Difference between revisions of "User:EmanueleDeBernardi"
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+ | {{Researcher | ||
+ | | firstname=Emanuele | ||
+ | | lastname=De Bernardi | ||
+ | | photo= EmanueleDeBernardi.jpg | ||
+ | | email=emanuele.debernardi@polimi.it | ||
+ | | resarea= BioSignal Analysis; | ||
+ | | status=active | ||
+ | }} | ||
+ | |||
== Short Bio == | == Short Bio == | ||
− | Emanuele De Bernardi received his Bachelor degree in Telecommunication Engineering in February 2012 and his M.Sc. degree in Computer Engineering in July 2015 at Politecnico di Milano (Como Campus). His Master Thesis was based on a development of an Acoustic BCI (Brain-Computer Interface) for Amyotrophic Lateral Sclerosis on Android devices. From September 2015 he is a Research Assistant at the Department of Electronics, Information and Bioengineering (DEIB) in the Artificial Intelligence and Robotics Laboratory (AI&R Lab) of Politecnico di Milano and he is a member of the ATG (Assistive Technology Group [http://atg.deib.polimi.it/ http://atg.deib.polimi.it/]) under the supervision of Matteo Matteucci and Sara Comai. | + | Emanuele De Bernardi received his Bachelor degree in Telecommunication Engineering in February 2012 and his M.Sc. degree in Computer Engineering in July 2015 at Politecnico di Milano (Como Campus). His Master Thesis was based on a development of an Acoustic BCI (Brain-Computer Interface) prototype for Amyotrophic Lateral Sclerosis on Android devices. From September 2015 he is a Research Assistant at the Department of Electronics, Information and Bioengineering (DEIB) in the Artificial Intelligence and Robotics Laboratory (AI&R Lab) of Politecnico di Milano and he is a member of the ATG (Assistive Technology Group [http://atg.deib.polimi.it/ http://atg.deib.polimi.it/]) under the supervision of Matteo Matteucci and Sara Comai. His research activities are focused on Assistive Technologies, Brain-Computer Interfaces and Android Development. |
+ | |||
+ | == Master Thesis == | ||
+ | You can find my Master Thesis here: | ||
+ | * [http://hdl.handle.net/10589/108064 Development of a portable auditory P300-based Brain-Computer Interface for yes-no communication to Amyotrophic Lateral Sclerosis] | ||
− | == | + | == Working Projects == |
− | * | + | * [http://mep5x1000.wix.com/mepapp MEP (Maps for Easy Paths)]): development of a set of innovative tools and solutions for the enrichment of geographical maps with information about the accessibility of urban pedestrian for people with mobility problems. |
− | * Brain-Computer Interface | + | * STELE Project: development of a new wireless Brain-Computer Interface system dedicated to clinical trials, in order to compensate the compromised autonomy of the patient with SLA in collaboration with [http://www.infosolution.it/ InfoSolution]. |
− | + |
Latest revision as of 08:32, 16 October 2015
Emanuele De Bernardi
| |
First Name: | Emanuele |
Last Name: | De Bernardi |
E-Mail: | emanuele.debernardi@polimi.it |
Research Areas: | |
Status: | active |
Short Bio
Emanuele De Bernardi received his Bachelor degree in Telecommunication Engineering in February 2012 and his M.Sc. degree in Computer Engineering in July 2015 at Politecnico di Milano (Como Campus). His Master Thesis was based on a development of an Acoustic BCI (Brain-Computer Interface) prototype for Amyotrophic Lateral Sclerosis on Android devices. From September 2015 he is a Research Assistant at the Department of Electronics, Information and Bioengineering (DEIB) in the Artificial Intelligence and Robotics Laboratory (AI&R Lab) of Politecnico di Milano and he is a member of the ATG (Assistive Technology Group http://atg.deib.polimi.it/) under the supervision of Matteo Matteucci and Sara Comai. His research activities are focused on Assistive Technologies, Brain-Computer Interfaces and Android Development.
Master Thesis
You can find my Master Thesis here:
Working Projects
- MEP (Maps for Easy Paths)): development of a set of innovative tools and solutions for the enrichment of geographical maps with information about the accessibility of urban pedestrian for people with mobility problems.
- STELE Project: development of a new wireless Brain-Computer Interface system dedicated to clinical trials, in order to compensate the compromised autonomy of the patient with SLA in collaboration with InfoSolution.