Matrix analysis
Robust Solutions to Least-Squares Problems with Uncertain Data
SIAM Journal on Matrix Analysis and Applications
Mathematics of Operations Research
Robust portfolio selection problems
Mathematics of Operations Research
Robust One-Period Option Hedging
Operations Research
Robust portfolio selection based on a joint ellipsoidal uncertainty set
Optimization Methods & Software
A computational study on robust portfolio selection based on a joint ellipsoidal uncertainty set
Mathematical Programming: Series A and B
Robust solutions of uncertain linear programs
Operations Research Letters
Journal of Computational and Applied Mathematics
| Hi-index | 7.29 |
In typical robust portfolio selection problems, one mainly finds portfolios with the worst-case return under a given uncertainty set, in which asset returns can be realized. A too large uncertainty set will lead to a too conservative robust portfolio. However, if the given uncertainty set is not large enough, the realized returns of resulting portfolios will be outside of the uncertainty set when an extreme event such as market crash or a large shock of asset returns occurs. The goal of this paper is to propose robust portfolio selection models under so-called '' marginal+joint'' ellipsoidal uncertainty set and to test the performance of the proposed models. A robust portfolio selection model under a ''marginal + joint'' ellipsoidal uncertainty set is proposed at first. The model has the advantages of models under the separable uncertainty set and the joint ellipsoidal uncertainty set, and relaxes the requirements on the uncertainty set. Then, one more robust portfolio selection model with option protection is presented by combining options into the proposed robust portfolio selection model. Convex programming approximations with second-order cone and linear matrix inequalities constraints to both models are derived. The proposed robust portfolio selection model with options can hedge risks and generates robust portfolios with well wealth growth rate when an extreme event occurs. Tests on real data of the Chinese stock market and simulated options confirm the property of both the models. Test results show that (1) under the '' marginal+joint'' uncertainty set, the wealth growth rate and diversification of robust portfolios generated from the first proposed robust portfolio model (without options) are better and greater than those generated from Goldfarb and Iyengar's model, and (2) the robust portfolio selection model with options outperforms the robust portfolio selection model without options when some extreme event occurs.