Neville, R.A.; Shipman, P.D.; Fassnacht, S.R.; Sanow, J.E.; Pasquini, R.; Oprea, I.
A New Formulation and Code to Compute Aerodynamic Roughness Length for Gridded Geometry—Tested on Lidar-Derived Snow Surfaces. Remote Sens. 2025, 17, 1984.
https://doi.org/10.3390/rs17121984
AMA Style
Neville RA, Shipman PD, Fassnacht SR, Sanow JE, Pasquini R, Oprea I.
A New Formulation and Code to Compute Aerodynamic Roughness Length for Gridded Geometry—Tested on Lidar-Derived Snow Surfaces. Remote Sensing. 2025; 17(12):1984.
https://doi.org/10.3390/rs17121984
Chicago/Turabian Style
Neville, Rachel A., Patrick D. Shipman, Steven R. Fassnacht, Jessica E. Sanow, Ron Pasquini, and Iuliana Oprea.
2025. "A New Formulation and Code to Compute Aerodynamic Roughness Length for Gridded Geometry—Tested on Lidar-Derived Snow Surfaces" Remote Sensing 17, no. 12: 1984.
https://doi.org/10.3390/rs17121984
APA Style
Neville, R. A., Shipman, P. D., Fassnacht, S. R., Sanow, J. E., Pasquini, R., & Oprea, I.
(2025). A New Formulation and Code to Compute Aerodynamic Roughness Length for Gridded Geometry—Tested on Lidar-Derived Snow Surfaces. Remote Sensing, 17(12), 1984.
https://doi.org/10.3390/rs17121984