About lab
Single-model lab wrapper for Ducrot2009 - Malaria transmission in two host types. The main purpose of this article is to formulate a deterministic mathematical model for the transmission of malaria that considers two host types in the human population. It can be used to explore transmission dynamics and compare scenario outcomes across conditions.
Runtime
Duration10
Comms Step0.1
Runs
Total0
Completed0
Failed0
Metadata
Packageducrot2009-malaria-transmission-in-two-host-types-lab
Created2026-05-15
Updated2026-05-15
biomodels_ebicuratedepidemiologyfaithfulsbmltelluriumvisualisation
Manifest
{
"io": {
"inputs": [
{
"name": "mosquito_to_nonimmune_transmission",
"label": "Mosquito To Nonimmune Transmission",
"maps_to": "epidemiology_sbml_ducrot2009_malaria_transmission_in_two_host_type_model1808280013_model.mosquito_to_nonimmune_transmission"
},
{
"name": "mosquito_to_semi_immune_transmission",
"label": "Mosquito To Semi Immune Transmission",
"maps_to": "epidemiology_sbml_ducrot2009_malaria_transmission_in_two_host_type_model1808280013_model.mosquito_to_semi_immune_transmission"
},
{
"name": "nonimmune_to_mosquito_transmission",
"label": "Nonimmune To Mosquito Transmission",
"maps_to": "epidemiology_sbml_ducrot2009_malaria_transmission_in_two_host_type_model1808280013_model.nonimmune_to_mosquito_transmission"
},
{
"name": "semi_immune_to_mosquito_transmission",
"label": "Semi Immune To Mosquito Transmission",
"maps_to": "epidemiology_sbml_ducrot2009_malaria_transmission_in_two_host_type_model1808280013_model.semi_immune_to_mosquito_transmission"
}
],
"outputs": [
{
"name": "state",
"label": "Model state",
"maps_to": "epidemiology_sbml_ducrot2009_malaria_transmission_in_two_host_type_model1808280013_model.state"
},
{
"name": "summary",
"label": "Simulation summary",
"maps_to": "epidemiology_sbml_ducrot2009_malaria_transmission_in_two_host_type_model1808280013_model.summary"
},
{
"name": "species_labels",
"label": "Species labels",
"maps_to": "epidemiology_sbml_ducrot2009_malaria_transmission_in_two_host_type_model1808280013_model.species_labels"
},
{
"name": "susceptible_nonimmune_humans",
"label": "Susceptible non-immune humans",
"maps_to": "epidemiology_sbml_ducrot2009_malaria_transmission_in_two_host_type_model1808280013_model.susceptible_nonimmune_humans"
},
{
"name": "exposed_nonimmune_humans",
"label": "Exposed non-immune humans",
"maps_to": "epidemiology_sbml_ducrot2009_malaria_transmission_in_two_host_type_model1808280013_model.exposed_nonimmune_humans"
},
{
"name": "infectious_nonimmune_humans",
"label": "Infectious non-immune humans",
"maps_to": "epidemiology_sbml_ducrot2009_malaria_transmission_in_two_host_type_model1808280013_model.infectious_nonimmune_humans"
},
{
"name": "exposed_semi_immune_humans",
"label": "Exposed semi-immune humans",
"maps_to": "epidemiology_sbml_ducrot2009_malaria_transmission_in_two_host_type_model1808280013_model.exposed_semi_immune_humans"
},
{
"name": "infectious_semi_immune_humans",
"label": "Infectious semi-immune humans",
"maps_to": "epidemiology_sbml_ducrot2009_malaria_transmission_in_two_host_type_model1808280013_model.infectious_semi_immune_humans"
},
{
"name": "immune_semi_immune_humans",
"label": "Immune semi-immune humans",
"maps_to": "epidemiology_sbml_ducrot2009_malaria_transmission_in_two_host_type_model1808280013_model.immune_semi_immune_humans"
},
{
"name": "exposed_mosquitoes",
"label": "Exposed mosquitoes",
"maps_to": "epidemiology_sbml_ducrot2009_malaria_transmission_in_two_host_type_model1808280013_model.exposed_mosquitoes"
},
{
"name": "infectious_mosquitoes",
"label": "Infectious mosquitoes",
"maps_to": "epidemiology_sbml_ducrot2009_malaria_transmission_in_two_host_type_model1808280013_model.infectious_mosquitoes"
}
]
},
"title": "Ducrot2009 - Malaria transmission in two host types Lab",
"models": [
{
"path": "owned/models/epidemiology_sbml_ducrot2009_malaria_transmission_in_two_host_type_model1808280013_model",
"alias": "epidemiology_sbml_ducrot2009_malaria_transmission_in_two_host_type_model1808280013_model",
"parameters": {
"model_path": "data/MODEL1808280013.xml",
"integration_step": 0.1
},
"provenance": {
"owned_path": "owned/models/epidemiology_sbml_ducrot2009_malaria_transmission_in_two_host_type_model1808280013_model"
}
},
{
"path": "owned/models/visualisation",
"alias": "visualisation",
"provenance": {
"owned_path": "owned/models/visualisation"
}
}
],
"wiring": [
{
"to": [
"visualisation.epidemiology_sbml_ducrot2009_malaria_transmission_in_two_host_type_model1808280013_model_state"
],
"from": "epidemiology_sbml_ducrot2009_malaria_transmission_in_two_host_type_model1808280013_model.state"
},
{
"to": [
"visualisation.epidemiology_sbml_ducrot2009_malaria_transmission_in_two_host_type_model1808280013_model_summary"
],
"from": "epidemiology_sbml_ducrot2009_malaria_transmission_in_two_host_type_model1808280013_model.summary"
},
{
"to": [
"visualisation.epidemiology_sbml_ducrot2009_malaria_transmission_in_two_host_type_model1808280013_model_species_labels"
],
"from": "epidemiology_sbml_ducrot2009_malaria_transmission_in_two_host_type_model1808280013_model.species_labels"
}
],
"runtime": {
"duration": 10,
"initial_inputs": {},
"communication_step": 0.1
},
"description": "Single-model lab wrapper for Ducrot2009 - Malaria transmission in two host types. The main purpose of this article is to formulate a deterministic mathematical model for the transmission of malaria that considers two host types in the human population. It can be used to explore transmission dynamics and compare scenario outcomes across conditions.",
"schema_version": "2.0"
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