Neville Hogan, Ph.D.
Affiliations: | Massachusetts Institute of Technology, Cambridge, MA, United States |
Area:
motor controlGoogle:
"Neville Hogan"Mean distance: 15.49 (cluster 22)
Children
Sign in to add trainee| Max Berniker | grad student | MIT | |
| James E. Colgate | grad student | MIT (E-Tree) | |
| Hyunglae Lee | grad student | 2008-2013 | MIT |
| James Hermus | grad student | 2016-2022 | MIT |
| Meghan E. Huber | post-doc | MIT | |
| Konstantinos Michmizos | post-doc | 2011-2013 | MIT |
| Tamar Flash | research scientist | MIT/Harvard |
Collaborators
Sign in to add collaborator| Salah Bazzi | collaborator | ||
| Nedialko I. Krouchev | collaborator | GRSNC, Polystim | |
| Reza Sharif Razavian | collaborator | 2019- | MIT |
BETA: Related publications
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Publications
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| Hermus J, Doeringer J, Sternad D, et al. (2023) Dynamic primitives in constrained action: systematic changes in the zero-force trajectory. Journal of Neurophysiology. 131: 1-15 |
| Nah MC, Krotov A, Russo M, et al. (2023) Learning to manipulate a whip with simple primitive actions - A simulation study. Iscience. 26: 107395 |
| West AM, Huber ME, Hogan N. (2022) Role of path information in visual perception of joint stiffness. Plos Computational Biology. 18: e1010729 |
| Krotov A, Russo M, Nah M, et al. (2022) Motor control beyond reach-how humans hit a target with a whip. Royal Society Open Science. 9: 220581 |
| Russo M, Lee J, Hogan N, et al. (2022) Mechanical effects of canes on standing posture: beyond perceptual information. Journal of Neuroengineering and Rehabilitation. 19: 97 |
| West AM, Hermus J, Huber ME, et al. (2022) Dynamic Primitives Limit Human Force Regulation during Motion. Ieee Robotics and Automation Letters. 7: 2391-2398 |
| Lee J, Huber ME, Hogan N. (2022) Gait Entrainment to Torque Pulses From a Hip Exoskeleton Robot. Ieee Transactions On Neural Systems and Rehabilitation Engineering : a Publication of the Ieee Engineering in Medicine and Biology Society. 30: 656-667 |
| Nayeem R, Bazzi S, Sadeghi M, et al. (2021) Preparing to move: Setting initial conditions to simplify interactions with complex objects. Plos Computational Biology. 17: e1009597 |
| Lee J, Huber ME, Hogan N. (2021) Applying Hip Stiffness with an Exoskeleton to Compensate Gait Kinematics. Ieee Transactions On Neural Systems and Rehabilitation Engineering : a Publication of the Ieee Engineering in Medicine and Biology Society |
| Shiozawa K, Lee J, Russo M, et al. (2021) Frequency-dependent force direction elucidates neural control of balance. Journal of Neuroengineering and Rehabilitation. 18: 145 |