Schema 20 documentation
Generated from: scenario_20.xsd
.
Key:
abc required (one)
[ def ] optional (zero or one)
( ghi )* any number (zero or more)
( jkl )+ at least one
( mno ){2,inf} two or more occurrences
Scenario
→ scenario
<scenario
schemaVersion=int
analysisNo=int
name=string
wuID=int
assimMode=("0" or "1")
xmlns:xsi="http://www.w3.org/2001/XMLSchema-instance"
xsi:noNamespaceSchemaLocation="scenario_20.xsd"
>
IN THIS ORDER:
| <demography ... />
| <monitoring ... />
| <interventions ... />
| <healthSystem ... />
| <entoData ... />
| [ <drugDescription ... /> ]
| <model ... />
</scenario>
Documentation (element)
Units: List of elements
Description of scenario
Attributes
Version of the xml schema
schemaVersion=int
Version of xml schema. If not equal to the current version an error is thrown. Use SchemaTranslator to update xml files.
Reference number of the analysis
analysisNo=int
Units: Number Min: 1 Max: 100000000
Unique identifier of scenario
Name of intervention
name=string
Units: string
Name of intervention
Work unit identifier
wuID=int
Units: Number Min: 1 Max: 100000000
Work unit ID. Only used to validate checkpointing, to prevent checkpoint cheats.
Assimilator mode
assimMode=("0" or "1")
Units: Code
Assimilator mode. Defines output of simulator as either complete (columns: time,agegroup,measure,value) or minimal (single column: value)
Human age distribution
→ scenario → demography
<demography
name=string
popSize=int
maximumAgeYrs=double
[ growthRate=double ]
>
IN THIS ORDER:
| <ageGroup ... />
</demography>
Documentation (element)
Units: List of elements
Description of demography
Attributes
Name of demography data
name=string
Units: string
Name of demography data
Population size
popSize=int
Units: Count Min: 1 Max: 100000
Population size
Maximum age of simulated humans
maximumAgeYrs=double
Units: Number Min: 0 Max: 100
Maximum age of simulated humans
Growth rate of human population
growthRate=double
Units: Number Min: 0 Max: 0
Growth rate of human population. (we should be able to implement this with non-zero values)
Age groups
→ scenario → demography → ageGroup
<ageGroup
lowerbound=double
>
IN THIS ORDER:
| ( <group ... /> )+
</ageGroup>
Documentation (element)
Units: List of elements
List of age groups included in demography
Documentation (type)
Units: List of elements
List of age groups included in demography or surveys
Attributes
lower bound of age group
lowerbound=double
Units: Years Min: 0 Max: 100
Lower bound of age group
group
→ scenario → demography → ageGroup → group
<group
poppercent=double
upperbound=double
/>
Attributes
Percentage in age group
poppercent=double
Percentage of human population in age group
upper bound of age group
upperbound=double
Units: Years Min: 0 Max: 100
Upper bound of age group
Measures to be reported
→ scenario → monitoring
<monitoring
name=string
>
IN THIS ORDER:
| [ <continuous ... /> ]
| <SurveyOptions ... />
| <surveys ... />
| <ageGroup ... />
</monitoring>
Documentation (element)
Units: List of elements
Description of surveys
Attributes
name of monitoring information
name=string
Units: string
Name of monitoring data
continuous
→ scenario → monitoring → continuous
<continuous
period=int
[ duringInit=boolean ]
>
IN THIS ORDER:
| ( <option ... /> )*
</continuous>
Attributes
Days between reports
period=int
Units: Days Min: 1 Max: unbounded
Number of timesteps between reports.
During initialization
duringInit=boolean
Units: Days Min: 1 Max: unbounded
Also output during initialization. By default this is disabled (only intervention-period data is output). This should not be used for predictions, but can be useful for model validation. In this mode, 'simulation time' is output as the first column (in addition to 'timestep'), since 'timestep' is dis- continuous across the start of the intervention period.
option
→ scenario → monitoring → continuous → option
<option
name=string
value=boolean
/>
Attributes
Model options required
name=string
Options define different model structures. Option name. Must be one of a strictly defined set. Options are not required to be listed if their default value is desired.
Indicator of whether option is required
value=boolean
Option value (true/false). Each option has a default value used if the option is not listed (usually false but sometimes true).
Name of quantity
→ scenario → monitoring → SurveyOptions
<SurveyOptions>
IN THIS ORDER:
| ( <option ... /> )*
</SurveyOptions>
Documentation (element)
List of all active survey options. See include/Survey.h for a list of supported outputs. Should also be on the wiki.
Survey times (time steps)
→ scenario → monitoring → surveys
<surveys
detectionLimit=double
>
IN THIS ORDER:
| <surveyTime ... />
</surveys>
Documentation (element)
Units: List of elements
List of survey times
Attributes
Detection limit for parasitaemia
detectionLimit=double
Units: parasites/micolitre Min: 0 Max: 1000
Detection limit for parasitemia
Survey time
→ scenario → monitoring → surveys → surveyTime
<surveyTime>
int
</surveyTime>
Documentation (element)
Units: Number Min: 0
Survey time; 0 means just before start of main sim and is a valid survey-point. Reported data is either from a point-time survey (immediate data) or is collected over the previous year (data from previous timesteps-per-year period). Simulation will end immediately after last survey is taken.
Age groups
→ scenario → monitoring → ageGroup
<ageGroup
lowerbound=double
>
IN THIS ORDER:
| ( <group ... /> )+
</ageGroup>
Documentation (element)
Units: List of elements
List of age groups included in demography or surveys
Documentation (type)
Units: List of elements
List of age groups included in surveys
Attributes
lower bound of age group
lowerbound=double
Units: Years Min: 0 Max: 100
Lower bound of age group
group
→ scenario → monitoring → ageGroup → group
<group
upperbound=double
/>
Attributes
upper bound of age group
upperbound=double
Units: Years Min: 0 Max: 100
Upper bound of age group
Preventative interventions
<interventions
name=string
>
IN THIS ORDER:
| [ <MDADescription ... /> ]
| ( <vaccineDescription ... /> ){0,3}
| [ <iptiDescription ... /> ]
| ( <anopheles ... /> )*
| [ <continuous ... /> ]
| [ <timed ... /> ]
</interventions>
Documentation (element)
Units: List of elements
List of interventions. Generally these are either point-time distributions of something to some subset of the population, or continuous-time distribution targetting individuals when they reach a certain age.
Attributes
Intervention
name=string
Units: string
Name of age specific intervention
Drug dose(s) used in MDA
→ scenario → interventions → MDADescription
<MDADescription>
IN THIS ORDER:
| [ <schedule ... /> ]
</MDADescription>
Documentation (element)
Units: List of medicate elements
Description of drug dose(s) used in a mass-drug-administration intervention.
