CIDNP techniques were applied to study the mechanism of photocycloadditions of 2-chloro-5-methoxybenzoquinone 1 with arylacetylenes 2-5 in benzene-d6 and acetonitrile-d6 respectively.
本文在Cheung和Lo[Scandinavian Actuarial Journal]以及Cui等人[Insur-ance:Mathematics and Economics]结果的基础上,研究了以扭曲风险度量为优化目标的最优再保险策略,该策略运用广义扭曲保费准则来计算保费.本文的创新之处在于对再...本文在Cheung和Lo[Scandinavian Actuarial Journal]以及Cui等人[Insur-ance:Mathematics and Economics]结果的基础上,研究了以扭曲风险度量为优化目标的最优再保险策略,该策略运用广义扭曲保费准则来计算保费.本文的创新之处在于对再保险人能够承受的最大风险水平加入约束条件,目标是寻求所有最优的再保险策略,使保险人在规定的约束条件下全部损失的风险计量最小化.展开更多
基金Financial support from the National Natural Science Foundation of China (No: 29975002) is gratefully acknowledged.
文摘CIDNP techniques were applied to study the mechanism of photocycloadditions of 2-chloro-5-methoxybenzoquinone 1 with arylacetylenes 2-5 in benzene-d6 and acetonitrile-d6 respectively.
文摘本文在Cheung和Lo[Scandinavian Actuarial Journal]以及Cui等人[Insur-ance:Mathematics and Economics]结果的基础上,研究了以扭曲风险度量为优化目标的最优再保险策略,该策略运用广义扭曲保费准则来计算保费.本文的创新之处在于对再保险人能够承受的最大风险水平加入约束条件,目标是寻求所有最优的再保险策略,使保险人在规定的约束条件下全部损失的风险计量最小化.
