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96 results on '"Cretarola, Alessandra"'

1. Optimal reinsurance in a dynamic contagion model: comparing self-exciting and externally-exciting risks

Author

Ceci, Claudia and Cretarola, Alessandra

Subjects
Mathematics - Optimization and Control, Quantitative Finance - Mathematical Finance
Abstract

We investigate the optimal reinsurance problem in a risk model with jump clustering features. This modeling framework is inspired by the concept initially proposed in Dassios and Zhao (2011), combining Hawkes and Cox processes with shot noise intensity models. Specifically, these processes describe self-exciting and externally excited jumps in the claim arrival intensity, respectively. The insurer aims to maximize the expected exponential utility of terminal wealth for general reinsurance contracts and reinsurance premiums. We discuss two different methodologies: the classical stochastic control approach based on the Hamilton-Jacobi-Bellman (HJB) equation and a backward stochastic differential equation (BSDE) approach. In a Markovian setting, differently from the classical HJB-approach, the BSDE method enables us to solve the problem without imposing any requirements for regularity on the associated value function. We provide a Verification Theorem in terms of a suitable BSDE driven by a two-dimensional marked point process and we prove an existence result relaying on the theory developed in Papapantoleon et al. (2018) for stochastic Lipschitz generators. After discussing the optimal strategy for general reinsurance contracts and reinsurance premiums, we provide more explicit results in some relevant cases. Finally, we provide comparison results that highlight the heightened risk stemming from the self-exciting component in contrast to the externally-excited counterpart and discuss the the monotonicity property of the value function., Comment: 38 pages

Published
2024

4. Utility-based indifference pricing of pure endowments in a Markov-modulated market model

Author

Cretarola, Alessandra and Salterini, Benedetta

Subjects
Quantitative Finance - Portfolio Management
Abstract

In this paper we study exponential utility indifference pricing of pure endowment policies in a stochastic-factor model for an insurance company, which can also invest in a financial market. Specifically, we propose a modeling framework where the hazard rate is described by an observable general diffusion process and the risky asset price evolves as a jump diffusion affected by a continuous-time finite-state Markov chain representing regimes of the economy. Using the classical stochastic control approach based on the Hamilton-Jacobi-Bellman equation, we describe the optimal investment strategies with and without the insurance derivative and characterize the indifference price in terms of a classical solution to a linear PDE. We also provide its probabilistic representation via an extension of the Feynman-Kac formula show that it satisfies a final value problem. Furthermore, we also discuss the indifference price for a portfolio of insurance policies and for a term life insurance. Finally, some numerical experiments are performed to address sensitivity analyses.

Published
2023

5. Optimal investment and reinsurance under exponential forward preferences

Author

Colaneri, Katia, Cretarola, Alessandra, and Salterini, Benedetta

Subjects
Quantitative Finance - Mathematical Finance, Quantitative Finance - Portfolio Management, 60G55, 60J60, 91B30, 93E20
Abstract

We study the optimal investment and proportional reinsurance problem of an insurance company, whose investment preferences are described via a forward dynamic utility of exponential type in a stochastic factor model allowing for a possible dependence between the financial and insurance markets. Specifically, we assume that the asset price process dynamics and the claim arrival intensity are both affected by a common stochastic process and we account for a possible environmental contagion effect through the non-zero correlation parameter between the underlying Brownian motions driving the asset price process and the stochastic factor dynamics. By stochastic control techniques, we construct a forward dynamic exponential utility, and we characterize the optimal investment and reinsurance strategy. Moreover, we investigate in detail the zero-volatility case and provide a comparison analysis with classical results in an analogous setting under backward utility preferences. We also discuss an extension of the conditional certainty equivalent. Finally, we perform a numerical analysis to highlight some features of the optimal strategy., Comment: 38 pages, 9 figures

Published
2022

6. Optimal investment and proportional reinsurance in a regime-switching market model under forward preferences

Author

Colaneri, Katia, Cretarola, Alessandra, and Salterini, Benedetta

Subjects
Quantitative Finance - Portfolio Management, 60G55, 60J60, 91B30, 93E20
Abstract

In this paper we study the optimal investment and reinsurance problem of an insurance company whose investment preferences are described via a forward dynamic exponential utility in a regime-switching market model. Financial and actuarial frameworks are dependent since stock prices and insurance claims vary according to a common factor given by a continuous time finite state Markov chain. We construct the value function and we prove that it is a forward dynamic utility. Then, we characterize the investment strategy and the optimal proportional level of reinsurance. We also perform numerical experiments and provide sensitivity analyses with respect to some model parameters., Comment: 32 pages, 6 figures, 1 table