When using the new (Event Scheduler) case management model, a treatment schedule must be present.
schedule
→ scenario → interventions → MDADescription → schedule
<schedule>
IN THIS ORDER:
| ( <medicate ... /> )*
</schedule>
Documentation (type)
The base (unmodified) schedule of drugs administered for this treatment.
medicate
→ scenario → interventions → MDADescription → schedule → medicate
<medicate
drug=string
mg=double
hour=double
/>
Attributes
drug
drug=string
Units: string
Abbreviated name of drug compound
drug dose
mg=double
Units: mg
Quantity of drug compound
time of administration
hour=double
Units: hours Min: 0
Number of hours past start of timestep this drug dose is administered at (first dose should be at hour 0).
vaccineDescription
→ scenario → interventions → vaccineDescription
<vaccineDescription
vaccineType=int
>
IN THIS ORDER:
| <halfLifeYrs ... />
| <efficacyB ... />
| ( <initialEfficacy ... /> )+
</vaccineDescription>
Attributes
Type of vaccine
vaccineType=int
Units: Code
Type of vaccine
Half life of drug effect
→ scenario → interventions → vaccineDescription → halfLifeYrs
<halfLifeYrs
value=double
/>
Documentation (element)
Units: Years Min: 0 Max: 100
Half life of drug effect
Attributes
Input parameter value
value=double
A double-precision floating-point value.
Variance parameter for vaccine efficacy
→ scenario → interventions → vaccineDescription → efficacyB
<efficacyB
value=double
/>
Documentation (element)
Units: Positive real Min: 0.001 Max: 1.00E+06
Measure of variation in vaccine efficacy
Attributes
Input parameter value
value=double
A double-precision floating-point value.
initialEfficacy
→ scenario → interventions → vaccineDescription → initialEfficacy
<initialEfficacy
value=double
/>
Attributes
Input parameter value
value=double
A double-precision floating-point value.
iptiDescription
→ scenario → interventions → iptiDescription
<iptiDescription
iptiEffect=int
>
IN THIS ORDER:
| ( <infGenotype ... /> )+
</iptiDescription>
Attributes
iptiEffect
iptiEffect=int
infGenotype
→ scenario → interventions → iptiDescription → infGenotype
<infGenotype
name=string
freq=double
ACR=double
proph=int
tolPeriod=int
atten=double
/>
Attributes
Age specific intervention
name=string
Units: string
Name of age specific intervention
Frequency
freq=double
Frequency of parasite genotype
ACR
ACR=double
Adequate clinical response (proportion)
Prophylactic period
proph=int
Prophylactic period
Tolerance period
tolPeriod=int
Tolerance period
Tolerance period
atten=double
Tolerance period
anopheles
→ scenario → interventions → anopheles
<anopheles
mosquito=string
>
IN THIS ORDER:
| [ <ITNDescription ... /> ]
| [ <IRSDescription ... /> ]
| [ <VADescription ... /> ]
</anopheles>
Attributes
Entomological effects of interventions
mosquito=string
Description of the entomological effects of interventions
ITNDescription
→ scenario → interventions → anopheles → ITNDescription
<ITNDescription
name=string
>
IN THIS ORDER:
| <deterrency ... />
| <preprandialKillingEffect ... />
| <postprandialKillingEffect ... />
</ITNDescription>
Attributes
ITN effects
name=string
Units: string
Name of Insecticide Treated Net intervention
Deterrency
→ scenario → interventions → anopheles → ITNDescription → deterrency
<deterrency
initial=double
halflife=double
[ Weibullk=double ]
/>
Documentation (element)
Units: None Min: 0 Max: 1
One minus this multiplies the host's availability (before decay).
Documentation (type)
Specification of a proportion with Weibull or exponential decay.
Attributes
Initial proportion
initial=double
Units: None Min: 0 Max: 1
The value before any decay.
half-life
halflife=double
Units: Years Min: 0
Half-life in years (more generally, halflife/ln(2) is lambda from the Weibull distribution).
Weibull k parameter
Weibullk=double
Min: 0
The parameter k of the Weibull distribution. If missing, 1.0 is used (equivalent to exponential decay).
Pre-prandial killing effect
→ scenario → interventions → anopheles → ITNDescription → preprandialKillingEffect
<preprandialKillingEffect
initial=double
halflife=double
[ Weibullk=double ]
/>
Documentation (element)
Units: None Min: 0 Max: 1
One minus this multiplies the survival rate of mosquitoes attempting to bite a host.
Documentation (type)
Specification of a proportion with Weibull or exponential decay.
Attributes
Initial proportion
initial=double
Units: None Min: 0 Max: 1
The value before any decay.
half-life
halflife=double
Units: Years Min: 0
Half-life in years (more generally, halflife/ln(2) is lambda from the Weibull distribution).
Weibull k parameter
Weibullk=double
Min: 0
The parameter k of the Weibull distribution. If missing, 1.0 is used (equivalent to exponential decay).
Post-prandial killing effect
→ scenario → interventions → anopheles → ITNDescription → postprandialKillingEffect
<postprandialKillingEffect
initial=double
halflife=double
[ Weibullk=double ]
/>
Documentation (element)
Units: None Min: 0 Max: 1
One minus this multiplies the survival rate of mosquitoes attempting to escape after biting a host.
Documentation (type)
Specification of a proportion with Weibull or exponential decay.
Attributes
Initial proportion
initial=double
Units: None Min: 0 Max: 1
The value before any decay.
half-life
halflife=double
Units: Years Min: 0
Half-life in years (more generally, halflife/ln(2) is lambda from the Weibull distribution).
Weibull k parameter
Weibullk=double
Min: 0
The parameter k of the Weibull distribution. If missing, 1.0 is used (equivalent to exponential decay).
IRSDescription
→ scenario → interventions → anopheles → IRSDescription
<IRSDescription
name=string
>
IN THIS ORDER:
| <deterrency ... />
| <killingEffect ... />
</IRSDescription>
Attributes
name of IRS intervention
name=string
Units: string
Name of Indoor Residual Spraying intervention
Deterrency
→ scenario → interventions → anopheles → IRSDescription → deterrency
<deterrency
initial=double
halflife=double
[ Weibullk=double ]
/>
Documentation (element)
Units: None Min: 0 Max: 1
One minus this multiplies the host's availability.
Documentation (type)
Specification of a proportion with Weibull or exponential decay.
Attributes
Initial proportion
initial=double
Units: None Min: 0 Max: 1
The value before any decay.
half-life
halflife=double
Units: Years Min: 0
Half-life in years (more generally, halflife/ln(2) is lambda from the Weibull distribution).
Weibull k parameter
Weibullk=double
Min: 0
The parameter k of the Weibull distribution. If missing, 1.0 is used (equivalent to exponential decay).
killing effect
→ scenario → interventions → anopheles → IRSDescription → killingEffect
<killingEffect
initial=double
halflife=double
[ Weibullk=double ]
/>
Documentation (element)
Units: None Min: 0 Max: 1
One minus this multiplies the survival rate of resting mosquitoes.
Documentation (type)
Specification of a proportion with Weibull or exponential decay.
Attributes
Initial proportion
initial=double
Units: None Min: 0 Max: 1
The value before any decay.
half-life
halflife=double
Units: Years Min: 0
Half-life in years (more generally, halflife/ln(2) is lambda from the Weibull distribution).
