Alexander Alexeevitch Frolov

IHNA, RAS, Moskva, Moscow, Russia 
computational neuroscience, neural networks, motor control
"Alexander Frolov"
Mean distance: 106866 (cluster 6)
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Bobrova EV, Reshetnikova VV, Frolov AA, et al. (2020) Use of Imaginary Lower Limb Movements to Control Brain–Computer Interface Systems Neuroscience and Behavioral Physiology. 50: 585-592
Frolov AA, Bobrov PD, Biryukova EV, et al. (2018) Electrical, Hemodynamic, and Motor Activity in BCI Post-stroke Rehabilitation: Clinical Case Study. Frontiers in Neurology. 9: 1135
Dzhalagoniya I, Biryukova E, Bushkova Y, et al. (2018) Biomechanical Assessment of Fugl-Meyer Score: The Case of One Post Stroke Patient Who has Undergone the Rehabilitation using Hand Exoskeleton Controlled by Brain-Computer Interface International Journal of Physical Medicine and Rehabilitation. 6: 1-9
Bobrova EV, Reshetnikova VV, Volkova KV, et al. (2018) Effects of Emotional Stability on Success in Learning to Control a Brain–Computer Interface Neuroscience and Behavioral Physiology. 48: 1114-1119
Poydasheva AG, Aziatskaya GA, Chernyavskiy AY, et al. (2018) Dynamics of the Cortical Motor Representation of the Extensor Digitorum Communis Muscle after Motor Imagery Training Using a Brain–Computer Interface: a Controlled Study Neuroscience and Behavioral Physiology. 48: 1106-1113
Bobrova EV, Frolov AA, Reshetnikova VV. (2018) Methods and Approaches to Optimizing Control Using a Brain–Computer Interface System by Healthy Subjects and Patients with Motor Disorders Neuroscience and Behavioral Physiology. 48: 1041-1052
Aleksandrov AV, Frolov AA. (2018) Biomechanical Analysis of Posture and Movement Coordination in Standing Humans during Bending of the Trunk in the Sagittal Plane Neuroscience and Behavioral Physiology. 48: 436-447
Frolov AA, Mokienko O, Lyukmanov R, et al. (2017) Post-stroke Rehabilitation Training with a Motor-Imagery-Based Brain-Computer Interface (BCI)-Controlled Hand Exoskeleton: A Randomized Controlled Multicenter Trial. Frontiers in Neuroscience. 11: 400
Frolov AA, Aziatskaya GA, Bobrov PD, et al. (2017) Electrophysiological brain activity during the control of a motor imagery-based brain–computer interface Human Physiology. 43: 501-511
Frolov AA, Husek D, Silchenko AV, et al. (2016) The changes in the hemodynamic activity of the brain during motor imagery training with the use of brain-computer interface Human Physiology. 42
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