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Using dynamic loss weighting to boost improvements in forecast stability

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  • Caljon, Daan
  • Vercauteren, Jeff
  • De Vos, Simon
  • Verbeke, Wouter
  • Van Belle, Jente

Abstract

Rolling origin forecast instability refers to variability in forecasts for a specific period induced by updating the forecast when new data points become available. Recently, an extension to the N-BEATS model for univariate time series point forecasting was proposed to include forecast stability as an additional optimization objective, next to accuracy. It was shown that more stable forecasts can be obtained without harming accuracy by minimizing a composite loss function that contains both a forecast error and a forecast instability component, with a static hyperparameter to control the impact of stability. In this paper, we empirically investigate whether further improvements in stability can be obtained without compromising accuracy by applying dynamic loss weighting algorithms, which change the loss weights during training. We show that existing dynamic loss weighting methods can achieve this objective, and provide insights into why this might be the case. Additionally, we propose an extension to the random weighting approach—task-aware random weighting—which also achieves this objective.

Suggested Citation

  • Caljon, Daan & Vercauteren, Jeff & De Vos, Simon & Verbeke, Wouter & Van Belle, Jente, 2026. "Using dynamic loss weighting to boost improvements in forecast stability," International Journal of Forecasting, Elsevier, vol. 42(2), pages 344-358.
    • Handle: RePEc:eee:intfor:v:42:y:2026:i:2:p:344-358
    DOI: 10.1016/j.ijforecast.2025.07.002
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