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calibrate_2010.R
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calibrate_2010.R
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# Jones, C., Jones, S., Petrasova, A., Petras, V., Gaydos, D., Skrip, M.,
# Takeuchi, Y., Bigsby, K., and Meentemeyer, R., 2021. Iteratively forecasting
# biological invasions with PoPS and a little help from our friends. Frontiers
# in Ecology and the Environment DOI: 10.1002/fee.2357
install.packages("remotes")
remotes::install_github("ncsu-landscape-dynamics/rpops")
library(PoPS)
library(terra)
cbs_path = "Z:/Data/Raster/USA/pops_casestudies/citrus_black_spot/"
cbs_out = "Z:/Data/Raster/USA/pops_casestudies/citrus_black_spot/outputs/"
start_time <- Sys.time()
# Calibration for PoPS model 2010
# Begin 4/25 at 11:30
cal_2010 <- PoPS::calibrate(
infected_years_file = paste0(cbs_path, "infection/cbs_pa_2011.tif"),
number_of_observations = 97,
prior_number_of_observations = 0,
prior_means = c(0, 0, 0, 0, 0, 0),
prior_cov_matrix = matrix(0, 6, 6),
params_to_estimate = c(TRUE, TRUE, TRUE, TRUE, FALSE, FALSE),
number_of_generations = 7,
generation_size = 1000,
pest_host_table = paste0(cbs_path, "pest_host_table_cbs.csv"),
competency_table = paste0(cbs_path, "competency_table_cbs.csv"),
infected_file_list = paste0(cbs_path, "infection/cbs_pa_2010.tif"),
host_file_list = paste0(cbs_path, "host/host.tif"),
total_populations_file = paste0(cbs_path, "total_pops_file.tif"),
temp = TRUE,
temperature_coefficient_file = paste0(cbs_path, "temp/temp_coeff_2011.tif"),
precip = TRUE,
precipitation_coefficient_file = paste0(cbs_path, "precip/prcp_coeff_2011.tif"),
model_type = "SI",
latency_period = 0,
time_step = "day",
season_month_start = 4,
season_month_end = 9,
start_date = "2011-01-01",
end_date = "2011-12-31",
use_survival_rates = FALSE,
survival_rate_month = 3,
survival_rate_day = 15,
survival_rates_file = "",
use_lethal_temperature = FALSE,
temperature_file = "",
lethal_temperature = -12.87,
lethal_temperature_month = 1,
mortality_frequency = "day",
mortality_frequency_n = 1,
management = TRUE,
treatment_dates = "2011-04-01",
treatments_file = paste0(cbs_path, "trt.tif"),
treatment_method = "ratio",
natural_kernel_type = "cauchy",
anthropogenic_kernel_type = "cauchy",
natural_dir = "NONE",
natural_kappa = 0,
anthropogenic_dir = "NONE",
anthropogenic_kappa = 0,
pesticide_duration = 180,
pesticide_efficacy = 0.829,
mask = NULL,
output_frequency = "year",
output_frequency_n = 1,
movements_file = "",
use_movements = FALSE,
start_exposed = FALSE,
generate_stochasticity = TRUE,
establishment_stochasticity = TRUE,
movement_stochasticity = TRUE,
dispersal_stochasticity = TRUE,
establishment_probability = 0.5,
dispersal_percentage = 0.99,
quarantine_areas_file = "",
use_quarantine = FALSE,
use_spreadrates = FALSE,
use_overpopulation_movements = FALSE,
overpopulation_percentage = 0,
leaving_percentage = 0,
leaving_scale_coefficient = 1,
calibration_method = "ABC",
number_of_iterations = 1e+05,
exposed_file_list = "",
verbose = TRUE,
write_outputs = "None",
output_folder_path = cbs_out,
network_filename = "",
network_movement = "walk",
success_metric = "quantity, allocation, and configuration",
use_initial_condition_uncertainty = FALSE,
use_host_uncertainty = FALSE,
weather_type = "deterministic",
temperature_coefficient_sd_file = "",
precipitation_coefficient_sd_file = "",
dispersers_to_soils_percentage = 0,
quarantine_directions = "",
multiple_random_seeds = FALSE,
file_random_seeds = NULL,
use_soils = FALSE,
soil_starting_pest_file = "",
start_with_soil_populations = FALSE,
county_level_infection_data = FALSE
)
file_name <- paste0(cbs_out, "posterior_means_pa_2010.csv")
write.csv(cal_2010$posterior_means, file_name, row.names = FALSE)
file_name <- paste0(cbs_out, "posterior_cov_matrix_pa_2010.csv")
write.csv(cal_2010$posterior_cov_matrix, file_name, row.names = FALSE)
end_time <- Sys.time()
time_taken <- round(end_time-start_time, 2)
time_taken