Weibull k parameter
Weibullk=double
Min: 0
The parameter k of the Weibull distribution. If missing, 1.0 is used (equivalent to exponential decay).
VADescription
→ scenario → interventions → anopheles → VADescription
<VADescription
name=string
>
IN THIS ORDER:
| <deterrency ... />
</VADescription>
Attributes
Name of mosquito deterrency intervention
name=string
Units: string
Name of mosquito deterrency intervention
Deterrency
→ scenario → interventions → anopheles → VADescription → deterrency
<deterrency
initial=double
halflife=double
[ Weibullk=double ]
/>
Documentation (element)
Units: None Min: 0 Max: 1
One minus this multiplies the host's availability.
Documentation (type)
Specification of a proportion with Weibull or exponential decay.
Attributes
Initial proportion
initial=double
Units: None Min: 0 Max: 1
The value before any decay.
half-life
halflife=double
Units: Years Min: 0
Half-life in years (more generally, halflife/ln(2) is lambda from the Weibull distribution).
Weibull k parameter
Weibullk=double
Min: 0
The parameter k of the Weibull distribution. If missing, 1.0 is used (equivalent to exponential decay).
Continuously applied interventions
→ scenario → interventions → continuous
<continuous>
IN THIS ORDER:
| ( <vaccine ... /> )*
| ( <ITN ... /> )*
| ( <ipti ... /> )*
</continuous>
List of age groups for vaccination
→ scenario → interventions → continuous → vaccine
<vaccine
targetAgeYrs=double
coverage=double
/>
Documentation (element)
Units: List of elements
List of age groups for vaccination
Attributes
Target age
targetAgeYrs=double
Units: Years Min: 0 Max: 100
Target age of intervention
Proportion covered
coverage=double
Units: Proportion Min: 0 Max: 1
Coverage of intervention
Description of ITN deployment
→ scenario → interventions → continuous → ITN
<ITN
targetAgeYrs=double
coverage=double
/>
Documentation (element)
Units: List of elements
Description of ITN deployment in the community
Attributes
Target age
targetAgeYrs=double
Units: Years Min: 0 Max: 100
Target age of intervention
Proportion covered
coverage=double
Units: Proportion Min: 0 Max: 1
Coverage of intervention
List of age groups for IPTi
→ scenario → interventions → continuous → ipti
<ipti
targetAgeYrs=double
coverage=double
/>
Documentation (element)
Units: List of elements
List of age groups for IPTi distribution
Attributes
Target age
targetAgeYrs=double
Units: Years Min: 0 Max: 100
Target age of intervention
Proportion covered
coverage=double
Units: Proportion Min: 0 Max: 1
Coverage of intervention
Timed interventions
→ scenario → interventions → timed
<timed>
IN THIS ORDER:
| ( <intervention ... /> )+
</timed>
Documentation (element)
Units: List of elements
List of timed interventions
Documentation (type)
Units: List of elements
List of timed interventions
intervention
→ scenario → interventions → timed → intervention
<intervention
time=int
>
IN THIS ORDER:
| [ <changeHS ... /> ]
| [ <changeEIR ... /> ]
| [ <importedInfectionsPerThousandHosts ... /> ]
| [ <MDA ... /> ]
| [ <vaccinate ... /> ]
| [ <ITN ... /> ]
| [ <IRS ... /> ]
| [ <VectorAvailability ... /> ]
| [ <ipti ... /> ]
| [ <immuneSuppression ... /> ]
| [ <insertR_0Case ... /> ]
| [ <uninfectVectors ... /> ]
| [ <larviciding ... /> ]
</intervention>
- changeHS
- changeEIR
- importedInfectionsPerThousandHosts
- MDA
- vaccinate
- ITN
- IRS
- VectorAvailability
- ipti
- immuneSuppression
- insertR_0Case
- uninfectVectors
- larviciding
Attributes
Time step of intervention
time=int
Units: Number Min: 1 Max: 10000
Time step of intervention
changeHS
→ scenario → interventions → timed → intervention → changeHS
<changeHS>
IN THIS ORDER:
| EXACTLY ONE OF:
| | <EventScheduler ... />
| | <ImmediateOutcomes ... />
| <CFR ... />
| <pSequelaeInpatient ... />
</changeHS>
Documentation (type)
Units: List of elements
Description of case management system, used to specify the initial model or a replacement (an intervention). Encompasses case management data and some other data required to derive case outcomes.
Contains a sub-element describing the particular health-system in use. Health system data is here defined as data used to decide on a treatment strategy, given a case requiring treatment.
EventScheduler
→ scenario → healthSystem → EventScheduler
<EventScheduler>
IN THIS ORDER:
| <uncomplicated ... />
| <complicated ... />
| <ClinicalOutcomes ... />
</EventScheduler>
uncomplicated
→ scenario → healthSystem → EventScheduler → uncomplicated
<uncomplicated>
IN THIS ORDER:
| <decisions ... />
| <treatments ... />
</uncomplicated>
Documentation (type)
Units: List of elements
A set of decisions and a set of treatments.
decisions
→ scenario → healthSystem → EventScheduler → uncomplicated → decisions
<decisions>
IN THIS ORDER:
| ( <decision ... /> )*
</decisions>
Documentation (type)
Description of decisions for a case management tree. A generic view of this tree would be that each decision is deterministic, or based on probabilities which may depend on other decisions. Probabilistic decisions are described here.
In general, each decision has a name, a defined set of outcome values, and a set of dependent decisions mentioned by name. The following decisions, with their associated outcomes, are provided by the code (and may not be included here):
- case (uncomplicated only): Returns "UC1" if there is no recent history of a malarial case, or "UC2" if there is.
- result: Dependent on decision "test", this performs a parasite density test. Output is one of "none" (no test performed), "positive", "negative".
The following decisions must be described here:
- test (uncomplicated only): Outputs must be "none", "microscopy" or "RDT" to describe which test the "result" decision uses.
- treatment: Describes which treatment to use. Values aren't restricted but must match up with a treatment described in the corresponding "treatments" section.
- hospitalisation (complicated only): none, immediate or delayed.
decision
→ scenario → healthSystem → EventScheduler → uncomplicated → decisions → decision
<decision
name=string
depends=string
values=string
>
string
</decision>
Documentation (type)
A decision describes how to choose between a set of values.
Lexically, it can contain symbols matching "[_.a-zA-Z0-9]+", round brackets: (), braces: {} and colons. Whitespace is ignored except to separate symbols.
Syntactically, it must match one TREE, where SYMBOL is a symbol described above. (Here, "x|y" means x or y, "x+" means x occurs once or more, brackets show grouping.) TREE := BRANCH_SET | OUTCOME BRANCH_SET := BRANCH+ BRANCH := DECISION '(' VALUE ')' ( ':' OUTCOME | '{' TREE '}' ) OUTCOME, DECISION, VALUE := SYMBOL
For each BRANCH_SET each BRANCH must have the same DECISION. This DECISION must be one of the dependencies mentioned in "depends". This may be:
- another decision, in which case the VALUE immediately following in brackets must correspond to one of its output values. The BRANCH_SET immediately containing this BRANCH must represent each output value of the same decision exactly once, and no parent BRANCH_SET may be for the same DECISION.
