Systemic Risk and Stochastic Games with Delay |
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| Authors: | René Carmona Jean-Pierre Fouque Seyyed Mostafa Mousavi Li-Hsien Sun |
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| Affiliation: | 1.ORFE, Bendheim Center for Finance,Princeton University,Princeton,USA;2.Department of Statistics and Applied Probability,University of California Santa Barbara,Santa Barbara,USA;3.Institute of Statistics,National Central University,Taoyuan City,Taiwan |
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| Abstract: | We propose a model of inter-bank lending and borrowing which takes into account clearing debt obligations. The evolution of log-monetary reserves of banks is described by coupled diffusions driven by controls with delay in their drifts. Banks are minimizing their finite-horizon objective functions which take into account a quadratic cost for lending or borrowing and a linear incentive to borrow if the reserve is low or lend if the reserve is high relative to the average capitalization of the system. As such, our problem is a finite-player linear–quadratic stochastic differential game with delay. An open-loop Nash equilibrium is obtained using a system of fully coupled forward and advanced-backward stochastic differential equations. We then describe how the delay affects liquidity and systemic risk characterized by a large number of defaults. We also derive a closed-loop Nash equilibrium using a Hamilton–Jacobi–Bellman partial differential equation approach. |
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