Q3171115 (Q3171115): Difference between revisions

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(‎Created claim: summary (P836): The general technical objective of the ESTOMATIC project is to develop an irrigation controller that is able to manage irrigation activations automatically, deciding the frequency of the water endowment, through physiological parameters of the plant (stomatic opening). The technological challenge is to know the water balance of a crop, through the monitoring of stomatic conductivity, which is a unique method in the market, and is presented as an...)
Property / summary
 
The general technical objective of the ESTOMATIC project is to develop an irrigation controller that is able to manage irrigation activations automatically, deciding the frequency of the water endowment, through physiological parameters of the plant (stomatic opening). The technological challenge is to know the water balance of a crop, through the monitoring of stomatic conductivity, which is a unique method in the market, and is presented as an advanced tool to describe as faithfully the process of perspiration and the curves of response of the stoma to the environment. This knowledge will provide the irrigation controller with useful information on the water status of the crop, and perform better agronomic management, optimising the use of resources (water and fertilisers) reducing costs and maximising productivity. _x000D_ _x000D_ to implement this new knowledge, it is necessary to develop the following agronomic tools:_x000D_ _x000D_ — Instrumental necessary to obtain the required information, through the development of climate sensors and a stomatic conductivity measurement sensor, which will be implemented in a network of wireless reading stations, to provide the irrigation controller with the necessary variables in irrigation management._x000D_ _x000D_ — Calculation algorithm that includes a model that allows to know at all times the state of the stoma and its relation to the water content of the crop. This algorithm will be the tool to manage irrigation automatically and will be fed through the information provided by the network of climate and physiological sensors developed for this purpose. (English)
Property / summary: The general technical objective of the ESTOMATIC project is to develop an irrigation controller that is able to manage irrigation activations automatically, deciding the frequency of the water endowment, through physiological parameters of the plant (stomatic opening). The technological challenge is to know the water balance of a crop, through the monitoring of stomatic conductivity, which is a unique method in the market, and is presented as an advanced tool to describe as faithfully the process of perspiration and the curves of response of the stoma to the environment. This knowledge will provide the irrigation controller with useful information on the water status of the crop, and perform better agronomic management, optimising the use of resources (water and fertilisers) reducing costs and maximising productivity. _x000D_ _x000D_ to implement this new knowledge, it is necessary to develop the following agronomic tools:_x000D_ _x000D_ — Instrumental necessary to obtain the required information, through the development of climate sensors and a stomatic conductivity measurement sensor, which will be implemented in a network of wireless reading stations, to provide the irrigation controller with the necessary variables in irrigation management._x000D_ _x000D_ — Calculation algorithm that includes a model that allows to know at all times the state of the stoma and its relation to the water content of the crop. This algorithm will be the tool to manage irrigation automatically and will be fed through the information provided by the network of climate and physiological sensors developed for this purpose. (English) / rank
 
Normal rank
Property / summary: The general technical objective of the ESTOMATIC project is to develop an irrigation controller that is able to manage irrigation activations automatically, deciding the frequency of the water endowment, through physiological parameters of the plant (stomatic opening). The technological challenge is to know the water balance of a crop, through the monitoring of stomatic conductivity, which is a unique method in the market, and is presented as an advanced tool to describe as faithfully the process of perspiration and the curves of response of the stoma to the environment. This knowledge will provide the irrigation controller with useful information on the water status of the crop, and perform better agronomic management, optimising the use of resources (water and fertilisers) reducing costs and maximising productivity. _x000D_ _x000D_ to implement this new knowledge, it is necessary to develop the following agronomic tools:_x000D_ _x000D_ — Instrumental necessary to obtain the required information, through the development of climate sensors and a stomatic conductivity measurement sensor, which will be implemented in a network of wireless reading stations, to provide the irrigation controller with the necessary variables in irrigation management._x000D_ _x000D_ — Calculation algorithm that includes a model that allows to know at all times the state of the stoma and its relation to the water content of the crop. This algorithm will be the tool to manage irrigation automatically and will be fed through the information provided by the network of climate and physiological sensors developed for this purpose. (English) / qualifier
 
point in time: 12 October 2021
Timestamp+2021-10-12T00:00:00Z
Timezone+00:00
CalendarGregorian
Precision1 day
Before0
After0

Revision as of 18:11, 12 October 2021

Project Q3171115 in Spain
Language Label Description Also known as
English
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Project Q3171115 in Spain

    Statements

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    147,496.0 Euro
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    184,370.0 Euro
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    80.0 percent
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    5 February 2018
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    31 January 2020
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    MAHER ELECTRONICA APLICADA SL
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    36°44'55.79"N, 3°1'13.30"W
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    04003
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    El objetivo técnico general del proyecto ESTOMATIC es desarrollar un controlador de riego que sea capaz de gestionar las activaciones del riego automáticamente, decidiendo la frecuencia de la dotación hídrica, a través de parámetros fisiológicos de la planta (apertura estomática). El reto tecnológico consiste en conocer el balance hídrico de un cultivo, a través de la monitorización de la conductividad estomática, que es un método único en el mercado, y se presenta como una herramienta avanzada para describir lo más fielmente el proceso de transpiración y las curvas de respuesta del estoma al ambiente. Este conocimiento permitirá dotar al controlador de riego de una información útil sobre el estado hídrico del cultivo, y realizar un mejor manejo agronómico, optimizando el uso de recursos (agua y fertilizantes) reduciendo costes y maximizando la productividad. _x000D_ _x000D_ Para implementar este nuevo conocimiento, se hace necesario desarrollar las siguientes herramientas agronómicas:_x000D_ _x000D_ - Instrumental necesario para poder obtener la información requerida, mediante el desarrollo de sensores climáticos y un sensor de medida de la conductividad estomática, que estarán implementados en una red de estaciones de lecturas inalámbricas, para dotar al controlador de riego de las variables necesarias en la gestión del riego._x000D_ _x000D_ - Algoritmo de cálculo que lleve integrado un modelo que permita conocer en cada momento el estado del estoma y su relación con el contenido hídrico del cultivo. Este algoritmo, será la herramienta que permita gestionar el riego de una manera automática y se alimentará a través de la información suministrada por la red de sensores climáticos y fisiológicos desarrollados para tal fin. (Spanish)
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    The general technical objective of the ESTOMATIC project is to develop an irrigation controller that is able to manage irrigation activations automatically, deciding the frequency of the water endowment, through physiological parameters of the plant (stomatic opening). The technological challenge is to know the water balance of a crop, through the monitoring of stomatic conductivity, which is a unique method in the market, and is presented as an advanced tool to describe as faithfully the process of perspiration and the curves of response of the stoma to the environment. This knowledge will provide the irrigation controller with useful information on the water status of the crop, and perform better agronomic management, optimising the use of resources (water and fertilisers) reducing costs and maximising productivity. _x000D_ _x000D_ to implement this new knowledge, it is necessary to develop the following agronomic tools:_x000D_ _x000D_ — Instrumental necessary to obtain the required information, through the development of climate sensors and a stomatic conductivity measurement sensor, which will be implemented in a network of wireless reading stations, to provide the irrigation controller with the necessary variables in irrigation management._x000D_ _x000D_ — Calculation algorithm that includes a model that allows to know at all times the state of the stoma and its relation to the water content of the crop. This algorithm will be the tool to manage irrigation automatically and will be fed through the information provided by the network of climate and physiological sensors developed for this purpose. (English)
    12 October 2021
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    Adra
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    Identifiers

    IDI-20180262
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