Schleich, JoachimJoachimSchleichWalz, RainerRainerWalzRagwitz, MarioMarioRagwitz2022-03-052022-03-052017https://publica.fraunhofer.de/handle/publica/24875810.1016/j.enpol.2017.06.043This paper explores the effects of policies and other factors driving innovation in wind power technologies in twelve OECD countries over more than two decades. Patent counts are used as an indicator for innovation. The factors considered are generally derived from the systems of innovation literature. Count data econometric model were used for the estimations. The suggest that patenting in wind power technology is positively related to public R&D in wind power (reflecting supply-side policy), the stock of wind capacity (reflecting learning effects), the number of patents per capita (reflecting a country's innovative capacity), and the share of Green party voters (reflecting the legitimacy of the technology). In particular, the presence of production or capacity targets for wind power or renewable energy sources and a stable policy environment (reflecting policy process) appear to be favourable for patenting wind power technologies. These results are robust to various model specifications, distributional assumptions, and alternative classifications of wind power technologies in the patent search.enInnovationsupply-side regulationdemand-side regulationwind powerpatent analysiscount data econometrics333journal article