- "p": this indicates a probabilistic decision. In this case the value is a probability, the sum of all values for the BRANCH_SET must be 1 and the decision must be associated directly with OUTCOMEs (not sub-TREEs).
- "age": this indicates an age-test. The VALUE must have the form "a-b", indicating that this branch will be taken for individuals aged such that a <= age < b, where a,b are non-negative real numbers or the special value "inf", and a <= b. All VALUEs in the BRANCH_SET must cover all possible (non-negative real) ages, with no overlap (hence, smallest a must be 0 and greatest b must be inf).
Semantically, each OUTCOME must be one of the values associated with this decision.
Attributes
Name of decision
name=string
The name of this decision. The name must match the regular expression "[_a-zA-Z0-9]+"; that is it can only contain letters, digits and _ characters (no spaces, punctuation, etc.).
Preceding decisions
depends=string
A comma-separated list of decisions that must have already been evaluated before this decision can be evaluated. Can be empty. Each must be hard-coded or described here. Can include the special decisions "p" and "age", though "age" cannot be combined with any other dependency.
Outcome values
values=string
A comma-separated list of outcome values this decision may have. The name of each value must be of the same form as decision names (i.e. only contain letters, digits and _ characters).
treatments
→ scenario → healthSystem → EventScheduler → uncomplicated → treatments
<treatments>
IN THIS ORDER:
| ( <treatment ... /> )*
</treatments>
Documentation (type)
Units: string
A list of drug treatment tables. Each should have a name corresponding to one of the "drug" decision's values.
treatment
→ scenario → healthSystem → EventScheduler → uncomplicated → treatments → treatment
<treatment
name=string
>
IN THIS ORDER:
| <schedule ... />
| ( <modifier ... /> )*
</treatment>
Documentation (type)
A description of a base treatment schedule along with modifiers to handle delays, quality variations, etc.
Attributes
Treatment administered
name=string
Units: string
Name corresponding to one of the drug decision's output values.
schedule
→ scenario → healthSystem → EventScheduler → uncomplicated → treatments → treatment → schedule
<schedule>
IN THIS ORDER:
| ( <medicate ... /> )*
</schedule>
Documentation (type)
The base (unmodified) schedule of drugs administered for this treatment.
modifier
→ scenario → healthSystem → EventScheduler → uncomplicated → treatments → treatment → modifier
<modifier
decision=string
>
EXACTLY ONE OF:
| ( <multiplyQty ... /> )*
| ( <delay ... /> )*
| ( <selectTimeRange ... /> )*
</modifier>
Documentation (type)
A modifier for this treatment, according to the outputs of a decision.
The "decision" attribute must be the name of a known decision. Then, there must be a set of multipyQty, delay or selectTimeRange sub-elements, each of which corresponds to one value output of the decision.
Attributes
decision
decision=string
Units: string
Specifies the decision that this modifier acts on.
multiplyQty
→ scenario → healthSystem → EventScheduler → uncomplicated → treatments → treatment → modifier → multiplyQty
<multiplyQty
value=string
effect=string
[ affectsCost=boolean ]
/>
Documentation (element)
Multiplies the quantity of active ingredients of drugs administered.
The "drugs" attribute is a comma-separated list of all active ingredients administered in the base schedule (each must be listed once) and the content of this element is a comma- separated list of multipliers for each active ingredient, listed in the same order as in the "drugs" attribute. E.g. with drugs="A,B" and content "0.5,1" the quantity of drug A is halved while that of B is unchanged.
Attributes
value of decision
value=string
Units: string
Specifies a value of the decision to act on.
List of drugs affected
effect=string
Units: string
Comma-separated list of the effect the modifier has on each drug, in the form DRUG1(EFFECT1),DRUG2(EFFECT2), etc.
Affects cost?
affectsCost=boolean
Units: none
Does this affect the cost? If false, the effective drug usage (w.r.t. cost) is unaffected by this modifier; if true it is. Defaults to true (if omitted). Is meaningless for delays.
delay
→ scenario → healthSystem → EventScheduler → uncomplicated → treatments → treatment → modifier → delay
<delay
value=string
effect=string
[ affectsCost=boolean ]
/>
Documentation (element)
Delays administration of drugs listed in the base schedule by so many hours.
The "drugs" attribute is a comma-separated list of all active ingredients administered in the base schedule (each must be listed once) and the content of this element is a comma- separated list of delays (in hours) for each active ingredient, listed in the same order as in the "drugs" attribute. E.g. with drugs="A,B" and content "0,6", drug A is administered as in the base schedule while drug B is administered 6 hours later than specified.
Attributes
value of decision
value=string
Units: string
Specifies a value of the decision to act on.
List of drugs affected
effect=string
Units: string
Comma-separated list of the effect the modifier has on each drug, in the form DRUG1(EFFECT1),DRUG2(EFFECT2), etc.
Affects cost?
affectsCost=boolean
Units: none
Does this affect the cost? If false, the effective drug usage (w.r.t. cost) is unaffected by this modifier; if true it is. Defaults to true (if omitted). Is meaningless for delays.
selectTimeRange
→ scenario → healthSystem → EventScheduler → uncomplicated → treatments → treatment → modifier → selectTimeRange
<selectTimeRange
value=string
effect=string
[ affectsCost=boolean ]
/>
Documentation (element)
Selects which drug doses to administer according to time of administration (before times are modified by delays). Half-open interval: [x,y)
The "drugs" attribute is a comma-separated list of all active ingredients administered in the base schedule (each must be listed once) and the content of this element is a comma- separated list of time-ranges (in hours) for each active ingredient, listed in the same order as in the "drugs" attribute. The time-ranges should be of the form x-y and are interpreted as the half-open interval [x,y); that is a drug listed with time t will only be administered if x <= t < y.
Attributes
value of decision
value=string
Units: string
Specifies a value of the decision to act on.
List of drugs affected
effect=string
Units: string
Comma-separated list of the effect the modifier has on each drug, in the form DRUG1(EFFECT1),DRUG2(EFFECT2), etc.
Affects cost?
affectsCost=boolean
Units: none
Does this affect the cost? If false, the effective drug usage (w.r.t. cost) is unaffected by this modifier; if true it is. Defaults to true (if omitted). Is meaningless for delays.
complicated
→ scenario → healthSystem → EventScheduler → complicated
<complicated>
IN THIS ORDER:
| <decisions ... />
| <treatments ... />
</complicated>
Documentation (type)
Units: List of elements
A set of decisions and a set of treatments.
