EMGNet: An EMG Dataset for Neural Decoding

Citation Author(s):
Andrew Garrett
Kurbis
University of Toronto
Alex
Mihailidis
University of Toronto
Brokoslaw
Laschowski
University of Toronto
Submitted by:
Brokoslaw Laschowski
Last updated:
Mon, 10/21/2024 - 05:03
DOI:
10.21227/3n4y-7y55
Data Format:
License:
0
0 ratings - Please login to submit your rating.

Abstract 

Surface electromyography (EMG) can be used to interact with and control robotic systems via intent recognition. However, most machine learning algorithms used to decode EMG signals have been trained on relatively small datasets with limited subjects, which can affect their widespread generalization across different users and activities. Motivated by these limitations, we developed EMGNet - a large-scale dataset to support research and development in EMG neural decoding, with an emphasis on human locomotion. EMGNet combines 7 open-source datasets with processed EMG signals for 132 healthy subjects from four different countries (152 GB total size). We include manually annotated EMG data for four muscles (i.e., tibialis anterior, medial gastrocnemius, rectus femoris, and biceps femoris) and six activities, including standing, level-ground walking, stair ascent and descent, and ramp ascent and descent. Each individual dataset included in EMGNet was modified to achieve a consistent data structure for ease of use and to establish a standardized pipeline for signal processing (e.g., filtering, normalization, and windowing) and for training machine learning algorithms. The mission of EMGNet is to provide a large-scale, open-source platform to support the development and comparison of next-generation EMG neural decoding algorithms for myoelectric control and robotics.

Instructions: 

*Details regarding content and use of the dataset are provided in the ReadMe file. Please email Dr. Brokoslaw Laschowski (brokoslaw.laschowski@utoronto.ca), Research Scientist and Director of the Neural Robotics Lab at the University of Toronto, for questions and/or technical assistance. 

Comments

ok

Submitted by Chala Abdissa on Thu, 09/19/2024 - 14:48

Looks great! It's a shame you have to be an IEEE member or have a subscription to access this.

Submitted by Zhiyu Zheng on Mon, 09/23/2024 - 11:04

Documentation

AttachmentSize
File ReadMe.pdf215.85 KB