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Brazilian Aeronautical Industry: An Approach to Public Policies

Ferreira, Marcos José Barbieri ; Caliari, Thiago ;

Artigo completo:

This paper aims to present the evolution of the Brazilian aeronautical industry focusing on public policies. We analyse it under theoretical approaches of Innovation Systems and Global Value Chains considering that a consolidated arrangement in national boundaries is useful to improve national firms, in order to compete at the international level. The government’s role on the aeronautical industry is considered as a mission-oriented policy. As main conclusions, we highlight that public policies shift as new results are achieved and new goals are being established, in line with a mission-oriented innovation policy. Hence, the need for evaluation and adjustment over time would be seen as a more general lesson from this paper, and the role of government intervention emerges as a particular strategy for each nation-state.

Artigo completo:

Palavras-chave: Global Value Chains; Innovation Systems; aeronautical industry; mission-oriented policy; Brazil,

Palavras-chave:

DOI: 10.5151/iv-enei-2019-1.1-018

Referências bibliográficas
  • [1] ARAÚJO, B. C. et al. Impactos dos fundos setoriais nas empresas. Revista Brasileira de Inovação, v. 11, n. n.esp., p. 85–112, 2012.
  • [2] AVELLAR, A. P. Impacto das Políticas de Fomento à Inovação no Brasil sobre o Gasto em Atividades Inovativas e em Atividades de P&D das Empresas. Estudos Econômicos (São Paulo), v. 39, n. 3, p. 629–649, 2009.
  • [3] BERNARDES, R. Redes de Inovação e Cadeias Produtivas Globais: Impactos da Estratégia de Competição da Embraer no Arranjo Aeronáutico da Região de São José dos Campos. , no 2 Rio de Janeiro: [s.n.], 2000. Retrieved from: . Acessed in: 11 set. 2017.
  • [4] BERTAZZO, R. P. A crise da indústria aeronáutica brasileira: 1945-1968. 2003. 50 f. UFJF, 2003.
  • [5] BINZ, C.; TRUFFER, B.; COENEN, L. Why space matters in technological innovation systems—Mapping global knowledge dynamics of membrane bioreactor technology. Research Policy, v. 43, p. 138–155, 2014.
  • [6] BOEING, P. The allocation and effectiveness of China’s R&D subsidies - Evidence from listed firms. Research Policy, v. 45, n. 9, 201
  • [7] BRASIL. Lançado fundo de investimento para o setor aeroespacial. Retrieved from: .
  • [8] CABRAL, A. S. Análise do Desempenho Tecnológico da Indústria Aeronáutica Brasileira. 1987. 241 f. Instituto Tecnológico da Aeronáutica, 1987.
  • [9] CECOMPI. Brazilian Aeronautical Cluster. Retrieved from: .
  • [10] CHANG, H.-J. Chutando a Escada: a Estratégia do Desenvolvimento em Perspectiva histórica. São Paulo: Fundação Editora da Unesp, 2003.
  • [11] CHANGXI, L. Public Opinion, Central Decision-making Dominance and Policy Changes: A Case Study of China’s Large Aircraft Industry. China: An International Journal, v. 14, n. 1, p. 35–55, 2016.
  • [12] COOKE, P. Regional Innovation Systems, Clusters, and the Knowledge Economy. Industrial and Corporate Change, v. 10, n. 4, p. 945–974, 2001.
  • [13] COOKE, P. Regional innovation systems: Competitive regulation in the new Europe. Geoforum, v. 23, n. 3, p. 365–382, jan. 1992.
  • [14] DAGNINO, R. A Indústria Aeronáutica. , Nota Técnica Setorial. Campinas: [s.n.], 1993.
  • [15] DEFESANET. Setor Aeronáutico vive nova fase de expansão. 2017. Retrieved from: .
  • [16] EACP. European Aerospace Cluster Partnership. Retrieved from: . Acessed in: 10 apr. 2018.
  • [17] EDQUIST, C. Efficiency of Research and Innovation Systems for Economic Growth and Employment. , no 2014/08. Lund: [s.n.], 2014. Retrieved from: . Acessed in: 12 set. 20
  • [18] EDQUIST, C. et al. Public Procurement for Innovation. Massachussets: Edward Elgar, 2015.
