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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.
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.
The main innovative aspect lies in interconnection of the main data product line as the cornerstone of a farm software ecosystem and its interaction and interoperability with the use cases. Each use case will develop its own Applications (Apps) incorporating the different data inputs, such as real time meteo data, soil moisture content, tractor fuel consumption, yield data, spectral signatures, as well as manually entered data.
The main innovative aspect lies in interconnection of the main data product line as the cornerstone of a farm software ecosystem and its interaction and interoperability with the use cases. Each use case will develop its own Applications (Apps) incorporating the different data inputs, such as real time meteo data, soil moisture content, tractor fuel consumption, yield data, spectral signatures, as well as manually entered data.
Knowledge regarding the complex interplay between agricultural land use and management and soil quality and function is fragmented and incomplete, in particular with regard to underlying principles and regulating mechanisms. The main aim of iSQAPER is to develop an interactive soil quality assessment tool (SQAPP) for agricultural land users that integrates newly derived process understanding and accounts for the impact of agricultural land use and management on soil properties and functions, and related ecosystem services.
Knowledge regarding the complex interplay between agricultural land use and management and soil quality and function is fragmented and incomplete, in particular with regard to underlying principles and regulating mechanisms. The main aim of iSQAPER is to develop an interactive soil quality assessment tool (SQAPP) for agricultural land users that integrates newly derived process understanding and accounts for the impact of agricultural land use and management on soil properties and functions, and related ecosystem services.
