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Reinforcement Learning for Jump-Diffusions, with Financial Applications

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Listed:
  • Xuefeng Gao
  • Lingfei Li
  • Xun Yu Zhou

Abstract

We study continuous-time reinforcement learning (RL) for stochastic control in which system dynamics are governed by jump-diffusion processes. We formulate an entropy-regularized exploratory control problem with stochastic policies to capture the exploration--exploitation balance essential for RL. Unlike the pure diffusion case initially studied by Wang et al. (2020), the derivation of the exploratory dynamics under jump-diffusions calls for a careful formulation of the jump part. Through a theoretical analysis, we find that one can simply use the same policy evaluation and $q$-learning algorithms in Jia and Zhou (2022a, 2023), originally developed for controlled diffusions, without needing to check a priori whether the underlying data come from a pure diffusion or a jump-diffusion. However, we show that the presence of jumps ought to affect parameterizations of actors and critics in general. We investigate as an application the mean--variance portfolio selection problem with stock price modelled as a jump-diffusion, and show that both RL algorithms and parameterizations are invariant with respect to jumps. Finally, we present a detailed study on applying the general theory to option hedging.

Suggested Citation

  • Xuefeng Gao & Lingfei Li & Xun Yu Zhou, 2024. "Reinforcement Learning for Jump-Diffusions, with Financial Applications," Papers 2405.16449, arXiv.org, revised Aug 2024.
    • Handle: RePEc:arx:papers:2405.16449
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    References listed on IDEAS

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