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Gerardo Luís Angulo Cuentas
Maryuris Charris Polo
Jaime Camacho Pico
Esta investigación pone a prueba, empíricamente, una serie de hipótesis sobre una muestra de 409 parques científico-tecnológicos (PCT) de todo el mundo. Esto se hace, mediante varios modelos de regresión, con el objetivo de analizar el impacto de factores internos y externalidades sobre el desempeño de los PCT. Los resultados más importantes muestran los casos y las condiciones en los que factores internos tienen un impacto positivo sobre el desempeño. Dada la escasa evidencia disponible, analizando los aspectos de los que trata este trabajo, el estudio aporta evidencia empírica significativa al avance de la literatura relativa al tema.

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Angulo Cuentas, G. L., Charris Polo, M., & Camacho Pico, J. (2015). Estudio cuantitativo de los factores que afectan el desempeño de los parques científico-tecnológicos (PCT). Revista Universidad Y Empresa, 16(27), 231-257. https://doi.org/10.12804/rev.univ.empresa.27.2014.08

Gerardo Luís Angulo Cuentas, Universidad del Magdalena (Colombia).

Estudiante del Doctorado en Gestión y desarrollo tecnológico de la Universidad Industrial de Santander (UIS) (Colombia). Magister en Ingeniería Industrial de la Universidad del Norte (Colombia). Ingeniero Industrial de la Universidad del Atlántico (Colombia). Profesor Asociado de la Universidad del Magdalena (Colombia).

Maryuris Charris Polo, Universidad del Magdalena (Colombia).

Magister en Ingeniería Industrial de la Universidad Industrial de Santander (UIS) (Colombia). Ingeniero Industrial de la Universidad del Magdalena (Colombia). Contratista del Despacho del Rector de la Universidad del Magdalena (Colombia).

Jaime Camacho Pico, Profesor Asociado de la Universidad Industrial de Santander (UIS) (Colombia).

Doctor en Ingeniería Industrial de la Universidad Politécnica de Cataluña (España). Ingeniero Industrial, Universidad Industrial de Santander (UIS) (Colombia). Profesor Asociado de la Universidad Industrial de Santander (UIS) (Colombia).

Asociación de Parques Científicos y Tecnológicos de España (APTE) (2 003). Los parques científicos y tecnológicos en el centro del sistema de innovación. Málaga: APTE. Recuperado de http://www.apte.org/documents/libros/LOS_PARQUES_CIENTIFICOS_Y_TECNOLOGICOS_EN_EL_CENTRO_DEL_SISTEMA_DE_INNOVACION.pdf

Association of University Research Parks (AURP) (2 011). What is a research park? Recuperado el 11 de octubre de 2012, de http://www.aurp.net/what-is-a-research-park

Bakouros, Y. L., Mardas, D. C., & Varsakelis, N. C. (2 002). Science park, a high tech fantasy?: An analysis of the science parks of Greece. Technovation, 22(2), 123-128.

Bigliardi, B., Dormio, A., Nosella, A., & Petroni, G. (2 006). Assessing science parks’ performances: directions from selected Italian case studies. Technovation, 26(4), 489-505.

Castells, M., & Hall, P. (1 994). Technopoles of the world: The making of 21st century industrial complexes. Nueva York: Routledge.

Chen, C.-J., Wu, H.-L., & Lin, B.-W. (2 006). Evaluating the development of high-tech industries: Taiwan’s science park. Technological Forecasting and Social Change, 73(4), 452-465.

Colombo, M., & Delmastro, M. (2 002). How effective are technology incubators? Evidence from Italy. Research Policy, 31(7), 1 103-1 122.

Dettwiler, P., Lindelöf, P., & Löfsten, H. (2 006). Utility of location: A comparative survey between small new technology-based firms located on and off Science Parks—Implications for facilities management. Technovation, 26(4), 506-517.

Ferguson, R., & Olofsson, C. (2 004). Science parks and the development of NTBFs— Location, survival and growth. The Journal of Technology Transfer, 29(1), 5-17.

Fukugawa, N. (2 006). Science parks in Japan and their value-added contributions to new technology-based firms. International Journal of Industrial Organization, 24(2), 381-400.

Hansson, F., Husted, K., & Vestergaard, J. (2 005). Second generation science parks: From structural holes jockeys to social capital catalysts of the knowledge society. Technovation, 25(9), 1 039-1 049.

