<style face="normal" font="default" size="100%">The human motor cortex contributes to gravity compensation to maintain posture and during reaching.</style>

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<style face="normal" font="default" size="100%">The human motor cortex contributes to gravity compensation to maintain posture and during reaching.</style>

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<style face="normal" font="default" size="100%">A motor association area in the depths of the central sulcus.</style>

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<style face="normal" font="default" size="100%">Adaptive spatio-temporal filtering for movement related potentials in EEG-based brain-computer interfaces.</style>

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<style face="normal" font="default" size="100%">Silent Communication: toward using brain signals.</style>

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<style face="normal" font="default" size="100%">Closing the sensorimotor loop: haptic feedback facilitates decoding of motor imagery.</style>

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<style face="normal" font="default" size="100%">Decoding vowels and consonants in spoken and imagined words using electrocorticographic signals in humans.</style>

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<style face="normal" font="default" size="100%">Evolution of brain-computer interfaces: going beyond classic motor physiology.</style>

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<style face="normal" font="default" size="100%">Two-dimensional movement control using electrocorticographic signals in humans.</style>

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<style face="normal" font="default" size="100%">Unique cortical physiology associated with ipsilateral hand movements and neuroprosthetic implications.</style>

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<style face="normal" font="default" size="100%">Decoding two-dimensional movement trajectories using electrocorticographic signals in humans.</style>

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<style face="normal" font="default" size="100%">An MEG-based brain-computer interface (BCI).</style>

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<style face="normal" font="default" size="100%">Spectral Changes in Cortical Surface Potentials During Motor Movement.</style>

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<style face="normal" font="default" size="100%">The emerging world of motor neuroprosthetics: a neurosurgical perspective.</style>

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<style face="normal" font="default" size="100%">Multi-channel linear descriptors for event-related EEG collected in brain computer interface.</style>

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<style face="normal" font="default" size="100%">Patients with ALS can use sensorimotor rhythms to operate a brain-computer interface.</style>