Deep Hedging: Continuous Reinforcement Learning for Hedging of General Portfolios across Multiple Risk Aversions

Phillip Murray; Ben Wood; Hans Buehler; Magnus Wiese; Mikko Pakkanen

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Deep Hedging: Continuous Reinforcement Learning for Hedging of General Portfolios across Multiple Risk Aversions

Proceedings of the 3rd ACM International Conference on AI in Finance, ICAIF 2022 (2022) 361-368

DOI: 10.1145/3533271.3561731

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Abstract

We present a method for finding optimal hedging policies for arbitrary initial portfolios and market states. We develop a novel actor-critic algorithm for solving general risk-averse stochastic control problems and use it to learn hedging strategies across multiple risk aversion levels simultaneously. We demonstrate the effectiveness of the approach with a numerical example in a stochastic volatility environment.

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Murray, P., Wood, B., Buehler, H., Wiese, M., & Pakkanen, M. (2022). Deep Hedging: Continuous Reinforcement Learning for Hedging of General Portfolios across Multiple Risk Aversions. In Proceedings of the 3rd ACM International Conference on AI in Finance, ICAIF 2022 (pp. 361–368). Association for Computing Machinery, Inc. https://doi.org/10.1145/3533271.3561731

Deep Hedging: Continuous Reinforcement Learning for Hedging of General Portfolios across Multiple Risk Aversions

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