Review on Algorithm Design in Electronic Noses: Challenges, Status, and Trends

Taoping Liu; Lihua Guo; Mou Wang; Chen Su; Di Wang; Hao Dong; Jingdong Chen; Weiwei Wu

doi:10.34133/icomputing.0012

Review on Algorithm Design in Electronic Noses: Challenges, Status, and Trends

Taoping Liu, Lihua Guo, Mou Wang, Chen Su, Di Wang, Hao Dong, Jingdong Chen, Weiwei Wu

School of Marine Science and Technology

Research output: Contribution to journal › Review article › peer-review

53 Scopus citations

Abstract

Electronic noses, or e-noses, refer to systems powered by chemical gas sensors, signal processing, and machine learning algorithms for realizing artificial olfaction. They play a crucial role in various applications for decoding chemical environmental information. Despite decades of advances in gas-sensing technology and artificial intelligence, the reliability and stability of e-nose systems remain challenging, which is also one of the major obstacles that prevent e-noses from large-scale deployment. This paper presents a wide-ranging and structured review of the methods and algorithms developed in the e-nose literature over the past few decades. The review adopts a problem-oriented taxonomy aimed at clarifying the motivations and challenges of different methods and algorithms and their pros and cons. Moreover, several promising research directions in this field have been presented.

Original language	English
Article number	0012
Journal	Intelligent Computing
Volume	2
DOIs	https://doi.org/10.34133/icomputing.0012
State	Published - 2023

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abstract = "Electronic noses, or e-noses, refer to systems powered by chemical gas sensors, signal processing, and machine learning algorithms for realizing artificial olfaction. They play a crucial role in various applications for decoding chemical environmental information. Despite decades of advances in gas-sensing technology and artificial intelligence, the reliability and stability of e-nose systems remain challenging, which is also one of the major obstacles that prevent e-noses from large-scale deployment. This paper presents a wide-ranging and structured review of the methods and algorithms developed in the e-nose literature over the past few decades. The review adopts a problem-oriented taxonomy aimed at clarifying the motivations and challenges of different methods and algorithms and their pros and cons. Moreover, several promising research directions in this field have been presented.",

author = "Taoping Liu and Lihua Guo and Mou Wang and Chen Su and Di Wang and Hao Dong and Jingdong Chen and Weiwei Wu",

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T2 - Challenges, Status, and Trends

AU - Liu, Taoping

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AU - Su, Chen

AU - Wang, Di

AU - Dong, Hao

AU - Chen, Jingdong

AU - Wu, Weiwei

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AB - Electronic noses, or e-noses, refer to systems powered by chemical gas sensors, signal processing, and machine learning algorithms for realizing artificial olfaction. They play a crucial role in various applications for decoding chemical environmental information. Despite decades of advances in gas-sensing technology and artificial intelligence, the reliability and stability of e-nose systems remain challenging, which is also one of the major obstacles that prevent e-noses from large-scale deployment. This paper presents a wide-ranging and structured review of the methods and algorithms developed in the e-nose literature over the past few decades. The review adopts a problem-oriented taxonomy aimed at clarifying the motivations and challenges of different methods and algorithms and their pros and cons. Moreover, several promising research directions in this field have been presented.

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Review on Algorithm Design in Electronic Noses: Challenges, Status, and Trends

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