Application of Artificial Neural Networks (ANN) Coupled with Near-InfraRed(NIR) Spectroscopy for Detection of Adulteration in Honey

Longin, Lucija; Tušek, Ana Jurinjak; Valinger, Davor; Benković, Maja; Jurina, Tamara; Kljusurić, Jasenka Gajdoš

doi:10.3897/biss.3.38048

Cited by 2 publications

(1 citation statement)

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“…Even the specific fields of spectroscopy rely deeply on artificial neural networks, as is the case for instance with medical spectroscopy application Wang et al (2015), or for instance agricultural application Basile et al (2022); Longin et al (2019). The material recognition in extraterrestrial spectroscopic probing is also a very difficult task, since the limitations of the mass and resolving power of the onboard instruments are a very difficult limiting factor (Koujelev et al, 2010;Bornstein et al, 2005).…”

Section: Introductionmentioning

confidence: 99%

The usage of perceptron, feed and deep feed forward artificial neural networks on the spectroscopy data: astrophysical & fusion plasmas

Sakan¹,

Traparić²,

Srećković³

et al. 2022

caosp

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Artificial neural networks are gaining a momentum for solving complex problems in all sorts of data analysis and classification matters. As such, idea of determining their usability on complex plasma came up. The choice for the input data for the analysis is a set of stellar spectral data. It consists of complex composition plasma under vast variety of conditions, dependent on type of star, measured with calibrated standardized procedures and equipment. The results of the analysis has shown that even a simple type of perceptron artificial neural network could lead to results of acceptable quality for the analysis of spectra of complex composition. The analyzed ANNs performed good on a limited data set. The results can be interpreted as a figure of merit for further development of complex neural networks in various applications e.g. in astrophysical and fusion plasmas.

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Section: Introductionmentioning

confidence: 99%

The usage of perceptron, feed and deep feed forward artificial neural networks on the spectroscopy data: astrophysical & fusion plasmas

Sakan¹,

Traparić²,

Srećković³

et al. 2022

caosp

View full text Add to dashboard Cite

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Detection of Low-Level Adulteration of Hungarian Honey Using near Infrared Spectroscopy

et al. 2023

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Honey adulteration is a worldwide problem; however, its detection is a challenge for researchers and authorities. There are numerous ways of honey counterfeiting; amongst them, direct adulteration is one of the most common methods. Correlative techniques, such as near-infrared spectroscopy (NIRS), are useful tools in the detection of honey adulteration; however, this method has not been applied to Hungarian honeys. The aim of this research was to investigate the performance of NIRS for the detection of sugar syrup addition to Hungarian honeys at lower concentration levels (<10% w/w). Acacia, rape, forest, sunflower, and linden honeys were mixed with high-fructose-content sugar syrup, rice syrup, or self-made glucose fructose syrup in 3%, 5%, and 10% w/w. NIRS analysis was performed in the spectral range of 950–1650 nm. Principal component analysis was coupled with linear discriminant analysis and partial least square regression models were built for the classification and prediction of adulteration levels, respectively. Our results showed that the performance of NIRS highly depends on both type of syrup and honey. PCA-LDA models provided the 100% correct classification of control in the case of all the models, while PLSR results could predict the added sugar syrup content in the case of rice and F40 syrup models, obtaining >2.2 RPDCV value.

show abstract

Application of Artificial Neural Networks (ANN) Coupled with Near-InfraRed(NIR) Spectroscopy for Detection of Adulteration in Honey

Cited by 2 publications

References 0 publications

The usage of perceptron, feed and deep feed forward artificial neural networks on the spectroscopy data: astrophysical & fusion plasmas

The usage of perceptron, feed and deep feed forward artificial neural networks on the spectroscopy data: astrophysical & fusion plasmas

Detection of Low-Level Adulteration of Hungarian Honey Using near Infrared Spectroscopy

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