Difference between revisions of "Learning-materials"
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* Giulio Ruffini. [[media:Ruffini Brainstim20150612 Hawai'i.pdf | New technologies in transcranial current stimulation]]. ''BrainSTIM conference'', Honolulu (June 2015). | * Giulio Ruffini. [[media:Ruffini Brainstim20150612 Hawai'i.pdf | New technologies in transcranial current stimulation]]. ''BrainSTIM conference'', Honolulu (June 2015). | ||
* G. Ruffini. [[media:Neuromodec_Day_1_-_Safety_reduced.pdf |tCS: risks, benefits and the need for control]]. ''NYC Neuromodulation Conference'' (January 2015). | * G. Ruffini. [[media:Neuromodec_Day_1_-_Safety_reduced.pdf |tCS: risks, benefits and the need for control]]. ''NYC Neuromodulation Conference'' (January 2015). | ||
| + | * G. Ruffini. [[media:Ruffini_BCI_2016_Asilomar.pdf |Principles of tCS]]. ''Special Session Asilomar BCI Meeting 2016'' (July 2016). | ||
Latest revision as of 15:28, 20 July 2016
- PC Miranda, F Wendling, G Ruffini, I Merlet, B M. Brain Stimulation: Models, Experiments and open questions | Hive Deliverable D1.1. HIVE: Hyper Interaction Viability Experiments: EU FP7 FET OPEN - 222079 (June 2009)
- Giulio Ruffini. Application of the reciprocity to EEG inversion and optimization of EEG-driven tCS. arXiv:1506.04835 [physics.bio-ph] (June 2015)
- Giulio Ruffini. New technologies in transcranial current stimulation. BrainSTIM conference, Honolulu (June 2015).
- G. Ruffini. tCS: risks, benefits and the need for control. NYC Neuromodulation Conference (January 2015).
- G. Ruffini. Principles of tCS. Special Session Asilomar BCI Meeting 2016 (July 2016).
