Renata Mansini scite author profile

Many risk measures have been recently introduced which (for discrete random variables) result in Linear Programs (LP). While some LP computable risk measures may be viewed as approximations to the variance (e.g., the mean absolute deviation or the Gini’s mean absolute difference), shortfall or quantile risk measures are recently gaining more popularity in various financial applications. In this paper we study LP solvable portfolio optimization models based on extensions of the ConditionalValue at Risk (CVaR) measure. The models use multiple CVaR measures thus allowing for more detailed risk aversion modeling. We study both the theoretical properties of the models and their performance on real-life data

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The Team Orienteering Problem with Time Windows: An LP-based Granular Variable Neighborhood Search

Labadie

Mansini

Melechovský

et al. 2012

European Journal of Operational Research

142

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LP solvable models for portfolio optimization: a classification and computational comparison

Mansini

Ogryczak²,

Speranza³

2003

IMA Journal of Management Mathematics

109

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The Markowitz model of portfolio optimization quantifies the problem in a lucid form of only two criteria: the mean, representing the expected outcome, and the risk, a scalar measure of the variability of outcomes. The classical Markowitz model uses the variance as the risk measure, thus resulting in a quadratic optimization problem. Following Sharpe's work on linear approximation to the mean-variance model, many attempts have been made to linearize the portfolio optimization problem. There were introduced several alternative risk measures which are computationally attractive as (for discrete random variables) they result in solving linear programming (LP) problems. The LP solvability is very important for applications to real-life financial decisions where the constructed portfolios have to meet numerous side constraints and take into account transaction costs. The variety of LP solvable portfolio optimization models presented in the literature generates a need for their classification and comparison. It is the main goal of our work. The paper introduces a systematic overview of the LP solvable models with a wide discussion of their theoretical properties. This allows us to classify the models with respect to the types of risk or safety measures they use. The paper provides also the first complete computational comparison of the discussed models on real-life data.

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Renata Mansini

Twenty years of linear programming based portfolio optimization

Heuristic algorithms for the portfolio selection problem with minimum transaction lots

Conditional value at risk and related linear programming models for portfolio optimization

The Team Orienteering Problem with Time Windows: An LP-based Granular Variable Neighborhood Search

LP solvable models for portfolio optimization: a classification and computational comparison

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