Archive/Rapid Geographical Origin Discrimination of Tremella fusiform Based on Temporal Response Features of Electronic Nose
Rapid Geographical Origin Discrimination of Tremella fusiform Based on Temporal Response Features of Electronic Nose
Ying Li, Meng Liu, Zhaomin Sun et al.
July 1, 2026
en

Abstract

Rapid geographical origin discrimination of Tremella fuciformis is important for quality control and authenticity assessment; however, conventional analytical methods are often time-consuming and require complex sample preparation. In this study, a rapid discrimination approach was established by integrating electronic nose (E-nose) response fingerprints with machine learning. To capture temporal variation in the E-nose signals, fingerprint features were extracted from three response windows: the selected overall response window (0–69 s), the early response window (0–29 s), and the relatively stable response window (56–65 s). Random forest, partial least squares discriminant analysis (PLS-DA), Gaussian naive Bayes, nearest centroid, and decision tree were then constructed and evaluated. Classification performance varied among the temporal-window feature sets. Based on 100 repeated stratified random splits, PLS-DA model using the 56–65 s feature window achieved the best overall classification performance, with accuracy, balanced accuracy, F1-score (the harmonic mean of precision and recall), and ROC-AUC (the area under the receiver operating characteristic curve) values of 0.9933 ± 0.0255, 0.9928 ± 0.0256, 0.9919 ± 0.0293, 0.9991 ± 0.0085, respectively. These findings indicate that E-nose fingerprinting combined with PLS-DA may provide a rapid and effective method for geographical origin discrimination of T. fuciformis.

IPC Classification

G06

Keywords

rapidgeographicalorigindiscriminationtremellafusiformbasedtemporalresponsefeatureselectronicnosechemosensorsfuciformisimportantqualitycontrolauthenticityassessmenthoweverconventionalanalyticaloftentime-consuming
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