Heston模型下保险公司和再保险公司的投资与再保险博弈

doi:10.16381/j.cnki.issn1003-207x.2019.0270

Abstract

Abstract: Studies of optimal reinsurance and/or investment decisions are becoming a significant portion of the mainstream research of insurance and actuarial science. In a regular framework, an insurer is assumed to purchase reinsurance contracts from a reinsurer to reduce the risk of random individual claims, while the insurer may invest in a financial market for a higher rate of return or to hedge the risk of the claims, under certain optimality rules. There is a voluminous literature examining optimal investment and reinsurance strategies for insurers with different objectives, as discussed in Wang et al.[Wang N, Zhang N, Jin Z, et al. (2019). Robust non-zero-sum investment and reinsurance game with default risk. Insurance:Mathematics and Economics, 84, 115-132]. However, the existing studies do not take into account the effect of interactions between an insurer and a reinsurer. In fact, economical and sociological studies have pointed out that human beings or firms always seek for partners, and that such cooperative behaviors have significant impacts on one's decision-making.
In this article, with considering the interests of both insurer's and reinsurer's, we study an investment and reinsurance game between an insurer and a reinsurer. The claim process is modeled by a Brownian motion with drift. The insurer is allowed to purchase the proportional reinsurance to mitigate the underlying risks of the claims; and both the insurer and the reinsurer are allowed to invest in a risk-free asset and a risky asset whose price dynamics follows the famous Heston stochastic volatility model. The main objectives of the insurer and the reinsurer are to maximize the expected utility of a sum of weighted surplus at terminal time T. To this end. a nonzero-sum cooperative game model has been established.
In order to solve this established game model, dynamic programming principle has been utilized, and it is found that dynamic programming principle for this class of nonzero-sum game problems leads to a non-canonical fixed-point problem of coupled non-linear partial differential equations. Despite the complex structure, the existence of the Nash equilibrium reinsurance-investment strategies and the corresponding value functions of the insurer and the are established in a representative example of the constant absolute risk aversion utility function under a mild condition. Furthermore, closed-form expressions for the equilibrium reinsurance-investment strategies and value functions for both the insurer and the reinsurer are derived, and the pricing of insurance is analyzed by using the relationship between supply and demand of reinsurance contracts in the equilibrium market. Finally, numerical studies are also provided to illustrate the impact of parameters on the Nash equilibrium strategies. The obtained results serve as an interesting complementary case of the analogous analysis in nonzero-sum stochastic differential investment and reinsurance games.

Key words: investment-reinsurance, Heston model, Hamilton-Jacobi-Bellman (HJB) equation, Nash equilibrium

CLC Number:

F224
F840

ZHU Huai-nian, ZHANG Cheng-ke, CAO Ming. Investment and Reinsurance Games between an Insurer and a Reinsurer under the Heston Model[J]. Chinese Journal of Management Science, 2021, 29(6): 48-59.

