Multi‐period hedge ratios for a multi‐asset portfolio when accounting for returns co‐movement

Fernández, Viviana

doi:10.1002/fut.20294

Cited by 47 publications

(32 citation statements)

References 36 publications

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“…In the cases of cotton, corn and crude oil correlation is found to increase at longer time horizons, in keeping with findings for other assets in previous studies (Fernandez, 2008;Lien & Shrestha, 2007;In & Kim, 2006). Coffee is the exception here, with maximum correlation found at intermediate horizon, perhaps explained by difficulties in coffee storage over longer horizons.…”

Section: Futures Hedging and The Hedging Horizonsupporting

confidence: 77%

“…In contrast to previous findings, (Fernandez (2008) and references therein), the maximal hedge ratio is found at intermediate horizon for certain assets, (coffee, corn and crude oil). However, the underlying data examined here is of a much longer horizon, (monthly rather than daily in previous studies), contributing additional insight from the perspective of longer-term hedgers.…”

contrasting

confidence: 52%

“…28 While previous studies have applied a minimum-variance hedging approach and measured performance using mean-variance utility, (Alizadeh et al, 2008;Fernandez, 2008;In & Kim, 2006), we provide a consistent view by applying the same hedging preferences to find both the optimal mean variance hedge ratio and measure associated performance.…”

Section: Hedging Performancementioning

confidence: 99%

“…Further details on the application of wavelets to financial research can be found in Gençay et al (2001). 7 Further, Fernandez (2008) and Lien & Shrestha (2007) applied wavelet decomposition to minimumvariance futures hedging, demonstrating improved hedging performance for investors with long time horizons.…”

mentioning

confidence: 99%

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Commodity futures hedging, risk aversion and the hedging horizon

Conlon

Cotter

Gençay

2015

The European Journal of Finance

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This paper examines the impact of investor preferences on the optimal futures hedging strategy and associated hedging performance. Explicit risk aversion levels are often overlooked in hedging analysis. Applying a mean-variance hedging objective, the optimal futures hedging ratio is determined for a range of investor preferences on risk aversion, hedging horizon and expected returns. Wavelet analysis is applied to illustrate how investor time horizon shapes hedging strategy. Empirical results reveal substantial variation of the optimal hedge ratio for distinct investor preferences and are supportive of the hedging policies of real firms.Hedging performance is then shown to be strongly dependent on underlying preferences. In particular, investors with high levels of risk aversion and a short horizon reduce the risk of the hedge portfolio but achieve inferior utility in comparison to those with low risk aversion.

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Section: Futures Hedging and The Hedging Horizonsupporting

confidence: 77%

contrasting

confidence: 52%

Section: Hedging Performancementioning

confidence: 99%

mentioning

confidence: 99%

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Commodity futures hedging, risk aversion and the hedging horizon

Conlon

Cotter

Gençay

2015

The European Journal of Finance

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“…Comparison to the error-correction hedge ratio revealed an outperformance for short time-horizons, while for long time-horizons, the optimal multiscale wavelet ratio was found to dominate, with similar results found both in-and out-of-sample. The optimal hedge ratios for a portfolio of commodities was found, Fernandez (2008), using copulas to measure the asset returns dependency and wavelets to account for hedging horizon. Improved hedging effectiveness was found for the portfolio of commodities compared to a single position, with additional benefits at longer scales.…”

mentioning

confidence: 99%

An Empirical Analysis of Dynamic Multiscale Hedging Using Wavelet Decomposition

Conlon

Cotter

2011

SSRN Journal

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This paper investigates the hedging effectiveness of a dynamic moving window OLS hedging model, formed using wavelet decomposed time-series. The wavelet transform is applied to calculate the appropriate dynamic minimum-variance hedge ratio for various hedging horizons for a number of assets. The effectiveness of the dynamic multiscale hedging strategy is then tested, both in-and out-of-sample, using standard variance reduction and expanded to include a downside risk metric, the time horizon dependent Value-at-Risk. Measured using variance reduction, the effectiveness converges to one at longer scales, while a measure of VaR reduction indicates a portion of residual risk remains at all scales. Analysis of the hedge portfolio distributions indicate that this unhedged tail risk is related to excess portfolio kurtosis found at all scales.

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An empirical analysis of dynamic multiscale hedging using wavelet decomposition

Conlon¹,

Cotter²

2011

Journal of Futures Markets

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This study investigates the hedging effectiveness of a dynamic moving‐window OLS hedging model, formed using wavelet decomposed time‐series. The wavelet transform is applied to calculate the appropriate dynamic minimum‐variance hedge ratio for various hedging horizons for a number of assets. The effectiveness of the dynamic multiscale hedging strategy is then tested, both in‐ and out‐of‐sample, using standard variance reduction and expanded to include a downside risk metric, the scale‐dependent Value‐at‐Risk. Measured using variance reduction, the effectiveness converges to one at longer scales, while a measure of VaR reduction indicates a portion of residual risk remains at all scales. Analysis of the hedge portfolio distributions indicate that this unhedged tail risk is related to excess portfolio kurtosis found at all scales.

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Multi‐period hedge ratios for a multi‐asset portfolio when accounting for returns co‐movement

Cited by 47 publications

References 36 publications

Commodity futures hedging, risk aversion and the hedging horizon

Commodity futures hedging, risk aversion and the hedging horizon

An Empirical Analysis of Dynamic Multiscale Hedging Using Wavelet Decomposition

An empirical analysis of dynamic multiscale hedging using wavelet decomposition

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