Publication Date:
2021
Short description:
Advances in Unmanned Aerial System Remote Sensing for Precision Viticulture / Sassu, A., Gambella, F., Ghiani, L., Mercenaro, L., Caria, M., Pazzona, A.L.. - In: SENSORS. - ISSN 1424-8220. - 21:3(2021), p. 956. [10.3390/s21030956]
abstract:
New technologies for management, monitoring, and control of spatio-temporal crop
variability in precision viticulture scenarios are numerous. Remote sensing relies on sensors able to
provide useful data for the improvement of management efficiency and the optimization of inputs.
unmanned aerial systems (UASs) are the newest and most versatile tools, characterized by high precision and accuracy, flexibility, and low operating costs. The work aims at providing a complete overview of the application of UASs in precision viticulture, focusing on the different application purposes, the applied equipment, the potential of technologies combined with UASs for identifying vineyards’ variability. The review discusses the potential of UASs in viticulture by distinguishing five areas of application: rows segmentation and crop features detection techniques; vineyard variability monitoring; estimation of row area and volume; disease detection; vigor and prescription maps creation. Technological innovation and low purchase costs make UASs the core tools for decision support in the customary use by winegrowers. The ability of the systems to respond to the current demands for the acquisition of digital technologies in agricultural fields makes UASs a candidate to play an increasingly important role in future scenarios of viticulture application.
variability in precision viticulture scenarios are numerous. Remote sensing relies on sensors able to
provide useful data for the improvement of management efficiency and the optimization of inputs.
unmanned aerial systems (UASs) are the newest and most versatile tools, characterized by high precision and accuracy, flexibility, and low operating costs. The work aims at providing a complete overview of the application of UASs in precision viticulture, focusing on the different application purposes, the applied equipment, the potential of technologies combined with UASs for identifying vineyards’ variability. The review discusses the potential of UASs in viticulture by distinguishing five areas of application: rows segmentation and crop features detection techniques; vineyard variability monitoring; estimation of row area and volume; disease detection; vigor and prescription maps creation. Technological innovation and low purchase costs make UASs the core tools for decision support in the customary use by winegrowers. The ability of the systems to respond to the current demands for the acquisition of digital technologies in agricultural fields makes UASs a candidate to play an increasingly important role in future scenarios of viticulture application.
Iris type:
1.1 Articolo in rivista
Keywords:
Keywords: UAS; vegetation index; 3D vineyard characterization; canopy height model; precision farming;
precision viticulture; remote sensing; sustainability of resources; vineyard detection and segmentation
List of contributors:
Sassu, Alberto; Gambella, Filippo; Ghiani, Luca; Mercenaro, Luca; Caria, Maria; Pazzona, Antonio Luigi
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