Hyperspectral imaging (HSI) is a non-destructive technique that is employedto assess quality parameters and integrate monitoring across the supply chain in the context of Industry 4.0. Althoughpromising, HSI faces challenges such as high cost and equipment requirements.However,advances in technology and 3D printing are enabling low-cost solutions that still need to be validated in the field. This work presents the development of a low-cost hyperspectral prototype, built using 3D elements and commercially available electronic components, and operating in the spectral range from400 nm to 1000 nm. Furthermore,two types of gratings have been compared. In the first part of the study, the calibration process using RGB LEDs and a halogen lamp is described in detail. The second part of the study presents the results of a few applications on a food matrix under controlled light conditions, which were conducted to evaluate the performance of the prototype. The extracted spectra were normalised and subsequently pre-processed witheitherSNV(Standard Normal Variate)transform or the Savitzky–Golay (SG) derivative.Finally, the data were explored withPCA (Principal Component Analysis), which confirmedthe ability of the prototype to distinguish samples of different colours(first trial), assessthe decay of different apple samples(second trial)and differentiate between healthy and damaged tissues (third trial). The experimental results were consistent with the anticipated outcomes, and both types of grating demonstrated favourable performance
Cost-effective IoT hyperspectral prototype for distributed agri-food product monitoring / S. Vignati, A. Tugnolo, M. Torrente, A. Pampuri, R. Guidetti, R. Beghi, V. Giovenzana. - In: JOURNAL OF AGRICULTURAL ENGINEERING. - ISSN 1974-7071. - 56:3(2025 Apr 29), pp. 1-26. [Epub ahead of print] [10.4081/jae.2025.1664]
Cost-effective IoT hyperspectral prototype for distributed agri-food product monitoring
S. VignatiPrimo
;A. Tugnolo
Secondo
;M. Torrente;A. Pampuri;R. Guidetti;R. BeghiPenultimo
;V. GiovenzanaUltimo
Funding Acquisition
2025
Abstract
Hyperspectral imaging (HSI) is a non-destructive technique that is employedto assess quality parameters and integrate monitoring across the supply chain in the context of Industry 4.0. Althoughpromising, HSI faces challenges such as high cost and equipment requirements.However,advances in technology and 3D printing are enabling low-cost solutions that still need to be validated in the field. This work presents the development of a low-cost hyperspectral prototype, built using 3D elements and commercially available electronic components, and operating in the spectral range from400 nm to 1000 nm. Furthermore,two types of gratings have been compared. In the first part of the study, the calibration process using RGB LEDs and a halogen lamp is described in detail. The second part of the study presents the results of a few applications on a food matrix under controlled light conditions, which were conducted to evaluate the performance of the prototype. The extracted spectra were normalised and subsequently pre-processed witheitherSNV(Standard Normal Variate)transform or the Savitzky–Golay (SG) derivative.Finally, the data were explored withPCA (Principal Component Analysis), which confirmedthe ability of the prototype to distinguish samples of different colours(first trial), assessthe decay of different apple samples(second trial)and differentiate between healthy and damaged tissues (third trial). The experimental results were consistent with the anticipated outcomes, and both types of grating demonstrated favourable performance
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