His primary scientific interests are in Electroencephalography, Cognition, Cognitive psychology, Episodic memory and Neuroscience. His research integrates issues of Alpha, Speech recognition, Electrophysiology and Audiology in his study of Electroencephalography. Michael Doppelmayr interconnects Neurofeedback and Hemoencephalography in the investigation of issues within Alpha.
His research in Speech recognition focuses on subjects like Encoding, which are connected to Communication, Memoria and Semantic memory. His study explores the link between Cognitive psychology and topics such as Alpha band that cross with problems in Semantic information, Perception and Alpha power. His Episodic memory research incorporates themes from Cortical Synchronization and Recall.
His main research concerns Electroencephalography, Neuroscience, Alpha, Audiology and Cognition. His Electroencephalography study integrates concerns from other disciplines, such as Cognitive psychology, Electrophysiology, Communication, Speech recognition and Developmental psychology. The concepts of his Communication study are interwoven with issues in Cortical Synchronization and Encoding.
His Speech recognition research is multidisciplinary, incorporating perspectives in Memoria and Episodic memory. The study incorporates disciplines such as Anesthesia and Semantic memory in addition to Alpha. His work carried out in the field of Audiology brings together such families of science as Sensorimotor rhythm, Analysis of variance, Oddball paradigm and Memory performance.
Michael Doppelmayr mainly focuses on Physical medicine and rehabilitation, Electroencephalography, Cognition, Functional near-infrared spectroscopy and Brain activity and meditation. His work deals with themes such as Neuroplasticity and Brain stimulation, which intersect with Physical medicine and rehabilitation. His Electroencephalography study frequently links to other fields, such as Neural correlates of consciousness.
Michael Doppelmayr regularly ties together related areas like Audiology in his Cognition studies. His Audiology study incorporates themes from Analysis of variance, Aerobic exercise, Executive functions, Interaction and Mental ability. His study looks at the intersection of Functional near-infrared spectroscopy and topics like Gait training with Supplementary motor area, Sensory system, Gait and Treadmill.
The scientist’s investigation covers issues in Physical medicine and rehabilitation, Brain activity and meditation, Functional near-infrared spectroscopy, Gait training and Brain stimulation. His research in Physical medicine and rehabilitation intersects with topics in Motor skill, Motor cortex, Primary motor cortex, Transfer of learning and Neuroplasticity. Michael Doppelmayr combines subjects such as Gait, Treadmill, Sensory system and Supplementary motor area with his study of Brain activity and meditation.
His studies in Brain stimulation integrate themes in fields like Neurorehabilitation, Electroencephalography, Gait, Neuroimaging and Transcranial direct-current stimulation.
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Induced alpha band power changes in the human EEG and attention
W Klimesch;M Doppelmayr;H Russegger;T Pachinger.
Neuroscience Letters (1998)
Fronto-parietal EEG coherence in theta and upper alpha reflect central executive functions of working memory.
Paul Sauseng;Wolfgang Klimesch;Manuel Schabus;Michael Doppelmayr.
International Journal of Psychophysiology (2005)
A shift of visual spatial attention is selectively associated with human EEG alpha activity
Paul Sauseng;Wolfgang Klimesch;Waltraud Stadler;M. Schabus.
European Journal of Neuroscience (2005)
`Paradoxical' alpha synchronization in a memory task
W. Klimesch;M. Doppelmayr;J. Schwaiger;P. Auinger.
Cognitive Brain Research (1999)
Theta band power in the human scalp EEG and the encoding of new information.
W Klimesch;M Doppelmayr;H Russegger;T Pachinger.
Increasing individual upper alpha power by neurofeedback improves cognitive performance in human subjects.
Simon Hanslmayr;Paul Sauseng;Michael Doppelmayr;Manuel Schabus.
Applied Psychophysiology and Biofeedback (2005)
Theta synchronization and alpha desynchronization in a memory task
Wolfgang Klimesch;Michael Doppelmayr;Hannes Schimke;Barbara Ripper.
EEG alpha synchronization and functional coupling during top-down processing in a working memory task
Paul Sauseng;Wolfgang Klimesch;Michael Doppelmayr;Thomas Pecherstorfer.
Human Brain Mapping (2005)
Brain oscillations and human memory: EEG correlates in the upper alpha and theta band.
W Klimesch;M Doppelmayr;Th Pachinger;B Ripper.
Neuroscience Letters (1997)
Are event-related potential components generated by phase resetting of brain oscillations? A critical discussion.
P. Sauseng;W. Klimesch;W.R. Gruber;S. Hanslmayr.
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