The heart rate can be effectively used as a measure of the exercise intensity during long duration cycle-ergometer exercises: precisely controlling the heart rate (HR) becomes crucial especially for athletes or patients with cardiovascular/obesity problems. The aim of this letter is to experimentally show how the nonlocal and nonswitching nonlinear control that has been recently proposed in the literature for the HR regulation in treadmill exercises can be effectively applied to cycle-ergometer exercises at constant cycling speed. The structure of the involved nonlinear model for the HR dynamics in cycle-ergometer exercises is mathematically inspired by the structure of a recently identified and experimentally validated nonlinear model for the HR dynamics in treadmill exercises: the role played by the treadmill speed is played here by the work load while the zero speed case for the treadmill exercise is here translated into the cycling operation under zero work load. Experimental results not only validate the aforementioned nonlinear model but also demonstrate the effectiveness—in terms of precise HR regulation—of an approach which simply generalizes to the nonlinear framework the classical proportionalintegral control design. The possibility of online modifying the HR reference on the basis of the heart rate variability (HRV) is also suggested and experimentally motivated.

Paradiso, M., Pietrosanti, S., Scalzi, S., Tomei, P., Verrelli, C.m. (2013). Experimental heart rate regulation in cycle-ergometer exercises. IEEE TRANSACTIONS ON BIOMEDICAL ENGINEERING, 60(1), 135-139 [10.1109/TBME.2012.2225061].

Experimental heart rate regulation in cycle-ergometer exercises

TOMEI, PATRIZIO;VERRELLI, CRISTIANO MARIA
2013-01-01

Abstract

The heart rate can be effectively used as a measure of the exercise intensity during long duration cycle-ergometer exercises: precisely controlling the heart rate (HR) becomes crucial especially for athletes or patients with cardiovascular/obesity problems. The aim of this letter is to experimentally show how the nonlocal and nonswitching nonlinear control that has been recently proposed in the literature for the HR regulation in treadmill exercises can be effectively applied to cycle-ergometer exercises at constant cycling speed. The structure of the involved nonlinear model for the HR dynamics in cycle-ergometer exercises is mathematically inspired by the structure of a recently identified and experimentally validated nonlinear model for the HR dynamics in treadmill exercises: the role played by the treadmill speed is played here by the work load while the zero speed case for the treadmill exercise is here translated into the cycling operation under zero work load. Experimental results not only validate the aforementioned nonlinear model but also demonstrate the effectiveness—in terms of precise HR regulation—of an approach which simply generalizes to the nonlinear framework the classical proportionalintegral control design. The possibility of online modifying the HR reference on the basis of the heart rate variability (HRV) is also suggested and experimentally motivated.
2013
Pubblicato
Rilevanza internazionale
Articolo
Esperti anonimi
Settore ING-INF/04 - AUTOMATICA
English
Con Impact Factor ISI
Cycle-ergometer exercises, heart rate variability (HRV), mathematical physiology, nonlinear heart rate (HR) regulation.
Paradiso, M., Pietrosanti, S., Scalzi, S., Tomei, P., Verrelli, C.m. (2013). Experimental heart rate regulation in cycle-ergometer exercises. IEEE TRANSACTIONS ON BIOMEDICAL ENGINEERING, 60(1), 135-139 [10.1109/TBME.2012.2225061].
Paradiso, M; Pietrosanti, S; Scalzi, S; Tomei, P; Verrelli, Cm
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/2108/94708
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