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FATIMA addresses effective and efficient monitoring and management of agricultural resources to achieve optimum crop yield and quality in a sustainable environment. It covers both ends of the scale relevant for food production, viz., precision farming and the perspective of a sustainable agriculture in the context of integrated agri-environment management.
FATIMA addresses effective and efficient monitoring and management of agricultural resources to achieve optimum crop yield and quality in a sustainable environment. It covers both ends of the scale relevant for food production, viz., precision farming and the perspective of a sustainable agriculture in the context of integrated agri-environment 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 the future European farmers will have to effectively manage information on and off their farms to improve economic viability and to reduce environmental impact. All three levels, in which agricultural activities need to be harmonized with economical and environmental constraints, require integrated ICT adoption: (i) improvement of farm efficiency; (ii) integration of public goods provided by farming into management strategies; (iii) relating to the environmental and cultural diversity of Europe’s agriculture by addressing the region-farm interaction.
In the future European farmers will have to effectively manage information on and off their farms to improve economic viability and to reduce environmental impact. All three levels, in which agricultural activities need to be harmonized with economical and environmental constraints, require integrated ICT adoption: (i) improvement of farm efficiency; (ii) integration of public goods provided by farming into management strategies; (iii) relating to the environmental and cultural diversity of Europe’s agriculture by addressing the region-farm interaction.
Agriculture sector is accountable for 30% of the total water consumption in Europe, but reaches up to 70% of total water consumption in several European southern countries. In recent years, most of the efforts have been focused on water efficiency, without taking care of energy aspects, resulting in some cases on a significant increase in energy consumption, both per irrigated surface and per volume unit of water. The WEAM4i project will mainly address 2 of the priorities of the EIP on Water: “Water-Energy nexus” and “Decision support systems (DSS) and monitoring”.
Agriculture sector is accountable for 30% of the total water consumption in Europe, but reaches up to 70% of total water consumption in several European southern countries. In recent years, most of the efforts have been focused on water efficiency, without taking care of energy aspects, resulting in some cases on a significant increase in energy consumption, both per irrigated surface and per volume unit of water. The WEAM4i project will mainly address 2 of the priorities of the EIP on Water: “Water-Energy nexus” and “Decision support systems (DSS) and monitoring”.
"The Crop, Livestock and Forest Integrated system (CLAFIS) will develop and demonstrate a pre-commercial intelligent integrated solution prototype based on a cross platform OPC unified architecture (OPC UA) specification entitling standards and related technologies for communication between automation systems and IT systems in farms and forest related process. The project is centred on a Use Case demonstrator involving a complete process sequence of a smart seeding, spraying and harvesting for grass/grains/trees including the following target activities:
"The Crop, Livestock and Forest Integrated system (CLAFIS) will develop and demonstrate a pre-commercial intelligent integrated solution prototype based on a cross platform OPC unified architecture (OPC UA) specification entitling standards and related technologies for communication between automation systems and IT systems in farms and forest related process. The project is centred on a Use Case demonstrator involving a complete process sequence of a smart seeding, spraying and harvesting for grass/grains/trees including the following target activities:
VinBot responds to a need to boost the quality of European wines by implementing precision viticulture (PV) tools in the face of serious market threats worldwide and structural shortcomings within the EU wine sector. Wine producer associations have no control over yield management throughout their members’ vineyards, which leads to reduced quality wine at the association level.
VinBot responds to a need to boost the quality of European wines by implementing precision viticulture (PV) tools in the face of serious market threats worldwide and structural shortcomings within the EU wine sector. Wine producer associations have no control over yield management throughout their members’ vineyards, which leads to reduced quality wine at the association level.
"Due to climate related changes, longer dry periods for European farmers and without irrigation the risk of a volatile harvests will rise, that is the reason for a tendency across
Europe to irrigate fields. The need for innovative irrigated systems is to minimize water consumption and costs. Also in times of limited water the project will be lucrative.
"Due to climate related changes, longer dry periods for European farmers and without irrigation the risk of a volatile harvests will rise, that is the reason for a tendency across
Europe to irrigate fields. The need for innovative irrigated systems is to minimize water consumption and costs. Also in times of limited water the project will be lucrative.
S3-CAV focuses on making the ability to perceive the local environment in 3D accessible to farmers transnationally. We devise a sensor framework which we populate with various vision-based and proprioceptive sensors, and combine their real-time input with stored data to provide short-loop safety responses and data sufficient to precisely control an application device in 3D.
S3-CAV focuses on making the ability to perceive the local environment in 3D accessible to farmers transnationally. We devise a sensor framework which we populate with various vision-based and proprioceptive sensors, and combine their real-time input with stored data to provide short-loop safety responses and data sufficient to precisely control an application device in 3D.
The aim of the proposed project is to evaluate the development of a new and disruptive solution directed to Viticulture sector. In this project, ENERMETER intends to evaluate the market potential and execute a detailed technical and technological analysis to respond to some of the most pressing challenges of the actual market. The goal is to evaluate the potential of a solution the will represent a paradigm change in tools and technique to extract information about of vineyards cultures, important to the quality of the resulting product (wine).
The aim of the proposed project is to evaluate the development of a new and disruptive solution directed to Viticulture sector. In this project, ENERMETER intends to evaluate the market potential and execute a detailed technical and technological analysis to respond to some of the most pressing challenges of the actual market. The goal is to evaluate the potential of a solution the will represent a paradigm change in tools and technique to extract information about of vineyards cultures, important to the quality of the resulting product (wine).
The objective of this project is to demonstrate the breakthrough system - SaaS based B2B Greenhouse Artificial Intelligence
Control System – which is a high-tech product to solve real world problems!
The objective of this project is to demonstrate the breakthrough system - SaaS based B2B Greenhouse Artificial Intelligence
Control System – which is a high-tech product to solve real world problems!
