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Article
Publication date: 16 March 2015

Bhanu Sharma, Ruppa K. Thulasiram and Parimala Thulasiraman

Value-at-risk (VaR) is a risk measure of potential loss on a specific portfolio. The main uses of VaR are in risk management and financial reporting. Researchers are continuously…

Abstract

Purpose

Value-at-risk (VaR) is a risk measure of potential loss on a specific portfolio. The main uses of VaR are in risk management and financial reporting. Researchers are continuously looking for new and efficient ways to evaluate VaR, and the 2008 financial crisis has given further impetus to finding new and reliable ways of evaluating and using VaR. In this study, the authors use genetic algorithm (GA) to evaluate VaR and compare the results with conventional VaR techniques.

Design/methodology/approach

In essence, the authors propose two modifications to the standard GA: normalized population selection and strict population selection. For a typical set of simulation, eight chromosomes were used each with eight stored values, and the authors get eight values for VaR.

Findings

The experiments using data from four different market indices show that by adjusting the volatility, the VaR computed using GA is more conservative as compared to those computed using Monte Carlo simulation.

Research limitations/implications

The proposed methodology is designed for VaR computation only. This could be generalized for other applications.

Practical implications

This is achieved with much less cost of computation, and hence, the proposed methodology could be a viable practical approach for computing VaR.

Originality/value

The proposed methodology is simple and, at the same time, novel that could have far-reaching impact on practitioners.

Details

The Journal of Risk Finance, vol. 16 no. 2
Type: Research Article
ISSN: 1526-5943

Keywords

Article
Publication date: 9 November 2010

Kamal Smimou and Ruppa K. Thulasiram

Although the mean‐variance portfolio selection model has been investigated in the literature, the difficulty associated with the application of the model when dealing with…

Abstract

Purpose

Although the mean‐variance portfolio selection model has been investigated in the literature, the difficulty associated with the application of the model when dealing with large‐scale problems is limited. The aim of this paper is to close the gap by using the quadratic risk (standard deviation risk) function and finite iteration technique to remove difficulties in quadratic programming.

Design/methodology/approach

Using van de Panne' approach, this paper proposes a finite technique to optimize large‐scale portfolio selection problem.

Findings

The proposal of parallel algorithm structure to the model provides a clearer decision framework to significantly enhance the efficiency of the portfolio selection process.

Originality/value

The proposal of parallel algorithm structure to the mean‐variance portfolio selection model provides a clearer decision framework to significantly enhance the efficiency of the portfolio selection process. An empirical example that illustrates the application and benefits of the method is provided.

Details

The Journal of Risk Finance, vol. 11 no. 5
Type: Research Article
ISSN: 1526-5943

Keywords

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