Nino Savelli scite author profile

The aim of this paper is to provide a stochastic model useful for assessing the capital requirement for demographic risk in a framework coherent with the Solvency II Directive. The model extends to the market consistent context classical methodologies developed in a local accounting framework. The random variable demographic profit, defined in literatue under local accounting principles, is indeed analysed in a Solvency II framework. We provide a unique formulation for different non-participating life insurance contracts and we prove analytically that the valuation of demographic profit can be significantly affected by the financial conditions in the market. Regarding this topic, we implement the Vašíček model to add randomness to risk-free rates. A case study has also been developed considering a portfolio of life insurance contracts. Results prove the effectiveness of the model in highlighting the main drivers of capital requirement evaluation (e.g., the volatility of both mortality rates and risk-free rates), also compared to the local GAAP framework.

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The Impact of Reinsurance Strategies on Capital Requirements for Premium Risk in Insurance

Clemente

Savelli

Zappa

2015

Risks

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New risk-based solvency requirements for insurance companies across European markets have been introduced by Solvency II and will come in force from 1 January 2016. These requirements, derived by a Standard Formula or an Internal Model, will be by far more risk-sensitive than the required solvency margin provided by the current legislation. In this regard, a Partial Internal Model for Premium Risk is developed here for a multi-line NonLife insurer. We follow a classical approach based on a Collective Risk Model properly extended in order to consider not only the volatility of aggregate claim amounts but also expense volatility. To measure the effect of risk mitigation, suitable reinsurance strategies are pursued. We analyze how naï ve coverage as conventional Quota Share and Excess of Loss reinsurance may modify the exact moments of the distribution of technical results. Furthermore, we investigate how alternative choices of commission rates in proportional treaties may affect the variability of distribution. Numerical results are also figured out in the last part of the paper with evidence of different effects for small and large companies. The main reasons for these differences are pointed out.

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A stochastic model for capital requirement assessment for mortality and longevity risk, focusing on idiosyncratic and trend components

Clemente

Corte²,

Savelli³

2022

Ann. actuar. sci.

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This paper provides a stochastic model, consistent with Solvency II and the Delegated Regulation, to quantify the capital requirement for demographic risk. In particular, we present a framework that models idiosyncratic and trend risks exploiting a risk theory approach in which results are obtained analytically. We apply the model to non-participating policies and quantify the Solvency Capital Requirement for the aforementioned risks in different time horizons.

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Nino Savelli

Hierarchical structures in the aggregation of premium risk for insurance underwriting

A Risk-Theory Model to Assess the Capital Requirement for Mortality and Longevity Risk

A Bridge between Local GAAP and Solvency II Frameworks to Quantify Capital Requirement for Demographic Risk

The Impact of Reinsurance Strategies on Capital Requirements for Premium Risk in Insurance

A stochastic model for capital requirement assessment for mortality and longevity risk, focusing on idiosyncratic and trend components

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