ClinicalOutcomes
→ scenario → healthSystem → EventScheduler → ClinicalOutcomes
<ClinicalOutcomes>
IN THIS ORDER:
| <maxUCSeekingMemory ... />
| <uncomplicatedCaseDuration ... />
| <complicatedCaseDuration ... />
| <complicatedRiskDuration ... />
| <pImmediateUC ... />
</ClinicalOutcomes>
- maxUCSeekingMemory
- uncomplicatedCaseDuration
- complicatedCaseDuration
- complicatedRiskDuration
- pImmediateUC
Documentation (type)
Description of base parameters of the clinical model.
Max UC treatment-seeking memory
→ scenario → healthSystem → EventScheduler → ClinicalOutcomes → maxUCSeekingMemory
<maxUCSeekingMemory>
int
</maxUCSeekingMemory>
Documentation (element)
Units: days Min: 0 Max: unbounded
Maximum number of timesteps (including first of case) an individual will remember they are sick before resetting.
Uncomplicated case duration
→ scenario → healthSystem → EventScheduler → ClinicalOutcomes → uncomplicatedCaseDuration
<uncomplicatedCaseDuration>
int
</uncomplicatedCaseDuration>
Documentation (element)
Units: days Min: 1 Max: unbounded
Fixed length of an uncomplicated case of malarial/non-malarial sickness (from treatment seeking until return to life-as-usual). Usually 3.
Complicated case duration
→ scenario → healthSystem → EventScheduler → ClinicalOutcomes → complicatedCaseDuration
<complicatedCaseDuration>
int
</complicatedCaseDuration>
Documentation (element)
Units: days Min: 1 Max: unbounded
Fixed length of a complicated/severe case of malaria (from treatment seeking until return to life-as-usual).
Complicated risk duration
→ scenario → healthSystem → EventScheduler → ClinicalOutcomes → complicatedRiskDuration
<complicatedRiskDuration>
int
</complicatedRiskDuration>
Documentation (element)
Units: days Min: 1 Max: unbounded
Number of days for which humans are at risk of death during a severe or complicated case of malaria. Cannot be greater than the duration of a complicated case or less than 1 day.
Probability of immediate UC treatment seeking
→ scenario → healthSystem → EventScheduler → ClinicalOutcomes → pImmediateUC
<pImmediateUC>
double
</pImmediateUC>
Documentation (element)
Units: none Min: 0 Max: 1
Probability that UC treatment seeking will be done immediately when sick, on second day given that it wasn't done on first, etc.
ImmediateOutcomes
→ scenario → healthSystem → ImmediateOutcomes
<ImmediateOutcomes
name=string
>
IN THIS ORDER:
| <drugRegimen ... />
| <initialACR ... />
| <compliance ... />
| <nonCompliersEffective ... />
| <pSeekOfficialCareUncomplicated1 ... />
| <pSelfTreatUncomplicated ... />
| <pSeekOfficialCareUncomplicated2 ... />
| <pSeekOfficialCareSevere ... />
</ImmediateOutcomes>
- drugRegimen
- initialACR
- compliance
- nonCompliersEffective
- pSeekOfficialCareUncomplicated1
- pSelfTreatUncomplicated
- pSeekOfficialCareUncomplicated2
- pSeekOfficialCareSevere
Documentation (type)
Units: List of elements
Description of "immediate outcomes" health system: Tediosi et al case management model (Case management as described in AJTMH 75 (suppl 2) pp90-103).
Attributes
Case Management model
name=string
Units: string
Name of health system
Description of drug regimen
→ scenario → healthSystem → ImmediateOutcomes → drugRegimen
<drugRegimen
firstLine=string
secondLine=string
inpatient=string
/>
Documentation (element)
Units: List of elements
Description of drug regimen
Attributes
First line drug
firstLine=string
Units: Drug code
Code for first line drug
Second line drug
secondLine=string
Units: Drug code
Code for second line drug
Drug use for treating inpatients
inpatient=string
Units: Drug code
Code for drug used for treating inpatients
Initial cure rate
→ scenario → healthSystem → ImmediateOutcomes → initialACR
<initialACR>
IN THIS ORDER:
| [ <CQ ... /> ]
| [ <SP ... /> ]
| [ <AQ ... /> ]
| [ <SPAQ ... /> ]
| [ <ACT ... /> ]
| [ <QN ... /> ]
| <selfTreatment ... />
</initialACR>
Documentation (element)
Units: Proportion Min: 0 Max: 1
Initial cure rate
Chloroquine
→ scenario → healthSystem → ImmediateOutcomes → initialACR → CQ
<CQ
value=double
/>
Documentation (element)
Units: List of elements
Chloroquine
Attributes
Input parameter value
value=double
A double-precision floating-point value.
Sulphadoxine-pyrimethamine
→ scenario → healthSystem → ImmediateOutcomes → initialACR → SP
<SP
value=double
/>
Documentation (element)
Units: List of elements
Sulphadoxine-pyrimethamine
Attributes
Input parameter value
value=double
A double-precision floating-point value.
Amodiaquine
→ scenario → healthSystem → ImmediateOutcomes → initialACR → AQ
<AQ
value=double
/>
Documentation (element)
Units: List of elements
Amodiaquine
Attributes
Input parameter value
value=double
A double-precision floating-point value.
Sulphadoxine-pyrimethamine/Amodiaquine
→ scenario → healthSystem → ImmediateOutcomes → initialACR → SPAQ
<SPAQ
value=double
/>
Documentation (element)
Units: List of elements
Sulphadoxine-pyrimethamine/Amodiaquine
Attributes
Input parameter value
value=double
A double-precision floating-point value.
ACT
→ scenario → healthSystem → ImmediateOutcomes → initialACR → ACT
<ACT
value=double
/>
Documentation (element)
Units: List of elements
Artemisinine combination therapy
Attributes
Input parameter value
value=double
A double-precision floating-point value.
QN
→ scenario → healthSystem → ImmediateOutcomes → initialACR → QN
<QN
value=double
/>
Documentation (element)
Units: List of elements
Quinine
Attributes
Input parameter value
value=double
A double-precision floating-point value.
selfTreatment
→ scenario → healthSystem → ImmediateOutcomes → initialACR → selfTreatment
<selfTreatment
value=double
/>
Documentation (element)
Units: Proportion Min: 0 Max: 1
Probability of self-treatment
Attributes
Input parameter value
value=double
A double-precision floating-point value.
Adherence to treatment
→ scenario → healthSystem → ImmediateOutcomes → compliance
<compliance>
IN THIS ORDER:
| [ <CQ ... /> ]
| [ <SP ... /> ]
| [ <AQ ... /> ]
| [ <SPAQ ... /> ]
| [ <ACT ... /> ]
| [ <QN ... /> ]
| <selfTreatment ... />
</compliance>
Documentation (element)
Units: Proportion Min: 0 Max: 1
Adherence to treatment
Effectiveness of treatment in non-adherent patients
→ scenario → healthSystem → ImmediateOutcomes → nonCompliersEffective
<nonCompliersEffective>
IN THIS ORDER:
| [ <CQ ... /> ]
| [ <SP ... /> ]
| [ <AQ ... /> ]
| [ <SPAQ ... /> ]
| [ <ACT ... /> ]
| [ <QN ... /> ]
| <selfTreatment ... />
</nonCompliersEffective>
Documentation (element)
Units: Proportion Min: 0 Max: 1
Effectiveness of treatment of non compliers
Probability that a patient with uncomplicated disease seeks official care immediately
→ scenario → healthSystem → ImmediateOutcomes → pSeekOfficialCareUncomplicated1
<pSeekOfficialCareUncomplicated1
value=double
/>
Documentation (element)
Units: Proportion Min: 0 Max: 1
Probability that a patient with newly incident uncomplicated disease seeks official care
Attributes
Input parameter value
value=double
A double-precision floating-point value.
