Search results for "Replicating portfolio"

showing 6 items of 16 documents

A Conditional Value–at–Risk Model for Insurance Products with Guarantee

2009

We propose a model to select the optimal portfolio which underlies insurance policies with a guarantee. The objective function is defined in order to minimise the conditional value at-risk (CVaR) of the distribution of the losses with respect to a target return. We add operational and regulatory constraints to make the model as flexible as possible when used for real applications. We show that the integration of the asset and liability side yields superior performances with respect to naive fixed-mix portfolios and asset based strategies. We validate the model on out-of-sample scenarios and provide insights on policy design.

Mathematical optimizationPortfolio selection.Actuarial scienceComputer scienceCVARAsset-liability managementAsset-liability management; Conditional value-at-risk; CVaR; Policies with a minimum guarantee; Portfolio selection.Management Science and Operations ResearchPolicies with a minimum guaranteeExpected shortfallInsurance policyReplicating portfolioPortfolioCapital asset pricing modelAsset (economics)Statistics Probability and UncertaintyBusiness and International ManagementPortfolio optimizationCVaRConditional value-at-risk
researchProduct

Investing for the Long Run

2017

This paper studies long term investing by an investor that maximizes either expected utility from terminal wealth or from consumption. We introduce the concepts of a generalized stochastic discount factor (SDF) and of the minimum price to attain target payouts. The paper finds that the dynamics of the SDF needs to be captured and not the entire market dynamics, which simplifies significantly practical implementations of optimal portfolio strategies. We pay particular attention to the case where the SDF is equal to the inverse of the growth-optimal portfolio in the given market. Then, optimal wealth evolution is closely linked to the growth optimal portfolio. In particular, our concepts allo…

MicroeconomicsFOS: Economics and businessPortfolio Management (q-fin.PM)Stochastic discount factorReplicating portfolioEconomicsPortfolioAsset allocationGrowth investingPortfolio optimizationQuantitative Finance - Portfolio ManagementExpected utility hypothesisSeparation property
researchProduct

Yet Another Note on the Leland's Option Hedging Strategy with Transaction Costs

2005

In a market with transaction costs the option hedging is costly. The idea presented by Leland (1985) was to include the expected transaction costs in the cost of a replicating portfolio. The resulting Leland's pricing and hedging method is an adjusted Black-Scholes method where one uses a modified volatility in the Black-Scholes formulas for the option price and delta. The Leland's method has been criticized on different grounds. Despite the critique, the risk-return tradeoff of the Leland's strategy is often better than that of the Black-Scholes strategy even in the case when a hedger starts with the same initial value of a replicating portfolio. This implies that the Leland's modification…

MicroeconomicsTransaction costReplicating portfolioEconomicsOption priceVolatility (finance)Database transactionSSRN Electronic Journal
researchProduct

Value preserving portfolio strategies in continuous-time models

1997

We present a new approach for continuous-time portfolio strategies that relies on the principle of value preservation. This principle was developed by Hellwig (1987) for general economic decision and pricing models. The key idea is that an investor should try to consume only so much of his portfolio return that the future ability of the portfolio should be kept constant over time. This ensures that the portfolio will be a long lasting source of income. We define a continuous-time market setting to apply the idea of Hellwig to securities markets with continuous trading and examine existence (and uniqueness) of value-preserving strategies in some widely used market models. Further, we discuss…

Rate of return on a portfolioApplication portfolio managementGeneral MathematicsReplicating portfolioEconomicsPortfolioPost-modern portfolio theoryManagement Science and Operations ResearchPortfolio optimizationProject portfolio managementMathematical economicsSoftwareSeparation propertyMathematical Methods of Operations Research
researchProduct

Portfolio optimisation with strictly positive transaction costs and impulse control

1998

One crucial assumption in modern portfolio theory of continuous-time models is the no transaction cost assumption. This assumption normally leads to trading strategies with infinite variation. However, following such a strategy in the presence of transaction costs will lead to immediate ruin. We present an impulse control approach where the investor can change his portfolio only finitely often in finite time intervals. Further, we consider transaction costs including a fixed and a proportional cost component. For the solution of the resulting control problems we present a formal optimal stopping approach and an approach using quasi-variational inequalities. As an application we derive a non…

Statistics and ProbabilityTransaction costMathematical optimizationExponential utilityMerton's portfolio problemReplicating portfolioEconomicsPortfolio optimisation transaction costs impulse control asymptotic analysis.PortfolioOptimal stoppingStatistics Probability and UncertaintyPortfolio optimizationFinanceModern portfolio theory
researchProduct

The Best Hedging Strategy in the Presence of Transaction Costs

2009

Considerable theoretical work has been devoted to the problem of option pricing and hedging with transaction costs. A variety of methods have been suggested and are currently being used for dynamic hedging of options in the presence of transaction costs. However, very little was done on the subject of an empirical comparison of different methods for option hedging with transaction costs. In a few existing studies the different methods are compared by studying their empirical performances in hedging only a plain-vanilla short call option. The reader is tempted to assume that the ranking of the different methods for hedging any kind of option remains the same as that for a vanilla call. The …

Transaction costActuarial scienceEmpirical comparisonComputer scienceVariety (cybernetics)MicroeconomicsOption hedging transaction costs simulations risk-return tradeoff optimizationRankingValuation of optionsReplicating portfolioEconometricsPosition (finance)Call optionBusinessGeneral Economics Econometrics and FinanceFinanceSSRN Electronic Journal
researchProduct