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Zhurnal Vysshei Nervnoi Deiatelnosti Imeni I P Pavlova
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July 23, 2013
[Motor imagery and its practical application]
O A Mokienko, L A Chernikova, A A Frolov, et al.
Zhurnal Vysshei Nervnoi Deiatelnosti Imeni I P Pavlova
|
May 10, 2012
[Bayesian classifier for brain-computer interface based on mental representation of movements]
P D Bobrov, A V Korshakov, V Iu Roshchin, et al.
Sovremennye Tekhnologii V Meditsine
|
February 13, 2025
Brain-Computer Interfaces for Upper Limb Motor Recovery after Stroke: Current Status and Development Prospects (Review)
O A Mokienko, R Kh Lyukmanov, P D Bobrov, et al.
Fiziologiia Cheloveka
|
February 24, 2015
[Localization of brain electrical activity sources and hemodynamic activity foci during motor imagery]
A A Frolov, D Gusek, P D Bobrov, et al.
Fiziologiia Cheloveka
|
June 25, 2013
[Principles of neurorehabilitation based on brain-computer interface and biologically plausible control of the exoskeleton]
A A Frolov, E V Biriukova, P D Bobrov, et al.
Doklady. Biochemistry and Biophysics
|
February 14, 2023
Dependence of Brain-Computer Interface Control Training on Personality Traits
E V Bobrova, V V Reshetnikova, E A Vershinina, et al.
Fiziologiia Cheloveka
|
February 16, 2018
[Sources of electrophysiological and foci of hemodynamic brain activity most relevant for controlling a hybrid brain–Computer interface based on classification of EEG patterns and near-infrared spectrography signals during motor imagery]
P D Bobrov, M R Isaev, A V Korshakov, et al.
Zhurnal Nevrologii I Psikhiatrii Imeni S.S. Korsakova
|
March 3, 2015
[Rehabilitation of post stroke patients using a bioengineering system "brain-computer interface + exoskeleton"]
S V Kotov, L G Turbina, P D Bobrov, et al.
Fiziologiia Cheloveka
|
May 19, 2016
[Arm Motor Function Recovery during Rehabilitation with the Use of Hand Exoskeleton Controlled by Brain-Computer Interface: a Patient with Severe Brain Damage]
E V Biryukova, O G Pavlova, M E Kurganskaya, et al.
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Showing results (1-10 of 9) with videos related to
Sort By:
Page
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Zhurnal Vysshei Nervnoi Deiatelnosti Imeni I P Pavlova
|
July 23, 2013
[Motor imagery and its practical application]
O A Mokienko, L A Chernikova, A A Frolov, et al.
Zhurnal Vysshei Nervnoi Deiatelnosti Imeni I P Pavlova
|
May 10, 2012
[Bayesian classifier for brain-computer interface based on mental representation of movements]
P D Bobrov, A V Korshakov, V Iu Roshchin, et al.
Sovremennye Tekhnologii V Meditsine
|
February 13, 2025
Brain-Computer Interfaces for Upper Limb Motor Recovery after Stroke: Current Status and Development Prospects (Review)
O A Mokienko, R Kh Lyukmanov, P D Bobrov, et al.
Fiziologiia Cheloveka
|
February 24, 2015
[Localization of brain electrical activity sources and hemodynamic activity foci during motor imagery]
A A Frolov, D Gusek, P D Bobrov, et al.
Fiziologiia Cheloveka
|
June 25, 2013
[Principles of neurorehabilitation based on brain-computer interface and biologically plausible control of the exoskeleton]
A A Frolov, E V Biriukova, P D Bobrov, et al.
Doklady. Biochemistry and Biophysics
|
February 14, 2023
Dependence of Brain-Computer Interface Control Training on Personality Traits
E V Bobrova, V V Reshetnikova, E A Vershinina, et al.
Fiziologiia Cheloveka
|
February 16, 2018
[Sources of electrophysiological and foci of hemodynamic brain activity most relevant for controlling a hybrid brain–Computer interface based on classification of EEG patterns and near-infrared spectrography signals during motor imagery]
P D Bobrov, M R Isaev, A V Korshakov, et al.
Zhurnal Nevrologii I Psikhiatrii Imeni S.S. Korsakova
|
March 3, 2015
[Rehabilitation of post stroke patients using a bioengineering system "brain-computer interface + exoskeleton"]
S V Kotov, L G Turbina, P D Bobrov, et al.
Fiziologiia Cheloveka
|
May 19, 2016
[Arm Motor Function Recovery during Rehabilitation with the Use of Hand Exoskeleton Controlled by Brain-Computer Interface: a Patient with Severe Brain Damage]
E V Biryukova, O G Pavlova, M E Kurganskaya, et al.
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of 1