Now showing 1 - 4 of 4
  • Publication
    New Cooperation and Novel Innovations: The Role of Regional Brokerage and Collaboration Intensity
    (University College Dublin. Spatial Dynamics Lab, 2021-02-04) ; ;
    Along with the increased importance of technology innovation, the importance of collaboration has been highlighted for conducting the innovation. This study discusses the importance of brokerage role of regions in co-inventor collaboration for establishing novel innovation and new collaboration. In addition, we address how regional collaboration intensity interacts with the brokerage role, highlighting its mediating effect. For this purpose, empirical analysis has been conducted with EPO PATSTAT database and European Regional Database (ERD) covering the European regions between 1986 and 2015. Our finding shows that the brokerage roles contribute to the extension of collaboration network, but are not efficient for the creation of new invention. Collaboration intensity, however, helps both novel innovation and new collaboration, and especially it positively interacts with brokerage role indicating that a region can take the benefit from being broker in collaboration.
      182
  • Publication
    The relevance of scientific knowledge externalities for technological change and resulting inventions across European metropolitan areas
    Contrary to perceptions in which technological development proceeds independently of scientific research, the interplay between science and technology has been recognized as an essential part in technological change, industrial competitiveness, and economic growth. While the process of knowledge exchanges between the nexus is conceptually well grounded in relevant literatures, the absence of quantitative measures and assessments of such linkages may underestimate the importance of scientific knowledge inputs for generating high-impact innovative outcomes. In this regard, we propose a large quantitative analysis on knowledge externalities from science to technology by investigating patent citations to science data across European metropolitan regions. First, we construct a dataset of patent citations to scientific knowledge that includes information on the spatial origins of knowledge spillovers. Subsequently, the ratio of internal scientific knowledge sourcing to external sources and its effect on patent citation impact is evaluated. Findings suggest that regions with a higher reliance on their internal scientific resources tend to generate inventions with higher technological impact, and that a strong connection between science and technology is even more effective in advanced industrial regions.
    Scopus© Citations 1  62
  • Publication
    Regional knowledge spaces: the interplay of entry-relatedness and entry-potential for technological change and growth
    This paper aims to uncover the mechanism of how the network properties of regional knowledge spaces contribute to technological change from the perspective of regional knowledge entry-relatedness and regional knowledge entry-potential. Entry-relatedness, which has been previously employed to investigate the technology evolution of regional economies, is advanced by introducing a knowledge gravity model. The entry-potential of a newly acquired regional specialisation has been largely ignored in the relevant literature; surprisingly given the high relevance that is attributed to the recombination potential of new capabilities. In other words, just adding new knowledge domains to a system is not sufficient alone, it really depends on how these fit into the existing system and thus can generate wider economic benefits. Based on an empirical analysis of EU-15 Metro and non-Metro regions from 1981 to 2015, we find that entry-relatedness has a significant negative association with novel inventive activities, while entry-potential has a significant positive association with the development of novel products and processes of economic value. This highlights that regions’ capacity to venture into high-potential areas of technological specialization in the knowledge space outperforms purely relatedness driven diversification that is frequently promoted in the relevant literature.
    Scopus© Citations 9  51
  • Publication
    Regional Knowledge Spaces: The Interplay of Entry-Relatedness and Entry-Potential for Technological Change and Growth
    (University College Dublin. Spatial Dynamics Lab, 2021-09-20) ; ; ;
    This paper aims to uncover the mechanism of how the network properties of regional knowledge spaces contribute to technological change from the perspective of regional knowledge entry-relatedness and regional knowledge entry-potential. Entry-relatedness, which has been previously employed to investigate the technology evolution of regional economies, is advanced by introducing a knowledge gravity model. The entry-potential of a newly acquired regional specialisation has been largely ignored in the relevant literature; surprisingly given the high relevance that is attributed to the recombination potential of new capabilities. In other words, just adding new knowledge domains to a system is not sufficient alone, it really depends on how these fit into the existing system and thus can generate wider economic benefits. Based on an empirical analysis of EU Metro and non-Metro regions from 1981 to 2015, we find that entry-relatedness has a significant negative association with novel inventive activities, while entry-potential has a significant positive association with the development of novel products and processes of economic value. This highlights that regions’ capacity to venture into high-potential areas of technological specialization in the knowledge space outperforms purely relatedness driven diversification that is frequently promoted in the relevant literature.
      298