BACKWARD STOCHASTIC DIFFERENTIAL EQUATION DRIVEN BY A MARKED POINT PROCESS: AN ELEMENTARY APPROACH WITH AN APPLICATION TO OPTIMAL CONTROL

BACKWARD STOCHASTIC DIFFERENTIAL EQUATION DRIVEN BY A MARKED POINT PROCESS: AN ELEMENTARY APPROACH WITH AN APPLICATION TO OPTIMAL CONTROL

We address a class of backward stochastic differential equations on a bounded interval, where the driving noise is a marked, or multivariate, point process. Assuming that the jump times are totally inaccessible and a technical condition holds (see Assumption (A) below), we prove existence and unique...

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Veröffentlicht in:The Annals of applied probability 2016-06, Vol.26 (3), p.1743-1773
Hauptverfasser: Confortola, Fulvia, Fuhrman, Marco, Jacod, Jean
Format: Artikel
Sprache:eng
Schlagworte:
A priori knowledge
Control theory
Cost functions
Differential equations
Martingales
Mathematical constants
Mathematical functions
Multivariate analysis
Null set
Optimal control
Optimization
Stochastic models
Theorems
Uniqueness
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Beschreibung
Zusammenfassung:We address a class of backward stochastic differential equations on a bounded interval, where the driving noise is a marked, or multivariate, point process. Assuming that the jump times are totally inaccessible and a technical condition holds (see Assumption (A) below), we prove existence and uniqueness results under Lipschitz conditions on the coefficients. Some counterexamples show that our assumptions are indeed needed. We use a novel approach that allows reduction to a (finite or infinite) system of deterministic differential equations, thus avoiding the use of martingale representation theorems and allowing potential use of standard numerical methods. Finally, we apply the main results to solve an optimal control problem for a marked point process, formulated in a classical way.
ISSN:1050-5164
2168-8737
DOI:10.1214/15-AAP1132