Hostname: page-component-cd9895bd7-8ctnn Total loading time: 0 Render date: 2024-12-23T05:39:10.170Z Has data issue: false hasContentIssue false

On the Parisian ruin of the dual Lévy risk model

Published online by Cambridge University Press:  30 November 2017

Chen Yang*
Affiliation:
Wuhan University
Kristian P. Sendova*
Affiliation:
University of Western Ontario
Zhong Li*
Affiliation:
University of International Business and Economics
*
* Postal address: Economics and Management School of Wuhan University, Wuhan, Hubei, 430072, P. R. China. Email address: [email protected]
** Postal address: Department of Statistical and Actuarial Sciences, University of Western Ontario, London, Ontario, N6A 5B7, Canada. Email address: [email protected]
*** Postal address: School of Insurance and Economics, University of International Business and Economics, Beijing, 100029, P. R. China. Email address: [email protected]

Abstract

In this paper we investigate the Parisian ruin problem of the general dual Lévy risk model. Unlike the usual concept of ultimate ruin, allowing the surplus level to be negative within a prespecified period indicates that the deficit at Parisian ruin is not necessarily equal to zero. Hence, we consider a Gerber–Shiu type expected discounted penalty function at the Parisian ruin and obtain an explicit expression for this function under the dual Lévy risk model. As particular cases, we calculate the Parisian ruin probability and the expected discounted kth moments of the deficit at the Parisian ruin for the compound Poisson dual risk model and a drift-diffusion model. Numerical examples are given to illustrate the behavior of Parisian ruin and the expected discounted deficit at Parisian ruin.

Type
Research Papers
Copyright
Copyright © Applied Probability Trust 2017 

Access options

Get access to the full version of this content by using one of the access options below. (Log in options will check for institutional or personal access. Content may require purchase if you do not have access.)