Hu, A. (2 007). Technology parks and regional economic growth in China. Research Policy, 36(1), 76-87.

International Association of Science Park (IASP) (2 002). Knowledge bites. Recuperado el 11 de octubre de 2012, de http://www.iasp.ws/knowledge-bites

Lindelöf, P., & Löfsten, H. (2 002). Growth, management and financing of new technology-based firms—assessing value-added contributions of firms located on and off Science Parks. Omega, 30(3), 143-154.

Lindelöf, P., & Löfsten, H. (2 003). Science park location and new technology-based firms in Sweden – Implications for strategy and performance. Small Business Economics, 20(3), 245-258.

Lindelöf, P., & Löfsten, H. (2 004). Proximity as a resource base for competitive advantage: University–Industry Links for Technology Transfer. The Journal of Technology Transfer, 29(3/4), 311-326.

Link, A. N., & Link, K. R. (2 003). On the growth of U.S. science parks. The Journal of Technology Transfer, 28(1), 81-85.

Link, A. N., & Scott, J. T. (2 003). The growth of research triangle park. Small Business Economics, 20(2), 167-175.

Löfsten, H., & Lindelöf, P. (2 002). Science parks and the growth of new technology-based firms—academic-industry links, innovation and markets. Research Policy, 31(6), 859-876.

Löfsten, H., & Lindelöf, P. (2 003). Determinants for an entrepreneurial milieu: Science parks and business policy in growing firms. Technovation, 23(1), 51-64.

Löfsten, H., & Lindelöf, P. (2 005). R&D networks and product innovation patterns? Academic and non-academic new technology-based firms on science parks. Technovation, 25(9), 1 025-1 037.

Salvador, E. (2 011). Are science parks and incubators good “brand names” for spin-offs? The case study of Turin. The Journal of Technology Transfer, 36(2), 203-232.

Siegel, D. S., Westhead, P., & Wright, M. (2 003a). Science parks and the performance of new technology-based firms: A review of recent U.K. evidence and an agenda for future research. Small Business Economics, 20(2), 177-184.

Siegel, D., Westhead, P., & Wright, M. (2 003b). Assessing the impact of university science parks on research productivity: Exploratory firm-level evidence from the United Kingdom. International Journal of Industrial Organization, 21(9), 1 357-1 369.

Squicciarini, M. (2 009). Science parks: Seedbeds of innovation? A duration analysis of firms’ patenting activity. Small Business Economics, 32(2), 169-190.

Storey, D. J., Tether, B. S. (1 998). Public policy measures to support new technology-based firms in the European Union. Research Policy, 26, 1 037-1 057.

Sun, C. C. (2 011). Evaluating and benchmarking productive performances of six industries in Taiwan Hsin Chu Industrial Science Park. Expert Systems with Applications, 38(3), 2 195-2 205.

Tan, J. (2 006). Growth of industry clusters and innovation: Lessons from Beijing Zhongguancun Science Park. Journal of Business Venturing, 21(6), 827-850.

United Kingdom Science Park Association (UKSPA) (2 003). Evaluation of the past and future economic contribution of the UK science park movement. Executive Summary. Essex: UKSPA. Disponible en http://www.tamana.com/apps/cms/articlefiles/70-UKSPAEvaluation-ExecutiveSummary.pdf

United Kingdom Science Park Association (UKSPA) (2 011). About UKSPA / FAQs about UKSPA. Recuperado el 11 de octubre de 2012, de http://www.ukspa.org.uk/our-organisation/about-us y http://www.ukspa.org.uk/about_ukspa/faqs_about_ukspa/

World Alliance for Innovation (WAINOVA) (2 009). WAINOVA Atlas of Innovation: Science/Technology/Research Parks and business incubators in the world. Cheshire: Ten Alps Publishing.

Westhead, P. (1 997). R&D “inputs” and “outputs” of technology-based firms located on and off science parks. R&D Management, 27, 45-62.

Westhead, P., Storey, D.J., (1 994). An assessment of firms located on and off science parks in the United Kingdom. Londres: HMSO.

Yang, C., Motohashi, K., & Chen, J. (2 009). Are new technology-based firms located on science parks really more innovative? Evidence from Taiwan. Research Policy, 38(1), 77-85.

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