English

Data Augmentation and Attention for massive MIMO-based Indoor Localization in Changing Environments

Systems and Control 2026-02-16 v1 Systems and Control

Abstract

The demand for high-precision indoor localization has grown significantly with the rise of smart environments, industrial automation, and location-aware applications. While massive Multiple-Input and Multiple-Output (MIMO) systems enable millimeter-level accuracy by leveraging rich Channel State Information (CSI), most existing solutions are optimized for static environments, where users or devices remain fixed during data collection and inference. Real-world applications, however, often require real-time localization in changing environments, where rapid movement, unpredictable blockages, and dynamic channel conditions pose significant challenges. To address these challenges, we introduce two data augmentation techniques designed to resemble blocked antennas, enhancing the generalizability of localization models to dynamic scenarios. Additionally, we enhance an existing Deep Learning (DL) model by incorporating attention modules, improving its ability to focus on relevant channel features and antennas. We train our model on data from a static scenario, augmented with the proposed techniques, and evaluate it on a dataset collected in changing scenarios. We investigate the performance enhancements achieved by the data augmentation techniques and the Attention modules, and observe a localization accuracy improvement from a mean error of 286 mm, when trained without Attention and without data augmentations, to 66 mm, when trained with Attention and data augmentation. This shows that high localization accuracy can be maintained in changing environments, even without training data from those scenarios.

Keywords

Cite

@article{arxiv.2602.12954,
  title  = {Data Augmentation and Attention for massive MIMO-based Indoor Localization in Changing Environments},
  author = {Luisa Schuhmacher and Hazem Sallouha and Ihsane Gryech and Sofie Pollin},
  journal= {arXiv preprint arXiv:2602.12954},
  year   = {2026}
}

Comments

To be published in IEEE ICC 2026 Conference Proceedings

R2 v1 2026-07-01T10:35:21.803Z