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The activities, carried out in the context of the Spoke 3 “Enabling technologies and sustainable strategies for the smart management of agricultural systems and their environmental impact” AGRITECH, focus on the development of a Decision Support System (DSS) and good management practices to support the irrigation of maize grown under different irrigation techniques (surface and subsurface drip, sprinkler and border irrigation) and their testing in an openfield irrigation platform built at the UNIMI experimental and didactic farm in Cornaredo (MI), where the different irrigation techniques are applied using innovative technologies. The DSS will integrate information from different sources (remote sensing, in-situ sensors and weather forecasts), to feed an agrohydrological model with a GIS interface.

A DSS based on weather forecast, field sensors, agro-hydrological modelling and automation to support precision irrigation under different irrigation methods / A. Facchi, A. Mayer, D. Masseroni, B. Ortuani, E. Reguzzoni, E. Capedri, L. Ciolina, G. Meazza, F. Gangi - In: 2024 IEEE International Workshop on Metrology for Agriculture and Forestry (MetroAgriFor)Ebook. - [s.l] : IEEE, 2025 Apr. - ISBN 979-8-3503-5544-4. - pp. 242-247 (( convegno IEEE MetroAgriFor 2024 tenutosi a Padova nel 2024 [10.1109/MetroAgriFor63043.2024.10948852].

A DSS based on weather forecast, field sensors, agro-hydrological modelling and automation to support precision irrigation under different irrigation methods

A. Facchi
Primo
;A. Mayer;D. Masseroni;B. Ortuani;F. Gangi
Ultimo
2025

Abstract

The activities, carried out in the context of the Spoke 3 “Enabling technologies and sustainable strategies for the smart management of agricultural systems and their environmental impact” AGRITECH, focus on the development of a Decision Support System (DSS) and good management practices to support the irrigation of maize grown under different irrigation techniques (surface and subsurface drip, sprinkler and border irrigation) and their testing in an openfield irrigation platform built at the UNIMI experimental and didactic farm in Cornaredo (MI), where the different irrigation techniques are applied using innovative technologies. The DSS will integrate information from different sources (remote sensing, in-situ sensors and weather forecasts), to feed an agrohydrological model with a GIS interface.
irrigation scheduling and practices; weather forecast; agro-hydrological and hydraulic models; water-saving; SWAP; WinSRFR
Settore AGRI-04/A - Idraulica agraria e sistemazioni idraulico-forestali
   Centro Nazionale per le Tecnologie dell'Agricoltura - AGRITECH
   AGRITECH
   MINISTERO DELL'UNIVERSITA' E DELLA RICERCA
apr-2025
Book Part (author)
03 - Contributo in volume
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/2434/1159829
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