AI Article Synopsis
- The text proposes three machine learning-based quality control (QC) techniques for weather data, which vary based on the input data types: using a single weather element, multiple weather elements together, and incorporating spatiotemporal characteristics.
- The authors applied these techniques to atmospheric data from IoT sensors, utilizing algorithms like support vector regression to correct data errors and evaluate performance.
- Results showed that the QC method using multiple weather elements had a 0.14% lower RMSE compared to the single element method, while the spatiotemporal approach trained with AWS data achieved a 17% lower RMSE than that based solely on raw data.
Article Abstract
We propose three quality control (QC) techniques using machine learning that depend on the type of input data used for training. These include QC based on time series of a single weather element, QC based on time series in conjunction with other weather elements, and QC using spatiotemporal characteristics. We performed machine learning-based QC on each weather element of atmospheric data, such as temperature, acquired from seven types of IoT sensors and applied machine learning algorithms, such as support vector regression, on data with errors to make meaningful estimates from them. By using the root mean squared error (RMSE), we evaluated the performance of the proposed techniques. As a result, the QC done in conjunction with other weather elements had 0.14% lower RMSE on average than QC conducted with only a single weather element. In the case of QC with spatiotemporal characteristic considerations, the QC done via training with AWS data showed performance with 17% lower RMSE than QC done with only raw data.
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|---|---|
| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC7086422 | PMC |
| http://dx.doi.org/10.1155/2020/7980434 | DOI Listing |
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