Frontiers in Plant Science (Sep 2023)

Accurate estimation of fractional vegetation cover for winter wheat by integrated unmanned aerial systems and satellite images

  • Songlin Yang,
  • Songlin Yang,
  • Songlin Yang,
  • Shanshan Li,
  • Shanshan Li,
  • Bing Zhang,
  • Bing Zhang,
  • Bing Zhang,
  • Ruyi Yu,
  • Cunjun Li,
  • Jinkang Hu,
  • Jinkang Hu,
  • Jinkang Hu,
  • Shengwei Liu,
  • Enhui Cheng,
  • Enhui Cheng,
  • Enhui Cheng,
  • Zihang Lou,
  • Zihang Lou,
  • Zihang Lou,
  • Dailiang Peng,
  • Dailiang Peng,
  • Dailiang Peng

DOI
https://doi.org/10.3389/fpls.2023.1220137
Journal volume & issue
Vol. 14

Abstract

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Accurate estimation of fractional vegetation cover (FVC) is essential for crop growth monitoring. Currently, satellite remote sensing monitoring remains one of the most effective methods for the estimation of crop FVC. However, due to the significant difference in scale between the coarse resolution of satellite images and the scale of measurable data on the ground, there are significant uncertainties and errors in estimating crop FVC. Here, we adopt a Strategy of Upscaling-Downscaling operations for unmanned aerial systems (UAS) and satellite data collected during 2 growing seasons of winter wheat, respectively, using backpropagation neural networks (BPNN) as support to fully bridge this scale gap using highly accurate the UAS-derived FVC (FVCUAS) to obtain wheat accurate FVC. Through validation with an independent dataset, the BPNN model predicted FVC with an RMSE of 0.059, which is 11.9% to 25.3% lower than commonly used Long Short-Term Memory (LSTM), Random Forest Regression (RFR), and traditional Normalized Difference Vegetation Index-based method (NDVI-based) models. Moreover, all those models achieved improved estimation accuracy with the Strategy of Upscaling-Downscaling, as compared to only upscaling UAS data. Our results demonstrate that: (1) establishing a nonlinear relationship between FVCUAS and satellite data enables accurate estimation of FVC over larger regions, with the strong support of machine learning capabilities. (2) Employing the Strategy of Upscaling-Downscaling is an effective strategy that can improve the accuracy of FVC estimation, in the collaborative use of UAS and satellite data, especially in the boundary area of the wheat field. This has significant implications for accurate FVC estimation for winter wheat, providing a reference for the estimation of other surface parameters and the collaborative application of multisource data.

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