Applied Sciences (Feb 2023)

A Novel Generative Adversarial Network Model Based on GC-MS Analysis for the Classification of Taif Rose

  • Hala M. Abdelmigid,
  • Mohammed Baz,
  • Mohammed A. AlZain,
  • Jehad F. Al-Amri,
  • Hatim G. Zaini,
  • Maissa M. Morsi,
  • Matokah Abualnaja,
  • Nawal Abdallah Alhuthal

DOI
https://doi.org/10.3390/app13053052
Journal volume & issue
Vol. 13, no. 5
p. 3052

Abstract

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Rose oil production is believed to be dependent on only a few genotypes of the famous rose Rosa damascena. The aim of this study was to develop a novel GC-MS fingerprint based on the need to expand the genetic resources of oil-bearing rose for industrial cultivation in the Taif region (Saudi Arabia). Gas chromatography-mass spectrometry (GC-MS) is a widely used analytical technique for determining the volatile composition of distilled rose oil from flower data. Because biosample availability, prohibitive costs, and ethical concerns limit observations in agricultural research, we aimed to enhance the quality of analysis by combining real observations with samples generated in silico. This study proposes a novel artificial intelligence model based on generative adversarial neural networks (GANs) to classify Taif rose cultivars using raw GC-MS data. We employed a variant of the GAN known as conditional stacked GANs (cSGANs) to predict Taif rose’s oil content and other latent characteristics without the need to conduct laboratory tests. A hierarchical stack of conditional GANs is used in this algorithm to generate images. A cluster model was developed based on the dataset provided, to quantify the diversity that should be implemented in the proposed model. The networks were trained using the cross-entropy and minimax loss functions. The accuracy of the proposed model was assessed by measuring losses as a function of the number of epochs. The results prove the ability of the proposed model to perfectly generate new real samples of different classes based on the GC-MS fingerprint.

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