The Deep Multi-FBSDE Method: A Robust Deep Learning Method for Coupled FBSDEs

Kristoffer Andersson; Adam Andersson; Cornelis W. Oosterlee

doi:10.1007/s10915-026-03202-1

The Deep Multi-FBSDE Method: A Robust Deep Learning Method for Coupled FBSDEs

Kristoffer Andersson^*
, Adam Andersson
, Cornelis W. Oosterlee

^*Corresponding author for this work

Chalmers University of Technology

Research output: Contribution to journal › Article › Academic › peer-review

Abstract

We introduce the deep multi-FBSDE method for robust approximation of coupled forward-backward stochastic differential equations (FBSDEs), focusing on cases where the deep BSDE method of Han, Jentzen, and E (2018) fails to converge. To overcome the convergence issues, we consider a family of FBSDEs that are equivalent to the original problem in the sense that they satisfy the same associated partial differential equation (PDE) and initial value. Our algorithm proceeds in two phases: first, we approximate the initial condition jointly for a small number of FBSDEs from the FBSDE family, and second, we approximate the original FBSDE using the initial condition approximated in the first phase. Numerical experiments show that our method converges even when the standard deep FBSDE method does not.

Original language	English
Article number	77
Journal	Journal of Scientific Computing
Volume	106
Issue number	3
DOIs	https://doi.org/10.1007/s10915-026-03202-1
Publication status	Published - Mar 2026

Bibliographical note

Publisher Copyright:
© The Author(s) 2026.

Keywords

FBSDEs
Neural networks
Numerical methods
Parabolic PDEs

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10.1007/s10915-026-03202-1Licence: CC BY

s10915-026-03202-1Final published version, 1.67 MBLicence: CC BY

Cite this

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title = "The Deep Multi-FBSDE Method: A Robust Deep Learning Method for Coupled FBSDEs",

abstract = "We introduce the deep multi-FBSDE method for robust approximation of coupled forward-backward stochastic differential equations (FBSDEs), focusing on cases where the deep BSDE method of Han, Jentzen, and E (2018) fails to converge. To overcome the convergence issues, we consider a family of FBSDEs that are equivalent to the original problem in the sense that they satisfy the same associated partial differential equation (PDE) and initial value. Our algorithm proceeds in two phases: first, we approximate the initial condition jointly for a small number of FBSDEs from the FBSDE family, and second, we approximate the original FBSDE using the initial condition approximated in the first phase. Numerical experiments show that our method converges even when the standard deep FBSDE method does not.",

keywords = "FBSDEs, Neural networks, Numerical methods, Parabolic PDEs",

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doi = "10.1007/s10915-026-03202-1",

language = "English",

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TY - JOUR

T1 - The Deep Multi-FBSDE Method

T2 - A Robust Deep Learning Method for Coupled FBSDEs

AU - Andersson, Kristoffer

AU - Andersson, Adam

AU - Oosterlee, Cornelis W.

N1 - Publisher Copyright: © The Author(s) 2026.

PY - 2026/3

Y1 - 2026/3

N2 - We introduce the deep multi-FBSDE method for robust approximation of coupled forward-backward stochastic differential equations (FBSDEs), focusing on cases where the deep BSDE method of Han, Jentzen, and E (2018) fails to converge. To overcome the convergence issues, we consider a family of FBSDEs that are equivalent to the original problem in the sense that they satisfy the same associated partial differential equation (PDE) and initial value. Our algorithm proceeds in two phases: first, we approximate the initial condition jointly for a small number of FBSDEs from the FBSDE family, and second, we approximate the original FBSDE using the initial condition approximated in the first phase. Numerical experiments show that our method converges even when the standard deep FBSDE method does not.

AB - We introduce the deep multi-FBSDE method for robust approximation of coupled forward-backward stochastic differential equations (FBSDEs), focusing on cases where the deep BSDE method of Han, Jentzen, and E (2018) fails to converge. To overcome the convergence issues, we consider a family of FBSDEs that are equivalent to the original problem in the sense that they satisfy the same associated partial differential equation (PDE) and initial value. Our algorithm proceeds in two phases: first, we approximate the initial condition jointly for a small number of FBSDEs from the FBSDE family, and second, we approximate the original FBSDE using the initial condition approximated in the first phase. Numerical experiments show that our method converges even when the standard deep FBSDE method does not.

KW - FBSDEs

KW - Neural networks

KW - Numerical methods

KW - Parabolic PDEs

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DO - 10.1007/s10915-026-03202-1

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The Deep Multi-FBSDE Method: A Robust Deep Learning Method for Coupled FBSDEs

Abstract

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