English

BiND: A Neural Discriminator-Decoder for Accurate Bimanual Trajectory Prediction in Brain-Computer Interfaces

Neurons and Cognition 2025-09-05 v1 Artificial Intelligence Signal Processing

Abstract

Decoding bimanual hand movements from intracortical recordings remains a critical challenge for brain-computer interfaces (BCIs), due to overlapping neural representations and nonlinear interlimb interactions. We introduce BiND (Bimanual Neural Discriminator-Decoder), a two-stage model that first classifies motion type (unimanual left, unimanual right, or bimanual) and then uses specialized GRU-based decoders, augmented with a trial-relative time index, to predict continuous 2D hand velocities. We benchmark BiND against six state-of-the-art models (SVR, XGBoost, FNN, CNN, Transformer, GRU) on a publicly available 13-session intracortical dataset from a tetraplegic patient. BiND achieves a mean R2R^2 of 0.76 (±\pm0.01) for unimanual and 0.69 (±\pm0.03) for bimanual trajectory prediction, surpassing the next-best model (GRU) by 2% in both tasks. It also demonstrates greater robustness to session variability than all other benchmarked models, with accuracy improvements of up to 4% compared to GRU in cross-session analyses. This highlights the effectiveness of task-aware discrimination and temporal modeling in enhancing bimanual decoding.

Keywords

Cite

@article{arxiv.2509.03521,
  title  = {BiND: A Neural Discriminator-Decoder for Accurate Bimanual Trajectory Prediction in Brain-Computer Interfaces},
  author = {Timothee Robert and MohammadAli Shaeri and Mahsa Shoaran},
  journal= {arXiv preprint arXiv:2509.03521},
  year   = {2025}
}

Comments

Accepted for publication in IEEE Neural Engineering (NER) Conference'25

R2 v1 2026-07-01T05:19:39.969Z