Using a Particle Filter to Estimate the Spatial Distribution of the Snowpack Water Equivalent
Type de ressource
Auteurs/contributeurs
- Cantet, Philippe (Auteur)
- Boucher, Marie-Amélie (Auteur)
- Lachance-Coutier, S. (Auteur)
- Turcotte, Richard (Auteur)
- Fortin, Vincent (Auteur)
Titre
Using a Particle Filter to Estimate the Spatial Distribution of the Snowpack Water Equivalent
Résumé
AbstractA snow model forced by temperature and precipitation is used to simulate the spatial distribution of snow water equivalent (SWE) over a 600,000 km2 portion of the province of Quebec, Canada. We propose to improve model simulations by assimilating SWE data from sporadic manual snow surveys with a particle filter. A temporally and spatially correlated perturbation of the meteorological forcing is used to generate the set of particles. The magnitude of the perturbations is fixed objectively. First, the particle filter and direct insertion were both applied on 88 sites for which measured SWE consist of more or less five values per year over a period of 17 years. The temporal correlation of perturbations enables to improve the accuracy and the ensemble dispersion of the particle filter, while the spatial correlation lead to a spatial coherence in the particle weights. The spatial estimates of SWE obtained with the particle filter are compared with those obtained through optimal interpolation of the sno...
Publication
Journal of Hydrometeorology
Volume
20
Numéro
4
Date
2019-03-29
Extra
DOI: 10.1175/jhm-d-18-0140.1
MAG ID: 2917589794
Référence
Cantet, P., Boucher, M.-A., Lachance-Coutier, S., Turcotte, R., & Fortin, V. (2019). Using a Particle Filter to Estimate the Spatial Distribution of the Snowpack Water Equivalent. Journal of Hydrometeorology, 20(4). https://doi.org/10.1175/jhm-d-18-0140.1
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