Published
2021

7. Optimal Reinsurance and Investment under Common Shock Dependence Between Financial and Actuarial Markets

Author

Ceci, Claudia, Colaneri, Katia, and Cretarola, Alessandra

Subjects
Quantitative Finance - Portfolio Management, Quantitative Finance - Mathematical Finance
Abstract

We study optimal proportional reinsurance and investment strategies for an insurance company which experiences both ordinary and catastrophic claims and wishes to maximize the expected exponential utility of its terminal wealth. We propose a model where the insurance framework is affected by environmental factors, and aggregate claims and stock prices are subject to common shocks, i.e. drastic events such as earthquakes, extreme weather conditions, or even pandemics, that have an immediate impact on the financial market and simultaneously induce insurance claims. Using the classical stochastic control approach based on the Hamilton-Jacobi-Bellman equation, we provide a verification result for the value function via classical solutions to two backward partial differential equations and characterize the optimal reinsurance and investment strategies. Finally, we make a comparison analysis to discuss the effect of common shock dependence.

Published
2021

8. Indifference pricing of pure endowments via BSDEs under partial information

Author

Ceci, Claudia, Colaneri, Katia, and Cretarola, Alessandra

Subjects
Quantitative Finance - Mathematical Finance, 91B30, 91B25, 93E20, 60G35
Abstract

In this paper we investigate the pricing problem of a pure endowment contract when the insurer has a limited information on the mortality intensity of the policyholder. The payoff of this kind of policies depends on the residual life time of the insured as well as the trend of a portfolio traded in the financial market, where investments in a riskless asset, a risky asset and a longevity bond are allowed. We propose a modeling framework that takes into account mutual dependence between the financial and the insurance markets via an observable stochastic process, which affects the risky asset and the mortality index dynamics. Since the market is incomplete due to the presence of basis risk, in alternative to arbitrage pricing we use expected utility maximization under exponential preferences as evaluation approach, which leads to the so-called indifference price. Under partial information this methodology requires filtering techniques that can reduce the original control problem to an equivalent problem in complete information. Using stochastic dynamics techniques, we characterize the indifference price of the insurance derivative via the solutions of suitable backward stochastic differential equations., Comment: 36 pages

Published
2018

10. A sentiment-based model for the BitCoin: theory, estimation and option pricing

Author

Cretarola, Alessandra, Figà-Talamanca, Gianna, and Patacca, Marco

Subjects
Quantitative Finance - Mathematical Finance
Abstract

In recent literature it is claimed that BitCoin price behaves more likely to a volatile stock asset than a currency and that changes in its price are influenced by sentiment about the BitCoin system itself; in Kristoufek [10] the author analyses transaction based as well as popularity based potential drivers of the BitCoin price finding positive evidence. Here, we endorse this finding and consider a bivariate model in continuous time to describe the price dynamics of one BitCoin as well as a second factor, affecting the price itself, which represents a sentiment indicator. We prove that the suggested model is arbitrage-free under a mild condition and, based on risk-neutral evaluation, we obtain a closed formula to approximate the price of European style derivatives on the BitCoin. By applying the same approximation technique to the joint likelihood of a discrete sample of the bivariate process, we are also able to fit the model to market data. This is done by using both the Volume and the number of Google searches as possible proxies for the sentiment factor. Further, the performance of the pricing formula is assessed on a sample of market option prices obtained by the website deribit.com., Comment: 39, pages, 7 figures, 16 tables. arXiv admin note: substantial text overlap with arXiv:1702.00215

Published
2017
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12. Unit-linked life insurance policies: optimal hedging in partially observable market models

Author

Ceci, Claudia, Colaneri, Katia, and Cretarola, Alessandra

Subjects
Quantitative Finance - Mathematical Finance, 91B30, 60G35, 60G40, 60J60
Abstract

In this paper we investigate the hedging problem of a unit-linked life insurance contract via the local risk-minimization approach, when the insurer has a restricted information on the market. In particular, we consider an endowment insurance contract, that is a combination of a term insurance policy and a pure endowment, whose final value depends on the trend of a stock market where the premia the policyholder pays are invested. We assume that the stock price process dynamics depends on an exogenous unobservable stochastic factor that also influences the mortality rate of the policyholder. To allow for mutual dependence between the financial and the insurance markets, we use the progressive enlargement of filtration approach. We characterize the optimal hedging strategy in terms of the integrand in the Galtchouk-Kunita-Watanabe decomposition of the insurance claim with respect to the minimal martingale measure and the available information flow. We provide an explicit formula by means of predictable projection of the corresponding hedging strategy under full information with respect to the natural filtration of the risky asset price and the minimal martingale measure. Finally, we discuss applications in a Markovian setting via filtering., Comment: 34 pages

Published
2016
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13. The F\'ollmer-Schweizer decomposition under incomplete information

