Simultaneous estimation of soil moisture and hydraulic parameters using residual resampling particle filter
Author:
Publisher
Springer Science and Business Media LLC
Subject
General Earth and Planetary Sciences
Link
http://link.springer.com/content/pdf/10.1007/s11430-013-4742-y.pdf
Reference43 articles.
1. Clapp R B, Hornberger G M. 1978. Empirical equations for some hydraulic properties. Water Resour Res, 14: 601–604
2. Cosby B J, Hornberger G M, Clapp R B. 1984. A statistical exploration of the relationships of soil moisture characteristics to the physical properties of soils. Water Resour Res, 20: 682–690
3. Dechant C M, Moradkhani H. 2012. Examining the effectiveness and robustness of sequential data assimilation methods for quantification of uncertainty in hydrologic forecasting. Water Resour Res, 48: W4518, doi: 1029/2011WR011011
4. Dobson M C, Ulaby F T, Hallikainen M T, et al. 1985. Microwave dielectric behavior of wet soil-Part II: Dielectric mixing models. IEEE Trans Geosci Remote Sens, 23: 35–46
5. Douc R, Cappe O, Moulines E. 2005. Comparison of resampling schemes for particle filtering. Proc ISPA05, 64–69
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