Default Resilience and Worst-Case Effects in Financial Networks
CoRR(2024)
摘要
In this paper we analyze the resilience of a network of banks to joint price
fluctuations of the external assets in which they have shared exposures, and
evaluate the worst-case effects of the possible default contagion. Indeed, when
the prices of certain external assets either decrease or increase, all banks
exposed to them experience varying degrees of simultaneous shocks to their
balance sheets. These coordinated and structured shocks have the potential to
exacerbate the likelihood of defaults. In this context, we introduce first a
concept of {default resilience margin}, $\epsilon^*$, i.e., the maximum
amplitude of asset prices fluctuations that the network can tolerate without
generating defaults. Such threshold value is computed by considering two
different measures of price fluctuations, one based on the maximum individual
variation of each asset, and the other based on the sum of all the asset's
absolute variations. For any price perturbation having amplitude no larger than
$\epsilon^*$, the network absorbs the shocks remaining default free. When the
perturbation amplitude goes beyond $\epsilon^*$, however, defaults may occur.
In this case we find the worst-case systemic loss, that is, the total unpaid
debt under the most severe price variation of given magnitude. Computation of
both the threshold level $\epsilon^*$ and of the worst-case loss and of a
corresponding worst-case asset price scenario, amounts to solving suitable
linear programming problems.}
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