Hisham Temmar, Matthew S Willsey, Joseph T Costello, Matthew J Mender, Luis Hernan Cubillos, Jesse C DeMatteo, Jordan LW Lam, Dylan M Wallace, Madison M Kelberman, Parag G Patil, Cynthia a Chestek
(2025).
Investigating the benefits of artificial neural networks over linear approaches to BMI decoding.
Journal of Neural Engineering.
Luis H. Cubillos, Madison M. Kelberman, Matthew J. Mender, Aren Hite, Hisham Temmar, Matthew Willsey, Nishant Ganesh Kumar, Theodore A. Kung, Parag G. Patil, Cynthia Chestek, Chandramouli Krishnan
(2025).
Exploring Synergies in Brain-Machine Interfaces: Compression vs. Performance.
bioRxiv.
Luis Cubillos, PhD, Guy Revach, Matthew J. Mender, Joseph T. Costello, Hisham Temmar, Aren Hite, Diksha Zutshi, Dylan M. Wallace, Xiaoyong Ni, Madison M. Kelberman
(2024).
Exploring the trade-off between deep-learning and explainable models for brain-machine interfaces.
Accepted at NeurIPS 2024.
Joseph T. Costello, Hisham Temmar, Luis Cubillos, PhD, Matthew J. Mender, Dylan M. Wallace, Madison Kelberman, Omer Benharush, Jeremy Simons, Matthew S. Willsey, Nishant Ganesh Kumar
(2024).
Sparse neural networks enable low-power, implantable neural interfaces.
bioRxiv.
Matthew J. Mender, Ayobami L. Ward, Luis Cubillos, PhD, Madison M. Kelberman, Joseph T. Costello, Hisham Temmar, Dylan M. Wallace, Edanjen T. Lin, Jordan LW Lam, Matthew S. Willsey
(2024).
Functional Electrical Stimulation and Brain-Machine Interfaces for Simultaneous Control of Wrist and Finger Flexion.
bioRxiv.
Hisham Temmar, Matthew S. Willsey, Joseph T. Costello, Matthew J. Mender, Luis Cubillos, PhD, Jordan LW Lam, Dylan M. Wallace, Madison M. Kelberman, Parag G. Patil, Cynthia A. Chestek
(2024).
Artificial neural network for brain-machine interface consistently produces more naturalistic finger movements than linear methods.
bioRxiv.