مدل ساختاری-تفسیری سطح‌بندی عوامل اثرگذار بر ارتباط توسعه علم، توسعه فناوری و رشد اقتصادی در ایران

نویسندگان

1 استاد گروه مدیریت، دانشگاه مازندران

2 دانشجوی دکتری سیاست‌گذاری علم و فناوری، دانشگاه مازندران و مربی مؤسسه آموزش عالی غیرانتفاعی-غیردولتی راه دانش بابل

3 استاد گروه اقتصاد، دانشگاه مازندران

4 دانشیار گروه مدیریت، دانشگاه مازندران

چکیده

برای رسیدن به رشد اقتصادی ایجاد و نشر علم و فناوری در درون مرزهای یک کشور اهمیت بسیاری دارد در ایران نیز طی سالیان اخیر نهادهای سیاستگذار تلاش نمودهاند زمینه توسعه علم و فناوری در ابعاد مختلف را در راستای رشد اقتصادی فراهم آورند مسئلهای که وجود دارد این است که این نهادها هماهنگیهای لازم را با یکدیگر نداشته و همچنین با وجود تصریح سند چشمانداز به برخی عوامل اثرگذار بر توسعه علم و فناوری که بتوانند رشد اقتصادی را به دنبال داشته باشند باز اتفاقنظری بر روی این عوامل وجود ندارد در این پژوهش ابتدا طیف وسیعی از عوامل اثرگذار بر توسعه علم توسعه فناوری و رشد اقتصادی به صورت کیفی و از طریق بررسی عمیق پیشینه موضوع مشخص شدند سپس با نظرسنجی از چهارده خبره از طریق روش مدلسازی ساختاریتفسیری عوامل مربوط به سه حوزه مورد مطالعه برای ایران سطحبندی و مدل ساختاریتفسیری مربوطه با استفاده از نرمافزار مشخص شد نتایج مید نقش کلیدی همگرایی سیاسیاقتصادی در ارتباط میان سه حوزه فوق است و همچنین اینکه کلید توسعه در ابعاد مختلف علمی فناورانه و اقتصادی اتحاد و یکپارچگی نهادهای سیاستگذار کشور است که اگر این مهم مورد توجه قرار گیرد میتواند سایر عوامل را در سیستمی از بازیگران منسجم و در ارتباط سالم با یکدیگر به سمت جلو هدایت نماید

کلیدواژه‌ها


عنوان مقاله [English]

The Interpretive-Structural Model for Prioritize the Relationship among Effective Factors on Science Development, Technology Development and Economic Growth in Iran.

نویسندگان [English]

  • Mahmood Yahyazadehfar 1
  • Hooman Shababi 2
  • Saeid Rasekhi 3
  • maisam shirkhodaei 4
1 Professor of Finance, University of Mazandaran, Babolsar, Iran
2 Ph.D Student of Science and Technology Policy, University of Mazandaran, Babolsar, Iran
3 assistant professor, Economics department at University of Mazandaran
4 Associate Professor of Management, University of Mazandaran, , Babolsar, Iran
[1] Rajayee, H. (2010). Creativity, collateral thought and religious beliefs. Isfahan: Shahreman Press. {In Persian}.

[2] Behboudi, D., & Amiri, B. (2010). The long-term relationship between knowledge-based economy and economic growth in Iran. Science and Technology Policy, 2(4), 23-32. {In Persian}.

[3] Mahmoodzadeh, E. (2001). Future management through tomorrow's technology. Tehran: Isiran Institute. {In Persian}.

[4] Moshiri, S., & Jahangard, E. (2004). ICT and economic growth of Iran. Economic researches of Iran, 6(19), 55-78. {In Persian}.

[5] Cozzens, S. E., Bobb, K., & Bortagaray, I. (2002). Evaluating the distributional consequences of science and technology policies and programs. Research Evaluation, 11(2), 101-107.

[6] Taghavi, M. (2008). Fundamental and Strategic Pattern of Islamic-Iranian Science and Technology Development. Humanities Methodology, 14(56), 73-98. {In Persian}.

[7] Pajooyan, J., & Faghih Nassiri, M. (2009). The effect of Competitiveness on economic growth: An internal growth pattern approach. Economic Researches of Iran, 13(38), 97-132. {In Persian}.

[8] Shahin, A, & Mahbod, M. A. (2006). Managing the process of designing Iran’s scientific roadmap: A systematic and balanced approach to Universities majors. Humanities National Congress, Tehran, Humanities and Social studies research center. {In Persian}.

[9] Mahdavi, M. T. (2000). Descriptive Dictionary of Technology. Tehran: Chapar Press, 1ST edition. {In Persian}.

[10] Baumol, W. J. (1986). Productivity growth, convergence, and welfare: what the long-run data show. The American Economic Review, 1(12), 1072-1085.

[11] Abramovitz, M. (1986). Catching up, forging ahead, and falling behind. The Journal of Economic History, 46(02), 385-406.

[12] Jaffe, A. B. (1989). Real effects of academic research. The American Economic Review, 79(5), 957-970.

[13] Vinkler, P. (2008). Correlation between the structure of scientific research, scientometric indicators and GDP in EU and non-EU countries. Scientometrics, 74(2), 237-254.