References

[1] Browne S. Optimal investment policies for a firm with a random risk process:exponential utility and minimizing the probability of ruin[J]. Mathematics of Operations Research, 1995, 20(4):937-958.
[2] Yang Hailiang, Zhang Lihong. Optimal investment for insurer with jump-diffusion risk process[J]. Insurance:Mathematics and Economics, 2005, 37(3):615-634.
[3] Taksar M. Optimal risk and dividend distribution control models for an insurance company[J]. Mathematical Methods of Operations Research, 2000, 51(1):1-42.
[4] Xu Lin, Zhang Liming, Yao Dingjun. Optimal investment and reinsurance for an insurer under Markov-modulated financial market[J]. Insurance:Mathematics and Economics, 2017, 74:7-19.
[5] Zhang Nan, Jin Zhuo, Li Shuanming, et al. Optimal reinsurance under dynamic VaR constraint[J]. Insurance:Mathematics and Economics, 2016, 71:232-243.
[6] Zeng Yan, Li Zhongfei. Optimal time-consistent investment and reinsurance policies for mean-variance insurers[J]. Insurance:Mathematics and Economics, 2011, 49(1):145-54.
[7] Bensoussan A, Siu C C, Yam S C P, et al. A class of non-zero-sum stochastic differential investment and reinsurance games[J]. Automatica, 2014, 50(8):2025-2037.
[8] Chen Shumin, Yang Hailiang, Zeng Yan. Stochastic differential games between two insurers with generalized mean-variance premium principle[J]. ASTIN Bulletin, 2018, 48(1):413-434.
[9] Wang Ning, Zhang Nan, Jin Zhuo, et al. Robust non-zero-sum investment and reinsurance game with default risk[J]. Insurance:Mathematics and Economics, 2019, 84:115-132.
[10] Hu Duni, Wang Hailong. Time-consistent investment and reinsurance under relative performance concerns[J]. Communications in Statistics-Theory and Methods, 2018, 47(7):1693-1717.
[11] Gu Ailing, Guo Xianping, Li Zhangfei, et al. Optimal control of excess-of-loss reinsurance and investment for insurers under a CEV model[J]. Insurance:Mathematics and Economics, 2012, 51(3):674-684.
[12] Li Danping, Rong Xinmin, Zhao Hui. Optimal reinsurance and investment problem for an insurer and a reinsurer with jump-diffusion risk process under the Heston model[J]. Computational and Applied Mathematics, 2016, 35(2):533-557.
[13] Zhao Hui, Rong Xinmin, Zhao Yui. Optimal excess-of-loss reinsurance and investment problem for an insurer with jump-diffusion risk process under the Heston model[J]. Insurance:Mathematics and Economics, 2013, 53(3):504-514.
[14] 王愫新, 荣喜民, 赵慧. Heston模型下保险公司和再保险公司的博弈[J]. 工程数学学报, 2016, 33(1):1-16. Wang Suxin, Rong Ximin, Zhao Hui. A game between insurer and reinsurer under the Heston model[J]. Chinese Journal of Engineering Mathematics, 2016, 33(1):1-16.
[15] Siu C C, Yam S C P, Yang Hailiang, et al. A class of nonzero-sum investment and reinsurance games subject to systematic risks[J]. Scandinavian Actuarial Journal, 2017, 2017(8):670-707.
[16] Deng Chao, Zeng Xudong, Zhu Huiming. Non-zero-sum stochastic differential reinsurance and investment games with default risk[J]. European Journal of Operational Research, 2018, 264(3):1144——1158.
[17] Zhu Huainian, Cao Ming, Zhang Chengke. Time-consistent investment and reinsurance strategies for mean-variance insurers with relative performance concerns under the Heston model[J]. Finance Research Letters, 2019, 30:280-291.
[18] 周仁才. 基于波动率分解的期权定价[J]. 系统工程理论与实践, 2018, 38(8):1919-1929. Zhou Rencai. Option valuation based on volatility decomposition[J]. Systems Engineering-Theory & Practice, 2018, 38(8):1919-1929.
[19] David Promislow S, Young V R. Minimizing the probability of ruin when claims follow Brownian motion with drift[J]. North American Actuarial Journal, 2005, 9(3):110-128.
[20] 王愫新, 荣喜民. 保险公司和再保险公司的最优投资策略[J]. 系统工程学报, 2017, 32(2):207-217. Wang Suxin, Rong Ximin. Optimal investment strategy for both insurer and reinsurer[J]. Journal of Systems Engineering, 2017, 32(2):207-217.
[21] Cyert R M, DeGroot M H. An analysis of cooperation and learning in a duopoly context[J]. American Economic Review, 1973, 63(1):24-37.
[22] Colombo L, Labrecciosa P. Consumer surplus-enhancing cooperation in a natural resource oligopoly[J]. Journal of Environmental Economics and Management, 2018, 92:185-193.

