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1. (Préstamo BID Nº 1663/OC-PE) Lima, 17-jun-11 1
2. Innovación
Competitividad global & I+D+i
Ecosistema de la Innovación: actores y relaciones
Estado
Empresas
Academia
Otros
Incubadoras de empresas de base tecnológica
Sistema Nacional de Innovación
Propiedad Intelectual
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4. 4 Índice del desarrollo humano
5. 5 www.benetti.com.br Características del proceso creativo
6. Dimensiones de la innovación 6
7. 7 Definiciones
8. INOVAGRAMA
9. Modelos de Innovación
10. Modelos de Innovación
11. Previsiones para tecnologías emergentes
12. Drivers for, and Barriers to, Technology Implementation Cost and financing
Laws and policies
Social values, public opinions, politics
Infrastructure
Privacy concerns
Resource use and environmental health
Investment in R&D
Education and literacy
Population and demographics
Governance and stability Back to the issue of drivers and barriers raised earlier in this presentation. The S&T capacity that enables a country to acquire a technology application is only one of several factors determining whether that country will be able to implement it. The drivers facilitating innovation and the barriers hindering it also have a decisive influence on the ability to implement technology applications (i.e., to put the applications in place and get significant gains from them across the country).
Our assessments involve things such as whom an application will benefit and whether a country can sustain its use over time. Drivers and barriers involve the same dimensions: A dimension that is a driver in one context may be a barrier in another. For example, financing, when available, would be a driver, but financing, when lacking, is a barrier. A high level of literacy among a nation’s citizens would be a driver, but if literacy were low, it would form a barrier. And in certain cases, a dimension that is a barrier can simultaneously be a driver when only partial progress in that dimension has been made or when conflicting issues in the dimension are present. For example, education in the United States is a driver, but there are also concerns about problems in math and science education in the United States. Also, environmental concerns may dampen some S&T applications in China while promoting environmentally friendly applications such as green manufacturing and hybrid vehicles.
We identified 10 major drivers and barriers that countries may face through 2020: (1) cost and financing; (2) laws and policies; (3) social values, public opinions, and politics; (4) infrastructure; (5) privacy concerns; (6) resource use and environmental health; (7) investment in R&D; (8) education and literacy; (9) population and demographics; and (10) governance and stability. Back to the issue of drivers and barriers raised earlier in this presentation. The S&T capacity that enables a country to acquire a technology application is only one of several factors determining whether that country will be able to implement it. The drivers facilitating innovation and the barriers hindering it also have a decisive influence on the ability to implement technology applications (i.e., to put the applications in place and get significant gains from them across the country).
Our assessments involve things such as whom an application will benefit and whether a country can sustain its use over time. Drivers and barriers involve the same dimensions: A dimension that is a driver in one context may be a barrier in another. For example, financing, when available, would be a driver, but financing, when lacking, is a barrier. A high level of literacy among a nation’s citizens would be a driver, but if literacy were low, it would form a barrier. And in certain cases, a dimension that is a barrier can simultaneously be a driver when only partial progress in that dimension has been made or when conflicting issues in the dimension are present. For example, education in the United States is a driver, but there are also concerns about problems in math and science education in the United States. Also, environmental concerns may dampen some S&T applications in China while promoting environmentally friendly applications such as green manufacturing and hybrid vehicles.
We identified 10 major drivers and barriers that countries may face through 2020: (1) cost and financing; (2) laws and policies; (3) social values, public opinions, and politics; (4) infrastructure; (5) privacy concerns; (6) resource use and environmental health; (7) investment in R&D; (8) education and literacy; (9) population and demographics; and (10) governance and stability.
13. Major Finding: Not all nations will have capacity to acquire and use all Future Technology Applications Capacity to acquire is based on S&T capacity in each country
Acquisition may be through research & development, technology transfer, licensing, off-the-shelf purchases, copying/piracy.
Implementation is not automatic
Implementation is affected by a confluence of economic, social, political and other mitigating factors.
Capacity to use technology applications is based on
Capacity to acquire + having sufficient drivers to overcome barriers to implementation.
