Optimal Dividend Policies with Random Profitability

Reppen, Max; Rochet, Jean-Charles; Soner, H. Mete

doi:10.2139/ssrn.3099015

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Optimal Dividend Policies with Random Profitability

Swiss Finance Institute Research Paper No. 17-46

38 Pages Posted: 10 Jan 2018

See all articles by Max Reppen

Jean-Charles Rochet

University of Toulouse Capitole - Toulouse School of Economics

H. Mete Soner

ETH Zürich - Department of Mathematics

Date Written: May 31, 2017

Abstract

We study an optimal dividend problem under a bankruptcy constraint. Firms face a trade-off between potential bankruptcy and extraction of profits. In contrast to previous works, general cash flow drifts, including Ornstein–Uhlenbeck and CIR processes, are considered. We provide rigorous proofs of continuity of the value function, whence dynamic programming, as well as uniqueness of the solution to the Hamilton–Jacobi–Bellman equation, and study its qualitative properties both analytically and numerically. The value function is thus given by a nonlinear PDE with a gradient constraint from below in one dimension. We find that the optimal strategy is both a barrier and a band strategy and that it includes voluntary liquidation in parts of the state space. Finally, we present and numerically study extensions of the model, including equity issuance and gambling for resurrection.

Suggested Citation: Suggested Citation

Reppen, Max and Rochet, Jean-Charles and Soner, H. Mete, Optimal Dividend Policies with Random Profitability (May 31, 2017). Swiss Finance Institute Research Paper No. 17-46, Available at SSRN: https://ssrn.com/abstract=3099015 or http://dx.doi.org/10.2139/ssrn.3099015