A Full Asymptotic Series of European Call Option Prices in the SABR Model with Beta = 1

This paper is geared towards implementation of Black-Scholes equation in valuation of European call option and predicting market prices for option traders. First, we explained how Black-Scholes equation can be used to estimate option prices and then we also estimated the BS pricing bias from where market prices were predicted. From the results, it was discovered that Black-Scholes values were relatively close to market prices but a little increase in strike prices (K) decreases the option prices. Furthermore, goodness of fit test was done using Kolmogorov –Sminorvov to study BSM and Market prices.

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It Takes Two to Tango: Estimation of the Zero-Risk Premium Strike of a Call Option via Joint Physical and Pricing Density Modeling

Risks ◽

10.3390/risks9110196 ◽

2021 ◽

Vol 9 (11) ◽

pp. 196

Author(s):

Stephan Höcht ◽

Dilip B. Madan ◽

Wim Schoutens ◽

Eva Verschueren

Keyword(s):

Risk Premium ◽

Pricing Strategy ◽

Call Option ◽

Option Prices ◽

Pricing Model ◽

Stable Pattern ◽

European Call Option ◽

Pricing Measure ◽

The Stability ◽

Density Modeling

It is generally said that out-of-the-money call options are expensive and one can ask the question from which moneyness level this is the case. Expensive actually means that the price one pays for the option is more than the discounted average payoff one receives. If so, the option bears a negative risk premium. The objective of this paper is to investigate the zero-risk premium moneyness level of a European call option, i.e., the strike where expectations on the option’s payoff in both the P- and Q-world are equal. To fully exploit the insights of the option market we deploy the Tilted Bilateral Gamma pricing model to jointly estimate the physical and pricing measure from option prices. We illustrate the proposed pricing strategy on the option surface of stock indices, assessing the stability and position of the zero-risk premium strike of a European call option. With small fluctuations around a slightly in-the-money level, on average, the zero-risk premium strike appears to follow a rather stable pattern over time.

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Markov Chain Monte Carlo Method for Estimating Implied Volatility in Option Pricing

Journal of Mathematics Research ◽

10.5539/jmr.v10n6p108 ◽

2018 ◽

Vol 10 (6) ◽

pp. 108

Author(s):

Yao Elikem Ayekple ◽

Charles Kofi Tetteh ◽

Prince Kwaku Fefemwole

Keyword(s):

Option Pricing ◽

Implied Volatility ◽

Call Option ◽

Option Prices ◽

Options Market ◽

European Call Option ◽

Black Scholes Model ◽

Black Scholes ◽

Real Market ◽

Independent Path

Using market covered European call option prices, the Independence Metropolis-Hastings Sampler algorithm for estimating Implied volatility in option pricing was proposed. This algorithm has an acceptance criteria which facilitate accurate approximation of this volatility from an independent path in the Black Scholes Model, from a set of finite data observation from the stock market. Assuming the underlying asset indeed follow the geometric brownian motion, inverted version of the Black Scholes model was used to approximate this Implied Volatility which was not directly seen in the real market: for which the BS model assumes the volatility to be a constant. Moreover, it is demonstrated that, the Implied Volatility from the options market tends to overstate or understate the actual expectation of the market. In addition, a 3-month market Covered European call option data, from 30 different stock companies was acquired from Optionistic.Com, which was used to estimate the Implied volatility. This accurately approximate the actual expectation of the market with low standard errors ranging between 0.0035 to 0.0275.

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Pricing options on a mean-reverting asset by the analytical operator splitting method

International Journal of Financial Engineering ◽

10.1142/s242478632150002x ◽

2021 ◽

pp. 2150002

Author(s):

C. F. Lo ◽

Y. W. He

Keyword(s):

Operator Splitting ◽

Splitting Method ◽

Dynamical Symmetry ◽

Call Option ◽

Option Prices ◽

Pricing Options ◽

Operator Splitting Method ◽

European Call Option ◽

Price Formula ◽

Black Scholes

In this paper, we propose an operator splitting method to valuate options on the inhomogeneous geometric Brownian motion. By exploiting the approximate dynamical symmetry of the pricing equation, we derive a simple closed-form approximate price formula for a European call option which resembles closely the Black–Scholes price formula for a European vanilla call option. Numerical tests show that the proposed method is able to provide very accurate estimates and tight bounds of the exact option prices. The method is very efficient and robust as well.

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Option pricing under the fractional stochastic volatility model

ANZIAM Journal ◽

10.21914/anziamj.v63.15204 ◽

2021 ◽

Vol 63 ◽

pp. 123-142

Author(s):

Yuecai Han ◽

Zheng Li ◽

Chunyang Liu

Keyword(s):

Brownian Motion ◽

Option Pricing ◽

Fractional Brownian Motion ◽

Stochastic Volatility ◽

Option Price ◽

Stochastic Volatility Model ◽

Option Prices ◽

European Call Option ◽

Volatility Model ◽

The Impact

We investigate the European call option pricing problem under the fractional stochastic volatility model. The stochastic volatility model is driven by both fractional Brownian motion and standard Brownian motion. We obtain an analytical solution of the European option price via the Itô’s formula for fractional Brownian motion, Malliavin calculus, derivative replication and the fundamental solution method. Some numerical simulations are given to illustrate the impact of parameters on option prices, and the results of comparison with other models are presented. doi:10.1017/S1446181121000225

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Laplace Transform Homotopy Perturbation Method for the Two Dimensional Black Scholes Model with European Call Option

Mathematical and Computational Applications ◽

10.3390/mca22010023 ◽

2017 ◽

Vol 22 (1) ◽

pp. 23 ◽

Cited By ~ 3

Author(s):

Kamonchat Trachoo ◽

Wannika Sawangtong ◽

Panumart Sawangtong

Keyword(s):

Laplace Transform ◽

Perturbation Method ◽

Homotopy Perturbation Method ◽

Two Dimensional ◽

Call Option ◽

Homotopy Perturbation ◽

European Call Option ◽

Black Scholes Model ◽

Black Scholes

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A Stochastic Harmonic Oscillator Temperature Model for the Valuation of Weather Derivatives

Mathematics ◽

10.3390/math9222890 ◽

2021 ◽

Vol 9 (22) ◽

pp. 2890

Author(s):

Alessio Giorgini ◽

Rogemar S. Mamon ◽

Marianito R. Rodrigo

Keyword(s):

Sensitivity Analysis ◽

Parameter Estimation ◽

Harmonic Oscillator ◽

Numerical Simulations ◽

Model Parameters ◽

Call Option ◽

Temperature Model ◽

Option Prices ◽

Harmonic Oscillator Model ◽

Temperature Dynamics

Stochastic processes are employed in this paper to capture the evolution of daily mean temperatures, with the goal of pricing temperature-based weather options. A stochastic harmonic oscillator model is proposed for the temperature dynamics and results of numerical simulations and parameter estimation are presented. The temperature model is used to price a one-month call option and a sensitivity analysis is undertaken to examine how call option prices are affected when the model parameters are varied.

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