Probability that a patient with uncomplicated disease self-treats
→ scenario → healthSystem → ImmediateOutcomes → pSelfTreatUncomplicated
<pSelfTreatUncomplicated
value=double
/>
Documentation (element)
Units: Proportion Min: 0 Max: 1
Probability that a patient with uncomplicated disease self-treats
Attributes
Input parameter value
value=double
A double-precision floating-point value.
Probability that a recurring patient seeks official care
→ scenario → healthSystem → ImmediateOutcomes → pSeekOfficialCareUncomplicated2
<pSeekOfficialCareUncomplicated2
value=double
/>
Documentation (element)
Units: Proportion Min: 0 Max: 1
Probability that a patient with recurrence of uncomplicated disease seeks official care
Attributes
Input parameter value
value=double
A double-precision floating-point value.
Probability that a patient with severe disease obtains appropriate care
→ scenario → healthSystem → ImmediateOutcomes → pSeekOfficialCareSevere
<pSeekOfficialCareSevere
value=double
/>
Documentation (element)
Units: Proportion Min: 0 Max: 1
Probability that a patient with severe disease obtains appropriate care
Attributes
Input parameter value
value=double
A double-precision floating-point value.
CFR
→ scenario → healthSystem → CFR
<CFR>
IN THIS ORDER:
| ( <group ... /> )+
</CFR>
Documentation (element)
Case fatality rate (probability of an inpatient fatality from a bout of severe malaria, per age-group).
group
→ scenario → healthSystem → CFR → group
<group
value=double
lowerbound=double
/>
Attributes
Input parameter value
value=double
A double-precision floating-point value.
Lower bound
lowerbound=double
Units: Years Min: 0 Max: 100
Lower bound of age group
Probabilities of sequelae in inpatients
→ scenario → healthSystem → pSequelaeInpatient
<pSequelaeInpatient>
IN THIS ORDER:
| ( <group ... /> )+
</pSequelaeInpatient>
Documentation (element)
Units: List of elements
List of age specific probabilities of sequelae in inpatients, during a severe bout.
Replacement transmission setting (vector control not enabled)
→ scenario → interventions → timed → intervention → changeEIR
<changeEIR
eipDuration=int
>
IN THIS ORDER:
| ( <EIRDaily ... /> )+
</changeEIR>
Documentation (element)
Units: List of elements
New description of transmission setting for models without vector control interventions (included for backward compatibility)
Attributes
Duration of sporogony (days)
eipDuration=int
The duration of sporogony in days
EIRDaily
→ scenario → entoData → nonVector → EIRDaily
<EIRDaily
[ origin=string ]
>
double
</EIRDaily>
Documentation (type)
Units: Inoculations per person per day
There are two distinct ways of inputing the transmission setting. With this option, the values of daily EIR are input separately. This is only valid for models that do not invoke vector control and is retained only for backward compatibility. When multiple values are given for a single timestep they are averaged.
Attributes
Time origin of EIR sequence
origin=string
importedInfectionsPerThousandHosts
→ scenario → interventions → timed → intervention → importedInfectionsPerThousandHosts
<importedInfectionsPerThousandHosts>
double
</importedInfectionsPerThousandHosts>
Mass Drug Administration
→ scenario → interventions → timed → intervention → MDA
<MDA
[ maxAge=double ]
[ minAge=double ]
coverage=double
/>
Documentation (element)
Units: List of elements
Description of mass drug deployment in the community.
Attributes
Maximum age of eligible individuals
maxAge=double
Units: Years Min: 0 Max: 100
Maximum age of eligible individuals (defaults to 100)
Minimum age of eligible individuals
minAge=double
Units: Years Min: 0 Max: 100
Minimum age of eligible individuals (defaults to 0)
Coverage
coverage=double
Units: Proportion Min: 0 Max: 1
Coverage of intervention
Vaccination
→ scenario → interventions → timed → intervention → vaccinate
<vaccinate
[ maxAge=double ]
[ minAge=double ]
coverage=double
/>
Documentation (element)
Units: List of elements
Description of vaccine deployment in the community
Attributes
Maximum age of eligible individuals
maxAge=double
Units: Years Min: 0 Max: 100
Maximum age of eligible individuals (defaults to 100)
Minimum age of eligible individuals
minAge=double
Units: Years Min: 0 Max: 100
Minimum age of eligible individuals (defaults to 0)
Coverage
coverage=double
Units: Proportion Min: 0 Max: 1
Coverage of intervention
ITN deployment
→ scenario → interventions → timed → intervention → ITN
<ITN
[ maxAge=double ]
[ minAge=double ]
coverage=double
/>
Documentation (element)
Units: List of elements
Description of ITN deployment in the community
Attributes
Maximum age of eligible individuals
maxAge=double
Units: Years Min: 0 Max: 100
Maximum age of eligible individuals (defaults to 100)
Minimum age of eligible individuals
minAge=double
Units: Years Min: 0 Max: 100
Minimum age of eligible individuals (defaults to 0)
Coverage
coverage=double
Units: Proportion Min: 0 Max: 1
Coverage of intervention
IRS deployment
→ scenario → interventions → timed → intervention → IRS
<IRS
[ maxAge=double ]
[ minAge=double ]
coverage=double
/>
Documentation (element)
Units: List of elements
Description of IRS deployment in the community
Attributes
Maximum age of eligible individuals
maxAge=double
Units: Years Min: 0 Max: 100
Maximum age of eligible individuals (defaults to 100)
Minimum age of eligible individuals
minAge=double
Units: Years Min: 0 Max: 100
Minimum age of eligible individuals (defaults to 0)
Coverage
coverage=double
Units: Proportion Min: 0 Max: 1
Coverage of intervention
Mosquito deterrent
→ scenario → interventions → timed → intervention → VectorAvailability
<VectorAvailability
[ maxAge=double ]
[ minAge=double ]
coverage=double
/>
Documentation (element)
Units: List of elements
Description of a mosquito deterrent deployment in the community
Attributes
Maximum age of eligible individuals
maxAge=double
Units: Years Min: 0 Max: 100
Maximum age of eligible individuals (defaults to 100)
Minimum age of eligible individuals
minAge=double
Units: Years Min: 0 Max: 100
Minimum age of eligible individuals (defaults to 0)
Coverage
coverage=double
Units: Proportion Min: 0 Max: 1
Coverage of intervention
IPTi deployment
→ scenario → interventions → timed → intervention → ipti
<ipti
[ maxAge=double ]
[ minAge=double ]
coverage=double
/>
Documentation (element)
Units: List of elements
List of age groups for IPTi distribution
Attributes
Maximum age of eligible individuals
maxAge=double
Units: Years Min: 0 Max: 100
Maximum age of eligible individuals (defaults to 100)
Minimum age of eligible individuals
minAge=double
Units: Years Min: 0 Max: 100
Minimum age of eligible individuals (defaults to 0)
Coverage
coverage=double
Units: Proportion Min: 0 Max: 1
Coverage of intervention
Immune suppression deployment
→ scenario → interventions → timed → intervention → immuneSuppression
<immuneSuppression
[ maxAge=double ]
[ minAge=double ]
coverage=double
/>
Documentation (element)
Units: List of elements
Removes all exposure-related immunity gained over time by hosts without removing infections.
