BitingRisk¶

The BitingRisk class is used with individual-level interventions and allows for adjusting the relative risk of being bitten by a vector.

Note

Parameters are case-sensitive. For Boolean parameters, set to 1 for true or 0 for false. Minimum, maximum, or default values of “NA” indicate that those values are not applicable for that parameter.

EMOD does not use true defaults; that is, if the dependency relationships indicate that a parameter is required, you must supply a value for it. However, many of the tools used to work with EMOD will use the default values provided below.

JSON format does not permit comments, but you can add “dummy” parameters to add contextual information to your files. Any keys that are not EMOD parameter names will be ignored by the model.

The table below describes all possible parameters with which this class can be configured. The JSON example that follows shows one potential configuration.

Parameter	Data type	Minimum	Maximum	Default	Description	Example
Disqualifying_Properties	array of strings	NA	NA	[]	A list of IndividualProperty key:value pairs that cause an intervention to be aborted (persistent interventions will stop being distributed to individuals with these values). See NodeProperties and IndividualProperties parameters for more information. Generally used to control the flow of health care access. For example, to prevent the same individual from accessing health care via two different routes at the same time.	{ "Disqualifying_Properties": [ "InterventionStatus:LostForever" ] }
Dont_Allow_Duplicates	boolean	0	1	0	If an individual’s container has an intervention, set to true (1) to prevent them from receiving another copy of the intervention. Supported by all intervention classes.	{ "Dont_Allow_Duplicates": 0 }
Intervention_Name	string	NA	NA	BitingRisk	The optional name used to refer to this intervention as a means to differentiate it from others that use the same class.	{ "Intervention_Config": { "class": "BitingRisk", "Intervention_Name": "Relative biting risk with bednet usage" } }
New_Property_Value	string	NA	NA	NA	An optional IndividualProperty key:value pair that will be assigned when the intervention is distributed. See NodeProperties and IndividualProperties parameters for more information. Generally used to indicate the broad category of health care cascade to which an intervention belongs to prevent individuals from accessing care through multiple pathways. For example, if an individual must already be taking a particular medication to be prescribed a new one.	{ "New_Property_Value": "InterventionStatus:None" }
Risk_Constant	float	0	3.40282E+38	6	The risk to use for all individuals when Risk_Distribution is set to CONSTANT_DISTRIBUTION.	{ "Risk_Distribution": "CONSTANT_DISTRIBUTION", "Risk_Constant": 8 }
Risk_Distribution	enum	NA	NA	NOT_INITIALIZED	The distribution type to use for assigning the relative risk of being bitten by a mosquito to each individual. Each assigned value is a random draw from the distribution. Possible values are: NOT_INITIALIZED No distribution set. CONSTANT_DISTRIBUTION Use the same value for each individual. Set Risk_Constant. UNIFORM_DISTRIBUTION Use a uniform distribution with a given minimum and maximum. Set Risk_Max and Risk_Min. GAUSSIAN_DISTRIBUTION The distribution is Gaussian (or normal). Values are resampled to ensure >= 0. Set Risk_Gaussian_Mean and Risk_Gaussian_Std_Dev. EXPONENTIAL_DISTRIBUTION The distribution is exponential with a given mean. Set Risk_Exponential. WEIBULL_DISTRIBUTION Use a Weibull distribution with a given shape and scale. Set Risk_Kappa and Risk_Lambda. LOG_NORMAL_DISTRIBUTION Use a log-normal distribution with a given mean and width. Set Risk_Log_Normal_Mean and Risk_Log_Normal_Width. POISSON_DISTRIBUTION Use a Poisson distribution with a given mean. Set Risk_Poisson_Mean. DUAL_CONSTANT_DISTRIBUTION Use a distribution where some individuals are set to a value of zero and the rest to a given value. Set Risk_Proportion_0 and Peak_2_Value. This distribution does not use the parameters set for CONSTANT_DISTRIBUTION. DUAL_EXPONENTIAL_DISTRIBUTION Use two exponential distributions with given means. Set Risk_Mean_1, Risk_Mean_2, and Risk_Proportion_1. This distribution does not use the parameters set for EXPONENTIAL_DISTRIBUTION.	{ "Risk_Distribution": "WEIBULL_DISTRIBUTION", "Risk_Kappa": 0.9, "Risk_Lambda": 1.5 }
