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Relevancy: 100%
Collaborative project: Development of a water saving ridge crone irrigation technique - subproject 2 (Project)
There are losses of water in irrigation systems. The project aims to develop and introduce a water saving technique for ridge growing systems. Crops like carrots are grown on ridge crones and are irrigated across the whole area during dry periods. The new system is using a time-delayed application of water to ridge crones only. Well-established nozzle equipment will be designed in a way that a...
Funding period: 2012 - 2015
Relevancy: 100%
Collaborative project: Development of an innovative wireless CO2 soil sensor for plant waterstress detection and precision irrigation. Subproject 1 (Project)
The objective of the research project is the development of an innovative wireless CO2 soil sensor for plant waterstress detection and precision irrigation. Contrary to the commonly used soil sensors, the water demand of the plants will not be determined indirectly through soil moisture measurements but directly through CO2 measurements in the soil, which reflects changes in root aspiration due...
Funding period: 2012 - 2015
Relevancy: 100%
Collaborative project: Development of an innovative wireless CO2 soil sensor for plant waterstress detection and precision irrigation. Subproject 2 (Project)
The objective of the research project is the development of an innovative wireless CO2 soil sensor for plant water stress detection and precision irrigation. Contrary to the commonly used soil sensors, the water demand of the plants will not be determined indirectly through soil moisture measurements but directly through CO2 measurements in the soil, which reflect changes in root aspiration due...
Funding period: 2012 - 2015
Relevancy: 100%
Collaborative project: Development of an innovative wireless CO2 soil sensor for plant waterstress detection and precision irrigation. Subproject 3 (Project)
The objective of the research project is the development of an innovative wireless CO2 soil sensor for plant water stress detection and precision irrigation. Contrary to the commonly used soil sensors, the water demand of the plants will not be determined indirectly through soil moisture measurements but directly through CO2 measurements in the soil, which reflect changes in root aspiration due...
Funding period: 2012 - 2015
Relevancy: 100%
Collaborative project: Irrigation in fruit production - minimizing water use while maintaining confidence of the grower - subproject 1 (Project)
"Fruit growth is directly dependent on the water status of the plant and thus an ideal parameter to control irrigation. The aim was to develop an autonomous but user-controllable irrigation control based on an optical sensor. A camera system (smartphone) was adapted and programmed to make photographs of the fruits in chosen time intervals, transfer them to a central server system and analyze them...
Funding period: 2012 - 2015
Relevancy: 100%
Implementation of separation from BaySG (Project)
currently unavailable
Funding period: 2018 - 2018
Relevancy: 100%
Cost of pig manure storage (Project)
currently unavailable
Funding period: 2019 - 2020
Relevancy: 100%
'Collaborative project: Irrigation in fruit production - minimizing water use while maintaining confidence of the grower - subproject 2 ' (Project)
"Fruit growth is directly dependent on the water status of the plant and thus an ideal parameter to control irrigation. The aim was to develop an autonomous but user-controllable irrigation control based on an optical sensor. A camera system (smartphone) was adapted and programmed to make photographs of the fruits in chosen time intervals, transfer them to a central server system and analyze them...
Funding period: 2012 - 2015
Relevancy: 100%
Collaborative project: Irrigation in fruit production - minimizing water use while maintaining confidence of the grower - subproject 3 (Project)
"Fruit growth is directly dependent on the water status of the plant and thus an ideal parameter to control irrigation. The aim was to develop an autonomous but user-controllable irrigation control based on an optical sensor. A camera system (smartphone) was adapted and programmed to make photographs of the fruits in chosen time intervals, transfer them to a central server system and analyze them...
Funding period: 2012 - 2015
