TY - JOUR
T1 - Cross- and delta-hedges
T2 - Regression- versus price-based hedge ratios
AU - Sercu, Piet
AU - Wu, Xueping
PY - 2000/5
Y1 - 2000/5
N2 - In implementing a variance-minimizing cross or delta hedge, the regression coefficient is often estimated using data from the past, but one could also use estimators that are suggested by the random-walk or unbiased-expectations models and require just a single price. We compare the performances of various hedge ratios for three-month currency exposures, and find that the price-based hedge ratios generally perform better than the regression-based ones. Specifically, all our regressions do systematically worse in the case of a delta hedge, and seem to beat the price-based hedge ratios only in the case of cross- or cross-and-delta problems where the two currencies are so distantly related - like, e.g., hedging ITL/USD using JPY/USD - that no risk manager would even consider them as hedges of each other. The poor performance of the regressions is all the more surprising as we correct the futures prices for errors-in-variables (synchronization noise, bid-ask bounce, and changing time to maturity). The results are robust to observation frequency in the regressions, sample period, percentage vs dollar returns, and OLS versus IV. One reason why price-based methods do better is that they provide immediate adjustment to breaks in the data (like EMS realignments, which get incorporated into rolling regression coefficients only very slowly, as time elapses) or other events that change the relationship between the regressor and regressand. For cross or cross-and-delta hedges between European currencies, regressions also have difficulties in capturing cross-correlations between exchange rates. © 2000 Elsevier Science B.V.
AB - In implementing a variance-minimizing cross or delta hedge, the regression coefficient is often estimated using data from the past, but one could also use estimators that are suggested by the random-walk or unbiased-expectations models and require just a single price. We compare the performances of various hedge ratios for three-month currency exposures, and find that the price-based hedge ratios generally perform better than the regression-based ones. Specifically, all our regressions do systematically worse in the case of a delta hedge, and seem to beat the price-based hedge ratios only in the case of cross- or cross-and-delta problems where the two currencies are so distantly related - like, e.g., hedging ITL/USD using JPY/USD - that no risk manager would even consider them as hedges of each other. The poor performance of the regressions is all the more surprising as we correct the futures prices for errors-in-variables (synchronization noise, bid-ask bounce, and changing time to maturity). The results are robust to observation frequency in the regressions, sample period, percentage vs dollar returns, and OLS versus IV. One reason why price-based methods do better is that they provide immediate adjustment to breaks in the data (like EMS realignments, which get incorporated into rolling regression coefficients only very slowly, as time elapses) or other events that change the relationship between the regressor and regressand. For cross or cross-and-delta hedges between European currencies, regressions also have difficulties in capturing cross-correlations between exchange rates. © 2000 Elsevier Science B.V.
KW - Cross
KW - Delta
KW - Exchange rates
KW - Futures
KW - Hedging
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U2 - 10.1016/S0378-4266(99)00048-5
DO - 10.1016/S0378-4266(99)00048-5
M3 - RGC 21 - Publication in refereed journal
VL - 24
SP - 735
EP - 757
JO - Journal of Banking and Finance
JF - Journal of Banking and Finance
SN - 0378-4266
IS - 5
ER -