  • [19] EMBRAER. Demonstrações Financeiras 2016. . [S.l: s.n.], 2016. Retrieved from: .
  • [20] EXAME. Dos sindicatos aos acionistas: as dúvidas sobre Embraer e Boeing. 2018. Retrieved from: . Acessed in: 10 ago. 2018.
  • [21] FERREIRA, M. J. B. Dinâmica da Inovação e Mudanças Estruturais: um estudo de caso da indústria aeronáutica mundial e a inserção brasileira. 2009. 267 f. Unicamp, 2009.
  • [22] FLORIDA, R. Toward the Learning Region. Futures, v. 27, n. 5, p. 527–536, 1995.
  • [23] FORJAZ, M. C. S. As Origens da Embraer. Tempo Social, v. 17, n. 1, p. 281–298, 2005. Retrieved from: . Acessed in: 31 ago. 2017.
  • [24] FRANCELINO, J. DE A. Impactos Tecnológicos de Programas de Aquisição de Aeronaves Militares sobre o Nível de Capacitação da Indústria Aeronáutica Brasileira. 2016. 345 f. Instituto Tecnológico da Aeronáutica, 2016.
  • [25] FREEMAN, C. Economics of Innovation. London: Routledge, 1992.
  • [26] GARTENKRAUT, M. Recommendations for the CTA Law (Plano Smith) e Brasil : futura potência aérea Conferência Proferida pelo Professor Richard H . Smith , no Rio de Janeiro , em 1945. Revista Brasileira de Inovação, v. 7, n. 1, p. 209–241, 2008.
  • [27] GEREFFI, G. A Global Value Chain Perspective on Industrial Policy and Development in Emerging Markets. Duke Journal of Comparative & International Law , v. 24, p. 433–458, 2014.
  • [28] GEREFFI, G. International trade and industrial upgrading in the apparel commodity chain. Journal of International Economics, v. 48, p. 37–70, 1999.
  • [29] GOMES, S. B. V. A indústria aeronáutica no Brasil: evolução recente e perspectivas. . Rio de Janeiro: [s.n.], 2012. Retrieved from: . Acessed in: 6 set. 2017.
  • [30] GORDON, Y. Chinese Aircraft: History of China’s Aviation Industry 1951-2007. [S.l.]: Hikoki Publications, 2008.
  • [31] GUAN, J.; YAM, R. C. M. Effects of government financial incentives on firms’ innovation performance in China: Evidences from Beijing in the 1990s. Research Policy, v. 44, p. 273–282, 2015.
  • [32] HAUSMANN, R.; RODRIK, D. Economic development as self-discovery. Journal of Development Economics, v. 72, p. 603–633, 2003.
  • [33] HAYWARD, K. The Chinese Aerospace Industry: A Background Paper. London: [s.n.], 2013. Retrieved from: . Acessed in: 29 jan. 2018.
  • [34] HAYWARD, K. World Aerospace Industry: Competition and Collaboration. [S.l.]: Gerald Duckworth & Co Ltd, 1994.
  • [35] KETELS, C. et al. Aerospace Cluster in Queretaro, Mexico. . Massachussets: [s.n.], 2015. Retrieved from: . Acessed in: 10 abr. 2018.
  • [36] KIM, L. Imitation to Innovation: The Dynamics of Korea’s Technological Learning. Cambridge, MA: Harvard Business Review Press, 1997.
  • [37] KIM, L.; NELSON, R. Tecnologia, aprendizado e inovação: as experiências das economias de industrialização recente. Campinas: Editora Unicamp, 2005.
  • [38] LEE, J. J.; YOON, H. A comparative study of technological learning and organizational capability development in complex products systems: Distinctive paths of three latecomers in military aircraft industry. Research Policy, v. 44, p. 1296–1313, 2015.
  • [39] LEE, T.-L.; VON TUNZELMANN, N. A dynamic analytic approach to national innovation systems: The IC industry in Taiwan. Research Policy, v. 34, p. 425–440, 2005.
  • [40] LIMA, J. C. C. O. et al. A cadeia aeronáutica brasileira e o desafio da inovação. . Rio de Janeiro: [s.n.], 2005. Retrieved from: . Acessed in: 6 set. 2017.
  • [41] MALERBA, F. Sectoral systems of innovation and production. Research Policy, v. 31, p. 247–264, 2002.
  • [42] MAZZUCATO, M. Mission-Oriented Innovation Policy: Challenges and Opportunities. , no WP 2017-1. London: [s.n.], 2017. Retrieved from: . Acessed in: 5 mar. 2018.
  • [43] MAZZUCATO, M. The Entrepreneurial State: Debunking Public vs. Private Sector Myths. [S.l.]: Anthem PR, 2015.
