Instantaneous and non-destructive relative water content estimation from deep learning applied to resonant ultrasonic spectra of plant leaves https://t.co/9b2HRMdd6b #plantsci #ultrasonic #watercontent ♻️ https://t.co/GIg7hd10Rw
RT @PlantMethods: Instantaneous and non-destructive relative water content estimation from deep learning applied to resonant ultrasonic spe…
RT @PlantMethods: Instantaneous and non-destructive relative water content estimation from deep learning applied to resonant ultrasonic spe…
RT @lolafarinas: Our latest article applying #MachineLearning algorithms to contactless #ultrasonic techniques for relative water content e…
RT @lolafarinas: Our latest article applying #MachineLearning algorithms to contactless #ultrasonic techniques for relative water content e…
Our latest article applying #MachineLearning algorithms to contactless #ultrasonic techniques for relative water content estimation in #plant leaves, already available in @PlantMethods #OpenAccess Authors: @usbiomat-@ITEFI_CSIC-@CSIC, @CNIC_CARDIO, @CITAAr
Instantaneous and non-destructive relative water content estimation from deep learning applied to resonant ultrasonic spectra of plant leaves https://t.co/r9oo4ndukt