Your search keyword '"q-fin.PR"' showing total 21 results

1. Randomization of Short-Rate Models, Analytic Pricing and Flexibility in Controlling Implied Volatilities

Subjects

q-fin.CP, q-fin.PM, q-fin.RM, q-fin.MF, q-fin.PR

Abstract

We focus on extending existing short-rate models, enabling control of the generated implied volatility while preserving analyticity. We achieve this goal by applying the Randomized Affine Diffusion (RAnD) method to the class of short-rate processes under the Heath-Jarrow-Morton framework. Under arbitrage-free conditions, the model parameters can be exogenously stochastic, thus facilitating additional degrees of freedom that enhance the calibration procedure. We show that with the randomized short-rate models, the shapes of implied volatility can be controlled and significantly improve the quality of the model calibration, even for standard 1D variants. In particular, we illustrate that randomization applied to the Hull-White model leads to dynamics of the local volatility type, with the prices for standard volatility-sensitive derivatives explicitly available. The randomized Hull-White (rHW) model offers an almost perfect calibration fit to the swaption implied volatilities.

Published

2022

2. On Randomization of Affine Diffusion Processes with Application to Pricing of Options on VIX and S&P 500

Author

Grzelak, Lech A. and Grzelak, Lech A.

Abstract

The class of Affine (Jump) Diffusion (AD) has, due to its closed form characteristic function (ChF), gained tremendous popularity among practitioners and researchers. However, there is clear evidence that a linearity constraint is insufficient for precise and consistent option pricing. Any non-affine model must pass the strict requirement of quick calibration -- which is often challenging. We focus here on Randomized AD (RAnD) models, i.e., we allow for exogenous stochasticity of the model parameters. Randomization of a pricing model occurs outside the affine model and, therefore, forms a generalization that relaxes the affinity constraints. The method is generic and can apply to any model parameter. It relies on the existence of moments of the so-called randomizer- a random variable for the stochastic parameter. The RAnD model allows flexibility while benefiting from fast calibration and well-established, large-step Monte Carlo simulation, often available for AD processes. The article will discuss theoretical and practical aspects of the RAnD method, like derivations of the corresponding ChF, simulation, and computations of sensitivities. We will also illustrate the advantages of the randomized stochastic volatility models in the consistent pricing of options on the S&P 500 and VIX.

Published

2022

3. Efficient Pricing and Calibration of High-Dimensional Basket Options

Author

Grzelak, Lech A., Jablecki, Juliusz, Gatarek, Dariusz, Grzelak, Lech A., Jablecki, Juliusz, and Gatarek, Dariusz

Abstract

This paper studies equity basket options -- i.e., multi-dimensional derivatives whose payoffs depend on the value of a weighted sum of the underlying stocks -- and develops a new and innovative approach to ensure consistency between options on individual stocks and on the index comprising them. Specifically, we show how to resolve a well-known problem that when individual constituent distributions of an equity index are inferred from the single-stock option markets and combined in a multi-dimensional local/stochastic volatility model, the resulting basket option prices will not generate a skew matching that of the options on the equity index corresponding to the basket. To address this ``insufficient skewness'', we proceed in two steps. First, we propose an ``effective'' local volatility model by mapping the general multi-dimensional basket onto a collection of marginal distributions. Second, we build a multivariate dependence structure between all the marginal distributions assuming a jump-diffusion model for the effective projection parameters, and show how to calibrate the basket to the index smile. Numerical tests and calibration exercises demonstrate an excellent fit for a basket of as many as 30 stocks with fast calculation time.

Published

2022

4. Randomization of Short-Rate Models, Analytic Pricing and Flexibility in Controlling Implied Volatilities

Author

Grzelak, Lech A. and Grzelak, Lech A.

