Switzerland

• Electrical Neuroimaging Group - HUG-UNIGE Geneva

• IDIAP Research Institute & Ecole Polytechnique Fédéral Lausanne (EPFL)
  

Electrical Neuroimaging Group
HUG-UNIGE Geneva

General Information :

• Location: Geneva, Switzerland
• Personnel:
        - 2 senior researchers
        - 1 postdoc
        - 1 PhD student
• Equipment: Portable EEG machines and Number crunching (work stations) facilities
• Contact: MER Sara Gonzalez & Rolando Grave
• Email: Sara.GonzalezAndinohcuge.ch or Rolando.Grave@hcuge.ch

 The Main Research Lines:

• Development  of methods and models for the study and decoding of the electrophysiological activity of the human body
• Development of methods for the non invasive estimation of the activity inside the human brain using realistic models of the head.
• Development of methods for the online analysis and decoding of the electrical activity of the brain for BCI and  Neurorehabilitation

 What it is offered to the other NEUROMATH partners :

• Capability to host PhD students and researchers from other laboratories of Neuromath, supported by the STSM
• Expertise on the construction of realistic head models, non invasive estimation of Local Field Potentials (eLFP) in the Brain and methods for EEG and eLFP analysis and efficient BCIs.

What we are looking for in the other NEUROMATH partners :

• Algorithms for the estimation of connectivity from deep eLFP and surface EEG data
  
  • Algorithms for the online analysis of EEG.
  • Algorithms and methods for the rehabilitation of patients with different neurological conditions
    

IDIAP Research Institute
Ecole Polytechnique Fédéral Lausanne (EPFL)

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General Information : 

• Location: Martigny / Lausanne, Switzerland
• Personnel: 1 professor, 2 Postdocs, 4 PhD students
• Equipment: 2 portable EEG systems (32 & 64 electrodes), mobile robots
• Contact: Prof. José del R. Millán
• Email: jose.millan@idiap.ch

The Main Research Lines :

• Asynchronous, non-invasive Brain-Computer Interfaces
• Brain-controlled robots
• Real-time recognition of cognitive states that are crucial for interaction
• Use of inverse models for brain-actuated interaction

What it is Offered to NEUROMATH Partners :   

• Hosting PhD students and researchers from partners
• Use of machine learning techniques for single-trial analysis of EEG related to motor & cognitive processes
• Design of brain-actuated devices based on motor and cognitive states

What We Look for from NEUROMATH Partners :

• Expertise in motor and cognitive processes
  
• Inverse methods for robust discriminant localization of motor and cognitive processes
• Inverse methods suitable to work online