Being able to acquire a technology does not necessarily mean that there is capacity to implement it and effect desired outcomes with it, e.g., in reducing rural poverty or improving public health. TAs may be acquired through a variety of means, including domestic R&D, licensing, off-the-shelf purchases, and even copying/piracy. However, implementation demands a lot more, and the experiences of bilateral and multilateral development banks provide many examples. For example, without access to financing, targeted users of a TA has no means to acquire it and use it. Others might reject certain TAs because of cultural sensitivities. Another reason for failure to implement might be the absence of sufficient infrastructure, e.g., electricity. Indeed, various economic, social, political and other mitigating factors can significantly affect the implementation of TAs.
Our assessment of national capacity to implement TAs considered three factors: (1) capacity to acquire, defined as the percentage of the “top 16” TAs listed for that country; (2) the percentage of 10 drivers for implementation applicable to that country; and (3) the percentage of 10 barriers to implementation applicable to that country. In short, more than S&T capacity to acquire a TA, a country needs sufficient drivers to overcome barriers to enable implementation. Our assertion is that capacity to acquire TAs is largely determined by national S&T capacity. Implementing TAs, however, will require the presence of drivers, of the right kind and at a sufficient level to mitigate barriers to their implementation. We derived our 10 drivers and barriers from a large body of research on economic development. (More on these drivers and barriers in subsequent slides/notes.) Being able to acquire a technology does not necessarily mean that there is capacity to implement it and effect desired outcomes with it, e.g., in reducing rural poverty or improving public health. TAs may be acquired through a variety of means, including domestic R&D, licensing, off-the-shelf purchases, and even copying/piracy. However, implementation demands a lot more, and the experiences of bilateral and multilateral development banks provide many examples. For example, without access to financing, targeted users of a TA has no means to acquire it and use it. Others might reject certain TAs because of cultural sensitivities. Another reason for failure to implement might be the absence of sufficient infrastructure, e.g., electricity. Indeed, various economic, social, political and other mitigating factors can significantly affect the implementation of TAs.
Our assessment of national capacity to implement TAs considered three factors: (1) capacity to acquire, defined as the percentage of the “top 16” TAs listed for that country; (2) the percentage of 10 drivers for implementation applicable to that country; and (3) the percentage of 10 barriers to implementation applicable to that country. In short, more than S&T capacity to acquire a TA, a country needs sufficient drivers to overcome barriers to enable implementation. Our assertion is that capacity to acquire TAs is largely determined by national S&T capacity. Implementing TAs, however, will require the presence of drivers, of the right kind and at a sufficient level to mitigate barriers to their implementation. We derived our 10 drivers and barriers from a large body of research on economic development. (More on these drivers and barriers in subsequent slides/notes.)
14. 14 Perú: PBI per capita ($ intl.) 1950-2009
15. 15 PBI per capita comparativo con EEUU
16. 16
17. 17 Pilares del Índice de Competitividad Global (ICG)
18. 18 I+D/cap (prom. 2001-2003) vs PBI/cap (2001-2005)
19. 19
20. 20 Gastos en inversión en I+D como % del PBI
21. 21
22. 22 Gastos en I+D por fuente de financiamiento: 2005-2007
23. 23
24. 24 Investigadores por sector de empleo. 2007
25. 25
26. 26 Distribución de investigadores por campo de la ciencia. 2007
27. 27
28. 28
29. 29 Exportaciones de alta tecnología (% exp. Manufacturadas)
30. Especialización científica relativa en países de LAC 30
31. Relaciones entre Ciencia, Tecnología y Producción 31
32. 32
33. Incubadoras y la Jerarquía de Habitats de Innovación
34. 34 Incubadoras y Parques tecnolígicos: aspectos comunes
35. 35 Incubadoras de empresas
36. 36
37. 1. El proceso de incubación 37
38. 1. Pérdidas en la fase de incubación 38
39. 39 1. Graduación
40. 40 1. Pos incubación (masa crítica de empresas)
41. 41 2. Infraestructura operacional
42. 42 3. Infraestructura organizacional
43. 43 4. Infraestructura financiera: financiamiento de emprendimientos y ciclo de vida de la tecnología
