Affiliation:
1. Mathematical Institute University of Oxford Oxford UK
2. Epstein Department of Industrial and Systems Engineering University of Southern California Los Angeles California USA
Abstract
AbstractThe rapid changes in the finance industry due to the increasing amount of data have revolutionized the techniques on data processing and data analysis and brought new theoretical and computational challenges. In contrast to classical stochastic control theory and other analytical approaches for solving financial decision‐making problems that heavily reply on model assumptions, new developments from reinforcement learning (RL) are able to make full use of the large amount of financial data with fewer model assumptions and to improve decisions in complex financial environments. This survey paper aims to review the recent developments and use of RL approaches in finance. We give an introduction to Markov decision processes, which is the setting for many of the commonly used RL approaches. Various algorithms are then introduced with a focus on value‐ and policy‐based methods that do not require any model assumptions. Connections are made with neural networks to extend the framework to encompass deep RL algorithms. We then discuss in detail the application of these RL algorithms in a variety of decision‐making problems in finance, including optimal execution, portfolio optimization, option pricing and hedging, market making, smart order routing, and robo‐advising. Our survey concludes by pointing out a few possible future directions for research.
Subject
Applied Mathematics,Economics and Econometrics,Social Sciences (miscellaneous),Finance,Accounting
Reference270 articles.
1. Abbasi‐Yadkori Y. Bartlett P. Bhatia K. Lazic N. Szepesvari C. &Weisz G.(2019).Politex: Regret bounds for policy iteration using expert prediction. InInternational conference on machine learning(pp. 3692–3702). PMLR.
2. Abernethy J. D. &Kale S.(2013).Adaptive market making via online learning. InNIPS(pp. 2058–2066). Citeseer.
3. Aboussalah A. M.(2020).What is the value of the cross‐sectional approach to deep reinforcement learning?Available at SSRN 22(6) 1091–1111.
4. Achiam J. Held D. Tamar A. &Abbeel P.(2017).Constrained policy optimization. InInternational conference on machine learning(pp. 22–31). PMLR.
5. Agarwal A. Bartlett P. &Dama M.(2010).Optimal allocation strategies for the dark pool problem. InProceedings of the thirteenth international conference on artificial intelligence and statistics(pp. 9–16). JMLR Workshop and Conference Proceedings.
Cited by
46 articles.
订阅此论文施引文献
订阅此论文施引文献,注册后可以免费订阅5篇论文的施引文献,订阅后可以查看论文全部施引文献