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Neural Network Convergence for Variational Inequalities

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  • Yun Zhao
  • Harry Zheng

Abstract

We propose an approach to applying neural networks on linear parabolic variational inequalities. We use loss functions that directly incorporate the variational inequality on the whole domain to bypass the need to determine the stopping region in advance and prove the existence of neural networks whose losses converge to zero. We also prove the functional convergence in the Sobolev space. We then apply our approach to solving an optimal investment and stopping problem in finance. By leveraging duality, we convert the nonlinear HJB-type variational inequality of the primal problem into a linear variational inequality of the dual problem and prove the convergence of the primal value function from the dual neural network solution, an outcome made possible by our Sobolev norm analysis. We illustrate the versatility and accuracy of our method with numerical examples for both power and non-HARA utilities as well as high-dimensional American put option pricing. Our results underscore the potential of neural networks for solving variational inequalities in optimal stopping and control problems.

Suggested Citation

  • Yun Zhao & Harry Zheng, 2025. "Neural Network Convergence for Variational Inequalities," Papers 2509.26535, arXiv.org.
    • Handle: RePEc:arx:papers:2509.26535
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    File URL: http://arxiv.org/pdf/2509.26535
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