References

[1] Albrecher, H., Badescu, A. and Landriault, D. (2008). On the dual risk model with tax payments. Insurance Math. Econom. 42, 10861094. CrossRefGoogle Scholar
[2] Albrecher, H., Renaud, J.-F. and Zhou, X. (2008). A Lévy insurance risk process with tax. J. Appl. Prob. 45, 363375. CrossRefGoogle Scholar
[3] Avanzi, B. and Gerber, H. U. (2008). Optimal dividends in the dual model with diffusion. ASTIN Bull. 38, 653667. CrossRefGoogle Scholar
[4] Avanzi, B., Gerber, H. U. and Shiu, E. S. W. (2007). Optimal dividends in the dual model. Insurance Math. Econom. 41, 111123. CrossRefGoogle Scholar
[5] Avanzi, B., Shen, J. and Wong, B. (2011). Optimal dividends and capital injections in the dual model with diffusion. ASTIN Bull. 41, 611644. Google Scholar
[6] Avanzi, B., Tu, V. and Wong, B. (2014). On optimal periodic dividend strategies in the dual model with diffusion. Insurance Math. Econom. 55, 210224. CrossRefGoogle Scholar
[7] Avanzi, B., Cheung, E. C. K., Wong, B. and Woo, J.-K. (2013). On a periodic dividend barrier strategy in the dual model with continuous monitoring of solvency. Insurance Math. Econom. 52, 98113. CrossRefGoogle Scholar
[8] Baurdoux, E., Pardo, J. C., Pérez, J. L. and Renaud, J.-F. (2016). Gerber–Shiu distribution at Parisian ruin for Lévy insurance risk processes. J. Appl. Prob. 53, 572584. CrossRefGoogle Scholar
[9] Bayraktar, E., Kyprianou, A. E. and Yamazaki, K. (2013). On optimal dividends in the dual model. ASTIN Bull. 43, 359372. CrossRefGoogle Scholar
[10] Bayraktar, E., Kyprianou, A. E. and Yamazaki, K. (2014). Optimal dividends in the dual model under transaction costs. Insurance Math. Econom. 54, 133143. CrossRefGoogle Scholar
[11] Bertoin, J. (1996). Lévy Processes. Cambridge University Press. Google Scholar
[12] Bertoin, J. (1997). Exponential decay and ergodicity of completely asymmetric Lévy processes in a finite interval. Ann. Appl. Prob. 7, 156169. CrossRefGoogle Scholar
[13] Browne, S. (1995). Optimal investment policies for a firm with a random risk process: exponential utility and minimizing the probability of ruin. Math. Operat. Res. 20, 937958. CrossRefGoogle Scholar
[14] Chesney, M., Jeanblanc-Picqué, M. and Yor, M. (1997). Brownian excursions and Parisian barrier options. Adv. Appl. Prob. 29, 165184. CrossRefGoogle Scholar
[15] Cheung, E. C. K. (2012). A unifying approach to the analysis of business with random gains. Scand. Actuarial J. 2012, 153182. CrossRefGoogle Scholar
[16] Cramér, H. (1955). Collective Risk Theory: A Survey of the Theory from the Point of View of the Theory of Stochastic Processes. Skandia Insurance Company, Stockholm. Google Scholar
[17] Dassios, A. and Wu, S. (2008). Parisian ruin with exponential claims. Preprint. Department of Statistics, London School of Economics. Google Scholar
[18] Dassios, A. and Wu, S. (2008). Semi-Markov model for excursions and occupation time of Markov processes. Preprint. Department of Statistics, London School of Economics. Google Scholar
[19] Feller, W. (1971). An Introduction to Probability Theory and Its Applications, Vol. II, 2nd edn. John Wiley, New York. Google Scholar
[20] Feng, R. and Shimizu, Y. (2013). On a generalization from ruin to default in a Lévy insurance risk model. Methodol. Comput. Appl. Prob. 15, 773802. CrossRefGoogle Scholar
[21] Gerber, H. U. and Shiu, E. S. W. (1998). On the time value of ruin. N. Amer. Actuarial J. 2, 4872. CrossRefGoogle Scholar
[22] Griffin, P. S. and Maller, R. A. (2012). Path decomposition of ruinous behavior for a general Lévy insurance risk process. Ann. Appl. Prob. 22, 14111449. CrossRefGoogle Scholar
[23] Hernández-Lerma, O. and Lasserre, J. B. (2000). Fatou's lemma and Lebesgue's convergence theorem for measures. J. Appl. Math. Stoch. Anal. 13, 137146. CrossRefGoogle Scholar
[24] Iglehart, D. L. (1969). Diffusion approximations in collective risk theory. J. Appl. Prob. 6, 285292. CrossRefGoogle Scholar
[25] Klüppelberg, C., Kyprianou, A. E. and Maller, R. A. (2004). Ruin probabilities and overshoots for general Lévy insurance risk processes. Ann. Appl. Prob. 14, 17661801. CrossRefGoogle Scholar
[26] Kuznetsov, A., Kyprianou, A. E. and Rivero, V. (2012). The theory of scale functions for spectrally negative Lévy processes. In Lévy Matters II (Lecture Notes Math. 2061), Springer, Heidelberg, pp. 97186. CrossRefGoogle Scholar
[27] Kyprianou, A. E. (2006). Introductory Lectures on Fluctuations of Lévy Processes with Applications. Springer, Berlin. Google Scholar
[28] Kyprianou, A. E. and Palmowski, Z. (2007). Distributional study of de Finetti's dividend problem for a general Lévy insurance risk process. J. Appl. Prob. 44, 428443. CrossRefGoogle Scholar
[29] Landriault, D. and Sendova, K. P. (2011). A direct approach to a first-passage problem with applications in risk theory. Stoch. Models 27, 388406. CrossRefGoogle Scholar
[30] Li, Z., Sendova, K. P. and Yang, C. (2017). On a perturbed dual risk model with dependence between inter-gain times and gain sizes. Commun. Statist. Theory Meth.46, 1050710517. CrossRefGoogle Scholar
[31] Loeffen, R. L. (2009). An optimal dividends problem with transaction costs for spectrally negative Lévy processes. Insurance Math. Econom. 45, 4148. CrossRefGoogle Scholar
[32] Loeffen, R., Czarna, I. and Palmowski, Z. (2013). Parisian ruin probability for spectrally negative Lévy processes. Bernoulli 19, 599609. CrossRefGoogle Scholar
[33] Renaud, J.-F. (2009). The distribution of tax payments in a Lévy insurance risk model with a surplus-dependent taxation structure. Insurance Math. Econom. 45, 242246. CrossRefGoogle Scholar
[34] Renaud, J.-F. and Zhou, X. (2007). Distribution of the present value of dividend payments in a Lévy risk model. J. Appl. Prob. 44, 420427. CrossRefGoogle Scholar
[35] Rodríguez-Martínez, E. V., Cardoso, R. M. R. and Egídio dos Reis, A. D. (2015). Some advances on the Erlang(n) dual risk model. ASTIN Bull. 45, 127150. CrossRefGoogle Scholar
[36] Whitt, W. (2002). Stochastic-Process Limits. Springer, New York. CrossRefGoogle Scholar
[37] Widder, D. V. (1941). The Laplace Transform. Princeton University Press. Google Scholar
[38] Wong, J. T. Y. and Cheung, E. C. K. (2015). On the time value of Parisian ruin in (dual) renewal risk processes with exponential jumps. Insurance Math. Econom. 65, 280290. CrossRefGoogle Scholar
[39] Yang, C. and Sendova, K. P. (2014). The ruin time under the Sparre–Andersen dual model. Insurance Math. Econom. 54, 2840. CrossRefGoogle Scholar
[40] Yin, C. and Wen, Y. (2013). Optimal dividend problem with a terminal value for spectrally positive Lévy processes. Insurance Math. Econom. 53, 769773. CrossRefGoogle Scholar
[41] Yin, C., Wen, Y. and Zhao, Y. (2014). On the optimal dividend problem for a spectrally positive Lévy process. ASTIN Bull. 44, 635651. CrossRefGoogle Scholar
[42] Zhang, Z., Cheung, E. C. K. and Yang, H. (2017). Lévy insurance risk process with Poissonian taxation. Scand. Actuarial J. 2017, 5187. CrossRefGoogle Scholar
[43] Zhao, Y., Wang, R., Yao, D. and Chen, P. (2015). Optimal dividends and capital injections in the dual model with a random time horizon. J. Optimization Theory Appl. 167, 272295. CrossRefGoogle Scholar