Open AccessTime-consistent reinsurance-investment strategy for mean-variance insurers with defaultable security and jumps
Author(s) -
Qiang Zhang,
Qianqian Cui,
Ping Chen
Publication year - 2016
Publication title -
hacettepe journal of mathematics and statistics
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 0.312
H-Index - 26
ISSN - 1303-5010
DOI - 10.15672/hjms.201613620024
Subject(s) - reinsurance , mathematics , variance (accounting) , investment (military) , actuarial science , econometrics , statistics , business , law , accounting , politics , political science
This paper studies an optimal reinsurance-investment problem for a mean-variance insurer with defaultable security and jumps. Specially, we assume that the risky asset's price process is described by a geometric Levy process. By using a game theoretic approach, we establish the extended Hamilton-Jacobi-Bellman system for the post-default case and the pre-default case, respectively. Furthermore, we derive the closed-from expressions for the time-consistent reinsurance-investment strategy and the corresponding value function. Finally, we provide numerical examples to illustrate the impacts of model parameters on the time-consistent strategy.
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