Research Report
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2021
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academic article
- A BMI based on motor imagery and attention for commanding a lower-limb robotic exoskeleton: a case of study
- Analyzing the performance of segmented decoding of lower limb movements from EEG signals with combinations of electrodes, gaps, and delays
- Assessing footwear comfort by electroencephalography analysis
- Brain symmetry analysis while performing lower-limb motor imagery for a BCI
- Classify four imagined objects with EEG signals
- Decoding the Torque of Lower Limb Joints from EEG Recordings of Pre-gait Movements Using a Machine Learning Scheme
- Detection of the Intention of Direction Changes During Gait Through EEG Signals
- Improving motor imagery of gait on a brain-computer interface by means of virtual reality: A case of study
- Lessons Learned from Clinical Trials of a Neurorehabilitation Therapy based on tDCS, BMI and Pedaling Systems
- The actuation system of the ankle exoskeleton T-FLEX: first use experimental validation in people with stroke
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chapter
- Analysis of frequency bands and channels configuration for detecting intention of change direction through EEG
- Comparison of Different Brain¿Computer Interfaces to Assess Motor Imagery Using a Lower-Limb Exoskeleton
- Development of an Interface forthe Control of Robotic ExoskeletonsBased on Stroke RehabilitationTechniques
- Electrotecnia Aplicada, un caso de estudio de evolución de presencialidad total, pasando por semipresencialidad a finalmente docencia remota en tiempos de COVID
- Empirical evidence connecting the neural mechanism behind motor coordination and force generation on healthy humans
- Optimal calibration time for lower-limb Brain-Machine Interfaces
- Synergistic parameters of motor adaptation in cycling activities with variable resistance
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congress communication
- APRENDIZAJE BASADO EN PROBLEMAS PARA ADQUIRIR COMPETENCIAS MULTIDISCIPLINARES PARA LA FORMACIÓN EN ELECTROMEDICINA
- Analysis of frequency bands and channels configuration for detecting intention of change speed through EEG
- Análisis de interfaces cerebro-máquina (bmi) basadas en la imaginación motora de la marcha
- Análisis de la configuración óptima de electrodos para la detección de atención en tarea de imaginación motora
- BCI based on lower-limb motor imagery and a state machine for walking on a treadmill
- Estudio comparativo de BMI basadas en imaginación motora para el control de una cinta de andar
- Frequency band selection for a lower-limb MI BCI to control a treadmill
- Protocolos de tDCS para la mejora de aplicaciones BMI relacionadas con la imaginación motora
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event
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external project
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invited conference
- Aplicación de técnicas de IA en neurotecnologías para asistencia y rehabilitación de personas con limitaciones motoras
- BMIs for upper and lower limb robotic exoskeletons
- Brain-Machine Interfaces for Controlling Robotic Exoskeletons¿.
- Control de Exoesqueletos del Miembro Inferior mediante Interfaces Cerebro-Máquina: Proyecto Walk
- Docencia online y material audiovisual
- Exoesqueletos robóticos de bajo coste para rehabilitación y asistencia de pacientes con daño neurológico
- Interfaces cerebro-máquina para interaccionar con exoesqueletos
- Uso de Brain-Computer Interfaces para el aprendizaje motor. Aplicaciones en neurorehabilitación
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operating licence
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person
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person (active)
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research project
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thesis