Monte Carlo methods for mean-risk optimization and portfolio selection
Monte Carlo methods for mean-risk optimization and portfolio selection
Stochastic programming is a well-known instrument to model many risk management problems in finance.
In this paper we consider a stochastic programming model
where the objective function is the variance of a random function and the constraint function is the expected value of the random function. Instead of using popular scenario tree methods, we apply the well-known sample average approximation (SAA) method to solve it. An advantage of SAA is that it can be implemented without knowing the distribution of the random data.
We investigate the asymptotic properties of statistical estimators obtained from the SAA problem including examining the rate of convergence of optimal solutions of the SAA problem as sample size increases.
By using the classical penalty function technique and recent results on uniform exponential convergence of sample average random functions, we show that under some mild conditions the statistical estimator of the optimal solution converges to its true counterpart at an exponential rate. We apply the proposed model and the numerical method to a portfolio management problem and
present some numerical results.
variance minimization, sample average approximation, risk management, exponential convergence
Xu, Huifu
67f2baf6-df5b-476a-95cd-3e7580635d39
Zhang, Dali
f0f07f05-a0ee-4a3a-98c8-b24d73ce1a59
2010
Xu, Huifu
67f2baf6-df5b-476a-95cd-3e7580635d39
Zhang, Dali
f0f07f05-a0ee-4a3a-98c8-b24d73ce1a59
Xu, Huifu and Zhang, Dali
(2010)
Monte Carlo methods for mean-risk optimization and portfolio selection.
Computational Management Science.
Abstract
Stochastic programming is a well-known instrument to model many risk management problems in finance.
In this paper we consider a stochastic programming model
where the objective function is the variance of a random function and the constraint function is the expected value of the random function. Instead of using popular scenario tree methods, we apply the well-known sample average approximation (SAA) method to solve it. An advantage of SAA is that it can be implemented without knowing the distribution of the random data.
We investigate the asymptotic properties of statistical estimators obtained from the SAA problem including examining the rate of convergence of optimal solutions of the SAA problem as sample size increases.
By using the classical penalty function technique and recent results on uniform exponential convergence of sample average random functions, we show that under some mild conditions the statistical estimator of the optimal solution converges to its true counterpart at an exponential rate. We apply the proposed model and the numerical method to a portfolio management problem and
present some numerical results.
Text
risk-8-Mar-2010.pdf
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Published date: 2010
Keywords:
variance minimization, sample average approximation, risk management, exponential convergence
Organisations:
Operational Research
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Local EPrints ID: 151699
URI: http://eprints.soton.ac.uk/id/eprint/151699
PURE UUID: af69bf60-ac7c-4091-a6c7-124f7616584f
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Date deposited: 12 May 2010 10:38
Last modified: 14 Mar 2024 01:20
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Author:
Huifu Xu
Author:
Dali Zhang
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