TEODIANO FREIRE BASTOS FILHO
Title: Doctor
Research groups: CNPq (Google Translator version)
Curriculum: http://lattes.cnpq.br
Participation in projects:
Title | Starting date | Deadline (months) | Participation in the project |
---|---|---|---|
02/07/2012 | 24 | Researcher * | |
02/03/2015 | 24 | Coordinator * | |
01/05/2008 | 24 | Coordinator * | |
25/03/2010 | 24 | Coordinator * | |
03/05/2011 | 36 | Researcher * |
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Participants in examination boards:
Title | Name | Defense date | Course |
---|---|---|---|
Admittance Control of a Robotic Knee Orthosis Based on Motion Intention Through sEMG of Trunk Muscles |
ANA CECILIA VILLA PARRA | 04/12/2017 | DSc in Electrical Engineering |
Application of Visible Light Communications in Intensive Care Medical Environments | KLAAS MINNE VAN DER ZWAAG | 28/08/2020 | MSc in Electrical Engineering |
Brain-Computer Interface Based on Compressive Sensing and Steady-State Visual Evoked Potentials Applied to Command a Robotic Wheelchair | HAMILTON RIVERA FLOR | 21/09/2023 | DSc in Electrical Engineering |
Brain-Computer Interface Based on Unsupervised Methods to Recognize Motor Intention for Command of a Robotic Exoskeleton | DENIS DELISLE RODRIGUEZ | 01/12/2017 | DSc in Electrical Engineering |
Brain-Computer Interface for Lower-Limb Neurorehabilitation: From Signal Analysis to Practical Applications | CRISTIAN FELIPE BLANCO DIAZ | 30/08/2023 | MSc in Electrical Engineering |
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Guided Students:
Name | Title | Defense date | Role | Type |
---|---|---|---|---|
ANA CECILIA VILLA PARRA | Admittance Control of a Robotic Knee Orthosis Based on Motion Intention Through sEMG of Trunk Muscles |
04/12/2017 | Advisor * | PhD thesis |
KLAAS MINNE VAN DER ZWAAG | Application of Visible Light Communications in Intensive Care Medical Environments | 28/08/2020 | Co-advisor * | MSc dissertation |
HAMILTON RIVERA FLOR | Brain-Computer Interface Based on Compressive Sensing and Steady-State Visual Evoked Potentials Applied to Command a Robotic Wheelchair | 21/09/2023 | Advisor * | PhD thesis |
HAMILTON RIVERA FLOR | Brain-Computer Interface Based on Compressive Sensing and Steady-State Visual Evoked Potentials Applied to Command a Robotic Wheelchair | 21/09/2023 | Advisor | Doctoral thesis |
DENIS DELISLE RODRIGUEZ | Brain-Computer Interface Based on Unsupervised Methods to Recognize Motor Intention for Command of a Robotic Exoskeleton | 01/12/2017 | Advisor * | PhD thesis |