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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Editor-in-Chief

Dan Ferris

Dan Ferris

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.​

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The IEEE Transactions on Neural Systems and Rehabilitation Engineering Volume 29 has been published.

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A Control-Theoretical System for Modulating Hippocampal Gamma Oscillations using Stimulation of the Posterior Cingulate Cortex 150 150 Transactions on Neural Systems and Rehabilitation Engineering (TNSRE)

A Control-Theoretical System for Modulating Hippocampal Gamma Oscillations using Stimulation of the Posterior Cingulate Cortex

Author (s): Carlos E. Davila;David X. Wang;Maxwell Ritzer;Rosalyn Moran;Bradley C. Lega Closed-loop stimulation for targeted modulation of brain signals has emerged as a promising strategy for episodic memory restoration. In…

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Coil efficiency for inductive peripheral nerve stimulation 150 150 Transactions on Neural Systems and Rehabilitation Engineering (TNSRE)

Coil efficiency for inductive peripheral nerve stimulation

Author (s): Philipp Braun;Jonathan Rapp;Werner Hemmert;Bernhard Gleich Magnetic stimulation of peripheral nerves is evoked by electric field gradients caused by high-intensity, pulsed magnetic fields created from a coil. Currents required…

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Multilevel Feature Learning Method for Accurate Interictal Epileptiform Spike Detection 150 150 Transactions on Neural Systems and Rehabilitation Engineering (TNSRE)

Multilevel Feature Learning Method for Accurate Interictal Epileptiform Spike Detection

Author (s): Chenchen Cheng;Yan Liu;Bo You;Yuanfeng Zhou;Fei Gao;Liling Yang;Yakang Dai Interictal epileptiform spike (referred to as spike) detected from electroencephalograms lasting only 20- to 200-ms can provide a reliable evidence-based…

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eyeSay: Brain Visual Dynamics Decoding with Deep Learning & Edge Computing 150 150 Transactions on Neural Systems and Rehabilitation Engineering (TNSRE)

eyeSay: Brain Visual Dynamics Decoding with Deep Learning & Edge Computing

Author (s): Jiadao Zou;Qingxue Zhang Brain visual dynamics encode rich functional and biological patterns of the neural system, and if decoded, are of great promise for many applications such as…

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Random Channel Masks for Regularization of Least Squares-Based Finger EMG-Force Modeling to Improve Cross-Day Performance 150 150 Transactions on Neural Systems and Rehabilitation Engineering (TNSRE)

Random Channel Masks for Regularization of Least Squares-Based Finger EMG-Force Modeling to Improve Cross-Day Performance

Authors (s): Xinyu Jiang;Xiangyu Liu;Jiahao Fan;Chenyun Dai;Edward A. Clancy;Wei Chen Estimating the finger forces from surface electromyography (sEMG) is essential for diverse applications (e.g., human-machine interfacing). The performance of pre-trained…

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Development and Characterization of a Micromagnetic Alternative to Cochlear Implant Electrode Arrays 150 150 Transactions on Neural Systems and Rehabilitation Engineering (TNSRE)

Development and Characterization of a Micromagnetic Alternative to Cochlear Implant Electrode Arrays

Author (s): Ressa Reneth S. Sarreal;David T. Blake;Pamela T. Bhatti To stimulate the auditory nerve, cochlear implants directly inject electrical current into surrounding tissue via an implanted electrode array. While…

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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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