APA
Samoudi A. M., Kampusch S., Tanghe E., Széles J. C., Martens L., Kaniusas E. & Joseph W. (20180711). Numerical modeling of percutaneous auricular vagus nerve stimulation: a realistic 3D model to evaluate sensitivity of neural activation to electrode position. : Medical & biological engineering & computing.
Chicago
Samoudi Amine M, Kampusch Stefan, Tanghe Emmeric, Széles Jozsef C, Martens Luc, Kaniusas Eugenijus and Joseph Wout. 20180711. Numerical modeling of percutaneous auricular vagus nerve stimulation: a realistic 3D model to evaluate sensitivity of neural activation to electrode position. : Medical & biological engineering & computing.
Harvard
Samoudi A. M., Kampusch S., Tanghe E., Széles J. C., Martens L., Kaniusas E. and Joseph W. (20180711). Numerical modeling of percutaneous auricular vagus nerve stimulation: a realistic 3D model to evaluate sensitivity of neural activation to electrode position. : Medical & biological engineering & computing.
MLA
Samoudi Amine M, Kampusch Stefan, Tanghe Emmeric, Széles Jozsef C, Martens Luc, Kaniusas Eugenijus and Joseph Wout. Numerical modeling of percutaneous auricular vagus nerve stimulation: a realistic 3D model to evaluate sensitivity of neural activation to electrode position. : Medical & biological engineering & computing. 20180711.