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Modelling Variation in the Forward EMG Model.

Dimitrios Halatsis, Alexander Kenneth Clarke, Dario Farina
NeurIPSW 2024
/neuripsw/2024/halatsis2024neuripsw-modelling/

Abstract

Traditional finite element methods (FEM) face limitations when simulating dynamic, naturalistic movements due to the need for recalculations as muscle geometry changes. Our approach leverages PINNs to implicitly represent a continuous range of solutions for the volume conduction equation, parameterized by the pinnation angle of muscle fibers. We demonstrate that our method significantly reduces model size and computational time while maintaining high accuracy. The neural network model generalizes well across a range of pinnation angles, offering a promising solution for efficient and dynamic EMG simulations.

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Cite

Text

Halatsis et al. "Modelling Variation in the Forward EMG Model.." NeurIPS 2024 Workshops: D3S3, 2024.

Markdown

[Halatsis et al. "Modelling Variation in the Forward EMG Model.." NeurIPS 2024 Workshops: D3S3, 2024.](https://mlanthology.org/neuripsw/2024/halatsis2024neuripsw-modelling/)

BibTeX

@inproceedings{halatsis2024neuripsw-modelling,
  title     = {{Modelling Variation in the Forward EMG Model.}},
  author    = {Halatsis, Dimitrios and Clarke, Alexander Kenneth and Farina, Dario},
  booktitle = {NeurIPS 2024 Workshops: D3S3},
  year      = {2024},
  url       = {https://mlanthology.org/neuripsw/2024/halatsis2024neuripsw-modelling/}
}