Hernández I, Gutiérrez S, Barrio I, Iñiguez R, Poblete-Echeverria C, Tardaguila J (2023) A new method for in-field crop disease location using explainable deep learning: use case for downy mildew in grapevine. Hacking C, Poona N, Manzan N, Poblete-Echeverría C (2019) Investigating 2-D and 3-D proximal remote sensing techniques for vineyard yield estimation. Gutiérrez S, Fernández-Novales J, Diago MP, Iñiguez R, Tardaguila J (2021) Assessing and mapping vineyard water status using a ground mobile thermal imaging platform. Gutiérrez S, Tardaguila J, Fernández-Novales J, Diago MP (2018) On-the-go hyperspectral imaging for the in-field estimation of grape composition. Gil E, Llorens J, Llop J, Fàbregas X, Gallart M (2013) Use of a terrestrial lidar sensor for drift detection in vineyard spraying. Gatti M, Schippa M, Garavani A, Squeri C, Frioni T, Dosso P, Poni S (2020) High potential of variable rate fertilization combined with a controlled released nitrogen form at affecting cv. ĭoolittle JA, Brevik EC (2014) The use of electromagnetic induction techniques in soils studies. ĭiago MP, Aquino A, Millan B, Palacios F, Tardaguila J (2019) On-the-go assessment of vineyard canopy porosity, bunch and leaf exposure by image analysis. ĭaniels AJ, Poblete-Echeverría C, Opara UL, Nieuwoudt HH (2019) Measuring internal maturity parameters contactless on intact table grape bunches using NIR spectroscopy. (03)00088-6Ĭampos J, Gallart M, Llop J, Ortega P, Salcedo R, Gil E (2020) On-farm evaluation of prescription map-based variable rate application of pesticides in vineyards. Blasco J, Aleixos N, Molto E (2003) Machine vision system for automatic quality grading of fruit.
0 Comments
Leave a Reply. |
AuthorWrite something about yourself. No need to be fancy, just an overview. ArchivesCategories |