Ensemble-SINDy: Robust sparse model discovery in the low-data, high-noise limit, with active learning and control
University of Washington · University of Washington Applied Physics Laboratory
Abstract
Sparse model identification enables the discovery of nonlinear dynamical systems purely from data; however, this approach is sensitive to noise, especially in the low-data limit. In this work, we leverage the statistical approach of bootstrap aggregating (bagging) to robustify the sparse identification of the nonlinear dynamics (SINDy) algorithm. First, an ensemble of SINDy models is identified from subsets of limited and noisy data. The aggregate model statistics are then used to produce inclusion probabilities of the candidate functions, which enables uncertainty quantification and probabilistic forecasts. We apply this ensemble-SINDy (E-SINDy) algorithm to several synthetic and real-world datasets and…
Citation impact
- FWCI
- 31.52
- Percentile
- 100%
- References
- 124
Authors
4Topics & keywords
- Computer science
- Robustness (evolution)
- Leverage (statistics)
- Probabilistic logic
- Ensemble learning
- Nonlinear system
- Noise (video)
- Artificial intelligence
- Reduced inequalities