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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!
The productivity in agriculture has improved enormously for the last 50 years. However, the increased yield comes at a cost. The fields producing our food are sprayed throughout the seasons with herbicides, fungicides and insecticides. We are facing major problems with resistant weeds and pesticide residues in food, soil and water. Farming needs to become more sustainable.
The productivity in agriculture has improved enormously for the last 50 years. However, the increased yield comes at a cost. The fields producing our food are sprayed throughout the seasons with herbicides, fungicides and insecticides. We are facing major problems with resistant weeds and pesticide residues in food, soil and water. Farming needs to become more sustainable.
Uncertainties in water availability, rising fertilizer and energy costs and increasing demand for renewable raw materials impose serious challenges on the primary sector with far-reaching implications. Irrigation practices put more and more pressure on scarce freshwater resources and mineral fertilizers are often overused leading to environmental problems and heavy impacts on the production costs of producers. Increasing resource efficiency, productivity and competitiveness of agricultural practitioners are crucial for addressing the aforementioned societal challenges.
Uncertainties in water availability, rising fertilizer and energy costs and increasing demand for renewable raw materials impose serious challenges on the primary sector with far-reaching implications. Irrigation practices put more and more pressure on scarce freshwater resources and mineral fertilizers are often overused leading to environmental problems and heavy impacts on the production costs of producers. Increasing resource efficiency, productivity and competitiveness of agricultural practitioners are crucial for addressing the aforementioned societal challenges.
New tools have to be developed to mitigate emissions of greenhouse gases and adapt to impacts of climate change with
respect to the interfaces of water, land use and biodiversity due to water saving techniques, technology development of
innovative mapping and plant growth monitoring systems. SenSOP-II aims are to provide this tool for advanced smart
farming operations and water and energy saving techniques.
New tools have to be developed to mitigate emissions of greenhouse gases and adapt to impacts of climate change with
respect to the interfaces of water, land use and biodiversity due to water saving techniques, technology development of
innovative mapping and plant growth monitoring systems. SenSOP-II aims are to provide this tool for advanced smart
farming operations and water and energy saving techniques.
YODFAT Engineers is a company specialized in providing novel, unconventional solutions to complex environmental and civil engineering challenges. In the last years the company has been working in the development of IRRISAVE system, an innovative solution: reaching up to 50% savings in water and energy through a system that will accessibly transform the irrigation networks management forever. IRRISAVE is an innovative smart technology that maximizes the efficiency in water application.
YODFAT Engineers is a company specialized in providing novel, unconventional solutions to complex environmental and civil engineering challenges. In the last years the company has been working in the development of IRRISAVE system, an innovative solution: reaching up to 50% savings in water and energy through a system that will accessibly transform the irrigation networks management forever. IRRISAVE is an innovative smart technology that maximizes the efficiency in water application.
Environmental monitoring is a key element of the EU agenda and its market is estimated to grow at a CAGR of 5.4% by 2018. Artys offers a disruptive Decision Support Service - DSS, to manage emergencies caused by extreme weather events, based on the analysis of Smart Rainfall System – SRS’ measurements. SRS is the only nowcasting system (IT patented, EU pending; Artys uniquely owes its rights) providing real-time spatial rainfall maps on a detailed scale, by means of the analysis of satellite television’s signals, received by commercial parabolic antennas.
Environmental monitoring is a key element of the EU agenda and its market is estimated to grow at a CAGR of 5.4% by 2018. Artys offers a disruptive Decision Support Service - DSS, to manage emergencies caused by extreme weather events, based on the analysis of Smart Rainfall System – SRS’ measurements. SRS is the only nowcasting system (IT patented, EU pending; Artys uniquely owes its rights) providing real-time spatial rainfall maps on a detailed scale, by means of the analysis of satellite television’s signals, received by commercial parabolic antennas.
Precision agriculture is a practice that adopts high information technologies like GPS, control units and software for the purpose of optimizing yield according to local varying soil conditions while conducting agricultural inputs applications (planting, fertilizing, spraying and harvesting, land surveying, line handling systems, yield mapping and grain loss monitoring systems). Current precision agriculture technology platforms provide compact system solutions.
Precision agriculture is a practice that adopts high information technologies like GPS, control units and software for the purpose of optimizing yield according to local varying soil conditions while conducting agricultural inputs applications (planting, fertilizing, spraying and harvesting, land surveying, line handling systems, yield mapping and grain loss monitoring systems). Current precision agriculture technology platforms provide compact system solutions.
Challenges facing the agricultural sector, such as climate change, shrinking land and water resources and land degradation, are a major threat to food security. Key in facing these challenges is better management of the existing land and water resources. Accurate and detailed data on crop and water conditions is essential to make this possible. Farmers need reliable data for efficient resource management, monitoring crop developments and understanding market conditions for planting decisions. Existing data solutions do not meet their needs.
Challenges facing the agricultural sector, such as climate change, shrinking land and water resources and land degradation, are a major threat to food security. Key in facing these challenges is better management of the existing land and water resources. Accurate and detailed data on crop and water conditions is essential to make this possible. Farmers need reliable data for efficient resource management, monitoring crop developments and understanding market conditions for planting decisions. Existing data solutions do not meet their needs.
Agro-industrial companies face the necessity of acquiring more information and control over their crops and the operations they perform in order to produce them. The challenge lies in reducing the hydric and energy resources they use with the objective of increasing their competitiveness and reducing the impact on the environment. Under the brand name of bynse, our SME cubenube (www.cubenube.com) has developed the first big data solution for agriculture in the world.
Agro-industrial companies face the necessity of acquiring more information and control over their crops and the operations they perform in order to produce them. The challenge lies in reducing the hydric and energy resources they use with the objective of increasing their competitiveness and reducing the impact on the environment. Under the brand name of bynse, our SME cubenube (www.cubenube.com) has developed the first big data solution for agriculture in the world.
