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利用机器学习、混合乘性/加性缩放和扩展校准输入对低成本颗粒物传感器进行高效场校正。

Efficient field correction of low-cost particulate matter sensors using machine learning, mixed multiplicative/additive scaling and extended calibration inputs.

作者信息

Koziel Slawomir, Pietrenko-Dabrowska Anna, Wojcikowski Marek, Pankiewicz Bogdan

机构信息

Engineering Optimization & Modeling Center, Reykjavik University, Reykjavik, 102, Iceland.

Faculty of Electronics, Telecommunications and Informatics, Gdansk University of Technology, Gdansk, 80-233, Poland.

出版信息

Sci Rep. 2025 May 27;15(1):18573. doi: 10.1038/s41598-025-02069-w.

DOI:10.1038/s41598-025-02069-w
PMID:40425637
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC12117095/
Abstract

Particulate matter (PM) stands out as a highly perilous form of atmospheric pollution, posing significant risks to human health by triggering or worsening numerous heart, brain, and lung ailments, and even increasing the likelihood of cancer and premature mortality. Therefore, ensuring accurate monitoring of PM levels holds paramount significance, particularly urban zones of dense population. Still, achieving precise readings of PM concentration demands the use of bulky and costly equipment, typically stationed at widely spaced reference sites. The rise in popularity of low-cost PM sensors as potential substitutes has been noted, although their reliability is hampered by manufacturing flaws, instability, and susceptibility to environmental variations. In this work, we introduce a novel approach to field calibration for cheap PM sensors. Our method integrates multiplicative and additive corrections, with coefficients determined by an artificial neural network (ANN) surrogate. The ANN model accounts for environmental parameters and the sensor's PM readings as inputs, with its architecture fine-tuned to ensure optimal generalization capability. Additionally, we consider an extended set of input parameters, including local temporal changes of environmental variables, and short sequences of low-sensor readings, to further enhance calibration reliability. We validate our technique using a non-stationary measurement equipment alongside reference data acquired by government-approved reference stations in Gdansk, Poland. The obtained values of coefficients of determination reach as high as 0.89 for PM, 0.87 for PM, and 0.77 for PM, respectively, while the root mean square error (RMSE) is merely 3.0, 3.9, and 4.9 µg/m³. Such a performance positions the calibrated low-cost sensor as a potential alternative to stationary measurement equipment.

摘要

颗粒物(PM)是一种极具危险性的大气污染物,它会引发或加重多种心脏、大脑和肺部疾病,甚至增加患癌风险和过早死亡的可能性,对人类健康构成重大威胁。因此,确保对PM水平进行准确监测至关重要,尤其是在人口密集的城市地区。然而,要精确读取PM浓度,需要使用体积庞大且成本高昂的设备,这些设备通常设置在间隔较远的参考站点。尽管低成本PM传感器作为潜在替代品的受欢迎程度有所上升,但其可靠性受到制造缺陷、不稳定性以及对环境变化的敏感性的影响。在这项工作中,我们介绍了一种针对廉价PM传感器的现场校准新方法。我们的方法整合了乘法和加法校正,校正系数由人工神经网络(ANN)代理确定。ANN模型将环境参数和传感器的PM读数作为输入,其架构经过微调以确保最佳的泛化能力。此外,我们考虑了一组扩展的输入参数,包括环境变量的局部时间变化以及低传感器读数的短序列,以进一步提高校准的可靠性。我们使用非固定测量设备以及在波兰格但斯克由政府批准的参考站获取的参考数据对我们的技术进行了验证。对于PM 、PM 和PM ,分别获得的决定系数值高达0.89、0.87和0.77,而均方根误差(RMSE)仅为3.0、3.9和4.9µg/m³。这样的性能使校准后的低成本传感器成为固定测量设备的潜在替代品。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/014e/12117095/808e4933a6cb/41598_2025_2069_Fig12_HTML.jpg
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https://cdn.ncbi.nlm.nih.gov/pmc/blobs/014e/12117095/cb6cadb45a86/41598_2025_2069_Fig6_HTML.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/014e/12117095/24cb2e085442/41598_2025_2069_Fig7_HTML.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/014e/12117095/cee884b2f332/41598_2025_2069_Fig8_HTML.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/014e/12117095/a3f8f3088eba/41598_2025_2069_Fig9_HTML.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/014e/12117095/63100270ef3b/41598_2025_2069_Fig10_HTML.jpg
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