Bayesian Estimation and Optimization for Learning Sequential Regularized Portfolios

IF 1.4 4区经济学 Q3 BUSINESS, FINANCE

SIAM Journal on Financial Mathematics Pub Date : 2023-01-27 DOI:10.1137/21m1427176

Godeliva Petrina Marisu, Chi Seng Pun

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引用次数: 1

Abstract

This paper incorporates Bayesian estimation and optimization into a portfolio selection framework, particularly for high-dimensional portfolios in which the number of assets is larger than the number of observations. We leverage a constrained minimization approach, called the linear programming optimal (LPO) portfolio, to directly estimate effective parameters appearing in the optimal portfolio. We propose two refinements for the LPO strategy. First, we explore improved Bayesian estimates, instead of sample estimates, of the covariance matrix of asset returns. Second, we introduce Bayesian optimization (BO) to replace traditional grid-search cross-validation (CV) in tuning hyperparameters of the LPO strategy. We further propose modifications in the BO algorithm by (1) taking into account the time-dependent nature of financial problems and (2) extending the commonly used expected improvement acquisition function to include a tunable trade-off with the improvement’s variance. Allowing a general case of noisy observations, we theoretically derive the sublinear convergence rate of BO under the newly proposed EIVar and thus our algorithm has no regret. Our empirical studies confirm that the adjusted BO results in portfolios with higher out-of-sample Sharpe ratio, certainty equivalent, and lower turnover compared to those tuned with CV. This superior performance is achieved with a significant reduction in time elapsed, thus also addressing time-consuming issues of CV. Furthermore, LPO with Bayesian estimates outperforms the original proposal of LPO, as well as the benchmark equally weighted and plugin strategies.

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序列正则化组合学习的贝叶斯估计与优化

本文将贝叶斯估计和优化纳入到一个投资组合选择框架中，特别是对于资产数量大于观测数量的高维投资组合。我们利用一种称为线性规划最优(LPO)投资组合的约束最小化方法来直接估计最优投资组合中出现的有效参数。我们对LPO策略提出了两个改进方案。首先，我们探讨了资产收益协方差矩阵的改进贝叶斯估计，而不是样本估计。其次，我们引入贝叶斯优化(BO)来取代传统的网格搜索交叉验证(CV)来调整LPO策略的超参数。我们进一步提出对BO算法的修改:(1)考虑到财务问题的时间依赖性;(2)扩展常用的期望改进获取函数，以包括与改进方差的可调权衡。在考虑噪声观测的一般情况下，我们从理论上推导出了新提出的EIVar下BO的次线性收敛速率，从而使我们的算法没有遗憾。我们的实证研究证实，与使用CV调整的投资组合相比，调整后的BO导致投资组合具有更高的样本外夏普比率、确定性当量和更低的周转率。这种优越的性能是通过显著减少时间流逝来实现的，因此也解决了CV的耗时问题。此外，具有贝叶斯估计的LPO优于原始的LPO，以及基准等加权和插件策略。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

SIAM Journal on Financial Mathematics MATHEMATICS, INTERDISCIPLINARY APPLICATIONS-

CiteScore

2.30

自引率

10.00%

发文量

期刊介绍： SIAM Journal on Financial Mathematics (SIFIN) addresses theoretical developments in financial mathematics as well as breakthroughs in the computational challenges they encompass. The journal provides a common platform for scholars interested in the mathematical theory of finance as well as practitioners interested in rigorous treatments of the scientific computational issues related to implementation. On the theoretical side, the journal publishes articles with demonstrable mathematical developments motivated by models of modern finance. On the computational side, it publishes articles introducing new methods and algorithms representing significant (as opposed to incremental) improvements on the existing state of affairs of modern numerical implementations of applied financial mathematics.