A LINEAR-PROGRAMMING PORTFOLIO OPTIMIZER TO MEAN–VARIANCE OPTIMIZATION

IF 0.5 Q4 BUSINESS, FINANCE International Journal of Theoretical and Applied Finance Pub Date : 2023-10-06 DOI:10.1142/s0219024923500127

Xiaoyue Liu, Zhenzhong Huang, Biwei Song, Zhen Zhang

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Abstract

In the Markowitz mean–variance portfolio optimization problem, the estimation of the inverse covariance matrix is not trivial and can even be intractable, especially when the dimension is very high. In this paper, we propose a linear-programming portfolio optimizer (LPO) to solve the Markowitz optimization problem in both low-dimensional and high-dimensional settings. Instead of directly estimating the inverse covariance matrix [Formula: see text], the LPO method estimates the portfolio weights [Formula: see text] through solving an [Formula: see text]-constrained optimization problem. Moreover, we further prove that the LPO estimator asymptotically yields the maximum expected return while preserving the risk constraint. To offer a practical insight into the LPO approach, we provide a comprehensive implementation procedure of estimating portfolio weights via the Dantzig selector with sequential optimization (DASSO) algorithm and selecting the sparsity parameter through cross-validation. Simulations on both synthetic data and empirical data from Fama–French and the Center for Research in Security Prices (CRSP) databases validate the performance of the proposed method in comparison with other existing proposals.

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均值-方差优化的线性规划组合优化器

在Markowitz均值-方差投资组合优化问题中，协方差逆矩阵的估计是一个非常棘手的问题，特别是在维数很高的情况下。在本文中，我们提出了一个线性规划组合优化器(LPO)来解决低维和高维环境下的马科维茨优化问题。LPO方法不是直接估计协方差逆矩阵[公式:见文]，而是通过求解一个[公式:见文]约束优化问题来估计投资组合的权重[公式:见文]。此外，我们进一步证明了LPO估计量在保持风险约束的情况下渐近地产生最大期望收益。为了提供对LPO方法的实际见解，我们提供了一个通过Dantzig选择器与顺序优化(DASSO)算法估计投资组合权重并通过交叉验证选择稀疏度参数的综合实现过程。对Fama-French和证券价格研究中心(CRSP)数据库的合成数据和经验数据进行仿真，与其他现有建议相比，验证了所提出方法的性能。

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来源期刊

International Journal of Theoretical and Applied Finance BUSINESS, FINANCE-

CiteScore

1.10

自引率

20.00%

发文量

期刊介绍： The shift of the financial market towards the general use of advanced mathematical methods has led to the introduction of state-of-the-art quantitative tools into the world of finance. The International Journal of Theoretical and Applied Finance (IJTAF) brings together international experts involved in the mathematical modelling of financial instruments as well as the application of these models to global financial markets. The development of complex financial products has led to new challenges to the regulatory bodies. Financial instruments that have been designed to serve the needs of the mature capitals market need to be adapted for application in the emerging markets.

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