  • [44] MAZZUCATO, M.; PENA, C. The Brazilian Innovation System: A Mission-Oriented Policy Proposal. . Brasília: [s.n.], 2016. Retrieved from: . Acessed in: 5 mar. 2018.
  • [45] MAZZUCATO, M.; ROBINSON, D. K. R. Co-creating and directing Innovation Ecosystems? NASA’s changing approach to public-private partnerships in low-earth orbit. Technological Forecasting & Social Change, 2017.
  • [46] MINTER, A. China Aviation Could Disrupt the Boeing-Airbus Duopoly. Bloomberg, Sep 25. Retrieved from: . Acessed in: 10 ago. 2018.
  • [47] MIRANDA, K. A. C. L. DE. Politica de compras do comando da aeronautica e o aprendizado tecnologico de fornecedores. 2008. 219 f. UNICAMP, 2008. Retrieved from: . Acessed in: 10 jul. 2017.
  • [48] MONROY, C. R.; RAMÓ, J.; ARTO, V. Analysis of global manufacturing virtual networks in the aeronautical industry. Intern. Journal of Production Economics, v. 126, p. 314–323, 2010.
  • [49] MOWERY, D.; ROSENBERG, N. Trajetórias da inovação: a mudança tecnológica nos Estados Unidos da América no século XX. Campinas: Editora Unicamp, 2005.
  • [50] NIOSI, J.; ZHEGU, M. Aerospace Clusters: Local or Global Knowledge Spillovers? Industry and Innovation, v. 12, n. 1, p. 1–25, 2005.
  • [51] PAVITT, K. Sectoral patterns of technical change: Towards a taxonomy and a theory. Research Policy, v. 13, n. 6, p. 343–373, 1984.
  • [52] PEPPARD, J.; RYLANDER, A. From Value Chain to Value Network: Insights for Mobile Operators. European Management Journal, v. 24, n. 2–3, p. 128–141, 2006.
  • [53] PIETROBELLI, C.; RABELLOTTI, R. Global Value Chains Meet Innovation Systems Are There Learning Opportunities for Developing Countries? World Development, v. 39, n. 7, p. 1261–1269, 2011.
  • [54] PIETROBELLI, C.; RABELLOTTI, R. The global dimension of innovation systems: linking innovation systems and global value chains. In: LUNDVALL, B.A.; JOSEPH, K. J.; CHAMANADE, C. . V. J. (Org.). . Handbook of Innovation Systems and Developing Countries. [S.l.]: Edward Elgar, 2009.
  • [55] PLANEJAMENTO, M. DO. Novo avião da Embraer reforça a FAB e também a indústria brasileira. Retrieved from: .
  • [56] PORTER, M. Strategy and the Internet. Harvard Business Review, v. march, p. 1–19, 2001. Retrieved from: . Acessed in: 5 mar. 2018.
  • [57] SARTI, F; FERREIRA, M. J. B. Evolução da Indústria Aeronáutica Brasileira Entre as Décadas de 1930 e 1980: estrutura de mercado e capacitação tecnológica. Revista da UNIFA, Rio de Janeiro, v. 25, n. 31, p. 101-110, dez. 2012.
  • [58] SERFATI, C. L'Industrie Française de Défense, La Documentation française, Paris, 2014.
  • [59] SILVA, O. Nas asas da educação: a trajetória da Embraer. Rio de Janeiro: Elsevier, 2008.
  • [60] STEINBOCK, D. Globalization of wireless value system: from geographic to strategic advantages. Telecommunications Policy, v. 27, p. 207–235, 2003.
  • [61] STURGEON, T. et al. Brazilian Manufacturing in International Perspective: A Global Value Chain Analysis of Brazil’s Aerospace, Medical Devices, and Electronics Industries. . Durnham: [s.n.], 2013. Retrieved from: . Acessed in: 21 mar. 2018.
  • [62] SZAPIRO, M. et al. Global Value Chains and National Systems of Innovation: policy implications for developing countries Global Value Chains and National Systems of Innovation: policy implications for developing countries. , no 5. Rio de Janeiro: [s.n.], 2016. Retrieved from: . Acessed in: 16 mar. 2018.
  • [63] VINHOLES, T. Embraer apresenta E195-E2, o maior avião desenvolvido no Brasil. Airway Uol, p. 2, 2017. Retrieved from:
Como citar:

Ferreira, Marcos José Barbieri; Caliari, Thiago; "Brazilian Aeronautical Industry: An Approach to Public Policies", p. 19-36 . In: Anais do IV Encontro Nacional de Economia Industrial e Inovação. São Paulo: Blucher, 2019.
ISSN 2357-7592, DOI 10.5151/iv-enei-2019-1.1-018

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