The search found 18 results in 0.008 seconds.
Search results
Copernicus is an European system for monitoring the Earth. Data is collected by different sources, including Earth observation satellites and in-situ sensors. The data is processed and provides reliable and up-to-date information about six thematic areas: land, marine, atmosphere, climate change...
Kongens Nytorv 6, Copenhagen, 1050, DK
MyToolBox: Safe Food and Feed through an Integrated ToolBox for Mycotoxin Management
MyToolBox: Safe Food and Feed through an Integrated ToolBox for Mycotoxin Management
The overall objective of APOLLO is to develop a commercial platform that will provide a suite of farm management advisory services specifically designed to address the needs of small farmers. APOLLO will use state-of-the-art methodologies for the calculation of agricultural parameters based on EO data, taking advantage of the improved spatial and temporal coverage of the new Sentinels.
The overall objective of APOLLO is to develop a commercial platform that will provide a suite of farm management advisory services specifically designed to address the needs of small farmers. APOLLO will use state-of-the-art methodologies for the calculation of agricultural parameters based on EO data, taking advantage of the improved spatial and temporal coverage of the new Sentinels.
In modern greenhouses there is a high demand to automate labour. The availability of a skilled workforce that accepts repetitive tasks in harsh greenhouse climate conditions is decreasing rapidly. The resulting increase in labour costs and reduced capacity puts major pressure on the competitiveness of the European greenhouse sector. Present robotization of this labour has entered an high level of technological readiness. However, a gap remains which halts the transition from science to economic and societal impact; the so called ‘Technological Innovation Gap’.
In modern greenhouses there is a high demand to automate labour. The availability of a skilled workforce that accepts repetitive tasks in harsh greenhouse climate conditions is decreasing rapidly. The resulting increase in labour costs and reduced capacity puts major pressure on the competitiveness of the European greenhouse sector. Present robotization of this labour has entered an high level of technological readiness. However, a gap remains which halts the transition from science to economic and societal impact; the so called ‘Technological Innovation Gap’.
As stated by the marine research decision makers in Europe in the “Ostend Declaration” in 2010, a major challenge is to support the development of a truly integrated and sustainably funded European Ocean Observing System. This will be achieved with more long-term measurements of key parameters but is impaired by the costs and lack of reliability of ocean sensors in general.
As stated by the marine research decision makers in Europe in the “Ostend Declaration” in 2010, a major challenge is to support the development of a truly integrated and sustainably funded European Ocean Observing System. This will be achieved with more long-term measurements of key parameters but is impaired by the costs and lack of reliability of ocean sensors in general.
The aim of the MoDeM_IVM project is to develop a new, interactive, web-based Decision Support System (DSS) for integrated management of the vineyard.
The aim of the MoDeM_IVM project is to develop a new, interactive, web-based Decision Support System (DSS) for integrated management of the vineyard.
Quality, efficiency and transparency of farming are crucial for successful EU economic performance and sustainability of its natural environment. There are 12 million Agricultural holdings in the EU member states and about 40 % of the land area is farmed for crops and livestock. The European Bio-Economy sector has a market size of €1.5 trillion and employs more than 22 million people.
Quality, efficiency and transparency of farming are crucial for successful EU economic performance and sustainability of its natural environment. There are 12 million Agricultural holdings in the EU member states and about 40 % of the land area is farmed for crops and livestock. The European Bio-Economy sector has a market size of €1.5 trillion and employs more than 22 million people.
PREMIVM (www.premivm.eu) proposes a low-cost, handheld device capable of non-invasively estimating ripeness and vigor parameters for grapes and vine plants. All this in the vineyard, by means of the innovative use of chlorophyll fluorescence and reflectance multispectral data correlated by specific mathematical models, with GPS tags for all readings. The measurement principle is based on the natural response of vegetal species to light, where specific molecules are excited at a certain wavelength and emit radiation of a different wavelength.
PREMIVM (www.premivm.eu) proposes a low-cost, handheld device capable of non-invasively estimating ripeness and vigor parameters for grapes and vine plants. All this in the vineyard, by means of the innovative use of chlorophyll fluorescence and reflectance multispectral data correlated by specific mathematical models, with GPS tags for all readings. The measurement principle is based on the natural response of vegetal species to light, where specific molecules are excited at a certain wavelength and emit radiation of a different wavelength.
There are two main objectives with A Living Lab for Smart Pig farming (ALL-SMART-PIGS), where in total 4 farms will participate (2 in Hungary and 2 in Spain):
1. To demonstrate the technical and economic viability of precision livestock farming technologies in European pig farming.
2. To establish of Living Lab infrastructure for bringing innovative Precision Livestock Farming (PLF) technologies to European livestock farmers.
There are two main objectives with A Living Lab for Smart Pig farming (ALL-SMART-PIGS), where in total 4 farms will participate (2 in Hungary and 2 in Spain):
1. To demonstrate the technical and economic viability of precision livestock farming technologies in European pig farming.
2. To establish of Living Lab infrastructure for bringing innovative Precision Livestock Farming (PLF) technologies to European livestock farmers.
The SmartAgriFood project addresses the food and agribusiness as a use case for the Future Internet. The intelligence, efficiency, sustainability and performance of the agri-food sector can be radically enhanced by using information & decision support systems that are tightly integrated with advanced internet-based networks & services. Concurrently, the sector provides extremely demanding use cases for Future Internet design from physical layer all the way up to the service layer.
The SmartAgriFood project addresses the food and agribusiness as a use case for the Future Internet. The intelligence, efficiency, sustainability and performance of the agri-food sector can be radically enhanced by using information & decision support systems that are tightly integrated with advanced internet-based networks & services. Concurrently, the sector provides extremely demanding use cases for Future Internet design from physical layer all the way up to the service layer.
