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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3.802

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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.

Congratulations to our 2020 TNSRE top reviewers!

Prof. Jing Jin

East China University of Science and Technology

Dr. Peng Xu

University of Electronic Science and Technology of China

Dr. Neethu Robinson

School of Computer Science and Engineering, Nanyang Technological University

Dr. Yingchun Zhang

University of Houston Biomedical Engineering

Updates

Transactions on

Neural Systems and Rehabilitation Engineering

2021
VOLUME 29
ITNSB3

Get it on IEEExplore.org

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

A Muscle Synergy-Inspired Method of Detecting Human Movement Intentions Based on Wearable Sensor Fusion

Yi-Xing Liu, Ruoli Wang, Elena M. Gutierrez-Farewik

Detecting human movement intentions is fundamental to neural control of robotic exoskeletons, as it is essential for achieving seamless transitions between different locomotion modes. In this study, we enhanced a muscle synergy-inspired method of locomotion mode identification by fusing the... Read more

Posted on 21 JUL 2021

Sharpened and mechanically durable carbon fiber electrode arrays for neural recording

Elissa J. Welle, Joshua E. Woods, Ahmad A. Jiman, Julianna M. Richie, Elizabeth C. Bottorff, Zhonghua Ouyang, John P. Seymour, Paras R. Patel, Tim M. Bruns, Cynthia A. Chestek

Bioelectric medicine treatments target disorders of the nervous system unresponsive to pharmacological methods. While current stimulation paradigms effectively treat many disorders, the underlying mechanisms are relatively unknown, and current neuroscience recording electrodes are often limited in their specificity to gross... Read more

Posted on 4 JUN 2021

Articles

The Detection of Freezing of Gait in Parkinson’s Disease Using Asymmetric Basis Function TV-ARMA Time–Frequency Spectral Estimation Method

Fangang Meng, Lingzhong Guo, Yang Li, Lipeng Wang, Yuzhu Guo

Freezing of gait (FOG) is an episodic gait disturbance affecting locomotion in Parkinson’s disease. As a biomarker to detect FOG, the Freeze index (FI), which is defined as the ratio of the areas under power spectra in `freeze’ band and... Read more

Posted on 21 JUL 2021

Articles

Seizure Onset Detection Using Empirical Mode Decomposition and Common Spatial Pattern

Chaosong Li, Weidong Zhou, Guoyang Liu, Yanli Zhang, Minxing Geng, Feng-Zhen Liu, Shang Wang, Wei Shang

Automatic seizure onset detection plays an important role in epilepsy diagnosis. In this paper, a novel seizure onset detection method is proposed by combining empirical mode decomposition (EMD) of long-term scalp electroencephalogram (EEG) with common spatial pattern (CSP). First, wavelet... Read more

Posted on 21 JUL 2021

Articles

Characterization of a Benchmark Database for Myoelectric Movement Classification

Manfredo Atzori, Arjan Gijsberts, Ilja Kuzborskij, Simone Elsig, Anne-Gabrielle Mittaz Hager, Olivier Deriaz, Claudio Castellini, Henning Müller, Barbara Caputo

In this paper, we characterize the Ninapro database and its use as a benchmark for hand prosthesis evaluation. The database is a publicly available resource that aims to support research on advanced myoelectric hand prostheses. The database is obtained by... Read more

Posted on 21 JUL 2021

Articles

Learning Invariant Patterns Based on a Convolutional Neural Network and Big Electroencephalography Data for Subject-Independent P300 Brain-Computer Interfaces

Wei Gao, Tianyou Yu, Jin-Gang Yu, Zhenghui Gu, Kendi Li, Yong Huang, Yuanqing Li, Zhu Liang Yu

A brain-computer interface (BCI) measures and analyzes brain activity and converts this activity into computer commands to control external devices. In contrast to traditional BCIs that require a subject-specific calibration process before being operated, a subject-independent BCI learns a subject-independent... Read more

Posted on 21 JUL 2021

Articles

Hindsight Experience Replay Improves Reinforcement Learning for Control of a MIMO Musculoskeletal Model of the Human Arm

Douglas C. Crowder, Robert F. Kirsch, Jessica Abreu

High-level spinal cord injuries often result in paralysis of all four limbs, leading to decreased patient independence and quality of life. Coordinated functional electrical stimulation (FES) of paralyzed muscles can be used to restore some motor function in the upper... Read more

Posted on 21 JUL 2021

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