Risk_Exponential	float	0	3.40282E+38	-1	The mean of the biting risk when Risk_Distribution is set to EXPONENTIAL_DISTRIBUTION.	{ "Risk_Distribution": "EXPONENTIAL_DISTRIBUTION", "Risk_Exponential": 4.25 }
Risk_Gaussian_Mean	float	0	3.40282E+38	-1	The mean of the biting risk when Risk_Distribution is set to GAUSSIAN_DISTRIBUTION.	{ "Risk_Distribution": "GAUSSIAN_DISTRIBUTION", "Risk_Gaussian_Mean": 8, "Risk_Gaussian_Std_Dev": 1.5 }
Risk_Gaussian_Std_Dev	float	1.17549E-38	3.40282E+38	-1	The standard deviation of the biting risk when Risk_Distribution is set to GAUSSIAN_DISTRIBUTION.	{ "Risk_Distribution": "GAUSSIAN_DISTRIBUTION", "Risk_Gaussian_Mean": 8, "Risk_Gaussian_Std_Dev": 1.5 }
Risk_Kappa	float	1.17549E-38	3.40282E+38	-1	The shape value for the biting risk when Risk_Distribution is set to WEIBULL_DISTRIBUTION.	{ "Risk_Distribution": "WEIBULL_DISTRIBUTION", "Risk_Kappa": 0.9, "Risk_Lambda": 1.5 }
Risk_Lambda	float	1.17549E-38	3.40282E+38	-1	The scale value for the biting risk when Risk_Distribution is set to WEIBULL_DISTRIBUTION.	{ "Risk_Distribution": "WEIBULL_DISTRIBUTION", "Risk_Kappa": 0.9, "Risk_Lambda": 1.5 }
Risk_Log_Normal_Mu	float	-3.40282e+38	1.70141e+38	3.40282E+38	The mean of the biting risk when Risk_Distribution is set to LOG_NORMAL_DISTRIBUTION.	{ "Risk_Distribution": "LOG_NORMAL_DISTRIBUTION", "Risk_Log_Normal_Mu": 9, "Risk_Log_Normal_Sigma": 2 }
Risk_Log_Normal_Sigma	float	-3.40282e+38	1.70141e+38	3.40282E+38	The width of the biting risk when Risk_Distribution is set to LOG_NORMAL_DISTRIBUTION.	{ "Risk_Distribution": "LOG_NORMAL_DISTRIBUTION", "Risk_Log_Normal_Mu": 9, "Risk_Log_Normal_Sigma": 2 }
Risk_Max	float	0	3.40282E+38	-1	The maximum biting risk when Risk_Distribution is set to UNIFORM_DISTRIBUTION.	{ "Risk_Distribution": "UNIFORM_DISTRIBUTION", "Risk_Min": 2, "Risk_Max": 7 }
Risk_Mean_1	float	1.17549E-38	3.40282E+38	-1	The mean of the first exponential distribution when Risk_Distribution is set to DUAL_EXPONENTIAL_DISTRIBUTION.	{ "Risk_Distribution": "DUAL_EXPONENTIAL_DISTRIBUTION", "Risk_Mean_1": 4, "Risk_Mean_2": 12, "Risk_Proportion_1": 0.2 }
Risk_Mean_2	float	1.17549E-38	3.40282E+38	-1	The mean of the second exponential distribution when Risk_Distribution is set to DUAL_EXPONENTIAL_DISTRIBUTION.	{ "Risk_Distribution": "DUAL_EXPONENTIAL_DISTRIBUTION", "Risk_Mean_1": 4, "Risk_Mean_2": 12, "Risk_Proportion_1": 0.2 }
Risk_Min	float	0	3.40282E+38	-1	The minimum biting risk when Risk_Distribution is set to UNIFORM_DISTRIBUTION.	{ "Risk_Distribution": "UNIFORM_DISTRIBUTION", "Risk_Min": 2, "Risk_Max": 7 }
Risk_Peak_2_Value	float	0	3.40282E+38	-1	The biting risk value to assign to the remaining individuals when Risk_Distribution is set to DUAL_CONSTANT_DISTRIBUTION.	{ "Risk_Distribution": "DUAL_CONSTANT_DISTRIBUTION", "Risk_Proportion_0": 0.25, "Risk_Peak_2_Value": 5 }
Risk_Poisson_Mean	float	0	3.40282E+38	-1	The mean of the biting risk when Risk_Distribution is set to POISSON_DISTRIBUTION.	{ "Risk_Distribution": "POISSON_DISTRIBUTION", "Risk_Poisson_Mean": 5 }
Risk_Proportion_0	float	0	1	-1	The proportion of individuals to assign a value of zero biting risk when Risk_Distribution is set to DUAL_CONSTANT_DISTRIBUTION.	{ "Risk_Distribution": "DUAL_CONSTANT_DISTRIBUTION", "Risk_Proportion_0": 0.25, "Risk_Peak_2_Value": 5 }
Risk_Proportion_1	float	0	1	-1	The proportion of individuals in the first exponential distribution when Risk_Distribution is set to DUAL_EXPONENTIAL_DISTRIBUTION.	{ "Risk_Distribution": "DUAL_EXPONENTIAL_DISTRIBUTION", "Risk_Mean_1": 4, "Risk_Mean_2": 12, "Risk_Proportion_1": 0.2 }

{
  "Intervention_Config": {
    "class": "BitingRisk",
    "Risk_Distribution": "CONSTANT_DISTRIBUTION",
    "Risk_Constant": 0.1
  }
}