Computational Model Library

SimDrink: An agent-based NetLogo model of young, heavy drinkers for conducting alcohol policy experiments (1.1.0)

Aggression and other acute harms experienced in the night-time economy are topics of significant public health concern. Although policies to minimise these harms are frequently proposed, there is often little evidence available to support their effectiveness. In particular, indirect and displacement effects are rarely measured. This paper describes a proof-of-concept agent-based model ‘SimDrink’, built in NetLogo, which simulates a population of 18-25 year old heavy alcohol drinkers on a night out in Melbourne to provide a means for conducting policy experiments to inform policy decisions.

The model includes demographic, setting and situational-behavioural heterogeneity and is able to capture any unintended consequences of policy changes. It consists of individuals and their friendship groups moving between private, public-commercial (e.g. nightclub) and public-niche (e.g. bar, pub) venues while tracking their alcohol consumption, spending and whether or not they experience consumption-related harms (i.e. drink too much), are involved in verbal violence, or have difficulty getting home.

When compared to available literature, the model can reproduce current estimates for the prevalence of verbal violence experienced by this population on a single night out, and produce realistic values for the prevalence of consumption-related and transport-related harms. Outputs are robust to variations in underlying parameters.

Further, because the model is able to compare the indirect effects of policy changes such as the displacement of individuals or venue substitution, it is a particularly attractive tool for modelling policy decisions and identifying the drivers behind overall statistics.

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Release Notes

Version 1.0

Associated Publications

Scott N., Livingston M., Hart A., Wilson J., Moore D., Dietze P. (2015) SimDrink: An agent-based NetLogo model of young, heavy drinkers for conducting alcohol policy experiments. Journal of Artificial Societies and Social Simulation

SimDrink: An agent-based NetLogo model of young, heavy drinkers for conducting alcohol policy experiments 1.1.0

Aggression and other acute harms experienced in the night-time economy are topics of significant public health concern. Although policies to minimise these harms are frequently proposed, there is often little evidence available to support their effectiveness. In particular, indirect and displacement effects are rarely measured. This paper describes a proof-of-concept agent-based model ‘SimDrink’, built in NetLogo, which simulates a population of 18-25 year old heavy alcohol drinkers on a night out in Melbourne to provide a means for conducting policy experiments to inform policy decisions.

The model includes demographic, setting and situational-behavioural heterogeneity and is able to capture any unintended consequences of policy changes. It consists of individuals and their friendship groups moving between private, public-commercial (e.g. nightclub) and public-niche (e.g. bar, pub) venues while tracking their alcohol consumption, spending and whether or not they experience consumption-related harms (i.e. drink too much), are involved in verbal violence, or have difficulty getting home.

When compared to available literature, the model can reproduce current estimates for the prevalence of verbal violence experienced by this population on a single night out, and produce realistic values for the prevalence of consumption-related and transport-related harms. Outputs are robust to variations in underlying parameters.

Further, because the model is able to compare the indirect effects of policy changes such as the displacement of individuals or venue substitution, it is a particularly attractive tool for modelling policy decisions and identifying the drivers behind overall statistics.

Release Notes

Version 1.0

Version Submitter First published Last modified Status
1.1.0 Nick Scott Thu Oct 15 23:55:16 2015 Sun Feb 18 05:22:57 2018 Published
1.0.0 Nick Scott Fri Sep 25 02:03:20 2015 Tue Feb 20 15:38:49 2018 Published

Discussion

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