Roccaforte, G.; Sinardi, A.; Ruello, S.; Lipari, C.; Corpina, F.; Epifanio, A.; Isgrò, A.; Russo, F.D.; Puglisi, A.; Pioggia, G.;
et al. Towards a Closed-Loop Bioengineering Framework for Immersive VR-Based Telerehabilitation Integrating Wearable Biosensing and Adaptive Feedback. Bioengineering 2026, 13, 439.
https://doi.org/10.3390/bioengineering13040439
AMA Style
Roccaforte G, Sinardi A, Ruello S, Lipari C, Corpina F, Epifanio A, Isgrò A, Russo FD, Puglisi A, Pioggia G,
et al. Towards a Closed-Loop Bioengineering Framework for Immersive VR-Based Telerehabilitation Integrating Wearable Biosensing and Adaptive Feedback. Bioengineering. 2026; 13(4):439.
https://doi.org/10.3390/bioengineering13040439
Chicago/Turabian Style
Roccaforte, Gaia, Arianna Sinardi, Sofia Ruello, Carmela Lipari, Flavio Corpina, Antonio Epifanio, Anna Isgrò, Francesco Davide Russo, Alfio Puglisi, Giovanni Pioggia,
and et al. 2026. "Towards a Closed-Loop Bioengineering Framework for Immersive VR-Based Telerehabilitation Integrating Wearable Biosensing and Adaptive Feedback" Bioengineering 13, no. 4: 439.
https://doi.org/10.3390/bioengineering13040439
APA Style
Roccaforte, G., Sinardi, A., Ruello, S., Lipari, C., Corpina, F., Epifanio, A., Isgrò, A., Russo, F. D., Puglisi, A., Pioggia, G., & Marino, F.
(2026). Towards a Closed-Loop Bioengineering Framework for Immersive VR-Based Telerehabilitation Integrating Wearable Biosensing and Adaptive Feedback. Bioengineering, 13(4), 439.
https://doi.org/10.3390/bioengineering13040439