Abstract

We address a number of technical problems with the popular Practitioner Black-Scholes (PBS) method for valuing options. The method amounts to a two-stage procedure in which fitted values of implied volatilities (IV) from a linear regression are plugged into the Black-Scholes formula to obtain predicted option prices. Firstly we ensure that the prediction from stage one is positive by using log-linear regression. Secondly, we correct the bias that results from the transformation applied to the fitted values (i.e., the Black-Scholes formula) being a highly non-linear function of implied volatility. We apply the smearing technique in order to correct this bias. An alternative means of implementing the PBS approach is to use the market option price as the dependent variable and estimate the parameters of the IV equation by the method of non-linear least squares (NLLS). A problem we identify with this method is one of model incoherency: the IV equation that is estimated does not correspond to the set of option prices used to estimate it. We use the Monte Carlo method to verify that (1) standard PBS gives biased option values, both in-sample and out-of-sample; (2) using standard (log-linear) PBS with smearing almost completely eliminates the bias; (3) NLLS gives biased option values, but the bias is less severe than with standard PBS. We are led to conclude that, of the range of possible approaches to implementing PBS, log-linear PBS with smearing is preferred on the basis that it is the only approach that results in valuations with negligible bias.

Highlights

  • The Practitioner Black-Scholes (PBS) method (Dumas et al 1998; Christoffersen and Jacobs 2004) has become a very popular as a benchmark option pricing method, against which other pricing methods can usefully be compared.1 The method amounts to the use of a cross-section sample of market option prices to estimate the implied volatility surface, that is, to estimate the parameters of an equation showing implied volatility (IV) as a function of strike price and time to expiry

  • An alternative means of implementing the PBS approach is to use the market option price as the dependent variable and estimate the parameters of the IV equation by the method of non-linear least squares (NLLS)

  • The model that underlies the method of NLLS can be shown to be incoherent in the sense that the IV equation that is estimated does not correspond to the set of option prices used to estimate it

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Summary

Introduction

The Practitioner Black-Scholes (PBS) method (Dumas et al 1998; Christoffersen and Jacobs 2004) has become a very popular as a benchmark option pricing method, against which other pricing methods can usefully be compared. The method amounts to the use of a cross-section sample of market option prices to estimate the implied volatility surface, that is, to estimate the parameters of an equation showing implied volatility (IV) as a function of strike price and time to expiry. A possibly more serious problem relates to stage two: as pointed out by Christoffersen and Jacobs (2004), the two-stage method yields biased predictions of option valuations, for the simple reason that the transformation being applied to the fitted values (i.e., the Black-Scholes formula) is a non-linear function of implied volatility. An alternative means of implementing the PBS approach is to use the market option price as the dependent variable and estimate the parameters of the IV equation by the method of non-linear least squares (NLLS).

The PBS Method
Estimation of the IV Equation by NLLS on Option Price Data
Estimation of IV Equations Using Real Data
M0ean Only
Findings
Conclusions

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