Andrea Fontanari scite author profile

Andrea Fontanari

4Publications

23Citation Statements Received

140Citation Statements Given

How they've been cited

How they cite others

137

Affiliations

Delft University of Technology, Institute of Applied Mathematics, Centrum Wiskunde & Informatica

Publications

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Gini estimation under infinite variance

Fontanari

Taleb²,

Cirillo

2018

Physica A: Statistical Mechanics and its Applications

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We study the problems related to the estimation of the Gini index in presence of a fattailed data generating process, i.e. one in the stable distribution class with finite mean but infinite variance (i.e. with tail index α ∈ (1, 2)). We show that, in such a case, the Gini coefficient cannot be reliably estimated using conventional nonparametric methods, because of a downward bias that emerges under fat tails. This has important implications for the ongoing discussion about economic inequality.We start by discussing how the nonparametric estimator of the Gini index undergoes a phase transition in the symmetry structure of its asymptotic distribution, as the data distribution shifts from the domain of attraction of a light-tailed distribution to that of a fat-tailed one, especially in the case of infinite variance. We also show how the nonparametric Gini bias increases with lower values of α. We then prove that maximum likelihood estimation outperforms nonparametric methods, requiring a much smaller sample size to reach efficiency. Finally, for fat-tailed data, we provide a simple correction mechanism to the small sample bias of the nonparametric estimator based on the distance between the mode and the mean of its asymptotic distribution.

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From Concentration Profiles to Concentration Maps. New tools for the study of loss distributions

Fontanari

Cirillo

Oosterlee

2018

Insurance: Mathematics and Economics

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a b s t r a c tWe introduce a novel approach to risk management, based on the study of concentration measures of the loss distribution. We show that indices like the Gini index, especially when restricted to the tails by conditioning and truncation, give us an accurate way of assessing the variability of the larger losses -the most relevant ones -and the reliability of common risk management measures like the Expected Shortfall. We first present the Concentration Profile, which is formed by a sequence of truncated Gini indices, to characterize the loss distribution, providing interesting information about tail risk. By combining Concentration Profiles and standard results from utility theory, we develop the Concentration Map, which can be used to assess the risk attached to potential losses on the basis of the risk profile of a user, her beliefs and historical data. Finally, with a sequence of truncated Gini indices as weights for the Expected Shortfall, we define the Concentration Adjusted Expected Shortfall, a measure able to capture additional features of tail risk. Empirical examples and codes for the computation of all the tools are provided.

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Dynamical fitness models: evidence of universality classes for preferential attachment graphs

Cipriani¹,

Fontanari²

2019

Preprint

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In this paper we define a family of preferential attachment models for random graphs with fitness in the following way: independently for each node, at each time step a random fitness is drawn according to the position of a moving average process with positive increments. We will define two regimes in which our graph reproduces some features of two wellknown preferential attachment models: the Bianconi-Barabási and the Barabási-Albert models. We will discuss a few conjectures on these models, including the convergence of the degree sequence and the appearance of Bose-Einstein condensation in the network when the drift of the fitness process has order comparable to the graph size.

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Gini Estimation Under Infinite Variance

Fontanari

Taleb

Cirillo³

2017

SSRN Journal

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