Differential expression of the human homologue of <i>drosophila</i> discs large oncosuppressor in histologic samples from human papillomavirus–associated lesions as a marker for progression to malignancy

In this paper, we present a new pricing formula based on a modified Black-Scholes (B-S) model with the standard Brownian motion being replaced by a particular process constructed with a special type of skew Brownian motions. Although Corns and Satchell [2007. "Skew Brownian Motion and Pricing European Options." The European Journal of Finance 13 (6): 523-544] have worked on this model, the results they obtained are incorrect. In this paper, not only do we identify precisely where the errors in Although Corns and Satchell [2007. "Skew Brownian Motion and Pricing European Options". The European Journal of Finance 13 (6): 523-544] are, we also present a new closed-form pricing formula based on a newly proposed equivalent martingale measure, called 'endogenous risk neutral measure', by which only endogenous risks should and can be fully hedged. The newly derived option pricing formula takes the B-S formula as a special case and it does not induce any significant additional burden in terms of numerically computing option values, compared with the effort involved in computing the B-S formula.

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The pricing of credit default swaps under a generalized mixed fractional Brownian motion

Chen

2014

Physica A: Statistical Mechanics and its Applications

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In this paper, we consider the pricing of the CDS (credit default swap) under a GMFBM (generalized mixed fractional Brownian motion) model. As the name suggests, the GMFBM model is indeed a generalization of all the FBM (fractional Brownian motion) models used in the literature, and is proved to be able to effectively capture the long-range dependence of the stock returns. To develop the pricing mechanics of the CDS, we firstly derive a sufficient condition for the market modeled under the GMFBM to be arbitrage free. Then under the risk-neutral assumption, the CDS is fairly priced by investigating the two legs of the cash flow involved. The price we obtained involves elementary functions only, and can be easily implemented for practical purpose. AbstractIn this paper, we consider the pricing of the CDS (credit default swap) under a GMFBM (generalized mixed fractional Brownian motion) model. As the name suggests, the GMFBM model is indeed a generalization of all the FBM (fractional Brownian motion) models used in the literature, and is proved to be able to effectively capture the long-range dependence of the stock returns. To develop the pricing mechanics of the CDS, we firstly derive a sufficient condition for the market modeled under the GMFBM to be arbitrage free. Then under the risk-neutral assumption, the CDS is fairly priced by investigating the two legs of the cash flow involved. The price we obtained involves elementary functions only, and can be easily implemented for practical purpose. Finally, based on numerical experiments, we analyze quantitatively the impacts of different parameters on the prices of the CDS. Interestingly, in comparison with all the other FBM models documented in the literature, the results produced from the GMFBM model are in a better agreement with those calculated from the classical Black-Scholes model.

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How should a local regime-switching model be calibrated?

Zhu

2017

Journal of Economic Dynamics and Control

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A closed-form pricing formula for European options under a new stochastic volatility model with a stochastic long-term mean

Chen

2020

Math Finan Econ

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An analytical approximation formula for European option pricing under a new stochastic volatility model with regime-switching

Zhu

2016

Journal of Economic Dynamics and Control

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In this paper, an analytical approximation formula for pricing European options is obtained under a newly proposed hybrid model with the volatility of volatility in the Heston model following a Markov chain, the adoption of which is motivated by the empirical evidence of the existence of regime-switching in real markets. We first derive the coupled PDE (partial differential equation) system that governs the European option price, which is solved with the perturbation method. It should be noted that the newly derived formula is fast and easy to implement with only normal distribution function involved, and numerical experiments confirm that our formula could provide quite accurate option prices, especially for relatively short-tenor ones. Finally, empirical studies are carried out to show the superiority of our model based on S&P 500 returns and options with the time to expiry less than one month.

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Xin‐Jiang He

A new closed-form formula for pricing European options under a skew Brownian motion

The pricing of credit default swaps under a generalized mixed fractional Brownian motion

How should a local regime-switching model be calibrated?

A closed-form pricing formula for European options under a new stochastic volatility model with a stochastic long-term mean

An analytical approximation formula for European option pricing under a new stochastic volatility model with regime-switching

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