Author

Ceci, Claudia, Colaneri, Katia, and Cretarola, Alessandra

Subjects
Mathematics - Probability, Quantitative Finance - Mathematical Finance, 60G46, 60G57, 60J25, 93E11
Abstract

In this paper we study the F\"ollmer-Schweizer decomposition of a square integrable random variable $\xi$ with respect to a given semimartingale $S$ under restricted information. Thanks to the relationship between this decomposition and that of the projection of $\xi$ with respect to the given information flow, we characterize the integrand appearing in the F\"ollmer-Schweizer decomposition under partial information in the general case where $\xi$ is not necessarily adapted to the available information level. For partially observable Markovian models where the dynamics of $S$ depends on an unobservable stochastic factor $X$, we show how to compute the decomposition by means of filtering problems involving functions defined on an infinite-dimensional space. Moreover, in the case of a partially observed jump-diffusion model where $X$ is described by a pure jump process taking values in a finite dimensional space, we compute explicitly the integrand in the F\"ollmer-Schweizer decomposition by working with finite dimensional filters., Comment: 22 pages

Published
2015
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15. Is Arbitrage Possible in the Bitcoin Market? (Work-In-Progress Paper)

Author

Bistarelli, Stefano, Cretarola, Alessandra, Figà-Talamanca, Gianna, Mercanti, Ivan, Patacca, Marco, Hutchison, David, Series Editor, Kanade, Takeo, Series Editor, Kittler, Josef, Series Editor, Kleinberg, Jon M., Series Editor, Mattern, Friedemann, Series Editor, Mitchell, John C., Series Editor, Naor, Moni, Series Editor, Pandu Rangan, C., Series Editor, Steffen, Bernhard, Series Editor, Terzopoulos, Demetri, Series Editor, Tygar, Doug, Series Editor, Coppola, Massimo, editor, Carlini, Emanuele, editor, D’Agostino, Daniele, editor, Altmann, Jörn, editor, and Bañares, José Ángel, editor

Published
2019
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16. Hedging of unit-linked life insurance contracts with unobservable mortality hazard rate via local risk-minimization

Author

Ceci, Claudia, Colaneri, Katia, and Cretarola, Alessandra

Subjects
Quantitative Finance - Portfolio Management, Mathematics - Probability, 60G35, 60G46, 60J25, 91B30, 91G10
Abstract

In this paper we investigate the local risk-minimization approach for a combined financial-insurance model where there are restrictions on the information available to the insurance company. In particular we assume that, at any time, the insurance company may observe the number of deaths from a specific portfolio of insured individuals but not the mortality hazard rate. We consider a financial market driven by a general semimartingale and we aim to hedge unit-linked life insurance contracts via the local risk-minimization approach under partial information. The F\"ollmer-Schweizer decomposition of the insurance claim and explicit formulas for the optimal strategy for pure endowment and term insurance contracts are provided in terms of the projection of the survival process on the information flow. Moreover, in a Markovian framework, we reduce to solve a filtering problem with point process observations., Comment: 27 pages

Published
2014
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17. Local risk-minimization under restricted information to asset prices

Author

Ceci, Claudia, Colaneri, Katia, and Cretarola, Alessandra

Subjects
Mathematics - Probability, Quantitative Finance - Portfolio Management, Primary: 60J25, 60G35, 91B28, Secondary: 60J75, 60J60
Abstract

In this paper we investigate the local risk-minimization approach for a semimartingale financial market where there are restrictions on the available information to agents who can observe at least the asset prices. We characterize the optimal strategy in terms of suitable decompositions of a given contingent claim, with respect to a filtration representing the information level, even in presence of jumps. Finally, we discuss some practical examples in a Markovian framework and show that the computation of the optimal strategy leads to filtering problems under the real-world probability measure and under the minimalmartingale measure., Comment: 30 pages

Published
2013

19. A Benchmark Approach to Risk-Minimization under Partial Information

Author

Ceci, Claudia, Colaneri, Katia, and Cretarola, Alessandra

Subjects
Quantitative Finance - Portfolio Management, Mathematics - Probability, 91G10, 60G46, 60J25
Abstract

In this paper we study a risk-minimizing hedging problem for a semimartingale incomplete financial market where d+1 assets are traded continuously and whose price is expressed in units of the num\'{e}raire portfolio. According to the so-called benchmark approach, we investigate the (benchmarked) risk-minimizing strategy in the case where there are restrictions on the available information. More precisely, we characterize the optimal strategy as the integrand appearing in the Galtchouk-Kunita-Watanabe decomposition of the benchmarked claim under partial information and provide its description in terms of the integrands in the classical Galtchouk-Kunita-Watanabe decomposition under full information via dual predictable projections. Finally, we apply the results in the case of a Markovian jump-diffusion driven market model where the assets prices dynamics depend on a stochastic factor which is not observable by investors., Comment: 31 pages

Published
2013
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20. BSDEs under partial information and financial applications

Author

Ceci, Claudia, Cretarola, Alessandra, and Russo, Francesco

Subjects
Mathematics - Probability
Abstract

In this paper we provide existence and uniqueness results for the solution of BSDEs driven by a general square integrable martingale under partial information. We discuss some special cases where the solution to a BSDE under restricted information can be derived by that related to a problem of a BSDE under full information. In particular, we provide a suitable version of the F\"ollmer-Schweizer decomposition of a square integrable random variable working under partial information and we use this achievement to investigate the local risk-minimization approach for a semimartingale financial market model.

