His scientific interests lie mostly in Electroencephalography, Cognitive psychology, Embodied cognition, Cognition and Perception. His Electroencephalography study introduces a deeper knowledge of Neuroscience. His study in Cognitive psychology is interdisciplinary in nature, drawing from both N2pc and Contingent negative variation.
Klaus Gramann has included themes like Brain activity and meditation and Cognitive science in his Cognition study. He focuses mostly in the field of Perception, narrowing it down to topics relating to Feeling and, in certain cases, Self-control, Affect, Cognitive appraisal, Somatic marker hypothesis and Arousal. His Communication research integrates issues from Path integration, Spatial memory and Computer vision, Contrast.
The scientist’s investigation covers issues in Electroencephalography, Cognition, Cognitive psychology, Artificial intelligence and Spatial memory. His Electroencephalography study is concerned with Neuroscience in general. The study incorporates disciplines such as Brain activity and meditation, Cognitive science, Human brain and Eye movement in addition to Cognition.
He combines subjects such as Visual perception, N2pc, Perception, Anterior cingulate cortex and Virtual reality with his study of Cognitive psychology. His Artificial intelligence research includes themes of Machine learning, Brain–computer interface, Computer vision and Pattern recognition. His studies examine the connections between Spatial memory and genetics, as well as such issues in Landmark, with regards to Spatial learning, Spatial knowledge and Driving simulator.
Klaus Gramann mainly focuses on Cognition, Electroencephalography, Spatial memory, Cognitive psychology and Landmark. His Cognition research is multidisciplinary, incorporating perspectives in Proprioception and Neuroimaging. His Electroencephalography study improves the overall literature in Neuroscience.
Within one scientific family, Klaus Gramann focuses on topics pertaining to Physical medicine and rehabilitation under Spatial memory, and may sometimes address concerns connected to DUAL. Klaus Gramann has researched Cognitive psychology in several fields, including Embodied cognition, Virtual reality, Categorization, Ecological validity and Motion capture. His biological study spans a wide range of topics, including Human–computer interaction and Spatial learning.
Klaus Gramann mostly deals with Electroencephalography, Neuroscience, Saccade, Stimulus and Cognition. The Electroencephalography study combines topics in areas such as Artificial intelligence and Pattern recognition. His study in the field of Spatial memory and Vestibular system also crosses realms of Modulation, Alpha and Heading.
The various areas that Klaus Gramann examines in his Saccade study include Neuroscience research and Computer vision. While the research belongs to areas of Cognition, Klaus Gramann spends his time largely on the problem of Stimulus modality, intersecting his research to questions surrounding Virtual reality. His Cognitive psychology study incorporates themes from Dominance and Big Five personality traits.
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Removal of Movement Artifact from High-Density EEG Recorded During Walking and Running
Joseph Toliver Gwin;Klaus Gramann;Scott Makeig;Daniel Perry Ferris.
Journal of Neurophysiology (2010)
Electrocortical activity is coupled to gait cycle phase during treadmill walking.
Joseph T. Gwin;Klaus Gramann;Scott Makeig;Daniel P. Ferris.
On the embodiment of emotion regulation: interoceptive awareness facilitates reappraisal
Jürgen Füstös;Klaus Gramann;Klaus Gramann;Beate M. Herbert;Olga Pollatos.
Social Cognitive and Affective Neuroscience (2013)
Linking brain, mind and behavior
Scott Makeig;Klaus Gramann;Tzyy-Ping Jung;Terrence J. Sejnowski;Terrence J. Sejnowski.
International Journal of Psychophysiology (2008)
Neural systems connecting interoceptive awareness and feelings.
Olga Pollatos;Klaus Gramann;Rainer Schandry.
Human Brain Mapping (2007)
Cognition in action: imaging brain/body dynamics in mobile humans
Klaus Gramann;Joseph T. Gwin;Daniel P. Ferris;Kelvin Oie.
Reviews in The Neurosciences (2011)
Visual evoked responses during standing and walking.
Klaus Gramann;Joseph T. Gwin;Nima Bigdely-Shamlo;Daniel P. Ferris.
Frontiers in Human Neuroscience (2010)
Beamforming in Noninvasive Brain–Computer Interfaces
M. Grosse-Wentrup;C. Liefhold;K. Gramann;M. Buss.
IEEE Transactions on Biomedical Engineering (2009)
Imaging natural cognition in action.
Klaus Gramann;Daniel P. Ferris;Joseph Gwin;Scott Makeig.
International Journal of Psychophysiology (2014)
Biosensor Technologies for Augmented Brain–Computer Interfaces in the Next Decades
Lun-De Liao;Chin-Teng Lin;K. McDowell;A. E. Wickenden.
Proceedings of the IEEE (2012)
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