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How to replicate exotic option (maybe hybrid) using vanillas?

I have heard once that the idea is to find a derivative wrt the strike of the option value, so that to get a CDF of some distribution, and by having second derivative wrt the strike to get a PDF which in turn somehow helps...

  1. Can somebody give an idea/reference to the approach I vagually described above?
  2. Are there other standard approaches?

P.S. I do not know any book telling about it.. But I found a post here, by nicolas, that probably tells the approach I am asking about.

Thank you

gencho
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  • I believe I have been asked about Carr-Madan formula. See https://quant.stackexchange.com/questions/36787/what-positions-on-an-underlier-cannot-be-hedged-with-vanillas and https://quant.stackexchange.com/questions/27626/carr-madan-formula – gencho Jan 20 '18 at 17:47

1 Answers1

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Replication theorem:

For any twice-continuously differentiable $f(x)$, the value of a European option with payoff $f(\cdot)$ and expiry $T$ is the weighted integral of call and put options with weights equal to the second derivative of $f(\cdot)$:

$E(f(S(T)) = f(K^*) + f'(K)(S(0)-K^*) + \int_{-\infty}^{K^*}p(0, S(0); T, K)f''(K) dK + \int_{K^*}^{\infty}c(0, S(0); T, K)f''(K) dK$

for any $K^*$.

You can find it in Interest Rate Model by Andersen and Piterbarg.

Lipton
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  • Thank you, @Lipton! Does there exist a similar "simple" approach for replication for non European options? What does $c$ function mean? – gencho Jan 20 '18 at 18:04
  • p means put and c means call. Sorry I don't know about non European options. But it sounds so much harder, because it's basically the valuation function of a dynamic program...not sure how you can easily do that. I'd imagine you can maybe get an inequality instead of equality? – Lipton Jan 20 '18 at 18:11