Application of the Non-Destructive NIR Technique for the Evaluation of Strawberry Fruits Quality Parameters

Mancini, Manuela; Mazzoni, Luca; Gagliardi, Francesco; Balducci, F.; Duca, Daniele; Toscano, Giuseppe; Mezzetti, Bruno; Capocasa, F.

doi:10.3390/foods9040441

Cited by 48 publications

(35 citation statements)

References 32 publications

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“…Several properties of fruits such as water content, sugar content, chlorophyll, carotenoid, soluble solid, acidity, and firmness are measured for fruit quality assessment. The spectroscopy/spectral imagery are non-destructive and highthroughput methods to estimate these qualitative parameters (Berardo et al, 2004;ElMasry et al, 2007;Shao and He, 2008;Wu et al, 2008;Nishizawa et al, 2009;Penchaiya et al, 2009;Ecarnot et al, 2013;Guo et al, 2013;Dykes et al, 2014;Wang et al, 2015;Mancini et al, 2020). However, a robotic system can be presented to monitor the dynamics of these attributes for hundreds of growing fruits per day.…”

Section: Perspective Applications Of Robotic Phenotypingmentioning

confidence: 99%

Robotic Technologies for High-Throughput Plant Phenotyping: Contemporary Reviews and Future Perspectives

Atefi

Pitla

et al. 2021

Front. Plant Sci.

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Phenotyping plants is an essential component of any effort to develop new crop varieties. As plant breeders seek to increase crop productivity and produce more food for the future, the amount of phenotype information they require will also increase. Traditional plant phenotyping relying on manual measurement is laborious, time-consuming, error-prone, and costly. Plant phenotyping robots have emerged as a high-throughput technology to measure morphological, chemical and physiological properties of large number of plants. Several robotic systems have been developed to fulfill different phenotyping missions. In particular, robotic phenotyping has the potential to enable efficient monitoring of changes in plant traits over time in both controlled environments and in the field. The operation of these robots can be challenging as a result of the dynamic nature of plants and the agricultural environments. Here we discuss developments in phenotyping robots, and the challenges which have been overcome and others which remain outstanding. In addition, some perspective applications of the phenotyping robots are also presented. We optimistically anticipate that autonomous and robotic systems will make great leaps forward in the next 10 years to advance the plant phenotyping research into a new era.

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Section: Perspective Applications Of Robotic Phenotypingmentioning

confidence: 99%

Robotic Technologies for High-Throughput Plant Phenotyping: Contemporary Reviews and Future Perspectives

Atefi

Pitla

et al. 2021

Front. Plant Sci.

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“…Therefore, chemometric techniques were needed for spectral analysis. PCA was employed to assess the ability of Vis‐NIR spectroscopy to qualitatively classify samples according to their variety and processing step (Mancini et al., 2020).…”

Section: Resultsmentioning

confidence: 99%

“…Therefore, chemometric techniques were needed for spectral analysis. PCA was employed to assess the ability of Vis-NIR spectroscopy to qualitatively classify samples according to their variety and processing step (Mancini et al, 2020). Figure 6 shows the result of PCA on the first 3 principal components (PC1, PC2, and PC3) of tea samples that indicated the correlations between the Vis-NIR spectra and different classes.…”

Section: Vis/nir Spectral Response Of Tea Samples From Tea Processingmentioning

confidence: 99%

Nondestructive monitoring of polyphenols and caffeine during green tea processing using Vis‐NIR spectroscopy

Sanaeifar

Huang

Zhao

et al. 2020

Food Science & Nutrition

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“…MicroNIR has been already used in various fields, such as agrifood and seafood sectors, microbiological, petrochemical and pharmaceutical sectors, and bioenergy along with forestry and wood industry. In the agrifood and seafood sectors, portable NIR spectroscopy plays a fundamental role in continuous and rapid quality control of products [18][19][20][21]. Likewise, the increasing of NIR spectroscopy in industrial applications, for instance in the microbiological, petrochemical and pharmaceutical sectors, is determined by the possibility to analyze a significant amount of samples quickly and cost-effectively [22,23].…”

Section: Introductionmentioning

confidence: 99%

Rapid Quality Control of Woodchip Parameters Using a Hand-Held Near Infrared Spectrophotometer

et al. 2020

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Near infrared spectroscopy is a non-invasive and rapid technique to support the analysis of solid biofuels such as woodchip, which is considered as a suitable alternative for energy production, according to European goals for fossil fuel reduction. Chemical and physical properties of the woodchip influence combustion performance, so the most discriminant parameters such as moisture and ash content and gross calorific value were constantly monitored. The aim of this study was the development of prediction models for these three parameters with the use of a hand-held NIR spectrometer. Laboratory analyses were carried out to evaluate the quality of several Italian samples from a power plant, and PLS regression models were developed to test prediction accuracy. Moreover, the most relevant wavelengths were investigated to discriminate chemical compounds influence. Prediction models demonstrated the capacity of handheld MicroNIR instrument to be considered a practical tool for solid biofuel quality assessment. As a consequence, NIR spectroscopy improved real-time analysis and made it suitable for practical and industrial applications, as supported by the recent Italian standard UNI/TS 11765.

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Application of the Non-Destructive NIR Technique for the Evaluation of Strawberry Fruits Quality Parameters

Cited by 48 publications

References 32 publications

Robotic Technologies for High-Throughput Plant Phenotyping: Contemporary Reviews and Future Perspectives

Robotic Technologies for High-Throughput Plant Phenotyping: Contemporary Reviews and Future Perspectives

Nondestructive monitoring of polyphenols and caffeine during green tea processing using Vis‐NIR spectroscopy

Rapid Quality Control of Woodchip Parameters Using a Hand-Held Near Infrared Spectrophotometer

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