Sensors (Aug 2024)

Low-Cost CO<sub>2</sub> NDIR Sensors: Performance Evaluation and Calibration Using Machine Learning Techniques

  • Ravish Dubey,
  • Arina Telles,
  • James Nikkel,
  • Chang Cao,
  • Jonathan Gewirtzman,
  • Peter A. Raymond,
  • Xuhui Lee

DOI
https://doi.org/10.3390/s24175675
Journal volume & issue
Vol. 24, no. 17
p. 5675

Abstract

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The study comprehensively evaluates low-cost CO2 sensors from different price tiers, assessing their performance against a reference-grade instrument and exploring the possibility of calibration using different machine learning techniques. Three sensors (Sunrise AB by Senseair, K30 CO2 by Senseair, and GMP 343 by Vaisala) were tested alongside a reference instrument (Los Gatos precision greenhouse gas analyzer). The results revealed differences in sensor performance, with the higher cost Vaisala sensors exhibiting superior accuracy. Despite its lower price, the Sunrise sensors still demonstrated reasonable accuracy. Meanwhile, the K30 sensor measurements displayed higher variability and noise. Machine learning models, including linear regression, gradient boosting regression, and random forest regression, were employed for sensor calibration. In general, linear regression models performed best for extrapolating data, whereas decision tree-based models were generally more useful in handling non-linear datasets. Notably, a stack ensemble model combining these techniques outperformed the individual models and significantly improved sensor accuracy by approximately 65%. Overall, this study contributes to filling the gap in intercomparing CO2 sensors across different price categories and underscores the potential of machine learning for enhancing sensor accuracy, particularly in low-cost sensor applications.

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