Abstract

We focus on extending existing short-rate models, enabling control of the generated implied volatility while preserving analyticity. We achieve this goal by applying the Randomized Affine Diffusion (RAnD) method to the class of short-rate processes under the Heath-Jarrow-Morton framework. Under arbitrage-free conditions, the model parameters can be exogenously stochastic, thus facilitating additional degrees of freedom that enhance the calibration procedure. We show that with the randomized short-rate models, the shapes of implied volatility can be controlled and significantly improve the quality of the model calibration, even for standard 1D variants. In particular, we illustrate that randomization applied to the Hull-White model leads to dynamics of the local volatility type, with the prices for standard volatility-sensitive derivatives explicitly available. The randomized Hull-White (rHW) model offers an almost perfect calibration fit to the swaption implied volatilities.

Published

2022

5. Large and moderate deviations for stochastic Volterra systems

Author

Alexandre Pannier, Antoine Jacquier, and Engineering & Physical Science Research Council (EPSRC)

Subjects

Statistics and Probability, Applied Mathematics, Statistics & Probability, Probability (math.PR), 0104 Statistics, 60F10, 60G22, 91G20, 1502 Banking, Finance and Investment, math.PR, FOS: Economics and business, Modeling and Simulation, 0102 Applied Mathematics, FOS: Mathematics, Pricing of Securities (q-fin.PR), Quantitative Finance - Pricing of Securities, q-fin.PR, Mathematics - Probability

Abstract

We provide a unified treatment of pathwise Large and Moderate deviations principles for a general class of multidimensional stochastic Volterra equations with singular kernels, not necessarily of convolution form. Our methodology is based on the weak convergence approach by Budhijara, Dupuis and Ellis. We show in particular how this framework encompasses most rough volatility models used in mathematical finance and generalises many recent results in the literature., 39 pages

Published

2022

6. Pathwise moderate deviations for option pricing

Author

Konstantinos Spiliopoulos and Antoine Jacquier

Subjects

Mathematics, Interdisciplinary Applications, Economics and Econometrics, DIFFUSION-APPROXIMATION, FUNCTIONALS, Economics, Social Sciences, math.PR, 01 natural sciences, STOCHASTIC VOLATILITY, FOS: Economics and business, 010104 statistics & probability, SYSTEMS, Business & Economics, 0102 Applied Mathematics, Accounting, Transfer (computing), q-fin.MF, 0502 economics and business, FOS: Mathematics, Econometrics, 0101 mathematics, Scaling, Mathematics, Science & Technology, 050208 finance, Applied Mathematics, Probability (math.PR), 05 social sciences, 1502 Banking, Finance and Investment, Social Sciences, Mathematical Methods, POISSON EQUATION, Business, Finance, Mathematical Finance (q-fin.MF), Quantitative Finance - Mathematical Finance, Valuation of options, Physical Sciences, Large deviations theory, PRINCIPLE, Pricing of Securities (q-fin.PR), Moderate deviations, Quantitative Finance - Pricing of Securities, q-fin.PR, Mathematics - Probability, Mathematical Methods In Social Sciences, Social Sciences (miscellaneous), Finance

Abstract

We provide a unifying treatment of pathwise moderate deviations for models commonly used in financial applications, and for related integrated functionals. Suitable scaling enables us to transfer these results into small‐time, large‐time, and tail asymptotics for diffusions, as well as for option prices and realized variances. In passing, we highlight some intuitive relationships between moderate deviations rate functions and their large deviations counterparts; these turn out to be useful for numerical purposes, as large deviations rate functions are often difficult to compute.

Published

2019

7. The geometry of multi-marginal Skorokhod Embedding

Author

Martin Huesmann, Mathias Beiglböck, and Alexander M. G. Cox

Subjects

Statistics and Probability, Multiple marginals, Skorokhod problem, math.PR, 01 natural sciences, Article, FOS: Economics and business, Embedding problem, 010104 statistics & probability, Bernoulli's principle, Optimal transport, FOS: Mathematics, 60G44, 0101 mathematics, Mathematics, Discrete mathematics, Martingale optimal transport, Stochastic process, 60G42, 60G44, 91G20, Mathematical finance, Probability (math.PR), 010102 general mathematics, Primary 60G42, Peacocks, Skorokhod embedding, Secondary 91G20, Embedding, Pricing of Securities (q-fin.PR), Statistics, Probability and Uncertainty, Martingale (probability theory), Quantitative Finance - Pricing of Securities, q-fin.PR, Mathematics - Probability, Analysis