[14] Lee, L. C., Lin, P. H., Chuang, Y. W., & Lee, Y. Y. (2011). Research output and economic productivity: A Granger causality test. Scientometrics, 89(2), 465-478.

[15] Inglesi-Lotz, R., & Pouris, A. (2013). The influence of scientific research output of academics on economic growth in South Africa: an autoregressive distributed lag (ARDL) application. Scientometrics, 95(1), 129-139.

[16] Inglesi-Lotz, R., Balcilar, M., & Gupta, R. (2014). Time-varying causality between research output and economic growth in US. Scientometrics, 100(1), 203-216.

[17] Ntuli, H., Inglesi-Lotz, R., Chang, T., & Pouris, A. (2015). Does research output cause economic growth or vice versa? Evidence from 34 OECD countries. Journal of the Association for Information Science and Technology, 66(8), 1709-1716.

[18] Inglesi-Lotz, R., Chang, T., & Gupta, R. (2015). Causality between research output and economic growth in BRICS. Quality & Quantity, 49(1), 167-176.

[19] Cohen, W. M., Nelson, R. R., & Walsh, J. P. (2002). Links and impacts: the influence of public research on industrial R&D. Management Science, 48(1), 1-23.

[20] Mazzoleni, R., & Nelson, R. R. (2007). Public research institutions and economic catch-up. Research policy, 36(10), 1512-1528.

[21] Aghion, P., David, P. A., & Foray, D. (2009). Science, technology and innovation for economic growth: linking policy research and practice in ‘STIG Systems’. Research policy, 38(4), 681-693.

[22] Tofighi, J., & Ferasatkhah, M. (2002). Structural tools for Iran's scientific development. Research and planning in Higher education, 8(3), 1-36. {In Persian}.

[23] Zaker Salehi, Gh. (2011). Investigation of the present situation of science and technology in Iran and its position in development plans. Planning and budget, 16(4), 3-47. {In Persian}.

[24] Licheng, W. (2011). Science & Technology Input and Economic Growth: An Empirical Analysis Based on the Three Major Coastal Economic Regions of China. Energy Procedia, 5, 1779-1783.

[25] Norouzi Chakoli, A. R., & Maddadi, Z. (2015). The effect of economic power on selected countries science and technology status and analyzing their interrelationships. Scientometrics, 1(2), 1-14. {In Persian}.

[26] Gerschenkron, A. (1962). Economic backwardness in historical perspective: a book of essays. Cambridge, MA: Belknap Press of Harvard University Press.

[27] Nikoumaram, H., Rahnamy Roodposhti, Ferydoon., & Jokar Tang Karami, I. (2013). Determination of the role of foreign trade and innovation on investment and economic growth of Iran through the access to foreign technology. Financial knowledge of securities analysis, 6(20), 91-108. {In Persian}.

[28] Zhao, S. K., & Yu, H. Q. (2012, September). An empirical study on the dynamic relationship between technology standard, technological innovation and economic growth. In Management Science and Engineering (ICMSE), 2012 International Conference on (pp. 1646-1650). IEEE.

[29] Haji Hosseini, H. (2008). Iran's science and technology challenges. Tehran: Taknegasht notes, Humanities and Social studies research center. {In Persian}.

[30] Pradhan, R. P., Arvin, M. B., & Norman, N. R. (2015). The dynamics of information and communications technologies infrastructure, economic growth, and financial development: Evidence from Asian countries. Technology in Society, 42, 135-149.

[31] Arrow, K. (1962). Economic welfare and the allocation of resources for invention. In The rate and direction of inventive activity: Economic and social factors (pp. 609-626). Princeton University Press.

[32] Plosila, W. H. (2004). State science-and technology-based economic development policy: History, trends and developments, and future directions. Economic Development Quarterly, 18(2), 113-126.

[33] Fagerberg, J., & Srholec, M. (2008). National innovation systems, capabilities and economic development. Research policy, 37(9), 1417-1435.

[34] Mahmoodzadeh, M., & Mohseni, R. (2005). Investigation of the effect of imported technologies on Iran's economic growth. Economic researches, 5(16), 103-130. {In Persian}.

[35] Teixeira, A. A., & Queirós, A. S. (2016). Economic growth, human capital and structural change: A dynamic panel data analysis. Research Policy, 45(8), 1636-1648.

[36] Khalili Eraghi, M., & Goodarzi Farahani, Y. (2013). The effect of intellectual property rights on economic growth. Economic Rights, 19(4), 1-27. {In Persian}.

[37] Komeyjani, A., & Mahmoodzadeh, M. (2008). Effects of ICT infrastructure, end-using and spillover on economic growth of developing countries. Commerce research letter, 13(49), 31-73. {In Persian}.

[38] Naym, J., & Hossain, M. A. (2016). Does Investment in Information and Communication Technology Lead to Higher Economic Growth: Evidence from Bangladesh. International Journal of Business and Management, 11(6), 302-312.

[39] Marković, D., Petković, D., Nikolić, V., Milovančević, M., & Petković, B. (2017). Soft computing prediction of economic growth based in science and technology factors. Physica A: Statistical Mechanics and its Applications, 465, 217-220.

[40] Bhattacharya, S., & Momaya, K. (2009). Interpretive structural modeling of growth enablers in construction companies. Singapore Management Review, 31(1), 73-98.