Transactions on

Neural Systems and Rehabilitation Engineering

TNSRE serves the community of biomedical engineers and clinical researchers who work at the intersection of neuroscience and physical medicine. We publish novel approaches and technologies for better understanding neural systems, human movement, and the relationships between them, with a focus on assistive devices that improve life for patients, for practicing clinicians, and for everyday use.

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3.34

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0.0096

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0.88

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Daniel P. Ferris, Ph.D.

Editor-in-chief

Daniel P. Ferris is the Robert W. Adenbaum Professor of Engineering Innovation at the University of Florida J. Crayton Pruitt Family Department of Biomedical Engineering. He studies how to integrate machines and humans to improve human performance and mobility in health and disability. Specific research projects focus on robotic lower limb exoskeletons, bionic lower limb prostheses, and mobile brain imaging with high-density electroencephalography. Prof. Ferris completed his B.S. from the University of Central Florida, his M.S. from the University of Miami, and his Ph.D. from University of California, Berkeley. After earning his doctoral degree, he worked as a post-doctoral researcher in the UCLA Department of Neurology and the University of Washington Department of Electrical Engineering. Dr. Ferris spent 16 years at the University of Michigan until recently relocating to the University of Florida in June 2017.

Updates

Transactions on

Neural Systems and Rehabilitation Engineering

OCTOBER 2020
VOLUME 28
NUMBER 10
ITNSB3

Get it on IEEExplore.org

The IEEE Transactions on Neural Systems and Rehabilitation Engineering Volume 28 Issue 10 has been published.

Multi-directional Ankle Impedance During Standing Postures

Guilherme A. Ribeiro, Lauren N. Knop, Mo Rastgaar

In this study, we estimated the multi-directional ankle mechanical impedance in two degrees-of-freedom (DOF) during standing, and determined how the stiffness, damping, and inertia vary with ankle angle and ankle torque at different postures... Read more

Posted on 21 SEP 2020

Inter-and Intra-Subject Transfer Reduces Calibration Effort for High-Speed SSVEP-based BCIs

Chi Man Wong, Ze Wang, Boyu Wang, Ka Fai Lao, Agostinho Rosa, Peng Xu, Tzyy-Ping Jung, C. L. Philip Chen, Feng Wan

Steady-state visual evoked potential (SSVEP)-based brain-computer interfaces (BCIs) that can deliver high information transfer rate (ITR) usually require subject’s calibration data to learn the class-and subject-specific model parameters (e.g. the spatial filters and SSVEP templates). Normally, the amount of the calibration data for learning is proportional to the number of classes (or visual stimuli), which could be huge and consequently lead to a time-consuming calibration... Read more

Posted on 21 SEP 2020

Featured Articles

Optimal Control Perspective on Parkinson’s Disease: Increased Delay Between State Estimator and Controller Produces Tremor

Christopher R. Kelley, Jeffrey L. Kauffman

Parkinson’s disease produces tremor in a large subset of patients despite generally inhibiting movement. The pathophysiology of parkinsonian tremor is unclear, leading to uncertainty in how and why treatments reduce tremor with varying effectiveness. Models for parkinsonian tremor attempt to explain the underlying principles of tremor generation in the central nervous system, often focusing on neural activity of specific substructures... Read more

Posted on 21 SEP 2020

Featured Articles

Topological Network Analysis of Early Alzheimer’s Disease Based on Resting-State EEG

Feng Duan, Zihao Huang, Zhe Sun, Yu Zhang, Qibin Zhao, Andrzej Cichocki, Zhenglu Yang, Jordi Solé-Casals

Previous studies made progress in the early diagnosis of Alzheimer’s disease (AD) using electroencephalography (EEG) without considering EEG connectivity. To fill this gap, we explored significant differences between early AD patients and controls based on frequency domain and spatial properties using functional connectivity in mild cognitive impairment (MCI) and mild AD datasets... Read more

Posted on 21 SEP 2020

Featured Articles

Toward Predicting Infant Developmental Outcomes from Day-Long Inertial Motion Recordings

Naomi T. Fitter, Rebecca Funke, José Carlos Pulido, Maja J. Matarić, Beth A. Smith

As improvements in medicine lower infant mortality rates, more infants with neuromotor challenges survive past birth. The motor, social, and cognitive development of these infants are closely interrelated, and challenges in any of these areas can lead to developmental differences... Read more

Posted on 21 SEP 2020

Featured Articles

Dynamic Bayesian Adjustment of Dwell Time for Faster Eye Typing

Jimin Pi, Paul A. Koljonen, Yong Hu, Bertram E. Shi

Eye typing is a hands-free method of human computer interaction, which is especially useful for people with upper limb disabilities. Users select a desired key by gazing at it in an image of a keyboard for a fixed dwell time. There is a tradeoff in selecting the dwell time; shorter dwell times lead to errors due to unintentional selections, while longer dwell times lead to a slow input speed... Read more

Posted on 21 SEP 2020

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