Abstract

The Skorokhod Embedding Problem is one of the classical problems in the theory of stochastic processes, with applications in many different fields [cf. the surveys (Hobson in: Paris-Princeton lectures on mathematical finance 2010, Volume 2003 of Lecture Notes in Mathematics, Springer, Berlin, 2011; Obłój in: Probab Surv 1:321–390, 2004)]. Many of these applications have natural multi-marginal extensions leading to the (optimal) multi-marginal Skorokhod problem. Some of the first papers to consider this problem are Brown et al. (Probab Theory Relat Fields 119(4):558–578, 2001), Hobson (Séminaire de Probabilités, XXXII, Volume 1686 of Lecture Notes in Mathematics, Springer, Berlin, 1998), Madan and Yor (Bernoulli 8(4):509–536, 2002). However, this turns out to be difficult using existing techniques: only recently a complete solution was be obtained in Cox et al. (Probab Theory Relat Fields 173:211–259, 2018) establishing an extension of the Root construction, while other instances are only partially answered or remain wide open. In this paper, we extend the theory developed in Beiglböck et al. (Invent Math 208(2):327–400, 2017) to the multi-marginal setup which is comparable to the extension of the optimal transport problem to the multi-marginal optimal transport problem. As for the one-marginal case, this viewpoint turns out to be very powerful. In particular, we are able to show that all classical optimal embeddings have natural multi-marginal counterparts. Notably these different constructions are linked through a joint geometric structure and the classical solutions are recovered as particular cases. Moreover, our results also have consequences for the study of the martingale transport problem as well as the peacock problem.

Published

2019

8. The Randomized Heston Model

Author

Antoine Jacquier, Fangwei Shi, and Engineering & Physical Science Research Council (EPSRC)

Subjects

Mathematics, Interdisciplinary Applications, Social Sciences, SMILE ASYMPTOTICS, Implied volatility, 01 natural sciences, STOCHASTIC VOLATILITY, 010104 statistics & probability, IMPLIED VOLATILITY, JUMPS, Computer Science::Computational Engineering, Finance, and Science, Business & Economics, TERM STRUCTURE, 0102 Applied Mathematics, 0502 economics and business, Applied mathematics, Point (geometry), 0101 mathematics, Heston, Mathematics, LARGE DEVIATIONS, Numerical Analysis, Science & Technology, asymptotic expansion, 050208 finance, Stochastic volatility, 60F10, 91G20, 91B70, Applied Mathematics, 05 social sciences, Social Sciences, Mathematical Methods, Variance (accounting), Business, Finance, Heston model, Physical Sciences, Large deviations theory, Asymptotic expansion, q-fin.PR, Mathematical Methods In Social Sciences, BEHAVIOR, Finance

Abstract

We propose a randomised version of the Heston model-a widely used stochastic volatility model in mathematical finance-assuming that the starting point of the variance process is a random variable. In such a system, we study the small- and large-time behaviours of the implied volatility, and show that the proposed randomisation generates a short-maturity smile much steeper (`with explosion') than in the standard Heston model, thereby palliating the deficiency of classical stochastic volatility models in short time. We precisely quantify the speed of explosion of the smile for short maturities in terms of the right tail of the initial distribution, and in particular show that an explosion rate of~tγ (γ∈[0,1/2]) for the squared implied volatility-as observed on market data-can be obtained by a suitable choice of randomisation. The proofs are based on large deviations techniques and the theory of regular variations.

