Pubblicazioni

Autori:

Zignoli, Andrea; Fornasiero, Alessandro; Ragni, Matteo; Pellegrini, Barbara; Schena, Federico; Biral, Francesco; Laursen, Paul B

Titolo:

Estimating an individual's oxygen uptake during cycling exercise with a recurrent neural network trained from easy-to-obtain inputs: A pilot study

Anno:

2020

Tipologia prodotto:

Articolo in Rivista

Tipologia ANVUR:

Articolo su rivista

Lingua:

Inglese

Formato:

Elettronico

Referee:

Sì

Nome rivista:

PLoS ONE

ISSN Rivista:

1932-6203

N° Volume:

15

Numero o Fascicolo:

e0229466

Intervallo pagine:

1-15

Parole chiave:

uptake kinetics; heart-rate; anaerobic threshold; slow component; performance; muscle

Breve descrizione dei contenuti:

Measurement of oxygen uptake during exercise ([Formula: see text]) is currently non-accessible to most individuals without expensive and invasive equipment. The goal of this pilot study was to estimate cycling [Formula: see text] from easy-to-obtain inputs, such as heart rate, mechanical power output, cadence and respiratory frequency. To this end, a recurrent neural network was trained from laboratory cycling data to predict [Formula: see text] values. Data were collected on 7 amateur cyclists during a graded exercise test, two arbitrary protocols (Prot-1 and -2) and an "all-out" Wingate test. In Trial-1, a neural network was trained with data from a graded exercise test, Prot-1 and Wingate, before being tested against Prot-2. In Trial-2, a neural network was trained using data from the graded exercise test, Prot-1 and 2, before being tested against the Wingate test. Two analytical models (Models 1 and 2) were used to compare the predictive performance of the neural network. Predictive performance of the neural network was high during both Trial-1 (MAE = 229(35) mlO2min-1, r = 0.94) and Trial-2 (MAE = 304(150) mlO2min-1, r = 0.89). As expected, the predictive ability of Models 1 and 2 deteriorated from Trial-1 to Trial-2. Results suggest that recurrent neural networks have the potential to predict the individual [Formula: see text] response from easy-to-obtain inputs across a wide range of cycling intensities.

Pagina Web:

https://doi.org/10.1371/journal.pone.0229466

Id prodotto:

113395

Handle IRIS:

11562/1013542

ultima modifica:

15 novembre 2022

Citazione bibliografica:

Zignoli, Andrea; Fornasiero, Alessandro; Ragni, Matteo; Pellegrini, Barbara; Schena, Federico; Biral, Francesco; Laursen, Paul B, Estimating an individual's oxygen uptake during cycling exercise with a recurrent neural network trained from easy-to-obtain inputs: A pilot study «PLoS ONE» , vol. 15 , n. e0229466 , 2020 , pp. 1-15

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