Journal
SENSORS AND ACTUATORS B-CHEMICAL
Volume 329, Issue -, Pages -Publisher
ELSEVIER SCIENCE SA
DOI: 10.1016/j.snb.2020.129187
Keywords
Metal oxide gas sensor; Signal processing; Working temperature modulation; Selectivity; Signal shape analysis; Hydrocarbons
Funding
- RFBR [18-33-20220]
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Development of new signal processing approaches is crucial for enhancing the reliability of metal oxide gas sensor performance in real atmospheric conditions. Advantages of statistical shape analysis (SSA) method over other signal pre-processing techniques have been demonstrated, showing improved detection selectivity for chemically related gases such as methane and propane. The proposed data preprocessing algorithm has shown less sensitivity to sensor response and baseline drift compared to other methods, even during extended periods of continuous operation with periods of inactivity.
Development of new signal processing approaches is essential for improvement of the reliability of metal oxide gas sensor performance in real atmospheric conditions. Advantages statistical shape analysis (SSA) method are presented in comparison to previously reported signal pre-processing techniques - principal component analysis (PCA), discrete wavelet transform (DWT), polynomial curve fitting (PCF) - used in combination with machine learning (ML) algorithm for improvement of detection selectivity. An enhanced identification of chemically related gases (methane and propane) at a concentration range of 40-200 ppm under variable real atmospheric conditions has been demonstrated using working temperature modulated metal oxide gas sensors. Laboratory samples of sensors based on nanocrystalline SnO2 modified with Au and Pd were used. The proposed data preprocessing algorithm is less sensitive to sensor response and baseline drift and fluctuations compared to other methods during two months of continuous operation and work with periods of inactivity. The collected dataset and signal processing code are made public. The advantages of SSA signal pre-processing method are also demonstrated with the use of independent publicly available dataset for the task of CO selective quantitative detection in the air with variable humidity in the 2.2-20 ppm concentrations range.
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