Published

2019

9. Anomalous diffusions in option prices: connecting trade duration and the volatility term structure

Author

Jacquier, A and Torricelli, L

Subjects

91G20, q-fin.PR

Abstract

Anomalous diffusions arise as scaling limits of continuous-time random walks (CTRWs) whose innovation times are distributed according to a power law. The impact of a non-exponential waiting time does not vanish with time and leads to different distribution spread rates compared to standard models. In financial modelling this has been used to accommodate for random trade duration in the tick-by-tick price process. We show here that anomalous diffusions are able to reproduce the market behaviour of the implied volatility more consistently than usual Lévy or stochastic volatility models. We focus on two distinct classes of underlying asset models, one with independent price innovations and waiting times, and one allowing dependence between these two components. These two models capture the well-known paradigm according to which shorter trade duration is associated with higher return impact of individual trades. We fully describe these processes in a semimartingale setting leading no-arbitrage pricing formulae, and study their statistical properties. We observe that skewness and kurtosis of the asset returns do not tend to zero as time goes by. We also characterize the large-maturity asymptotics of Call option prices, and find that the convergence rate is slower than in standard Lévy regimes, which in turn yields a declining implied volatility term structure and a slower decay of the skew.

Published

2019

10. The multivariate mixture dynamics model: shifted dynamics and correlation skew

Author

Camilla Pisani, Francesco Rapisarda, and Damiano Brigo

Subjects

Multivariate statistics, Operations Research, Generalization, 60H10, 60J60, 62H20, 91B28, 91B70, 0211 other engineering and technologies, Extrapolation, General Decision Sciences, 02 engineering and technology, Management Science and Operations Research, Implied volatility, Projection (linear algebra), FOS: Economics and business, Econometrics, Economics, Statistical physics, Brownian motion, 01 Mathematical Sciences, Mathematics, 021103 operations research, 15 Commerce, Management, Tourism and Services, Univariate, Random variate, q-fin.RM, Risk Management (q-fin.RM), Log-normal distribution, Volatility smile, Pricing of Securities (q-fin.PR), 08 Information and Computing Sciences, Quantitative Finance - Pricing of Securities, q-fin.PR, Quantitative Finance - Risk Management

Abstract

The multi variate mixture dynamics model is a tractable, dynamical, arbitrage-free multivariate model characterized by transparency on the dependence structure, since closed form formulae for terminal correlations, average correlations and copula function are available. It also allows for complete decorrelation between assets and instantaneous variances. Each single asset is modelled according to a lognormal mixture dynamics model, and this univariate version is widely used in the industry due to its flexibility and accuracy. The same property holds for the multivariate process of all assets, whose density is a mixture of multivariate basic densities. This allows for consistency of single asset and index/portfolio smile. In this paper, we generalize the MVMD model by introducing shifted dynamics and we propose a definition of implied correlation under this model. We investigate whether the model is able to consistently reproduce the implied volatility of FX cross rates once the single components are calibrated to univariate shifted lognormal mixture dynamics models. We consider in particular the case of the Chinese Renminbi FX rate, showing that the shifted MVMD model correctly recovers the CNY/EUR smile given the EUR/USD smile and the USD/CNY smile, thus highlighting that the model can also work as an arbitrage free volatility smile extrapolation tool for cross currencies that may not be liquid or fully observable. We compare the performance of the shifted MVMD model in terms of implied correlation with those of the shifted simply correlated mixture dynamics model where the dynamics of the single assets are connected naively by introducing correlation among their Brownian motions. Finally, we introduce a model with uncertain volatilities and correlation. The Markovian projection of this model is a generalization of the shifted MVMD model.

Published

2019

11. Large-maturity regimes of the Heston forward smile

Author

Patrick Roome, Antoine Jacquier, and Engineering & Physical Science Research Council (EPSRC)

