OmniField: Conditioned Neural Fields for Robust Multimodal Spatiotemporal Learning
Abstract
Multimodal spatiotemporal learning on real-world experimental data is constrained by two challenges: within-modality measurements are sparse, irregular, and noisy (QA/QC artifacts) but cross-modally correlated; the set of available modalities varies across space and time, shrinking the usable record unless models can adapt to arbitrary subsets at train and test time. We propose OmniField, a continuity-aware framework that learns a continuous neural field conditioned on available modalities and iteratively fuses cross-modal context. A multimodal crosstalk block architecture paired with iterative cross-modal refinement aligns signals prior to the decoder, enabling unified reconstruction, interpolation, forecasting, and cross-modal prediction without gridding or surrogate preprocessing. Extensive evaluations show that OmniField consistently outperforms eight strong multimodal spatiotemporal baselines. Under heavy simulated sensor noise, performance remains close to clean-input levels, highlighting robustness to corrupted measurements.
Cite
Text
Valencia et al. "OmniField: Conditioned Neural Fields for Robust Multimodal Spatiotemporal Learning." International Conference on Learning Representations, 2026.Markdown
[Valencia et al. "OmniField: Conditioned Neural Fields for Robust Multimodal Spatiotemporal Learning." International Conference on Learning Representations, 2026.](https://mlanthology.org/iclr/2026/valencia2026iclr-omnifield/)BibTeX
@inproceedings{valencia2026iclr-omnifield,
title = {{OmniField: Conditioned Neural Fields for Robust Multimodal Spatiotemporal Learning}},
author = {Valencia, Kevin and Balasooriya, Thilina and Luo, Xihaier and Yoo, Shinjae and Park, David Keetae},
booktitle = {International Conference on Learning Representations},
year = {2026},
url = {https://mlanthology.org/iclr/2026/valencia2026iclr-omnifield/}
}