sm2rainR is an R package that implements the SM2RAIN algorithm of
Brocca et al. (2013), and Brocca
et al. (2014) for estimating
rainfall from soil moisture data.
Full description of the SM2RAIN algorithm as well as validations of its performance can be found in the above mentioned works.
For more details and datasets see also here and here.
The sm2rainR comes together with some data (hourly datasets of soil
moistrure and precipitation at 16 sites). Let’s load some of them:
library(sm2rainR)
ts_df=(data[[1]])
head(ts_df)## Date SM Rain
## 1 733043.0 0.4831461 0
## 2 733043.0 0.4831461 0
## 3 733043.1 0.4823970 0
## 4 733043.1 0.4815409 0
## 5 733043.2 0.4810653 0
## 6 733043.2 0.4807627 0
tail(ts_df)## Date SM Rain
## 26299 734138.8 0.5209397 0
## 26300 734138.8 0.5201831 0
## 26301 734138.8 0.5195292 0
## 26302 734138.9 0.5191011 0
## 26303 734138.9 0.5181024 0
## 26304 734139.0 0.5168539 0
Calibrate the SM2RAIN algorithm. The used in this example values for
itermax and NP are not reccomended (they are used here just for
computational speed). Please use higher values for both (e.g.,
itermax=100 and
NP=30)
Opt=sm2rainCalib(fn=sm2rainNSE, data= ts_df, itermax=20, NP=10)## Iteration: 1 bestvalit: 0.408351 bestmemit: 35.710261 527.527671 106.149830
## Iteration: 2 bestvalit: -0.774646 bestmemit: 99.307684 3.197116 14.222810
## Iteration: 3 bestvalit: -0.774646 bestmemit: 99.307684 3.197116 14.222810
## Iteration: 4 bestvalit: -0.774646 bestmemit: 99.307684 3.197116 14.222810
## Iteration: 5 bestvalit: -0.774646 bestmemit: 99.307684 3.197116 14.222810
## Iteration: 6 bestvalit: -0.774646 bestmemit: 99.307684 3.197116 14.222810
## Iteration: 7 bestvalit: -0.774646 bestmemit: 99.307684 3.197116 14.222810
## Iteration: 8 bestvalit: -0.774646 bestmemit: 99.307684 3.197116 14.222810
## Iteration: 9 bestvalit: -0.774646 bestmemit: 99.307684 3.197116 14.222810
## Iteration: 10 bestvalit: -0.774646 bestmemit: 99.307684 3.197116 14.222810
## Iteration: 11 bestvalit: -0.774646 bestmemit: 99.307684 3.197116 14.222810
## Iteration: 12 bestvalit: -0.774646 bestmemit: 99.307684 3.197116 14.222810
## Iteration: 13 bestvalit: -0.774646 bestmemit: 99.307684 3.197116 14.222810
## Iteration: 14 bestvalit: -0.774646 bestmemit: 99.307684 3.197116 14.222810
## Iteration: 15 bestvalit: -0.774651 bestmemit: 98.572299 10.410196 16.550301
## Iteration: 16 bestvalit: -0.787677 bestmemit: 59.076381 13.697113 7.179263
## Iteration: 17 bestvalit: -0.812600 bestmemit: 67.292570 24.609645 9.177006
## Iteration: 18 bestvalit: -0.812619 bestmemit: 80.035614 9.074405 6.754852
## Iteration: 19 bestvalit: -0.820897 bestmemit: 77.907364 13.933653 6.754852
## Iteration: 20 bestvalit: -0.820897 bestmemit: 77.907364 13.933653 6.754852
# The NSE value obtained by calibration
print(Opt$obj)## [1] 0.8208972
# Estimate percipitation using SM2RAIN algorithm
Sim = sm2rain(PAR=Opt$params, data=ts_df, NN=24)Compare the simulated and obvserved series of precipitation
par(mfrow=c(1,2))
plot(Sim$Pobs, t='l', col='black', xlab='Time index[days]', ylab='Rainfall [mm]')
lines(Sim$Psim, col='red' )
legend("topleft", legend=c("Observed", "Simulated"), col=c('black', 'red'), lty=c('solid','solid'), cex=0.7)
plot(Sim$Psim, Sim$Pobs, pch=19, xlab='Simulated rainfall [mm]', ylab='Observed rainfall [mm]')