Subjects

Forward implied volatility, SABR volatility model, math.PR, 01 natural sciences, Convexity, 010104 statistics & probability, 0102 Applied Mathematics, Forward volatility, 60F10, 91G99, 91G60, Sharp large deviations, MOMENT EXPLOSIONS, Mathematics, LARGE DEVIATIONS, SMALL-TIME ASYMPTOTICS, 050208 finance, Stochastic volatility, Applied Mathematics, 0104 Statistics, 05 social sciences, 1502 Banking, Finance and Investment, asymptotic expansions, Heston model, EXPANSIONS, Modeling and Simulation, Physical Sciences, Volatility smile, q-fin.PR, Mathematical economics, BEHAVIOR, Mathematics - Probability, Statistics and Probability, Statistics & Probability, MODELS, Asymptotic expansion, Implied volatility, STOCHASTIC VOLATILITY, FOS: Economics and business, IMPLIED VOLATILITY, 0502 economics and business, FOS: Mathematics, Applied mathematics, 0101 mathematics, Heston, Science & Technology, Probability (math.PR), FORMULAS, Large deviations theory, Pricing of Securities (q-fin.PR), OPTION PRICES, Quantitative Finance - Pricing of Securities

Abstract

We provide a full characterisation of the large-maturity forward implied volatility smile in the Heston model. Although the leading decay is provided by a fairly classical large deviations behaviour, the algebraic expansion providing the higher-order terms highly depends on the parameters, and different powers of the maturity come into play. As a by-product of the analysis we provide new implied volatility asymptotics, both in the forward case and in the spot case, as well as extended SVI-type formulae. The proofs are based on extensions and refinements of sharp large deviations theory, in particular in cases where standard convexity arguments fail., 32 pages, 16 figures New Section 5 providing more (financial) intuitions

Published

2016

12. Pathwise large deviations for the rough Bergomi model

Author

Mikko S. Pakkanen, Antoine Jacquier, and Henry Stone

Subjects

Statistics and Probability, General Mathematics, Statistics & Probability, 60F10, 60G22, Implied volatility, 01 natural sciences, math.PR, large deviations, STOCHASTIC VOLATILITY, FOS: Economics and business, 010104 statistics & probability, IMPLIED VOLATILITY, JUMPS, 0102 Applied Mathematics, 0502 economics and business, FOS: Mathematics, Applied mathematics, 0101 mathematics, reproducing kernel Hilbert space, Mathematics, 050208 finance, Science & Technology, Stochastic volatility, Rough volatility, Mathematical finance, 05 social sciences, Probability (math.PR), 0104 Statistics, Probabilistic logic, ASYMPTOTICS, small-time asymptotics, Gaussian measure, DIFFUSION, Exponential function, 8. Economic growth, Physical Sciences, Large deviations theory, Pricing of Securities (q-fin.PR), PRINCIPLE, Statistics, Probability and Uncertainty, Volatility (finance), Quantitative Finance - Pricing of Securities, q-fin.PR, Mathematics - Probability

Abstract

We study the small-time behaviour of the rough Bergomi model, introduced by Bayer, Friz and Gatheral (2016), and prove a large deviations principle for a rescaled version of the normalised log stock price process, which then allows us to characterise the small-time behaviour of the implied volatility., 12 Pages

Published

2018

13. Bilateral counterparty risk valuation for interest-rate products: impact of volatilities and correlations

Author

Brigo, D, Pallavicini, A, and Papatheodorou, V

Subjects

q-fin.CP, q-fin.PR

Abstract

The purpose of this paper is introducing rigorous methods and formulas for bilateral counterparty risk credit valuation adjustments (CVA's) on interest-rate portfolios. In doing so, we summarize the general arbitrage-free valuation framework for counterparty risk adjustments in presence of bilateral default risk, as developed more in detail in Brigo and Capponi (2008), including the default of the investor. We illustrate the symmetry in the valuation and show that the adjustment involves a long position in a put option plus a short position in a call option, both with zero strike and written on the residual net present value of the contract at the relevant default times. We allow for correlation between the default times of the investor and counterparty, and for correlation of each with the underlying risk factor, namely interest rates. We also analyze the often neglected impact of credit spread volatility. We include Netting in our examples, although other agreements such as Margining and Collateral are left for future work.

