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Three-dimensional spatiotemporal wind field reconstruction based on LiDAR and multi-scale PINN

Yuanqing Chen, Ding Wang, Dachuan Feng, Geng Tian, Vikrant Gupta, Renjing Cao, Minping Wan and Shiyi Chen

Applied Energy, 2025, vol. 377, issue PC, No S0306261924019603

Abstract: In this numerical study, we use a multi-scale version of physics-informed neural network (PINN) for wind field reconstruction from LiDAR measurements. The reference velocity field is obtained from high-fidelity large-eddy simulation of neutral atmospheric boundary layer, and the LiDAR measurement strategy is restricted to that of a real LiDAR. The multi-scale PINN reconstructs the velocity field by minimizing a combination of the L2-error with respect to the LiDAR measurements and residuals of the governing equations. Our most significant finding is that adding a multi-scale layer to PINN enables us to: (i) capture wider range of scales, (ii) reconstruct the flow field outside the LiDAR scanning area, and (iii) reach faster convergence. We also find that for volumetric flow reconstruction and to deal with uncertainty in the wind direction, the reconstruction accuracy can be greatly improved by employing multiple LiDAR devices. Overall, our results show that the normalized errors in the reconstructed wind field are lower than 5% for all the experiments conducted in this study and that the errors do not increase even in the presence of measurement noise levels of typical LiDAR. These findings show the feasibility of three-dimensional dynamic wind field reconstruction across large wind farms using LiDAR devices.

Keywords: Wind field reconstruction; Light detection and ranging (liDAR); Physics-informed neural network (PINN); Data assimilation; Large eddy simulation (LES) (search for similar items in EconPapers)
Date: 2025
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DOI: 10.1016/j.apenergy.2024.124577

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