We found a match
Your institution may have rights to this item. Sign in to continue.
- Title
Dataset on Force Myography for Human–Robot Interactions.
- Authors
Zakia, Umme; Menon, Carlo
- Abstract
Force myography (FMG) is a contemporary, non-invasive, wearable technology that can read the underlying muscle volumetric changes during muscle contractions and expansions. The FMG technique can be used in recognizing human applied hand forces during physical human robot interactions (pHRI) via data-driven models. Several FMG-based pHRI studies were conducted in 1D, 2D and 3D during dynamic interactions between a human participant and a robot to realize human applied forces in intended directions during certain tasks. Raw FMG signals were collected via 16-channel (forearm) and 32-channel (forearm and upper arm) FMG bands while interacting with a biaxial stage (linear robot) and a serial manipulator (Kuka robot). In this paper, we present the datasets and their structures, the pHRI environments, and the collaborative tasks performed during the studies. We believe these datasets can be useful in future studies on FMG biosignal-based pHRI control design. Dataset: https://doi.org/10.5281/zenodo.6632020. Dataset License: CC BY NC ND 4.0
- Subjects
HUMAN-robot interaction; WEARABLE technology; THREE-dimensional imaging; ACQUISITION of data; SOCIAL interaction
- Publication
Data (2306-5729), 2022, Vol 7, Issue 11, p154
- ISSN
2306-5729
- Publication type
Article
- DOI
10.3390/data7110154