Hypothetical, but potentially useful to simulate scenarios with unprotected humans.
Attributes
Maximum age of eligible individuals
maxAge=double
Units: Years Min: 0 Max: 100
Maximum age of eligible individuals (defaults to 100)
Minimum age of eligible individuals
minAge=double
Units: Years Min: 0 Max: 100
Minimum age of eligible individuals (defaults to 0)
Coverage
coverage=double
Units: Proportion Min: 0 Max: 1
Coverage of intervention
Insert R_0 case
→ scenario → interventions → timed → intervention → insertR_0Case
<insertR_0Case/>
Documentation (element)
Units: List of elements
Used to simulate R_0. First, infections should be eliminated, immunity removed, and the population given an effective transmission- blocking vaccine (not done by this intervention). Then this intervention may be used to: pick one human, infect him, and remove transmission-blocking vaccine effect on this human. Thus only this one human will be a source of infections in an unprotected population.
Uninfect vectors
→ scenario → interventions → timed → intervention → uninfectVectors
<uninfectVectors/>
Documentation (element)
Units: List of elements
Removes all infections from mosquitoes -- resulting in zero EIR to humans, until such time that mosquitoes are re-infected and become infectious. Only effectious in dynamic EIR mode (when changeEIR was not used).
Hypothetical, but potentially useful to simulate a setting starting from no infections, but with enough mosquitoes to reach a set equilibrium of exposure.
larviciding
→ scenario → interventions → timed → intervention → larviciding
<larviciding>
IN THIS ORDER:
| ( <anopheles ... /> )+
</larviciding>
Documentation (element)
Simple larviciding intervention description.
anopheles
→ scenario → interventions → timed → intervention → larviciding → anopheles
<anopheles
mosquito=string
effectiveness=double
duration=int
/>
Attributes
Mosquito to be larvicided
mosquito=string
Mosquito to be larvicided
Proportionate reduction in emergence
effectiveness=double
Units: none Min: 0 Max: 1
Proportional reduction in emergence rate
Duration of activity
duration=int
Units: days Min: 0 Max: inf
Number of days for which the intervention is active.
healthSystem
→ scenario → healthSystem
<healthSystem>
IN THIS ORDER:
| EXACTLY ONE OF:
| | <EventScheduler ... />
| | <ImmediateOutcomes ... />
| <CFR ... />
| <pSequelaeInpatient ... />
</healthSystem>
Documentation (type)
Units: List of elements
Description of case management system, used to specify the initial model or a replacement (an intervention). Encompasses case management data and some other data required to derive case outcomes.
Contains a sub-element describing the particular health-system in use. Health system data is here defined as data used to decide on a treatment strategy, given a case requiring treatment.
Transmission and vector bionomics
<entoData
name=string
mode=("2" or "4")
>
IN THIS ORDER:
| EXACTLY ONE OF:
| | <nonVector ... />
| | <vector ... />
</entoData>
Documentation (element)
Units: List of elements
Description of entomological data
Attributes
Entomology dataset
name=string
Units: string
Name of entomology data
Transmission simulation mode
mode=("2" or "4")
Units: Code
Transmission simulation mode -- enter dynamic mode (4) or forced mode (2) at start of intervention period. Mode 3 (transient EIR from data provided as intervention) is set when intervention data is applied, and is no longer a valid value to specify here.
Transmission setting (vector control not enabled)
→ scenario → entoData → nonVector
<nonVector
eipDuration=int
>
IN THIS ORDER:
| ( <EIRDaily ... /> )+
</nonVector>
Documentation (element)
Units: List of elements
Description of transmission setting for models without vector control interventions (included for backward compatibility)
Attributes
Duration of sporogony (days)
eipDuration=int
The duration of sporogony in days
Transmission setting (vector control enabled)
→ scenario → entoData → vector
<vector>
IN THIS ORDER:
| ( <anopheles ... /> )+
| ( <nonHumanHosts ... /> )*
</vector>
Documentation (element)
Units: List of elements
Parameters of the transmission model.
anopheles
→ scenario → entoData → vector → anopheles
<anopheles
mosquito=string
propInfected=double
propInfectious=double
>
IN THIS ORDER:
| <eir ... />
| <mosq ... />
| ( <nonHumanHosts ... /> )*
</anopheles>
Documentation (type)
Description of input EIR for one specific vector species in terms of a Fourier approximation to the ln of the EIR during the burn in period
Attributes
Identifier for this anopheles species
mosquito=string
Initial guess of proportion of mosquitoes infected
propInfected=double
Units: Proportion Min: 0 Max: 1
Initial guess of the proportion of mosquitoes which are infected, o: O_v(t) = o*N_v(t). Only used as a starting value.
Initial guess of proportion of mosquitoes infectious
propInfectious=double
Units: Proportion Min: 0 Max: 1
Initial guess of the proportion of mosquitoes which are infectious, s: S_v(t) = s*N_v(t). Used as a starting value and then fit.
Fourier approximation to pre-intervention EIR
→ scenario → entoData → vector → anopheles → eir
<eir
a0=double
a1=double
b1=double
a2=double
b2=double
EIRRotateAngle=double
/>
Documentation (element)
Units: Inoculations per person per day
Description of target entomological inoculation rate, used to calculate the vector emergence rate. An EIR array is generated from the exponent of the inverse discrete fourier transform of these parameters.