Published
2013
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22. Local Risk-Minimization under the Benchmark Approach

Author

Biagini, Francesca, Cretarola, Alessandra, and Platen, Eckhard

Subjects
Quantitative Finance - Pricing of Securities, Mathematics - Probability
Abstract

We study the pricing and hedging of derivatives in incomplete financial markets by considering the local risk-minimization method in the context of the benchmark approach, which will be called benchmarked local risk-minimization. We show that the proposed benchmarked local risk-minimization allows to handle under extremely weak assumptions a much richer modeling world than the classical methodology.

Published
2012
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23. GKW representation theorem and linear BSDEs under restricted information. An application to risk-minimization

Author

Ceci, Claudia, Cretarola, Alessandra, and Russo, Francesco

Subjects
Mathematics - Probability, 60H10, 60H30, 91B28
Abstract

In this paper we provide Galtchouk-Kunita-Watanabe representation results in the case where there are restrictions on the available information. This allows to prove existence and uniqueness for linear backward stochastic differential equations driven by a general c\`adl\`ag martingale under partial information. Furthermore, we discuss an application to risk-minimization where we extend the results of F\"ollmer and Sondermann (1986) to the partial information framework and we show how our result fits in the approach of Schweizer (1994)., Comment: 22 pages

Published
2012
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24. Sentiment‐driven mean reversion in the 4/2 stochastic volatility model with jumps.

Author

Cretarola, Alessandra, Figà‐Talamanca, Gianna, and Patacca, Marco

Abstract

Summary: With the availability of social networks, specialized forums, and online news, sentiment analysis has become a common and useful technique for the analysis of economic and financial scenarios. Several data‐providers have also started computing proprietary sentiment indexes on financial assets to be delivered together with market price and trading volume. We develop a modified version of the mean‐reverting 4/2 stochastic volatility model introduced in Escobar‐Anel & Gong (2020) to describe the dynamics of commodities. In our specification, jumps are allowed in the asset price dynamics, and the drift coefficient may also switch between regimes related to a sentiment indicator. In this framework, we discuss the distributional characteristics of asset returns, provide a numerical procedure for model estimation, and give some preliminary results on the pricing of European‐style derivatives. Finally, the model is fitted to the market data for Gold and Crude Oil. [ABSTRACT FROM AUTHOR]

Published
2024
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25. Optimal consumption policies in illiquid markets

Author

Cretarola, Alessandra, Gozzi, Fausto, Pham, Huyên, and Tankov, Peter

Subjects
Mathematics - Probability, 49K22, 49L25, 35F20, 91B28
Abstract

We investigate optimal consumption policies in the liquidity risk model introduced in Pham and Tankov (2007). Our main result is to derive smoothness results for the value functions of the portfolio/consumption choice problem. As an important consequence, we can prove the existence of the optimal control (portfolio/consumption strategy) which we characterize both in feedback form in terms of the derivatives of the value functions and as the solution of a second-order ODE. Finally, numerical illustrations of the behavior of optimal consumption strategies between two trading dates are given.

Published
2008

41. Modeling Bitcoin Price and Bubbles

Author

Cretarola, Alessandra and Figà-Talamanca, Gianna

Subjects
Business & Economics
Abstract

The goal of this chapter is to present recent developments about Bitcoin1 price modeling and related applications. Precisely, we consider a bivariate model in continuous time to describe the behavior of Bitcoin price and of the investors’ attention on the overall network. The attention index affects Bitcoin price through a suitable dependence on the drift and diffusion coefficients and a possible correlation between the sources of randomness represented by the driving Brownian motions. The model is fitted on historical data of Bitcoin prices, by considering the total trading volume and the Google Search Volume Index as proxies for the attention measure. Moreover, a closed formula is computed for European-style derivatives on Bitcoin. Finally, we discuss two possible extensions of the model. Precisely, we investigate the relation between the correlation parameter and possible bubble effects in the asset price; further, we consider a multivariate framework to represent the special feature of Bitcoin being traded on several exchanges and we discuss conditions to rule out arbitrage opportunities in this setting.

Published
2019

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