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Configuration Optimization of Temperature–Humidity Sensors Based on Weighted Hilbert–Schmidt Independence Criterion in Chinese Solar Greenhouses

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  • Chengbao Song

    (College of Mechanical and Electronic Engineering, Shandong Agricultural University, Tai’an 271018, China
    Key Laboratory of Huang-Huai-Hai Smart Agricultural Technology, Ministry of Agriculture and Rural Affairs, Tai’an 271018, China
    Shandong Provincial Key Laboratory of Horticultural Machinery and Equipment, Tai’an 271018, China)

  • Pingzeng Liu

    (Key Laboratory of Huang-Huai-Hai Smart Agricultural Technology, Ministry of Agriculture and Rural Affairs, Tai’an 271018, China
    College of Information Science and Engineering, Shandong Agricultural University, Tai’an 271018, China)

  • Xinghua Liu

    (College of Mechanical and Electronic Engineering, Shandong Agricultural University, Tai’an 271018, China
    Shandong Provincial Key Laboratory of Horticultural Machinery and Equipment, Tai’an 271018, China)

  • Lining Liu

    (Key Laboratory of Huang-Huai-Hai Smart Agricultural Technology, Ministry of Agriculture and Rural Affairs, Tai’an 271018, China
    College of Information Science and Engineering, Shandong Agricultural University, Tai’an 271018, China)

  • Yuting Yu

    (Key Laboratory of Huang-Huai-Hai Smart Agricultural Technology, Ministry of Agriculture and Rural Affairs, Tai’an 271018, China
    College of Information Science and Engineering, Shandong Agricultural University, Tai’an 271018, China)

Abstract

For cost-sensitive Chinese solar greenhouses (CSGs) with an uneven spatial distribution in temperature and humidity, there is a lack of effective strategies for sensor configuration that can reduce sensor usage while monitoring the microclimate precisely. A configuration strategy for integrated temperature–humidity sensors (THSs) based on the improved weighted Hilbert–Schmidt independence criterion (HSIC) is proposed in this paper. The data independence of the THSs in different sites was analyzed based on the improved HSIC, and the selection priority of the THSs was ranked based on the weighted independence of temperature and humidity. Then, according to different cost constraints and monitoring requirements, suitable THSs could be selected sequentially and constitute the monitoring solution. Compared with the original monitoring solution containing twenty-two THSs, the optimized solution used only four THSs (S6, S9 and H6, H5) under strict cost constraints, with a maximum RMSE of the temperature and relative humidity of 0.6 °C and 2.30%, as well as a maximum information gain rate (IGR) of 9.47% and 10.0%. If higher monitoring precision is required, we can increase the THS usage with a greater budget. The optimized solution with six THSs (S6, S9, S8 and H6, H5, H2) could further reduce the maximum RMSE of the temperature and relative humidity to 0.33 °C and 1.10% and the IGR to 6.9% and 8.7%. This indicated that the proposed strategy could use much fewer THSs to achieve accurate and comprehensive monitoring, which would provide efficient and low-cost solutions for CSG microclimate monitoring.

Suggested Citation

  • Chengbao Song & Pingzeng Liu & Xinghua Liu & Lining Liu & Yuting Yu, 2024. "Configuration Optimization of Temperature–Humidity Sensors Based on Weighted Hilbert–Schmidt Independence Criterion in Chinese Solar Greenhouses," Agriculture, MDPI, vol. 14(2), pages 1-17, February.
  • Handle: RePEc:gam:jagris:v:14:y:2024:i:2:p:311-:d:1339570
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