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http://dx.doi.org/10.7545/ajip.2020.9.3.360

Roadmapping for the Export of Space Segment Based on Portfolio Analysis: A Case of Korea  

Kim, Jieun (R&D Strategy Team, Samsung Research, Samsung Electronics)
Publication Information
Asian Journal of Innovation and Policy / v.9, no.3, 2020 , pp. 360-393 More about this Journal
Abstract
The space industry is a comprehensive and technology-intensive industry involving different converging technologies. However, most of the companies in Korea's space industry are small and medium-sized enterprises (SMEs) and need to strengthen global capacity to export their products. However, the link between the destination country and the product remains insufficient. Consequently, the purpose of this study is to propose an export roadmap for space products to provide SMEs with export opportunities and strategic guidelines. For this, technology roadmap and portfolio analysis are applied to this purpose. This study is expected to be helpful to SMEs and government agencies.
Keywords
Export roadmap; Space industry; Portfolio analysis; Open innovation;
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  • Reference
1 Garcia, M. (1997). Introduction to technology roadmapping: The semiconductor industry association's technology roadmapping process. Sandia National Laboratories Report SAND 97-0665.
2 Garcia, M., and Bray, O. (1997). Fundamentals of technology roadmapping. Sandia National Laboratories Report SAND 97-0665, pp. 3-34.
3 Geum, Y., Kim, J., Son, C., and Park, Y. (2013). Development of dual technology roadmap (TRM) for open innovation: Structure and typology. Journal of Engineering and Technology Management, 30(3), 309-325.   DOI
4 Griliches, Z. (1990). Patent statistics as economic indicators: a survey. Journal of Economic Literature, 28(4), 1661-1707.
5 Jeon, J., Kim, J. (2017). Roadmapping for export of space segment based on portfolio analysis: a case of Korea, SOItmC & Riga Technical University 2017 Conference, Riga, Latvia, 15-18 Jun 2017.
6 Jeon, J., Kim, S.K., and Koh, J.H. (2015). Historical review on the patterns of open innovation at the national level: the case of the roman period. Journal of Open Innovation: Technology, Market, and Complexity, 1(20).
7 Jeon, J., Lee, H., and Park, Y. (2011). Implementing technology roadmapping with supplier selection for semiconductor manufacturing companies. Technology Analysis & Strategic Management, 23(8). 899-918.   DOI
8 Kappel, T.A. (2001). Perspectives on roadmaps: how organizations talk about the future. Journal of Product Innovation Management, 18(1), 39-50.   DOI
9 Kim, S.-J., Kim, E.-M., Suh, Y., and Zheng, Z. (2016). The effect of service innovation on R&D activities and government support systems: the moderating role of government support systems in Korea. Journal of Open Innovation: Technology, Market, and Complexity, 2(5).
10 Kostoff, R.N., and Schaller, R.R. (2001). Science and technology roadmaps. IEEE Transactions on Engineering Management, 48(2), 132-143.   DOI
11 Lee, S.K., Mogi, G., and Kim, J.W. (2009). Energy technology roadmap for the next 10 years: The case of Korea. Energy Policy, 37(2), 588-596.   DOI
12 Goldstein, A. (2002). The political economy of high-tech industries in developing countries: aerospace in Brazil, Indonesia and South Africa. Cambridge Journal of Economics, 26(4), 521-538.   DOI
13 Lee, S., Kang, S., Park, Y., and Park, Y. (2007). Technology roadmapping for R&D planning: The case of the Korean parts and materials industry. Technovation, 27(8), 433-445.   DOI
14 Mowery, D.C., and Oxley, J.E. (1995). Inward technology transfer and competitiveness: the role of national innovation systems. Cambridge Journal of Economics, 19, 67-93.
