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"In the context of BCI-driven electrical stimulation for tremor suppression, a model of the upper limb is presented. The model simulates arm behaviour in terms of nerve recruitment and muscle contraction when current pulses are applied on the skin surface. Tests with array electrodes show that. the proposed arm model is a good tool for selecting the suitable electrode design and stimulation parameters for an effective muscle contraction."

Goffredo, M., Tricarico, S., Conforto, S., Bilotti, F., Schmid, M., Vegni, L., et al. (2011). Multimodal BCI-driven FES: a model for in-silico tests on array electrodes. INTERNATIONAL JOURNAL OF BIOELECTROMAGNETISM, 13(1), 16-17.

Multimodal BCI-driven FES: a model for in-silico tests on array electrodes

CONFORTO, SILVIA;BILOTTI, FILIBERTO;SCHMID, Maurizio;VEGNI, Lucio;D'ALESSIO, Tommaso
2011-01-01

Abstract

"In the context of BCI-driven electrical stimulation for tremor suppression, a model of the upper limb is presented. The model simulates arm behaviour in terms of nerve recruitment and muscle contraction when current pulses are applied on the skin surface. Tests with array electrodes show that. the proposed arm model is a good tool for selecting the suitable electrode design and stimulation parameters for an effective muscle contraction."
2011
Goffredo, M., Tricarico, S., Conforto, S., Bilotti, F., Schmid, M., Vegni, L., et al. (2011). Multimodal BCI-driven FES: a model for in-silico tests on array electrodes. INTERNATIONAL JOURNAL OF BIOELECTROMAGNETISM, 13(1), 16-17.
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11590/279016
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