Dragone, D.; Randazzini, L.; Capace, A.; Nesci, F.; Cosentino, C.; Amato, F.; De Momi, E.; Colao, R.; Masia, L.; Merola, A.
Design, Computational Modelling and Experimental Characterization of Bistable Hybrid Soft Actuators for a Controllable-Compliance Joint of an Exoskeleton Rehabilitation Robot. Actuators 2022, 11, 32.
https://doi.org/10.3390/act11020032
AMA Style
Dragone D, Randazzini L, Capace A, Nesci F, Cosentino C, Amato F, De Momi E, Colao R, Masia L, Merola A.
Design, Computational Modelling and Experimental Characterization of Bistable Hybrid Soft Actuators for a Controllable-Compliance Joint of an Exoskeleton Rehabilitation Robot. Actuators. 2022; 11(2):32.
https://doi.org/10.3390/act11020032
Chicago/Turabian Style
Dragone, Donatella, Luigi Randazzini, Alessia Capace, Francesca Nesci, Carlo Cosentino, Francesco Amato, Elena De Momi, Roberto Colao, Lorenzo Masia, and Alessio Merola.
2022. "Design, Computational Modelling and Experimental Characterization of Bistable Hybrid Soft Actuators for a Controllable-Compliance Joint of an Exoskeleton Rehabilitation Robot" Actuators 11, no. 2: 32.
https://doi.org/10.3390/act11020032
APA Style
Dragone, D., Randazzini, L., Capace, A., Nesci, F., Cosentino, C., Amato, F., De Momi, E., Colao, R., Masia, L., & Merola, A.
(2022). Design, Computational Modelling and Experimental Characterization of Bistable Hybrid Soft Actuators for a Controllable-Compliance Joint of an Exoskeleton Rehabilitation Robot. Actuators, 11(2), 32.
https://doi.org/10.3390/act11020032