Published

2017

14. Default correlation, cluster dynamics and single names: The GPCL dynamical loss model

Author

Brigo, D, Pallavicini, A, and Torresetti, R

Subjects

q-fin.CP, q-fin.PR

Abstract

We extend the common Poisson shock framework reviewed for example in Lindskog and McNeil (2003) to a formulation avoiding repeated defaults, thus obtaining a model that can account consistently for single name default dynamics, cluster default dynamics and default counting process. This approach allows one to introduce significant dynamics, improving on the standard "bottom-up" approaches, and to achieve true consistency with single names, improving on most "top-down" loss models. Furthermore, the resulting GPCL model has important links with the previous GPL dynamical loss model in Brigo, Pallavicini and Torresetti (2006a,b), which we point out. Model extensions allowing for more articulated spread and recovery dynamics are hinted at. Calibration to both DJi-TRAXX and CDX index and tranche data across attachments and maturities shows that the GPCL model has the same calibration power as the GPL model while allowing for consistency with single names

Published

2017

15. Collateral Margining in Arbitrage-Free Counterparty Valuation Adjustment including Re-Hypotecation and Netting

Author

Brigo, D, Capponi, A, Pallavicini, A, and Papatheodorou, V

Subjects

q-fin.CP, q-fin.RM, 60J75, 91B70, q-fin.PR

Abstract

This paper generalizes the framework for arbitrage-free valuation of bilateral counterparty risk to the case where collateral is included, with possible re-hypotecation. We analyze how the payout of claims is modified when collateral margining is included in agreement with current ISDA documentation. We then specialize our analysis to interest-rate swaps as underlying portfolio, and allow for mutual dependences between the default times of the investor and the counterparty and the underlying portfolio risk factors. We use arbitrage-free stochastic dynamical models, including also the effect of interest rate and credit spread volatilities. The impact of re-hypotecation, of collateral margining frequency and of dependencies on the bilateral counterparty risk adjustment is illustrated with a numerical example.

Published

2017

16. Impact of Multiple Curve Dynamics in Credit Valuation Adjustments under Collateralization

Author

Bormetti, G, Brigo, D, Francischello, M, and Pallavicini, A

Subjects

q-fin.CP, 60J75, 91B70, q-fin.PR

Abstract

We present a detailed analysis of interest rate derivatives valuation under credit risk and collateral modeling. We show how the credit and collateral extended valuation framework in Pallavicini et al (2011), and the related collateralized valuation measure, can be helpful in defining the key market rates underlying the multiple interest rate curves that characterize current interest rate markets. A key point is that spot Libor rates are to be treated as market primitives rather than being defined by no-arbitrage relationships. We formulate a consistent realistic dynamics for the different rates emerging from our analysis and compare the resulting model performances to simpler models used in the industry. We include the often neglected margin period of risk, showing how this feature may increase the impact of different rates dynamics on valuation. We point out limitations of multiple curve models with deterministic basis considering valuation of particularly sensitive products such as basis swaps. We stress that a proper wrong way risk analysis for such products requires a model with a stochastic basis and we show numerical results confirming this fact.

Published

2017

17. Turbocharging Monte Carlo pricing for the rough Bergomi model

Author

Ryan McCrickerd and Mikko S. Pakkanen

Subjects

Mathematics, Interdisciplinary Applications, q-fin.CP, Economics, Option pricing, Monte Carlo method, Social Sciences, Computational Finance (q-fin.CP), Implied volatility, 01 natural sciences, STOCHASTIC VOLATILITY, FOS: Economics and business, 010104 statistics & probability, Quantitative Finance - Computational Finance, Business & Economics, 0502 economics and business, Econometrics, 0101 mathematics, Monte Carlo, 01 Mathematical Sciences, 14 Economics, 050208 finance, Science & Technology, Rough volatility, Variance reduction, 05 social sciences, Social Sciences, Mathematical Methods, Business, Finance, 91G60, 91G20, Valuation of options, Physical Sciences, 15 Commerce, Management, Tourism And Services, Pricing of Securities (q-fin.PR), Volatility (finance), General Economics, Econometrics and Finance, q-fin.PR, Quantitative Finance - Pricing of Securities, Mathematics, Mathematical Methods In Social Sciences, Finance

