Cardiac responses induced during thought-based control of a virtual environment.
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[1] M. Diamond,et al. Primary Motor and Sensory Cortex Activation during Motor Performance and Motor Imagery: A Functional Magnetic Resonance Imaging Study , 1996, The Journal of Neuroscience.
[2] H. Kornhuber,et al. [CHANGES IN THE BRAIN POTENTIAL IN VOLUNTARY MOVEMENTS AND PASSIVE MOVEMENTS IN MAN: READINESS POTENTIAL AND REAFFERENT POTENTIALS]. , 1965, Pflugers Archiv fur die gesamte Physiologie des Menschen und der Tiere.
[3] M. W. van der Molen,et al. On the shift from anticipatory heart rate deceleration to acceleratory recovery: revisiting the role of response factors. , 1990, Psychophysiology.
[4] Christa Neuper,et al. 14 Human Brain-Computer Interface , 2005 .
[5] M. Jeannerod,et al. Mental imaging of motor activity in humans , 1999, Current Opinion in Neurobiology.
[6] G. Pfurtscheller,et al. Cardiac response induced by voluntary self-paced finger movement. , 1998, International journal of psychophysiology : official journal of the International Organization of Psychophysiology.
[7] G. Pfurtscheller,et al. Walking through a virtual city by thought , 2004, The 26th Annual International Conference of the IEEE Engineering in Medicine and Biology Society.
[8] Willis J. Tompkins,et al. A Real-Time QRS Detection Algorithm , 1985, IEEE Transactions on Biomedical Engineering.
[9] M. Erb,et al. Activation of Cortical and Cerebellar Motor Areas during Executed and Imagined Hand Movements: An fMRI Study , 1999, Journal of Cognitive Neuroscience.
[10] L. Craighero,et al. Corticospinal excitability is specifically modulated by motor imagery: a magnetic stimulation study , 1998, Neuropsychologia.
[11] M. Jeannerod,et al. Possible involvement of primary motor cortex in mentally simulated movement: a functional magnetic resonance imaging study. , 1996, Neuroreport.
[12] E Moser,et al. Comparing Localization of Conventional Functional Magnetic Resonance Imaging and Magnetoencephalography , 1995, The European journal of neuroscience.
[13] Gert Pfurtscheller,et al. Navigating Virtual Reality by Thought: First Steps , 2004 .
[14] G. Pfurtscheller,et al. Evaluation of event-related desynchronization (ERD) preceding and following voluntary self-paced movement. , 1979, Electroencephalography and clinical neurophysiology.
[15] Christa Neuper,et al. Walking from thoughts: Not the muscles are crucial, but the brain waves! , 2005 .
[16] Carolina Cruz-Neira,et al. Surround-Screen Projection-Based Virtual Reality: The Design and Implementation of the CAVE , 2023 .
[17] G Pfurtscheller,et al. Exploring Virtual Environments with an EEG-based BCI through Motor Imagery / Erkundung von virtuellen Welten durch Bewegungsvorstellungen mit Hilfe eines EEG-basierten BCI , 2005, Biomedizinische Technik. Biomedical engineering.
[18] Gert Pfurtscheller,et al. Walking from thought , 2006, Brain Research.
[19] G. Pfurtscheller,et al. Brain-Computer Interfaces for Communication and Control. , 2011, Communications of the ACM.
[20] Christa Neuper,et al. Motor imagery and ERD , 1999 .
[21] F. L. D. Silva,et al. Event-related EEG/MEG synchronization and desynchronization: basic principles , 1999, Clinical Neurophysiology.
[22] P. Obrist,et al. Heart rate and somatic changes during aversive conditioning and a simple reaction time task. , 1969, Psychophysiology.
[23] John T. Cacioppo,et al. Techniques in Psychophysiology , 1980 .
[24] J. Strackee,et al. Relationships between short-term blood-pressure fluctuations and heart-rate variability in resting subjects I: a spectral analysis approach , 1985, Medical and Biological Engineering and Computing.
[25] Christa Neuper,et al. Human Brain – Computer Interface , 2005 .
[26] M. Jeannerod,et al. Vegetative response during imagined movement is proportional to mental effort , 1991, Behavioural Brain Research.
[27] H. Kornhuber,et al. Hirnpotentialänderungen bei Willkürbewegungen und passiven Bewegungen des Menschen: Bereitschaftspotential und reafferente Potentiale , 1965, Pflüger's Archiv für die gesamte Physiologie des Menschen und der Tiere.
[28] M. W. van der Molen,et al. Response inhibition initiates cardiac deceleration: evidence from a sensory-motor compatibility paradigm. , 1991, Psychophysiology.
[29] M. Jeannerod,et al. Mental simulation of an action modulates the excitability of spinal reflex pathways in man. , 1997, Brain research. Cognitive brain research.
[30] Martin Reddy,et al. Computer graphics and virtual environments - from realism to real-time , 2001 .