar.
Asia Pacific Partnership for Clean Development and Climate. (2010). The State–of-the-Art Clean Technologies (SOACT) for Steelmaking Handbook. Berkeley, California, American Iron and Steel Institute Washington, DC.
Attarpour, M, Kazazi, A., Elyasi, M, & BamdadSoofi, J .(2018). A Model for Promoting Technological Learning for Innovation Ambidexterity Development: A Case Study of Iran Steel Industry. Journal of Improvement Management Vol.12, No.3, Pp 45-136. (In persian)
Bank of Middle East Economic research group. (2015). Investigation Iran steel industry. Tehran, Iran. (In persian)
Battese G. E, & Coeli T. J .(1995). A model for Technical Inefficiency Effect in a Stochastic Frontier Production Function for Panel Data. Jornal of Empirical Economics, 20, 325-332
Bell, M., & Figueiredo, P. N. (2012). Innovation capability building and learning mechanisms in latecomer firms: recent empirical contributions and implications for research. Canadian Journal of Development Studies/Revue canadienne d'études du développement 33(1) , 14-40.
Bell, M., & Pavitt, K. (1997). Technological accumulation and industrial growth: contrasts between developed and developing countries. Technology, globalisation and economic performance, 83137, 83-137.
Carbo, M. C .(2011). Global Technology Roadmap for CCS in Industry. UNIDO.
Chaminade, C., Lundvall, B. Å., & Haneef, S .(2018). Advanced introduction to national innovation systems. Edward Elgar Publishing.
Chen, Jin, Xiaoyu Pu, & Haihua Shen .(2010). A Comprehensive Model of Technological Learning: Empirical Research on the Chinese Manufacturing Sector. London: Palgrave Macmillan.
Chen, Jin, & W. G. Qu .(2003). A new technological learning in China. Technovation, 23(11) 861-867.
Coelli, T. J. (1996). A guide to FRONTIER version 4.1: a computer program for stochastic frontier production and cost function estimation. CEPA Working papers,Vol. 7, 1-33.
Drine, I. (2012). Institutions, governance and technology catch-up in North Africa. Economic Modelling, 29(6), 2155-2162.
Emami Meibodi, A, Khoshkalam Khosroshahi, M., & Mahdavi, R.(2011) .The economic foundation of efficiency and productivity measurement. Tehran: Allameh Tabatabai university. (In persia)
Engel, J. & Taglioni, D. (2017). The middle-income trap and upgrading along global value chains. Global value chiain report, Chapter 5.
Fagerberg, J. (1987). .A technology gap approach to why growth rates differ. Research policy, 16(2-4) , 87-99.
Fagerberg, J., & Godinho, M. M .(2004). Innovation and catching-up. Georgia Institute of Technology.
Gholizadeh, H., Naeini, A. B., & Moini, A. (2015). A quantitative model of technological catch-up. International Journal of Engineering & Technology, 4(1), 233-243.
Iyer, K .(2011). Technology gap, catching-up and outward orientation: Analysis of 63 countries. Applied Econometrics and International Development, 11, N 2. 5-20.
Jung, M., & Lee, K .(2010). Sectoral systems of innovation and productivity catch-up: determinants of the productivity gap between Korean and Japanese firms. Industrial and Corporate Change, 19(4), 1037-1069
Karakaya, E., Nuur, C., & Assbring, L .(2018). Potential transitions in the iron and steel industry in Sweden: Towards a hydrogen-based future?. Journal of cleaner production, 195, 651-663.
Kawabata, N .(2018). Development of the Vietnamese Iron and Steel Industry under International Economic Integration. Graduate School of Economics and Management, Tohoku University, No 396.
Landini, F., Lee, K., & Malerba, F. (2017). A history-friendly model of the successive changes in industrial leadership and the catch-up by latecomers. Research Policy, 46(2), 431-446
Lee, J, Zong‐tae, Bae, and Dong‐kyu Choi .(1988). Technology development processes: a model for a developing country with a global perspective. R&D Management, 18(3) , 235-250.
Lee, K. (2013). Schumpeterian analysis of economic catch-up: Knowledge, path-creation, and the middle-income trap. US, New Yourk: Cambridge University Press.
Lee, K., & Ki, J. H .(2016). Rise of latecomers and catch-up cycles in the world steel industry. Research Policy, 46(2) , 365-375.
Lee, K., & Malerba, F.(2017). Catch-up cycles and changes in industrial leadership: Windows of opportunity and responses of firms and countries in the evolution of sectoral systems. Research Policy, 46(2), 338-351.
Lee, Keun, & Lim, Ch .(2001). Technological regimes, catching-up and leapfrogging: findings from the Korean industries. Research policy, 30(3). 459-483.
Moreira, Vh., & Bravo-Ureta, Be. (2010). Technical Efficiency and Meta Technology Ratios for Dairy Farms in Three Southern Cone Countries: A Stochastic Meta Frontier Model. Journal of Productivity Analysis, Vol 33, Pp 33- 45.
Nkamleu, G, Nyemeck, J and Gockowski, J. (2010). Technology Gap and Efficiency in Cocoa Production in West and Central Africa: Implications for Cocoa Sector Development. Working Paper Series No 104, African Development Bank, Tunis, Tnnisia.
Pardo, N., & Moya, J. A. (2013). Prospective scenarios on energy efficiency and CO2 emissions in the European Iron & Steel industry. Energy, 54, 113-128.
Popov, V.(2015). Catching-up: developing countries in pursuit of growth. Munich personal RePEc archive (MPRA), No 65878.
Sato, H (2009). The iron and steel industry in Asia: Development and restructuring . Institute of Developing Economies, Japan External Trade Organization (JETRO),No 210.
Shan, J, & Jolly, D .(2011). Patterns of technological learning and catch-up strategies in latecomer firms: Case study in China's telecom-equipment industry. Journal of Technology Management in China, 6 (2), 153-170. World steel association . (2017). world steel in figures. No. 50.
Xie, W, & White, S .(2006). From imitation to creation: the critical yet uncertain transition for Chinese firm. Journal of Technology Management in China, 1(3), 229-242.
Yap, X. S., & Truffer, B (2019). . Shaping selection environments for industrial catch-up and sustainability transitions: A systemic perspective on endogenizing windows of opportunity. Research Policy, 48(4), 1030-1047.
Zakeri, Yadollah, Fazeli, Samira, Sadri, Malek Arsalan, & Doudabinezhad, Amir. (2014). Energy Efficiency Roadmap - The Necessity and Case Study of the Steel Industry, 10th International Energy Conference, Tehran, Iran.
Zibaei, M., & Jaefari Sani, M .(2008). Determination of Technical Efficiency and Technology Gap Ratio in Milk Production Units in Iran, Case Study: East Azarbaijan Provinces, Isfahan, Tehran, Khorasan, Fars and Yazd (Application Metafrontier Method). Water and Soil Sciences (Journal of Sceince and Technology of Agriculture and Natural Resources, 12 (43). 315-324.