Optimal periodic dividend strategies for spectrally negative L\'evy processes with fixed transaction costs

• Main Authors: Avanzi, Benjamin, Lau, Hayden, Wong, Bernard
• Format: Journal Article
• Language: English
• Published: 03.04.2020
• Subjects: Mathematics - Optimization and Control; Mathematics - Probability; Quantitative Finance - Risk Management
• DOI: 10.48550/arxiv.2004.01838

Maximising dividends is one classical stability criterion in actuarial risk theory. Motivated by the fact that dividends are paid periodically in real life, $\textit{periodic}$ dividend strategies were recently introduced (Albrecher, Gerber and Shiu, 2011). In this paper, we incorporate fixed transaction costs into the model and study the optimal periodic dividend strategy with fixed transaction costs for spectrally negative L\'evy processes. The value function of a periodic $(b_u,b_l)$ strategy is calculated by means of exiting identities and It\^o's excusion when the surplus process is of unbounded variation. We show that a sufficient condition for optimality is that the L\'evy measure admits a density which is completely monotonic. Under such assumptions, a periodic $(b_u,b_l)$ strategy is confirmed to be optimal. Results are illustrated.