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Nonlinear and Heavy-Tailed Predictability in Transition-Energy Financial Markets

Author

Listed:
  • Kpante Emmanuel Gnandi

    (INSA Toulouse)

  • Fredy Pokou

    (MRE, CRIStAL)

  • Jules Sadefo Kamdem

    (MRE)

Abstract

Transition-related financial markets are increasingly exposed to abrupt repricing episodes, elevated volatility, and heterogeneous macro-financial shocks. Under such conditions, conventional Gaussian-linear forecasting frameworks may provide an incomplete representation of the dependence structure linking fossil-energy, renewable-energy, technology, and utility-sector assets. This paper investigates whether transition-related financial returns exhibit residual non-linear predictability after controlling for heavy-tailed multivariate linear dynamics. To address this question, we develop a hybrid forecasting framework combining Student-t Vector Autoregressions with nonlinear recurrent residual learning architectures. The empirical analysis considers six major exchange-traded funds representing broad equity markets and key transition-sensitive sectors. The results reveal substantial departures from Gaussian-linear behavior, including excess kurtosis, volatility clustering, and remaining nonlinear dependence after econometric filtering. Out-of-sample forecasting experiments show that the proposed framework consistently improves predictive accuracy relative to conventional VAR models, standalone machine-learning methods, and alternative hybrid specifications. The forecasting gains become more pronounced during periods of macro-financial stress, particularly during the COVID-19 crisis and the Ukraine-related energy shock. Overall, the findings suggest that transition-related financial systems exhibit regime-sensitive and heavy-tailed predictive dynamics that are insufficiently captured by standard Gaussian-linear models alone.

Suggested Citation

  • Kpante Emmanuel Gnandi & Fredy Pokou & Jules Sadefo Kamdem, 2026. "Nonlinear and Heavy-Tailed Predictability in Transition-Energy Financial Markets," Papers 2605.26890, arXiv.org.
  • Handle: RePEc:arx:papers:2605.26890
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