Scano, A.; Moscatelli, N.; Lanzani, V.; Brambilla, C.; Molinari Tosatti, L.
Integrating Neural Strategies and Biomechanical Output: A Muscle Synergy-Based Computational Framework for Evaluating Human—Passive Wearable Interaction in Industry 5.0. Biomechanics 2026, 6, 45.
https://doi.org/10.3390/biomechanics6020045
AMA Style
Scano A, Moscatelli N, Lanzani V, Brambilla C, Molinari Tosatti L.
Integrating Neural Strategies and Biomechanical Output: A Muscle Synergy-Based Computational Framework for Evaluating Human—Passive Wearable Interaction in Industry 5.0. Biomechanics. 2026; 6(2):45.
https://doi.org/10.3390/biomechanics6020045
Chicago/Turabian Style
Scano, Alessandro, Nicol Moscatelli, Valentina Lanzani, Cristina Brambilla, and Lorenzo Molinari Tosatti.
2026. "Integrating Neural Strategies and Biomechanical Output: A Muscle Synergy-Based Computational Framework for Evaluating Human—Passive Wearable Interaction in Industry 5.0" Biomechanics 6, no. 2: 45.
https://doi.org/10.3390/biomechanics6020045
APA Style
Scano, A., Moscatelli, N., Lanzani, V., Brambilla, C., & Molinari Tosatti, L.
(2026). Integrating Neural Strategies and Biomechanical Output: A Muscle Synergy-Based Computational Framework for Evaluating Human—Passive Wearable Interaction in Industry 5.0. Biomechanics, 6(2), 45.
https://doi.org/10.3390/biomechanics6020045
