Optimization or Architecture: What Matters in Non-Linear Filtering?
Abstract
In non-linear filtering, it is traditional to compare non-linear architectures such as neural networks to the standard linear Kalman Filter (KF). We observe that this methodology mixes the evaluation of two separate components: the non-linear architecture, and the numeric optimization method. In particular, the non-linear model is often optimized, whereas the reference KF model is not. We argue that both should be optimized similarly. We suggest the Optimized KF (OKF), which adjusts numeric optimization to the positive-definite KF parameters. We demonstrate how a significant advantage of a neural network over the KF may entirely vanish once the KF is optimized using OKF. This implies that experimental conclusions of certain previous studies were derived from a flawed process. The benefits of OKF over the non-optimized KF are further studied theoretically and empirically, where OKF demonstrates consistently improved accuracy in a variety of problems.
Cite
Text
Greenberg et al. "Optimization or Architecture: What Matters in Non-Linear Filtering?." ICML 2023 Workshops: SCIS, 2023.Markdown
[Greenberg et al. "Optimization or Architecture: What Matters in Non-Linear Filtering?." ICML 2023 Workshops: SCIS, 2023.](https://mlanthology.org/icmlw/2023/greenberg2023icmlw-optimization-a/)BibTeX
@inproceedings{greenberg2023icmlw-optimization-a,
title = {{Optimization or Architecture: What Matters in Non-Linear Filtering?}},
author = {Greenberg, Ido and Yannay, Netanel and Mannor, Shie},
booktitle = {ICML 2023 Workshops: SCIS},
year = {2023},
url = {https://mlanthology.org/icmlw/2023/greenberg2023icmlw-optimization-a/}
}