Helen J. Huang

University of Michigan, Ann Arbor, Ann Arbor, MI 
 2015- Mechanical Engineering University of Central Florida, Orlando, FL, United States 
rehabilitation robotics, EEG, gait
"Helen Huang"
Mean distance: 16.13 (cluster 49)
Cross-listing: Robotree


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Daniel P. Ferris grad student 2002-2009 University of Michigan
 (Neural coupling between upper and lower limbs during recumbent stepping.)
Alaa A. Ahmed post-doc CU Boulder
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Shadmehr R, Huang HJ, Ahmed AA. (2016) A Representation of Effort in Decision-Making and Motor Control. Current Biology : Cb
Kline JE, Huang HJ, Snyder KL, et al. (2016) Cortical Spectral Activity and Connectivity during Active and Viewed Arm and Leg Movement. Frontiers in Neuroscience. 10: 91
Snyder KL, Kline JE, Huang HJ, et al. (2015) Independent Component Analysis of Gait-Related Movement Artifact Recorded using EEG Electrodes during Treadmill Walking. Frontiers in Human Neuroscience. 9: 639
Kline JE, Huang HJ, Snyder KL, et al. (2015) Isolating gait-related movement artifacts in electroencephalography during human walking. Journal of Neural Engineering. 12: 046022
Huang HJ, Ahmed AA. (2014) Reductions in muscle coactivation and metabolic cost during visuomotor adaptation. Journal of Neurophysiology. 112: 2264-74
Huang HJ, Ahmed AA. (2014) Older adults learn less, but still reduce metabolic cost, during motor adaptation. Journal of Neurophysiology. 111: 135-44
Huang HJ, Kram R, Ahmed AA. (2012) Reduction of metabolic cost during motor learning of arm reaching dynamics. The Journal of Neuroscience : the Official Journal of the Society For Neuroscience. 32: 2182-90
Huang HJ, Ahmed AA. (2011) Tradeoff between stability and maneuverability during whole-body movements. Plos One. 6: e21815
Huang HJ, Ferris DP. (2010) Computer simulations of neural mechanisms explaining upper and lower limb excitatory neural coupling. Journal of Neuroengineering and Rehabilitation. 7: 59
Huang HJ, Ferris DP. (2009) Upper limb effort does not increase maximal voluntary muscle activation in individuals with incomplete spinal cord injury. Clinical Neurophysiology : Official Journal of the International Federation of Clinical Neurophysiology. 120: 1741-9
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