Neural Functionally Generated Portfolios
Abstract
We introduce a novel neural-network-based approach to learning the generating function of a functionally generated portfolio (FGP) from synthetic or real market data. In the neural network setting, the generating function is represented as , where is an iterable neural network parameter vector, and is trained to maximise investment return relative to the market portfolio. We compare the performance of the Neural FGP approach against classical FGP benchmarks. FGPs provide a robust alternative to classical portfolio optimisation by bypassing the need to estimate drifts or covariances. The neural FGP framework extends this by introducing flexibility in the design of the generating function, enabling it to learn from market dynamics while preserving self-financing and pathwise decomposition properties.
Cite
@article{arxiv.2506.19715,
title = {Neural Functionally Generated Portfolios},
author = {Michael Monoyios and Olivia Pricilia},
journal= {arXiv preprint arXiv:2506.19715},
year = {2025}
}
Comments
10 pages, 2 figures