Zimatore, G.; Serantoni, C.; Gallotta, M.C.; Meucci, M.; Mourot, L.; Ferrari, D.; Baldari, C.; De Spirito, M.; Maulucci, G.; Guidetti, L.
Recurrence Quantification Analysis Based Methodology in Automatic Aerobic Threshold Detection: Applicability and Accuracy across Age Groups, Exercise Protocols and Health Conditions. Appl. Sci. 2024, 14, 9216.
https://doi.org/10.3390/app14209216
AMA Style
Zimatore G, Serantoni C, Gallotta MC, Meucci M, Mourot L, Ferrari D, Baldari C, De Spirito M, Maulucci G, Guidetti L.
Recurrence Quantification Analysis Based Methodology in Automatic Aerobic Threshold Detection: Applicability and Accuracy across Age Groups, Exercise Protocols and Health Conditions. Applied Sciences. 2024; 14(20):9216.
https://doi.org/10.3390/app14209216
Chicago/Turabian Style
Zimatore, Giovanna, Cassandra Serantoni, Maria Chiara Gallotta, Marco Meucci, Laurent Mourot, Dafne Ferrari, Carlo Baldari, Marco De Spirito, Giuseppe Maulucci, and Laura Guidetti.
2024. "Recurrence Quantification Analysis Based Methodology in Automatic Aerobic Threshold Detection: Applicability and Accuracy across Age Groups, Exercise Protocols and Health Conditions" Applied Sciences 14, no. 20: 9216.
https://doi.org/10.3390/app14209216
APA Style
Zimatore, G., Serantoni, C., Gallotta, M. C., Meucci, M., Mourot, L., Ferrari, D., Baldari, C., De Spirito, M., Maulucci, G., & Guidetti, L.
(2024). Recurrence Quantification Analysis Based Methodology in Automatic Aerobic Threshold Detection: Applicability and Accuracy across Age Groups, Exercise Protocols and Health Conditions. Applied Sciences, 14(20), 9216.
https://doi.org/10.3390/app14209216
