Avoiding subtraction and division of stochastic signals using normalizing flows: NFdeconvolve
Abstract
Across the scientific realm, we find ourselves subtracting or dividing stochastic signals. For instance, consider a stochastic realization, , generated from the addition or multiplication of two stochastic signals and , namely or . For the example, can be fluorescence background and the signal of interest whose statistics are to be learned from the measured . Similarly, when writing , can be thought of as the illumination intensity and the density of fluorescent molecules of interest. Yet dividing or subtracting stochastic signals amplifies noise, and we ask instead whether, using the statistics of and the measurement of as input, we can recover the statistics of . Here, we show how normalizing flows can generate an approximation of the probability distribution over , thereby avoiding subtraction or division altogether. This method is implemented in our software package, NFdeconvolve, available on GitHub with a tutorial linked in the main text.
Keywords
Cite
@article{arxiv.2501.08288,
title = {Avoiding subtraction and division of stochastic signals using normalizing flows: NFdeconvolve},
author = {Pedro Pessoa and Max Schweiger and Lance W. Q. Xu and Tristan Manha and Ayush Saurabh and Julian Antolin Camarena and Steve Pressé},
journal= {arXiv preprint arXiv:2501.08288},
year = {2025}
}