Optical spectroscopy is a well-suited technique for the nondestructive and real-time maturation monitoring of fruits and vegetables. Although many commercial spectroscopy systems exist, including some for portable use in the field, a significant gap in agricultural monitoring is the ability to continuously measure the condition of fruits in the field over longer periods of time. To this end, we present here a fully integrated, flexible microspectrometer consisting of multiple light sources and multiple broadband photodiodes for the spectral evaluation of grape maturation in the field. To enable the microspectrometer design, a customized grape berry model generated from the optical properties, primarily light scattering, of grape berries was developed. The microspectrometer was fabricated using a scalable fabrication process based on a spin-coated, flexible polyimide substrate. Experiments were conducted both in a controlled laboratory environment as well as during the grape maturation period in the vineyard and these demonstrated that the spectral properties of grapes at different maturation stages can be accurately measured. Using suitable chemometric models, the amount of total soluble solids in °Br, which is the most important factor for the maturation estimation of grapes, was determined from the microspectrometer data.
Flexible microspectrometer for grape maturation monitoring in the vineyard / S. Jenne, A. Tugnolo, H.M. Oliveira, A. Hans Zappe. - In: JOURNAL OF OPTICAL MICROSYSTEMS. - ISSN 2708-5260. - 4:1(2024 Mar 26), pp. 1-13. [10.1117/1.JOM.4.1.014004.]
Flexible microspectrometer for grape maturation monitoring in the vineyard
A. TugnoloSecondo
;
2024
Abstract
Optical spectroscopy is a well-suited technique for the nondestructive and real-time maturation monitoring of fruits and vegetables. Although many commercial spectroscopy systems exist, including some for portable use in the field, a significant gap in agricultural monitoring is the ability to continuously measure the condition of fruits in the field over longer periods of time. To this end, we present here a fully integrated, flexible microspectrometer consisting of multiple light sources and multiple broadband photodiodes for the spectral evaluation of grape maturation in the field. To enable the microspectrometer design, a customized grape berry model generated from the optical properties, primarily light scattering, of grape berries was developed. The microspectrometer was fabricated using a scalable fabrication process based on a spin-coated, flexible polyimide substrate. Experiments were conducted both in a controlled laboratory environment as well as during the grape maturation period in the vineyard and these demonstrated that the spectral properties of grapes at different maturation stages can be accurately measured. Using suitable chemometric models, the amount of total soluble solids in °Br, which is the most important factor for the maturation estimation of grapes, was determined from the microspectrometer data.File | Dimensione | Formato | |
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