BSDEs with nonlinear weak terminal condition
Abstract
In a recent paper, Bouchard, Elie and Reveillac \cite{BER} have studied a new class of Backward Stochastic Differential Equations with weak terminal condition, for which the -terminal value of the solution is not fixed as a random variable, but only satisfies a constraint of the form The aim of this paper is to introduce a more general class of BSDEs with {\em nonlinear weak terminal condition}. More precisely, the constraint takes the form where represents the -conditional expectation associated to a {\em nonlinear driver} . We carry out a similar analysis as in \cite{BER} of the value function corresponding to the minimal solution of the BSDE with nonlinear weak terminal condition: we study the regularity, establish the main properties, in particular continuity and convexity with respect to the parameter , and finally provide a dual representation and the existence of an optimal control in the case of concave constraints. From a financial point of view, our study is closely related to the approximative hedging of an European option under dynamic risk measures constraints. The nonlinearity raises subtle difficulties, highlighted throughout the paper, which cannot be handled by the arguments used in the case of classical expectations constraints studied in \cite{BER}.
Cite
@article{arxiv.1602.00321,
title = {BSDEs with nonlinear weak terminal condition},
author = {Roxana Dumitrescu},
journal= {arXiv preprint arXiv:1602.00321},
year = {2016}
}