Abstract

The rough Bergomi model, introduced by Bayer, Friz and Gatheral [Quant. Finance 16(6), 887-904, 2016], is one of the recent rough volatility models that are consistent with the stylised fact of implied volatility surfaces being essentially time-invariant, and are able to capture the term structure of skew observed in equity markets. In the absence of analytical European option pricing methods for the model, we focus on reducing the runtime-adjusted variance of Monte Carlo implied volatilities, thereby contributing to the model's calibration by simulation. We employ a novel composition of variance reduction methods, immediately applicable to any conditionally log-normal stochastic volatility model. Assuming one targets implied volatility estimates with a given degree of confidence, thus calibration RMSE, the results we demonstrate equate to significant runtime reductions - roughly 20 times on average, across different correlation regimes., 16 pages, 10 figures, v3: minor amendments and reformatted

Published

2017

18. Arbitrage-free SVI volatility surfaces

Author

Antoine Jacquier and Jim Gatheral

Subjects

Large class, Variance swap, Economics, Social Sciences, Volatility risk premium, Business & Economics, Forward volatility, Arbitrage relationship, Econometrics, G12, Mathematics, 15 Commerce, Management, Tourism and Services, Stochastic volatility, G13, C60, C63, Physical Sciences, Volatility smile, q-fin.PR, General Economics, Econometrics and Finance, Mathematical Methods In Social Sciences, Mathematics, Interdisciplinary Applications, Financial economics, Volatility smile fitting, Financial engineering, Implied volatility, FOS: Economics and business, PRICES, Volatility surfaces, IMPLIED VOLATILITY, Volatility swap, Representation (mathematics), 01 Mathematical Sciences, 14 Economics, Science & Technology, Financial mathematics, Mathematical finance, 91G60, Social Sciences, Mathematical Methods, Business, Finance, Arbitrage pricing, Pricing of Securities (q-fin.PR), Arbitrage, Volatility (finance), Quantitative Finance - Pricing of Securities, Finance

Abstract

In this article, we show how to calibrate the widely-used SVI parameterization of the implied volatility surface in such a way as to guarantee the absence of static arbitrage. In particular, we exhibit a large class of arbitrage-free SVI volatility surfaces with a simple closed-form representation. We demonstrate the high quality of typical SVI fits with a numerical example using recent SPX options data., 25 pages, 6 figures Corrected some typos. Extended bibliography. Paper restructured, Main theorem (Theorem 4.1) improved. Proof of Theorem 4.3 amended

Published

2013

19. Static vs Adapted Optimal Execution Strategies in Two Benchmark Trading Models

Author

Clement Piat and Damiano Brigo

Subjects

Mathematical optimization, Quantitative Finance - Trading and Market Microstructure, Expected cost, Computer science, Process (computing), Type (model theory), computer.software_genre, Trading and Market Microstructure (q-fin.TR), FOS: Economics and business, Dynamic programming, q-fin.TR, Expected shortfall, Discrete time and continuous time, Benchmark (computing), 60H10, 60J60, 91B70, Operations management, Pricing of Securities (q-fin.PR), Information flow (information theory), Algorithmic trading, Market impact, Quantitative Finance - Pricing of Securities, q-fin.PR, computer, Value at risk

Abstract

We consider the optimal solutions to the trade execution problem in the two different classes of i) fully adapted or adaptive and ii) deterministic or static strategies, comparing them. We do this in two different benchmark models. The first model is a discrete time framework with an information flow process, dealing with both permanent and temporary impact, minimizing the expected cost of the trade. The second model is a continuous time framework where the objective function is the sum of the expected cost and a value at risk (or expected shortfall) type risk criterion. Optimal adapted solutions are known in both frameworks from the original works of Bertsimas and Lo (1998) and Gatheral and Schied (2011). In this paper we derive the optimal static strategies for both benchmark models and we study quantitatively the improvement in optimality when moving from static strategies to fully adapted ones. We conclude that, in the benchmark models we study, the difference is not relevant, except for extreme unrealistic cases for the model or impact parameters. This indirectly confirms that in the similar framework of Almgren and Chriss (2000) one is fine deriving a static optimal solution, as done by those authors, as opposed to a fully adapted one, since the static solution happens to be tractable and known in closed form.

