An electric field model for prediction of somatosensory (S1) cortical field potentials induced by ventral posterior lateral (VPL) thalamic microstimulation
Microstimulation (MiSt) is used experimentally and clinically to activate localized populations
of neural elements. However, it is difficult to predict-and subsequently control-neural …
of neural elements. However, it is difficult to predict-and subsequently control-neural …
[PDF][PDF] An Electric Field Model for Prediction of Somatosensory (S1) Cortical Field Potentials Induced by Ventral Posterior Lateral (VPL) Thalamic Microstimulation
JS Choi, MM DiStasio, AJ Brockmeier, JT Francis - Citeseer
Microstimulation (MiSt) is used experimentally and clinically to activate localized populations
of neural elements. However, it is difficult to predict—and subsequently control—neural …
of neural elements. However, it is difficult to predict—and subsequently control—neural …
[PDF][PDF] An Electric Field Model for Prediction of Somatosensory (S1) Cortical Field Potentials Induced by Ventral Posterior Lateral (VPL) Thalamic Microstimulation
JS Choi, MM DiStasio, AJ Brockmeier, JT Francis - scholar.archive.org
Microstimulation (MiSt) is used experimentally and clinically to activate localized populations
of neural elements. However, it is difficult to predict—and subsequently control—neural …
of neural elements. However, it is difficult to predict—and subsequently control—neural …
An electric field model for prediction of somatosensory (S1) cortical field potentials induced by ventral posterior lateral (VPL) thalamic microstimulation
JS Choi, MM DiStasio… - … on neural systems …, 2012 - pubmed.ncbi.nlm.nih.gov
Microstimulation (MiSt) is used experimentally and clinically to activate localized populations
of neural elements. However, it is difficult to predict-and subsequently control-neural …
of neural elements. However, it is difficult to predict-and subsequently control-neural …
[PDF][PDF] An Electric Field Model for Prediction of Somatosensory (S1) Cortical Field Potentials Induced by Ventral Posterior Lateral (VPL) Thalamic Microstimulation
JS Choi, MM DiStasio, AJ Brockmeier, JT Francis - researchgate.net
Microstimulation (MiSt) is used experimentally and clinically to activate localized populations
of neural elements. However, it is difficult to predict—and subsequently control—neural …
of neural elements. However, it is difficult to predict—and subsequently control—neural …
[PDF][PDF] An Electric Field Model for Prediction of Somatosensory (S1) Cortical Field Potentials Induced by Ventral Posterior Lateral (VPL) Thalamic Microstimulation
JS Choi, MM DiStasio, AJ Brockmeier, JT Francis - academia.edu
Microstimulation (MiSt) is used experimentally and clinically to activate localized populations
of neural elements. However, it is difficult to predict—and subsequently control—neural …
of neural elements. However, it is difficult to predict—and subsequently control—neural …
An Electric Field Model for Prediction of Somatosensory (S1) Cortical Field Potentials Induced by Ventral Posterior Lateral (VPL) Thalamic Microstimulation
JS Choi, MM DiStasio, AJ Brockmeier… - IEEE Transactions on …, 2012 - infona.pl
Microstimulation (MiSt) is used experimentally and clinically to activate localized populations
of neural elements. However, it is difficult to predict—and subsequently control—neural …
of neural elements. However, it is difficult to predict—and subsequently control—neural …
An electric field model for prediction of somatosensory (S1) cortical field potentials induced by ventral posterior lateral (VPL) thalamic microstimulation.
JS Choi, MM DiStasio, AJ Brockmeier… - IEEE Transactions on …, 2011 - europepmc.org
Microstimulation (MiSt) is used experimentally and clinically to activate localized populations
of neural elements. However, it is difficult to predict-and subsequently control-neural …
of neural elements. However, it is difficult to predict-and subsequently control-neural …
[PDF][PDF] An Electric Field Model for Prediction of Somatosensory (S1) Cortical Field Potentials Induced by Ventral Posterior Lateral (VPL) Thalamic Microstimulation
JS Choi, MM DiStasio, AJ Brockmeier… - … ON NEURAL SYSTEMS …, 2012 - distasiolab.org
Microstimulation (MiSt) is used experimentally and clinically to activate localized populations
of neural elements. However, it is difficult to predict—and subsequently control—neural …
of neural elements. However, it is difficult to predict—and subsequently control—neural …
[PDF][PDF] An Electric Field Model for Prediction of Somatosensory (S1) Cortical Field Potentials Induced by Ventral Posterior Lateral (VPL) Thalamic Microstimulation
JS Choi, MM DiStasio, AJ Brockmeier, JT Francis - academia.edu
Microstimulation (MiSt) is used experimentally and clinically to activate localized populations
of neural elements. However, it is difficult to predict—and subsequently control—neural …
of neural elements. However, it is difficult to predict—and subsequently control—neural …