Scent classification by K nearest neighbors using ion-mobility spectrometry measurements

•K Nearest Neighbor classifies scents and their chemical components.•Scents/ chemicals are classified using only ion-mobility spectrometry measurements.•Classification using k-dimensional tree search is approximately 8-times faster.•By principal component analysis 71–86% of features are ignored for...

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Bibliographic Details
Published in:Expert systems with applications 2019-01, Vol.115, p.593-606
Main Authors: Müller, Philipp, Salminen, Katri, Nieminen, Ville, Kontunen, Anton, Karjalainen, Markus, Isokoski, Poika, Rantala, Jussi, Savia, Mariaana, Väliaho, Jari, Kallio, Pasi, Lekkala, Jukka, Surakka, Veikko
Format: Article
Language:English
Subjects:
Artificial intelligence
Classification
Classifiers
Data analysis
Electronic noses
Ion-mobility spectrometry
Ionic mobility
K nearest neighbours
Machine learning
Principal components analysis
Retraining
Scent classification
Scientific imaging
Searching
Spectrometry
Spectroscopy
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Summary:•K Nearest Neighbor classifies scents and their chemical components.•Scents/ chemicals are classified using only ion-mobility spectrometry measurements.•Classification using k-dimensional tree search is approximately 8-times faster.•By principal component analysis 71–86% of features are ignored for classification. Various classifiers for scent classification based on measurements using an electronic nose (eNose) have been studied recently. In general, classifiers rely on a static database containing reference eNose measurements for known scents. However, most of these approaches require retraining of the classifier every time a new scent needs to be added to the training database. In this paper, the potential of a K nearest neighbors (KNN) classifier is investigated to avoid the time-consuming retraining when updating the database. To speed up classification, a k-dimensional tree search in the KNN classifier and principal component analysis (PCA) are studied. The tests with scents presented to an eNose based on ion-mobility spectrometry (IMS) show that the KNN method classifies scents with high accuracy. Using a k-dimensional tree search instead of an exhaustive search has no significant influence on the misclassification rate but reduces the classification time considerably. The use of PCA-transformed data results in a higher misclassification rate than the use of IMS data when only the first principal components explaining 95% of the total variance are used but in a similar misclassification rate when the first principal components explaining 99% of the total variance are used. In conclusion, the proposed method can be recommended for classifying scents measured with IMS-based eNoses.
ISSN:0957-4174
1873-6793
DOI:10.1016/j.eswa.2018.08.042