Heart rate dynamics identification and control in cycle ergometer exercise: Comparison of first- and second-order performance

106 data sets from 27 participants for a heart rate dynamics identification and control study implemented by the cycle ergometer. For details about the test protocol and the outcome definitions, please refer to the article: A. H. Spörri, H. Wang, and K. J. Hunt, "Heart rate dynamics identification and control in cycle ergometer exercise: Comparison of first- and second-order performance," Frontiers in Control Engineering, vol. 3:894180, 2022. https://doi.org/10.3389/fcteg.2022.894180.

Keywords: heart rate dynamics, system identification, feedback control, cycle ergometer, exercise

Publication date

23/10/2023

Retention date∞

Access levelPublic

SensitivityBlue

Contract on the use of data

License

Contributors

Files

BFH - Institute for Human Centered Engineering (HUCE)

Feedback control of heart rate during treadmill exercise based on a two-phase response model

2023

Public 321.6 KB

BFH - Institute for Human Centered Engineering (HUCE)

Heart rate variability changes with respect to time and exercise intensity during heart-rate-controlled steady-state treadmill running

2023

Closed 5.4 MB

BFH - Institute for Human Centered Engineering (HUCE)

Heart rate control using first- and second order models during treadmill exercise

2023

Public 157.8 KB

BFH - Institute for Human Centered Engineering (HUCE)

Self-paced heart rate control for treadmill exercise

2023

Public 512.2 KB