Published

2016

20. Hybrid scheme for Brownian semistationary processes

Author

Mikko S. Pakkanen, Mikkel Bennedsen, and Asger Lunde

Subjects

Monte Carlo method, Social Sciences, 01 natural sciences, math.PR, 010104 statistics & probability, Business & Economics, 0102 Applied Mathematics, Stochastic volatility, Brownian motion, Mathematics, 050208 finance, 05 social sciences, 0104 Statistics, 1502 Banking, Finance and Investment, Estimator, Stochastic simulation, Volatility smile, Physical Sciences, symbols, Statistics, Probability and Uncertainty, q-fin.PR, Mathematics - Probability, Mathematical Methods In Social Sciences, Statistics and Probability, Mathematics, Interdisciplinary Applications, Discretization, Mean squared error, Option pricing, Statistics & Probability, Regular variation, MODELS, FOS: Economics and business, Brownian semistationary process, symbols.namesake, Riemann sum, 0502 economics and business, FOS: Mathematics, Applied mathematics, 0101 mathematics, Science & Technology, Rough volatility, Mathematical finance, Probability (math.PR), Social Sciences, Mathematical Methods, Business, Finance, 60G12, 60G22, 65C20, 91G60, 62M09, Step function, TURBULENCE, Pricing of Securities (q-fin.PR), Quantitative Finance - Pricing of Securities, Estimation, VOLATILITY, SPOT PRICES, Finance

Abstract

We introduce a simulation scheme for Brownian semistationary processes, which is based on discretizing the stochastic integral representation of the process in the time domain. We assume that the kernel function of the process is regularly varying at zero. The novel feature of the scheme is to approximate the kernel function by a power function near zero and by a step function elsewhere. The resulting approximation of the process is a combination of Wiener integrals of the power function and a Riemann sum, which is why we call this method a hybrid scheme. Our main theoretical result describes the asymptotics of the mean square error of the hybrid scheme and we observe that the scheme leads to a substantial improvement of accuracy compared to the ordinary forward Riemann-sum scheme, while having the same computational complexity. We exemplify the use of the hybrid scheme by two numerical experiments, where we examine the finite-sample properties of an estimator of the roughness parameter of a Brownian semistationary process and study Monte Carlo option pricing in the rough Bergomi model of Bayer et al. [Quant. Finance 16(6), 887-904, 2016], respectively., 33 pages, 4 figures, v4: minor revision, in particular we have derived a new expression (3.5), equivalent to the previous one but numerically more convenient, for the off-diagonal elements of the covariance matrix Sigma

Published

2015

21. On the Existence of Consistent Price Systems

Author

Hasanjan Sayit, Erhan Bayraktar, and Mikko S. Pakkanen

Subjects

Statistics and Probability, Transaction cost, Property (philosophy), Continuous function, Process (engineering), Applied Mathematics, Price system, FOS: Economics and business, q-fin.GN, PRICE Systems, Support condition, Arbitrage, Pricing of Securities (q-fin.PR), Statistics, Probability and Uncertainty, General Finance (q-fin.GN), Quantitative Finance - General Finance, Mathematical economics, q-fin.PR, Quantitative Finance - Pricing of Securities, Mathematics

Abstract

We formulate a sufficient condition for the existence of a consistent price system (CPS), which is weaker than the conditional full support condition (CFS) introduced by Guasoni, Rasonyi, and Schachermayer [Ann. Appl. Probab., 18(2008), pp. 491-520] . We use the new condition to show the existence of CPSs for certain processes that fail to have the CFS property. In particular this condition gives sufficient conditions, under which a continuous function of a process with CFS admits a CPS, while the CFS property might be lost., To appear in "Stochastic Analysis and Applications". Keywords: Consistent pricing systems, No-arbitrage, Transaction costs, Full support, Conditional Full Support, Stability under Composition with Continuous Functions

Published

2009