Reinmar J Kobler
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Explore the profile of Reinmar J Kobler including associated specialties, affiliations and a list of published articles.
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12
Citations
93
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Recent Articles
1.
Muller-Putz G, Collinger J, Kobler R
Front Hum Neurosci
. 2023 Apr;
17:1186423.
PMID: 37082149
No abstract available.
2.
Muller-Putz G, Kobler R, Pereira J, Lopes-Dias C, Hehenberger L, Mondini V, et al.
Front Hum Neurosci
. 2022 Apr;
16:841312.
PMID: 35360289
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...
3.
Kobler R, Hirayama J, Hehenberger L, Lopes-Dias C, Muller-Putz G, Kawanabe M
Annu Int Conf IEEE Eng Med Biol Soc
. 2021 Dec;
2021:5909-5913.
PMID: 34892464
Riemannian tangent space methods offer state-of-the-art performance in magnetoencephalography (MEG) and electroencephalography (EEG) based applications such as brain-computer interfaces and biomarker development. One limitation, particularly relevant for biomarker development, is...
4.
Hehenberger L, Kobler R, Lopes-Dias C, Srisrisawang N, Tumfart P, Uroko J, et al.
Front Hum Neurosci
. 2021 Mar;
15:635777.
PMID: 33716698
CYBATHLON is an international championship where people with severe physical disabilities compete with the aid of state-of-the-art assistive technology. In one of the disciplines, the BCI Race, tetraplegic pilots compete...
5.
Kobler R, Sburlea A, Mondini V, Hirata M, Muller-Putz G
J Neural Eng
. 2020 Nov;
17(5):056027.
PMID: 33146148
Objective: One of the main goals in brain-computer interface (BCI) research is the replacement or restoration of lost function in individuals with paralysis. One line of research investigates the inference...
6.
Martinez-Cagigal V, Kobler R, Mondini V, Hornero R, Muller-Putz G
Annu Int Conf IEEE Eng Med Biol Soc
. 2020 Oct;
2020:2981-2985.
PMID: 33018632
Decoding upper-limb movements in invasive recordings has become a reality, but neural tuning in non-invasive low-frequency recordings is still under discussion. Recent studies managed to decode movement positions and velocities...
7.
Mondini V, Kobler R, Sburlea A, Muller-Putz G
J Neural Eng
. 2020 Jul;
17(4):046031.
PMID: 32679573
Objective: Continuous decoding of voluntary movement is desirable for closed-loop, natural control of neuroprostheses. Recent studies showed the possibility to reconstruct the hand trajectories from low-frequency (LF) electroencephalographic (EEG) signals....
8.
Kobler R, Kolesnichenko E, Sburlea A, Muller-Putz G
Neuroimage
. 2020 Jun;
220:117076.
PMID: 32585349
Movement preparation and initiation have been shown to involve large scale brain networks. Recent findings suggest that movement preparation and initiation are represented in functionally distinct cortical networks. In electroencephalographic...
9.
Kobler R, Sburlea A, Lopes-Dias C, Schwarz A, Hirata M, Muller-Putz G
Neuroimage
. 2020 Jun;
218:117000.
PMID: 32497788
Eye movements and blinks contaminate electroencephalographic (EEG) and magnetoencephalographic (MEG) activity. As the eye moves, the corneo-retinal dipole (CRD) and eyelid introduce potential/field changes in the M/EEG activity. These eye...
10.
Kobler R, Almeida I, Sburlea A, Muller-Putz G
J Neural Eng
. 2020 Feb;
17(2):026002.
PMID: 32048612
Objective: Since the discovery of the population vector that directly relates neural spiking activity with arm movement direction, it has become feasible to control robotic arms and neuroprostheses using invasively...