A Temporal Filter to Extract Doped Conducting ...
Document type :
Compte-rendu et recension critique d'ouvrage
Title :
A Temporal Filter to Extract Doped Conducting Polymer Information Features from an Electronic Nose
Author(s) :
Haj Ammar, Wiem [Auteur]
Université de Monastir - University of Monastir [UM]
Boujnah, Aicha [Auteur]
Université de Monastir - University of Monastir [UM]
Baron, Antoine [Auteur]
Nanostructures, nanoComponents & Molecules - IEMN [NCM - IEMN]
Boubaker, Aimen [Auteur]
Université de Monastir - University of Monastir [UM]
Kalboussi, Adel [Auteur]
Université de Monastir - University of Monastir [UM]
Lmimouni, Kamal [Auteur]
Ecole nationale supérieure Mines-Télécom Lille Douai [IMT Nord Europe]
Nanostructures, nanoComponents & Molecules - IEMN [NCM - IEMN]
Pecqueur, Sebastien [Auteur]
Nanostructures, nanoComponents & Molecules - IEMN [NCM - IEMN]
Université de Monastir - University of Monastir [UM]
Boujnah, Aicha [Auteur]
Université de Monastir - University of Monastir [UM]
Baron, Antoine [Auteur]
Nanostructures, nanoComponents & Molecules - IEMN [NCM - IEMN]
Boubaker, Aimen [Auteur]
Université de Monastir - University of Monastir [UM]
Kalboussi, Adel [Auteur]
Université de Monastir - University of Monastir [UM]
Lmimouni, Kamal [Auteur]
Ecole nationale supérieure Mines-Télécom Lille Douai [IMT Nord Europe]
Nanostructures, nanoComponents & Molecules - IEMN [NCM - IEMN]
Pecqueur, Sebastien [Auteur]
Nanostructures, nanoComponents & Molecules - IEMN [NCM - IEMN]
Journal title :
Electronics
Pages :
497
Publisher :
MDPI
Publication date :
2024
ISSN :
2079-9292
English keyword(s) :
conducting polymers
electronic noses
exponential moving average
sensing
classifiers
electronic noses
exponential moving average
sensing
classifiers
HAL domain(s) :
Sciences de l'ingénieur [physics]/Electronique
English abstract : [en]
Identifying relevant machine learning features for multi-sensing platforms is both an applicative limitation to recognize environments and a necessity to interpret the physical relevance of transducers’ complementarity in ...
Show more >Identifying relevant machine learning features for multi-sensing platforms is both an applicative limitation to recognize environments and a necessity to interpret the physical relevance of transducers’ complementarity in their information processing. Particularly for long acquisitions, feature extraction must be fully automatized without human intervention and resilient to perturbations without significantly increasing the computational cost of a classifier. In this study, we investigate the relative resistance and current modulation of a 24-dimensional conductimetric electronic nose, which uses the exponential moving average as a floating reference in a low-cost information descriptor for environment recognition. In particular, we identified that depending on the structure of a linear classifier, the ‘modema’ descriptor is optimized for different material sensing elements’ contributions to classify information patterns. The low-pass filtering optimization leads to opposite behaviors between unsupervised and supervised learning: the latter favors longer integration of the reference, allowing the recognition of five different classes over 90%, while the first one prefers using the latest events as its reference to cluster patterns by environment nature. Its electronic implementation shall greatly diminish the computational requirements of conductimetric electronic noses for on-board environment recognition without human supervision.Show less >
Show more >Identifying relevant machine learning features for multi-sensing platforms is both an applicative limitation to recognize environments and a necessity to interpret the physical relevance of transducers’ complementarity in their information processing. Particularly for long acquisitions, feature extraction must be fully automatized without human intervention and resilient to perturbations without significantly increasing the computational cost of a classifier. In this study, we investigate the relative resistance and current modulation of a 24-dimensional conductimetric electronic nose, which uses the exponential moving average as a floating reference in a low-cost information descriptor for environment recognition. In particular, we identified that depending on the structure of a linear classifier, the ‘modema’ descriptor is optimized for different material sensing elements’ contributions to classify information patterns. The low-pass filtering optimization leads to opposite behaviors between unsupervised and supervised learning: the latter favors longer integration of the reference, allowing the recognition of five different classes over 90%, while the first one prefers using the latest events as its reference to cluster patterns by environment nature. Its electronic implementation shall greatly diminish the computational requirements of conductimetric electronic noses for on-board environment recognition without human supervision.Show less >
Language :
Anglais
Popular science :
Non
Source :
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