Jesse Dean
@jessecdean.bsky.social
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Researcher, teacher, honorary PT. Mostly walking, balance, and stroke rehab.
reposted by
Jesse Dean
Integrative Movement Science Institute
28 days ago
How can wearable robots better support balance and reduce fall risk? New research by Kristen Jakubowski, Gregory Sawicki, PhD, and Lena Ting suggests that center-of-mass feedback may help inform balance-assistive control strategies for wearable robots.
doi.org/10.1186/s129...
#WearableRobotics
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Center of mass feedback for joint torque control during perturbed standing: a potential generalizable control approach for balance augmentation in wearable robots - Journal of NeuroEngineering and Rehabilitation
Background Exoskeletons have the potential to augment balance and decrease fall risk. However, existing balance-augmenting wearable robotic controllers have only been tested in single planes of motion during either standing or walking. Thus, it is unclear whether a single control scheme can generalize across perturbations with varying spatial properties or from standing to walking. Inspired by the nervous system’s generalizable balance control strategy across perturbation types and conditions, we propose a novel torque control framework that modulates multi-joint reactive torques based on center of mass (CoM) deviation. We evaluated the generalizability of our delayed CoM feedback controller to predict multi-joint torque responses to perturbations of varying magnitudes, directions, and across movement contexts. Methods In nine healthy young adults, we tested the ability of a delayed CoM feedback scheme to predict multi-joint torque responses to (1) ramp-and-hold support surface perturbations at three magnitudes in 8 directions, (2) a continuous sinusoidal movement, resulting in a cyclical movement of the CoM with similar periodic features as walking, and (3) a sinusoidal motion with random perturbations superimposed to mimic perturbations during cyclic tasks. We trained the model on single ramp-and-hold conditions and evaluated its ability to generalize across directions, magnitudes, movement contexts, and subjects. Results The delayed CoM feedback controller trained on a single ramp-and-hold condition generalized to all ramp-and-hold perturbations for all joints, predicting the joint torques for perturbations of varying directions and magnitudes with high fidelity (average R2 > 0.84 and RMSE < 0.08 Nm/kg). However, generalization from standing to cyclic movement only occurred for hip and knee flexion. The CoM feedback parameters from ramp-and-hold perturbations generalized to the continuous sinusoidal movement (cyclic movement) and the sinusoidal movement with superimposed perturbations (unexpected perturbations) for hip flexion and knee flexion (average R²>0.70 and RMSE < 0.13 Nm/kg), but not for ankle plantarflexion and hip adduction (R²>0.20 and RMSE < 0.22 Nm/kg). Conclusion Our findings show that a physiologically-inspired CoM feedback controller can robustly predict balance-correcting torques appropriate for driving a hip or knee wearable robotic device during standing and movement, and an ankle device during standing only. The goodness-of-fit of joint torque is comparable to top machine learning algorithms, yet requires orders of magnitude less training data, enabling rapid implementation to reduce fall risk.
https://doi.org/10.1186/s12984-026-02035-1
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reposted by
Jesse Dean
Russell Johnson
about 1 month ago
Recruiting PhD students to help launch my new research laboratory at the University of Delaware! See biomch-L post here for more details, and complete the screening form to let me know about your interest! Please share
biomch-l.isbweb.org/forum/biomch...
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PhD Opportunities – Rehabilitation Modeling Laboratory, University of Delaware - Biomch-L
Dear Biomch-L Community, The Rehabilitation Modeling (ReModel) Laboratory (PI: Russell Johnson) at the University of Delaware is seeking two PhD students to join our new research group. Dr. Johnson i...
https://biomch-l.isbweb.org/forum/biomch-l-forums/jobs-and-positions/49499-phd-opportunities-%E2%80%93-rehabilitation-modeling-laboratory-university-of-delaware
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reposted by
Jesse Dean
ASNR
4 months ago
Meet our
#ASNR2026
exhibitors! The Neuro-PRECISE Center is an NIH-funded rehab research center at MUSC that is developing knowledge & tools to characterize, modulate, and rehabilitate dysfunctional neural circuits to restore function for people w/ physical, cognitive, and psychosocial disabilities.
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reposted by
Jesse Dean
Kirstin-Friederike Heise
4 months ago
New brief research report out with the team from the MUSC Stroke Recovery Research Center 👇
doi.org/10.1161/JAHA...
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Overlooked Burden of Poststroke Pain: Retrospective Analysis of a Real‐World Registry of Survivors of Chronic Stroke | Journal of the American Heart Association
https://doi.org/10.1161/JAHA.125.044834
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Have an idea for an early-stage study investigating the neural mechanisms of rehabilitation? Submit a pilot project application to the new Neuro-PRECISE Center at MUSC!
add a skeleton here at some point
7 months ago
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reposted by
Jesse Dean
Brian Umberger
10 months ago
Please repost! We have an open rank, tenure-line faculty position in biomechanics in the School of Kinesiology at the University of Michigan Ann Arbor. At U-M we have great colleagues, exceptional resources, and biomechanics can be found all across the campus.
#BiomechSky
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Tenure-track Faculty Position in Biomechanics (Open Rank), University of Michigan, Ann Arbor, MI, USA - Biomch-L
The School of Kinesiology (http://kines.umich.edu) at the University of Michigan invites applications and nominations for a tenure-track faculty position at the level of Assistant Professor, Associate...
https://biomch-l.isbweb.org/forum/biomch-l-forums/jobs-and-positions/49048-tenure-track-faculty-position-in-biomechanics-open-rank-university-of-michigan-ann-arbor-mi-usa
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