A review and evaluation of internal migration forecasting models.
Journal:
Population studies
Published Date:
May 26, 2026
Abstract
Recognizing that internal migration is an important source of error in population projections, we evaluate 21 forecasts from five classes of methods: (1) average of the most recent flows; (2) time-series econometric models with and without external factors; (3) machine-learning-based gradient boosting models; (4) multiplicative component and gravity-type models; and (5) average of all forecasts. We forecast bilateral interstate migration flows in Australia for the five years to mid-2016 and to mid-2023. No single model consistently outperforms the others in terms of bias, accuracy, and empirical coverage. Simple models perform as well or better than complex models. ARIMA models and their Bayesian equivalent perform well in both periods. Including control variables is no panacea, because their relationship with migration is flow and period specific. Similarly, globally trained machine learning models are not clear-cut alternatives, particularly when flow sizes vary widely. In contrast, the multiplicative component model suits contexts where the spatial structure of migration is stable, suggesting that internal migration forecasting requires context-specific approaches.
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