LEO Project Software: http://www.linkedeodata.eu/Software-and-data Finally, to demonstrate the benefits of linked open EO data and its combination with linked geospatial to the European economy, a precision farming application is developed that is heavily based on such data. Expected final results The expected scientific and technological results of LEO are the following: 1. A detailed specification of the linked EO data life cycle 2. Publication of various EO and geospatial data as linked data (e.g., OpenStreetMap data and Natura 2000 of Bavaria-Germany available in http://datahub.io/organization/leo, etc.) 3. The publishing tool GeoTriples that takes as input vector or raster EO data and geospatial data available in some well-known formats and transform it into RDF 4. An extension of the tool Silk for interlinking open EO data and geospatial data 5. The tools LEO Data Search Engine and LEODroid for searching and browsing linked EO data and geospatial data 6. The tool Sextant for browsing and visualization of linked EO data and geospatial data 7. The LEO software stack integrating the above tools and others produced by the partners in earlier projects (e.g., TELEIOS) 8. The precision farming application LEOpatra Impact of results Finally, LEO has developed the mobile precision farming application LEOpatra which concentrates on fertilization and makes use of satellite images and linked open geospatial data. E-agriculture and especially the use of remote sensing, GPS, geospatial and mobile technologies in agriculture, is an important area of research and development internationally and has been supported actively by ESA, Copernicus, FAO and other relevant agencies. In Europe, the current reform proposals for the Common Agricultural Policy towards 2020 have set specific objectives such as viable food production, sustainable management of natural resources and climate action, and balanced territorial development.