Attributes
a0 parameter of Fourier approximation to ln(EIR)
a0=double
a1 parameter of Fourier approximation to ln(EIR)
a1=double
b1 parameter of Fourier approximation to ln(EIR)
b1=double
a2 parameter of Fourier approximation to ln(EIR)
a2=double
b2 parameter of Fourier approximation to ln(EIR)
b2=double
Rotation angle defining the origin of the Fourier approximation to ln (EIR)
EIRRotateAngle=double
Vector Species
→ scenario → entoData → vector → anopheles → mosq
<mosq
mosqRestDuration=int
extrinsicIncubationPeriod=int
mosqLaidEggsSameDayProportion=double
mosqSeekingDuration=double
mosqSurvivalFeedingCycleProbability=double
mosqProbBiting=double
mosqProbFindRestSite=double
mosqProbResting=double
mosqProbOvipositing=double
mosqHumanBloodIndex=double
minInfectedThreshold=double
/>
Documentation (element)
Units: List of elements
Vector species
Attributes
Duration of the resting period of the vector (days)
mosqRestDuration=int
Extrinsic incubation period (days)
extrinsicIncubationPeriod=int
Proportion of mosquitoes host seeking on same day as ovipositing
mosqLaidEggsSameDayProportion=double
Duration of the host-seeking period of the vector (days)
mosqSeekingDuration=double
Probability that the mosquito survives the feeding cycle
mosqSurvivalFeedingCycleProbability=double
Probability that the mosquito succesfully bites chosen host
mosqProbBiting=double
Probability that the mosquito escapes host and finds a resting place after biting
mosqProbFindRestSite=double
Probability of mosquito successfully resting after finding a resting site
mosqProbResting=double
Probability of a mosquito successfully laying eggs given that it has rested
mosqProbOvipositing=double
Human blood index
mosqHumanBloodIndex=double
The proportion of resting mosquitoes which fed on human blood during the last feed.
Min infected threshold
minInfectedThreshold=double
Min: 0
If less than this many mosquitoes remain infected, transmission is interrupted.
nonHumanHosts
→ scenario → entoData → vector → anopheles → nonHumanHosts
<nonHumanHosts
name=string
mosqRelativeEntoAvailability=double
mosqProbBiting=double
mosqProbFindRestSite=double
mosqProbResting=double
/>
Documentation (element)
Units: List of elements
Non human host parameters, per type of host (must match up with non-species-specific parameters).
Attributes
Identifier for this category of non-human hosts
name=string
Relative availability of nonhuman hosts of type i (to other nonhuman hosts)
mosqRelativeEntoAvailability=double
Probability of mosquito successfully biting host
mosqProbBiting=double
Probability that the mosquito escapes host and finds a resting place after biting
mosqProbFindRestSite=double
Probability of mosquito successfully resting after finding a resting site
mosqProbResting=double
nonHumanHosts
→ scenario → entoData → vector → nonHumanHosts
<nonHumanHosts
name=string
number=double
/>
Attributes
Species of alternative host
name=string
Units: List of elements
Name of this species of non human hosts (must match up with those described per anopheles section)
number
number=double
Pharmacokinetics and pharmacodynamics
<drugDescription>
IN THIS ORDER:
| ( <drug ... /> )+
</drugDescription>
Documentation (element)
Units: List of elements
Drug model parameters
drug
→ scenario → drugDescription → drug
<drug
abbrev=string
>
IN THIS ORDER:
| <PD ... />
| <PK ... />
</drug>
Documentation (element)
Sequence of drug descriptions forming a library of drug parameters.
Attributes
abbrev
abbrev=string
PD
→ scenario → drugDescription → drug → PD
<PD>
IN THIS ORDER:
| ( <allele ... /> )+
</PD>
allele
→ scenario → drugDescription → drug → PD → allele
<allele
name=string
>
IN THIS ORDER:
| <initial_frequency ... />
| <max_killing_rate ... />
| <IC50 ... />
| <slope ... />
</allele>
Documentation (element)
PD parameters per allele, plus initial frequency of each allele.
Note: we assume a one-to-one correspondance of drugs to loci, hence each drug has an independent set of alleles here.
Attributes
name
name=string
Relative frequency
→ scenario → drugDescription → drug → PD → allele → initial_frequency
<initial_frequency>
double
</initial_frequency>
Documentation (element)
Units: relative frequency Min: 0
Frequency, relative to the total frequency of all alleles for this drug/locus.
Maximal parasite killing rate
→ scenario → drugDescription → drug → PD → allele → max_killing_rate
<max_killing_rate>
double
</max_killing_rate>
Documentation (element)
Units: 1/days Min: 0
k1 — Maximal parasite killing rate.
IC50
→ scenario → drugDescription → drug → PD → allele → IC50
<IC50>
double
</IC50>
Documentation (element)
Units: mg/l Min: 0
Half maximal effect concentration.
Slope of effect curve
→ scenario → drugDescription → drug → PD → allele → slope
<slope>
double
</slope>
Documentation (element)
Units: no units
n — Slope of the concentration effect curve
PK
→ scenario → drugDescription → drug → PK
<PK>
IN THIS ORDER:
| <negligible_concentration ... />
| <half_life ... />
| <vol_dist ... />
</PK>
Drug concentration considered negligible
→ scenario → drugDescription → drug → PK → negligible_concentration
<negligible_concentration>
double
</negligible_concentration>
Documentation (element)
Units: mg/l Min: 0
Concentration below which drug's effects are deemed negligible and can be removed from simulation.
drug half-life
→ scenario → drugDescription → drug → PK → half_life
<half_life>
double
</half_life>
Documentation (element)
Units: days Min: 0
Used to calculate elimination rate (which is: ln(2) / half_life).
Volume of Distribution
→ scenario → drugDescription → drug → PK → vol_dist
<vol_dist>
double
</vol_dist>
Documentation (element)
Units: l/kg Min: 0
Volume of Distribution
Model options and parameters
<model>
IN THIS ORDER:
| <ModelOptions ... />
| <clinical ... />
| <parameters ... />
</model>
Documentation (element)
Units: List of elements
Encapsulation of all parameters which describe the model according to which fitting is done.
Model Options
→ scenario → model → ModelOptions
<ModelOptions>
IN THIS ORDER:
| ( <option ... /> )*
</ModelOptions>
Documentation (element)
Units: List of elements
All model options (bug fixes, choices between models, etc.).
The list of recognised options can be found in the code at:
include/util/ModelOptions.hpp and should also be in the wiki.
clinical
<clinical
healthSystemMemory=int
/>
Documentation (type)
Units: List of elements
Description of clinical parameters.
This is related to the health-system description, but contains data which can't be changed as part of an intervention and is not restricted to treatment.
Attributes
Follow-up period during which recurrence is treated as a failure
healthSystemMemory=int
Units: Time steps Min: 1 Max: 100
Follow-up period during which a recurrence is considered to be a treatment failure
Parameters of the model of epidemiology
→ scenario → model → parameters
<parameters
interval=int
iseed=int
latentp=int
>
IN THIS ORDER:
| ( <parameter ... /> )+
</parameters>
Documentation (element)
Units: List of elements
Parameters of the epidemiological model
Attributes
Simulation step
interval=int
Units: Days
Simulation step
Random number seed
iseed=int
Units: Number
Seed for RNG
Pre-erythrocytic latent period
latentp=int
Units: Time steps Min: 0 Max: 20
pre-erythrocytic latent period, in time steps
parameter
→ scenario → model → parameters → parameter
<parameter
name=string
number=int
value=double
[ include=boolean ]
/>
Attributes
Name of parameter
name=string
Units: string
Name of parameter
Parameter number
number=int
Units: Number Min: 1 Max: 100
Reference number of input parameter
Parameter value
value=double
Units: Number Min: 0
Parameter value
Sampling indicator
include=boolean
Units: Number Min: 0 Max: 1
True if parameter is to be sampled in optimization runs. Not used in simulator app.