Investment and Reinsurance Games between an Insurer and a Reinsurer under the Heston Model

PDF (PC)

Knowledge

Abstract

Cite this article

share this article

References

Related Articles 15

Metrics

Comments

Recommended 10

[1]	FENG Hai-rong, ZENG Yin-lian, ZHOU Jie. Cost Allocation for Collaborative Procurement with Carbon Cap and Trade Policy [J]. Chinese Journal of Management Science, 2021, 29(5): 108-116.
[2]	YAO Dong-min, LI Hao-yang, ZHANG Peng-yuan. Fiscal Subsidy VS. Proprietary Trading: Study on the Government's Intervention Decision on the Supply of Public Goods under the “Catch-all” Motive [J]. Chinese Journal of Management Science, 2021, 29(3): 100-108.
[3]	DING Long, HU Bin, CHANG Shan, SHI Chun-lai. A Game Analysis on RFID Technology and Parallel Importation Based on Gray Market Traceability [J]. Chinese Journal of Management Science, 2021, 29(2): 78-88.
[4]	GUO Jie. Online Tourism Supply Chain Network Equilibrium Model with the Transaction Risk Investment [J]. Chinese Journal of Management Science, 2020, 28(6): 137-145.
[5]	WU Jiang-hua, JIANG Fan. Information Sharing Strategy among Competitive Companies with Capacity Constraints in a Supply Chain [J]. Chinese Journal of Management Science, 2020, 28(5): 146-158.
[6]	YU Xiang-yu, HUANG Shou-jun, YANG Jun. Differential Game Models for Carbon Emission Reduction Competition Considering Horizontal Cooperation in Oligopoly Electricity Market [J]. Chinese Journal of Management Science, 2020, 28(5): 189-199.
[7]	HAN Shuai, LIU Shu-lin. A Study on Advertisers' Equilibrium Bids with Budget-constraints-Based on the Nash Equilibrium [J]. Chinese Journal of Management Science, 2019, 27(5): 57-67.
[8]	LIU Chang-yu, YU Tao, MA Ying-hong. Game of Government, Enterprise and Consumer Based on Product Quality Regulation Perspective [J]. Chinese Journal of Management Science, 2019, 27(4): 127-135.
[9]	LI Fang-chao, ZHANG Cheng-ke, ZHU Huai-nian. Equivalent Administrative Charges of the DC Pension Plan under the Heston Model [J]. Chinese Journal of Management Science, 2019, 27(12): 11-21.
[10]	ZHOU Zhong-bao, REN Tian-tian, XIAO He-lu, WU Shi-jian, LIU Wen-bin. Multi-period Portfolio Game Model Based on Relative Wealth Utility [J]. Chinese Journal of Management Science, 2019, 27(1): 34-43.
[11]	ZHANG Jian, ZHANG Ju-liang. Multi-period Inventory Competition under Yield Uncertainty [J]. Chinese Journal of Management Science, 2018, 26(4): 67-77.
[12]	JI Shou-feng, JIANG Li-wen, SUN Qi, YU Hai-fei. Research onNash Equilibrium Strategies by Considering Brand Effect in Multi-Products' and Multi-Manufacturers' Supply Chain [J]. Chinese Journal of Management Science, 2017, 25(5): 97-108.
[13]	FAN Dan-dan, XU Qi, WANG Wen-jie. Optimal Service Decisions Consideration Demand Shift Between Online and Offline in Supply Chain O2O System [J]. Chinese Journal of Management Science, 2017, 25(11): 22-32.
[14]	WANG Chang-feng, ZHUANG Wen-ying. Study on Emergency Decision Making of Major Projects Based on the Dynamic Differential Game Theory [J]. Chinese Journal of Management Science, 2017, 25(10): 179-186.
[15]	TAN Qin-liang, DENG Yan-ming, ZHAO Jian-ying, WEI Yong-mei, ZHANG Xing-ping. Research on the Biomass Fuel Supply Based on Foundation Organization Pattern [J]. Chinese Journal of Management Science, 2016, 24(9): 99-105.