Abstract
The focus of this study is on integration processes in European R&D by analyzing the spatio-temporal dimension of two different R&D collaboration networks across Europe. These networks cover different types of knowledge creation, namely co-patent networks and project based R&D networks within the EU Framework Programmes (FPs). Integration in European R&D - one of the main pillars of the EU Science Technology and Innovation (STI) policy - refers to the harmonisation of fragmented national research systems across Europe and to the free movement of knowledge and researchers. The objective is to describe and compare spatio-temporal patterns at a regional level, and to estimate the evolution of separation effects over the time period 1999-2006 that influence the probability of cross-region collaborations in the distinct networks under consideration. The study adopts a spatial interaction modeling perspective, econometrically specifying a panel generalized linear model relationship, taking into account spatial autocorrelation among flows by using Eigenfunction spatial filtering methods. The results show that geographical factors are a lower hurdle for R&D collaborations in FP networks than in co-patent networks Further it is shown that the geographical dynamics of progress towards more integration is higher in the FP network.
Original language | English |
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Title of host publication | http://www.ersa.org/ersa-congress/scientific-program/presentations |
Publication status | Published - 2012 |
Event | 52. Congress of the European Regional Science Association - ERSA - Duration: 21 Aug 2012 → 25 Aug 2012 |
Conference
Conference | 52. Congress of the European Regional Science Association - ERSA |
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Period | 21/08/12 → 25/08/12 |
Research Field
- Former Research Field - Innovation Systems and Policy
Keywords
- R&D networks
- European Framework Programme
- European Research Area
- Spatial interaction modelling
- Eigenvector spatial filtering