예제 #1
0
def simulation_setup(cb,
                     species_details,
                     site_vector_props,
                     max_larval_capacity=4e8):

    site_dir = os.path.join('sites', 'all')

    # directories
    cb.update_params({
        "Demographics_Filenames": [
            os.path.join(site_dir, "demographics.json"),
            os.path.join(site_dir, "demographics_net_overlay.json")
        ],
        "Air_Temperature_Filename":
        os.path.join(site_dir, "air_temperature_daily.bin"),
        "Land_Temperature_Filename":
        os.path.join(site_dir, "air_temperature_daily.bin"),
        "Rainfall_Filename":
        os.path.join(site_dir, "rainfall_daily.bin"),
        "Relative_Humidity_Filename":
        os.path.join(site_dir, "relative_humidity_daily.bin")
    })

    # Find vector proportions for each vector
    set_params_by_species(cb.params, [name for name in species_details.keys()])

    larval_habs_per_site = {"NodeID": site_vector_props["node_id"]}

    for species_name, species_modifications in species_details.items():
        set_species_param(cb, species_name, "Adult_Life_Expectancy", 20)
        set_species_param(cb, species_name, 'Vector_Sugar_Feeding_Frequency',
                          'VECTOR_SUGAR_FEEDING_EVERY_DAY')

        for param, val in species_modifications.items():
            if param == "habitat_split":
                new_vals = {
                    hab: hab_prop * max_larval_capacity
                    for hab, hab_prop in val.items()
                }
                set_species_param(cb, species_name, "Larval_Habitat_Types",
                                  new_vals)
                larval_habs_per_site.update({
                    ".".join([species_name, hab]):
                    site_vector_props[species_name]
                    for hab in val.keys()
                })
            else:
                set_species_param(cb, species_name, param, val)

    scale_larval_habitats(cb, pd.DataFrame(larval_habs_per_site))
예제 #2
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def update_vector_params(cb):

    set_params_by_species(cb.params, ['minimus', 'dirus'])
    update_species_param(cb,
                         'minimus',
                         'Larval_Habitat_Types', {'WATER_VEGETATION': 2e7},
                         overwrite=True)
    update_species_param(cb,
                         'minimus',
                         'Acquire_Modifier',
                         0.8,
                         overwrite=False)
    update_species_param(cb,
                         'minimus',
                         'Adult_Life_Expectancy',
                         25,
                         overwrite=False)  # target: 12
    update_species_param(cb,
                         'dirus',
                         'Larval_Habitat_Types', {
                             'CONSTANT': 1e7,
                             'TEMPORARY_RAINFALL': 7e7
                         },
                         overwrite=True)
    update_species_param(cb,
                         'dirus',
                         'Adult_Life_Expectancy',
                         30,
                         overwrite=False)  # target: 14
    update_species_param(cb, 'minimus', 'Anthropophily', 0.5, overwrite=False)
    update_species_param(cb, 'dirus', 'Anthropophily', 0.5, overwrite=False)

    capacity_dist_per_year = {
        "Times": [0, 1, 245, 275, 364],
        "Values": [0.2, 0.2, 0.7, 3, 3]
    }
    linear_spline = {
        "LINEAR_SPLINE": {
            "Capacity_Distribution_Number_Of_Years": 1,
            "Capacity_Distribution_Over_Time": capacity_dist_per_year,
            "Max_Larval_Capacity": 3e7
        }
    }
    update_species_param(cb,
                         'minimus',
                         'Larval_Habitat_Types',
                         linear_spline,
                         overwrite=False)
예제 #3
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 def __call__(self, cb):
     return set_params_by_species(cb.params, self.species, 'MALARIA_SIM')
예제 #4
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    "HEG_Homing_Rate": 0.0,
    "HEG_Fecundity_Limiting": 0.0,
    "HEG_Model": "OFF",
    "x_Temporary_Larval_Habitat": 1,
    "Egg_Hatch_Density_Dependence": "NO_DENSITY_DEPENDENCE",
    "Enable_Temperature_Dependent_Egg_Hatching": 0,
    "Enable_Egg_Mortality": 0,
    "Enable_Drought_Egg_Hatch_Delay": 0,
    "Temperature_Dependent_Feeding_Cycle": "NO_TEMPERATURE_DEPENDENCE",
    "Genome_Markers": []
}

params = cohort_params.copy()
params.update(disease_params)
params.update(larval_habitat.params)
set_params_by_species(params, ["arabiensis", "funestus", "gambiae"])

# --------------------------------------------------------------
# Individual-mosquito model (rather than cohort-based model)
# --------------------------------------------------------------

individual_params = cohort_params.copy()
individual_params["Vector_Sampling_Type"] = "TRACK_ALL_VECTORS"

# --------------------------------------------------------------
# Using VECTOR_SIM as a vivax model
# --------------------------------------------------------------

vivax_semitropical_params = disease_params.copy()
vivax_semitropical_params.update({
    "Incubation_Period_Distribution": "FIXED_DURATION",
예제 #5
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# Malaria disease + drug parameters
# --------------------------------------------------------------

disease_params = {
    "Malaria_Model": "MALARIA_MECHANISTIC_MODEL",
    "Malaria_Strain_Model": "FALCIPARUM_RANDOM_STRAIN"
}

disease_params.update(infection.params)
disease_params.update(immunity.params)
disease_params.update(symptoms.params)

params = copy.deepcopy(disease_params)
params["PKPD_Model"] = "CONCENTRATION_VERSUS_TIME"
params["Malaria_Drug_Params"] = drug_params
params["Genome_Markers"] = []

set_params_by_species(params, ["arabiensis", "funestus", "gambiae"],
                      "MALARIA_SIM")

# --------------------------------------------------------------
# Innate immunity only
# --------------------------------------------------------------

innate_only = copy.deepcopy(params)
innate_only.update({
    "Antibody_Capacity_Growth_Rate": 0,
    "Max_MSP1_Antibody_Growthrate": 0,
    "Min_Adapted_Response": 0
})