15 Lee, S., and Park, Y. (2005). Customization of technology roadmaps according to roadmapping purposes: Overall process and detailed modules. Technological Forecasting and Social Change, 72(5), 567-583.   DOI
16 Lichtenthaler, U. (2008). Integrated Roadmaps for Open Innovation. Research Technology Management, 51(3), 45-49.   DOI
17 Mankins, J.C. (2002). Approaches To Strategic Research and Technology (R&T) Analysis and Road Mapping. Acta Astronautica, 51(1-9), 3-21.   DOI
18 Park, J.-H., Lee, B., Moon, Y.-H., and Kwon, L.-N. (2016). Study for selection of industrial areas suitable to small and medium-sized enterprises (SMEs) in Korea. Journal of Open Innovation: Technology, Market, and Complexity,
19 Park, Y., Lee, S., and Lee, S. (2012). Patent analysis for promoting technology transfer in multi-technology industries: the Korean aerospace industry case. The Journal of Technology Transfer, 37(3), 355-374.   DOI
20 Patel, P., and Pavitt, K. (1997). The technological competencies of the world's largest firms: Complex and path-dependent, but not much variety. Research Policy, 26(2), 141-156.   DOI
21 Trajtenberg, M. (1990). A Penny for Your Quotes: Patent Citations and the Value of Innovations. The RAND Journal of Economics, 21(1), 172.   DOI
22 Phaal, R., Farrukh, C.J.P., and Probert, D. R. (2004). Technology roadmapping - a planning framework for evolution and revolution. Technological Forecasting and Social Change, 71(1-2), 5-26.   DOI
23 Quintana-Garcia, C., and Benavides-Velasco, C.A. (2008). Innovative competence, exploration and exploitation: The influence of technological diversification. Research Policy, 37, 492-507.   DOI
24 Rinne, M. (2004). Technology roadmaps: Infrastructure for innovation. Technological Forecasting and Social Change, 71(1-2), 67-80.   DOI
25 Saritas, O., and Oner, M. (2004). Systemic analysis of UK foresight results: joint application of integrated management model and roadmapping. Technological Forecasting and Social Change, 71, 27-65.   DOI
26 Schwerdtner, W., Siebert, R., Busse, M., and Freisinger, U. (2015). Regional Open Innovation Roadmapping: A New Framework for Innovation-Based Regional Development. Sustainability, 7(3), 2301-2321.   DOI
27 UN. (n.d.). UN data. Retrieved from http://data.un.org/
28 Yeats, A. J. (1998). Just How Big Is Global Production Sharing? (No. 1871). World Bank Policy Research Working Paper.
29 Amer, M., and Daim, T. U. (2010). Application of technology roadmaps for renewable energy sector. Technological Forecasting and Social Change, 77(8), 1355-1370.   DOI
30 Acs, Z. J., Anselin, L., and Varga, A. (2002). Patents and innovation counts as measures of regional production of new knowledge. Research Policy, 31(7), 1069-1085.   DOI
31 Bagheri, S.K., Nilforoushan, H., Rezapour, M., and Rashtchi, M. (2009). A new approach to Technology Roadmapping in the Open Innovation context: The Case of Membrane Technology for RIPI. Journal of Science & Technology Policy, 2(1).
32 Balassa, B. (1965). Trade Liberalisation and "Revealed" Comparative Advantage. The Manchester School, 33(2), 99-123.   DOI
33 Breschi, S., Lissoni, F., and Malerba, F. (2003). Knowledge-relatedness in firm technological diversification. Research Policy, 32(1), 69-87.   DOI
34 Burhan, M., Singh, A.K., and Jain, S.K. (2016). Patents as proxy for measuring innovations: A case of changing patent filing behavior in Indian public funded research organizations. Technological Forecasting and Social Change.
35 Caetano, M., and Amaral, D. C. (2011). Roadmapping for technology push and partnership: A contribution for open innovation environments. Technovation, 31(7), 320-335. https://doi.org/10.1016/j.technovation.2011.01.005   DOI
36 Chesbrough, H., and Crowther, A.K. (2006). Beyond high tech: early adopters of open innovation in other industries. R and D Management, 36(3), 229-236.   DOI
37 Euroconsult. (2014). Profiles of Government Space Programs: Analysis of Over 80 Countries & Agencies. Paris, France.
38 Fleming, L., and Sorenson, O. (2001). Technology as a complex adaptive system: evidence from patent data. Research Policy, 30(7), 1019-1039.   DOI