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"Faces" of the day:

Theresa Helena Benezeder

Andrea Renate Teufelberger

Natascha Berger

Bettina Amtmann

Katharina Artinger

Martina Kollmann

Natalie Bordag

Ursula Hiden

Isabella Perchthaler

Regina Roller-Wirnsberger

Johannes Nikolaus Woltsche

Mahmoud Abdellatif

Christoph Suppan

Clemens Painsi

Alexander Mahnert

Amin El-Heliebi

Martin Hönigl

Robert Sucher

Harald Sourij

Simon Sedej

Michael Khalil

Christian Enzinger

Wolfgang Weger

Slave Trajanoski

Philipp Metnitz

Peter Wolf

Selected Publication:

SHR Neuro Cancer Cardio Lipid Metab Microb

Müller-Putz, GR; Kobler, RJ; Pereira, J; Lopes-Dias, C; Hehenberger, L; Mondini, V; Martínez-Cagigal, V; Srisrisawang, N; Pulferer, H; Batistić, L; Sburlea, AI.
Feel Your Reach: An EEG-Based Framework to Continuously Detect Goal-Directed Movements and Error Processing to Gate Kinesthetic Feedback Informed Artificial Arm Control.
Front Hum Neurosci. 2022; 16:841312 Doi: 10.3389/fnhum.2022.841312 [OPEN ACCESS]
Web of Science PubMed FullText FullText_MUG

 

Co-authors Med Uni Graz

Lopes Dias Maria Catarina

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Abstract:

Establishing the basic knowledge, methodology, and technology for a framework for the continuous decoding of hand/arm movement intention was the aim of the ERC-funded project "Feel Your Reach". In this work, we review the studies and methods we performed and implemented in the last 6 years, which build the basis for enabling severely paralyzed people to non-invasively control a robotic arm in real-time from electroencephalogram (EEG). In detail, we investigated goal-directed movement detection, decoding of executed and attempted movement trajectories, grasping correlates, error processing, and kinesthetic feedback. Although we have tested some of our approaches already with the target populations, we still need to transfer the "Feel Your Reach" framework to people with cervical spinal cord injury and evaluate the decoders' performance while participants attempt to perform upper-limb movements. While on the one hand, we made major progress towards this ambitious goal, we also critically discuss current limitations.

Find related publications in this database (Keywords)

electroencephalogram (EEG)

brain-computer interface (BCI)

goal-directed movement

movement detection

trajectory decoding

error-related potential

kinesthetic feedback

spinal cord injury (SCI)

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