TY - GEN
T1 - Discrete choice, agent based and system dynamics simulation of health profession career paths
AU - Flynn, Terry
AU - Tian, Yuan
AU - Masnick, Keith
AU - McDonnell, Geoff
AU - Huynh, Elisabeth
AU - Mair, Alex
AU - Osgood, Nathaniel
PY - 2015
Y1 - 2015
N2 - Modelling real workforce choices accurately via Agent Based Models and System Dynamics requires input data on the actual preferences of individual agents. Often lack of data means that analysts can have an understanding of how agents move through the system, but not why, and when. Hybrid models incorporating discrete choice experiments (DCE) solve this. Unlike simplistic neoclassical economic models, DCEs build on 50 years of well-tested consumer theory that decomposes the utility (benefit) derived from the agent's preferred choice into that associated with its constituent parts, but also allows agents different degrees of certainty in their discrete choices (heteroscedasticity on the latent scale). We use DCE data in populating a System Dynamics/Agent Based Model - one of choices of optometrists and their employers. It shows that low overall predictive power conceals heterogeneity in agents' preferences. Incorporating such preferences in our hybrid approach improves the model's explanatory power and accuracy.
AB - Modelling real workforce choices accurately via Agent Based Models and System Dynamics requires input data on the actual preferences of individual agents. Often lack of data means that analysts can have an understanding of how agents move through the system, but not why, and when. Hybrid models incorporating discrete choice experiments (DCE) solve this. Unlike simplistic neoclassical economic models, DCEs build on 50 years of well-tested consumer theory that decomposes the utility (benefit) derived from the agent's preferred choice into that associated with its constituent parts, but also allows agents different degrees of certainty in their discrete choices (heteroscedasticity on the latent scale). We use DCE data in populating a System Dynamics/Agent Based Model - one of choices of optometrists and their employers. It shows that low overall predictive power conceals heterogeneity in agents' preferences. Incorporating such preferences in our hybrid approach improves the model's explanatory power and accuracy.
KW - autonomous robots
KW - intelligent agents (computer software)
UR - http://handle.uws.edu.au:8081/1959.7/uws:32171
UR - http://www.wintersim.org/2014/
U2 - 10.1109/WSC.2014.7020020
DO - 10.1109/WSC.2014.7020020
M3 - Conference Paper
SN - 9781479974863
SP - 1700
EP - 1711
BT - Proceedings of the 2014 Winter Simulation Conference: Exploring Big Data Through Simulation, December 7-10, 2014, Savannah, GA
PB - IEEE
T2 - Winter Simulation Conference
Y2 - 7 December 2014
ER -