The aim of the study was to combine low-cost thermal imaging camera with smart glasses to evaluate the feasibility of augmented reality system for monitoring water stress under protected conditions. The tests were performed in a greenhouse on 208 Petunia hybrid ‘Surfinia’ plants. All the plants were irrigated to reach field capacity, while 15 of them did not receive irrigation water for seven days before the trials. Three qualified operators had to identify the plants in water stress condition, using 3 operative modes: naked eyes (NE); thermal imaging camera (Thermal Compact Pro, Seek, USA) associated with a smartphone (TSP); thermal imaging camera associated with smart glasses (TSG, M400, Vuzix, USA). The results showed a general low rate of water stressed plants identification in the three operative modes considered. On the other hand, the unsuccessful detection of the plants in water deficit made by the operators was reduced about 40% when adopting the TSG as compared to NE operative mode.
Combining Smart Glasses and Thermal Imaging as a Tool for Water Stress Detection in Greenhouses: A Preliminary Study / Sara, G.; Todde, G.; Pinna, D.; Caria, M.. - 337 LNCE:(2023), pp. 909-916. (Intervento presentato al convegno 12th International Conference of the Italian Association of Agricultural Engineering, AIIA 2022, Palermo19-22 September 2022) [10.1007/978-3-031-30329-6_93].
Combining Smart Glasses and Thermal Imaging as a Tool for Water Stress Detection in Greenhouses: A Preliminary Study
Sara G.;Todde G.;Pinna D.;Caria M.
2023-01-01
Abstract
The aim of the study was to combine low-cost thermal imaging camera with smart glasses to evaluate the feasibility of augmented reality system for monitoring water stress under protected conditions. The tests were performed in a greenhouse on 208 Petunia hybrid ‘Surfinia’ plants. All the plants were irrigated to reach field capacity, while 15 of them did not receive irrigation water for seven days before the trials. Three qualified operators had to identify the plants in water stress condition, using 3 operative modes: naked eyes (NE); thermal imaging camera (Thermal Compact Pro, Seek, USA) associated with a smartphone (TSP); thermal imaging camera associated with smart glasses (TSG, M400, Vuzix, USA). The results showed a general low rate of water stressed plants identification in the three operative modes considered. On the other hand, the unsuccessful detection of the plants in water deficit made by the operators was reduced about 40% when adopting the TSG as compared to NE operative mode.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.