scholarly article | Q13442814 |
P2093 | author name string | Jeffrey G Ojemann | |
Kurt E Weaver | |||
Kaitlyn Casimo | |||
Jeremiah Wander | |||
P2860 | cites work | Learning to control a brain-machine interface for reaching and grasping by primates | Q21146441 |
Correspondence of the brain's functional architecture during activation and rest | Q23891366 | ||
A quantitative meta-analysis and review of motor learning in the human brain | Q24630536 | ||
Clinical translation of a high-performance neural prosthesis | Q27314942 | ||
The brain's default network: anatomy, function, and relevance to disease | Q27860961 | ||
Neuronal oscillations in cortical networks | Q28268592 | ||
Neuronal ensemble control of prosthetic devices by a human with tetraplegia | Q29619089 | ||
Mapping resting-state brain networks in conscious animals. | Q30475142 | ||
Reversible large-scale modification of cortical networks during neuroprosthetic control | Q30519503 | ||
High-performance neuroprosthetic control by an individual with tetraplegia | Q30539491 | ||
Single-trial connectivity estimation for classification of motor imagery data. | Q30644417 | ||
The resting human brain and motor learning | Q33442214 | ||
Emergence of a stable cortical map for neuroprosthetic control | Q33484711 | ||
Measuring phase-amplitude coupling between neuronal oscillations of different frequencies | Q34135669 | ||
Dynamic reconfiguration of human brain networks during learning | Q34179257 | ||
Connectivity measures applied to human brain electrophysiological data | Q34199030 | ||
Use-dependent alterations of movement representations in primary motor cortex of adult squirrel monkeys | Q34370373 | ||
The contribution of electrophysiology to functional connectivity mapping. | Q34388388 | ||
Direct control of paralysed muscles by cortical neurons | Q34598772 | ||
Bi-phase locking - a tool for probing non-linear interaction in the human brain | Q34982114 | ||
Training induces changes in white-matter architecture | Q35007455 | ||
Broadband changes in the cortical surface potential track activation of functionally diverse neuronal populations | Q35141942 | ||
Neuroplasticity subserving motor skill learning | Q35552851 | ||
Functionally specific changes in resting-state sensorimotor networks after motor learning. | Q35679633 | ||
Brain computer interface learning for systems based on electrocorticography and intracortical microelectrode arrays | Q35711152 | ||
Engineering the next generation of clinical deep brain stimulation technology | Q35849546 | ||
Sequential activation of premotor, primary somatosensory and primary motor areas in humans during cued finger movements. | Q35883314 | ||
Reorganization and plasticity in the adult brain during learning of motor skills | Q36098552 | ||
Cortico-Cortical Interactions during Acquisition and Use of a Neuroprosthetic Skill | Q36107889 | ||
In search of the motor engram: motor map plasticity as a mechanism for encoding motor experience | Q36252821 | ||
Directional patterns of cross frequency phase and amplitude coupling within the resting state mimic patterns of fMRI functional connectivity | Q36604766 | ||
Distributed cortical adaptation during learning of a brain-computer interface task. | Q36967795 | ||
Evidence for a frontoparietal control system revealed by intrinsic functional connectivity | Q37018490 | ||
Regional Patterns of Cortical Phase Synchrony in the Resting State. | Q37157088 | ||
Neural correlates of high-gamma oscillations (60-200 Hz) in macaque local field potentials and their potential implications in electrocorticography. | Q37275297 | ||
Two-dimensional movement control using electrocorticographic signals in humans. | Q37347002 | ||
Nonlinear phase-phase cross-frequency coupling mediates communication between distant sites in human neocortex | Q37349663 | ||
Short-time windowed covariance: a metric for identifying non-stationary, event-related covariant cortical sites | Q37633021 | ||
Quantifying phase-amplitude coupling in neuronal network oscillations. | Q37792335 | ||
The functional role of cross-frequency coupling | Q37798895 | ||
Exploring the network dynamics underlying brain activity during rest. | Q38175774 | ||
Restoring sensorimotor function through intracortical interfaces: progress and looming challenges | Q38205112 | ||
Motor skill learning between selection and execution | Q38368995 | ||
Towards large-scale, human-based, mesoscopic neurotechnologies | Q38412770 | ||
Neural constraints on learning. | Q39525755 | ||
Towards a robust BCI: error potentials and online learning | Q40313575 | ||
Combining decoder design and neural adaptation in brain-machine interfaces | Q46170116 | ||
Coadaptive brain-machine interface via reinforcement learning | Q47195280 | ||
Learning Control Over Emotion Networks Through Connectivity-Based Neurofeedback | Q47607629 | ||
A brain-computer interface for long-term independent home use. | Q48150334 | ||
Brain oscillations control timing of single-neuron activity in humans. | Q48216917 | ||
The predictive value of changes in effective connectivity for human learning | Q48270489 | ||
Neuroimaging studies of practice-related change: fMRI and meta-analytic evidence of a domain-general control network for learning | Q48720301 | ||
A brain-computer interface using electrocorticographic signals in humans. | Q48898986 | ||
Robustly estimating the flow direction of information in complex physical systems | Q49054264 | ||
Reorganization of functional and effective connectivity during real-time fMRI-BCI modulation of prosody processing. | Q50665003 | ||
Measuring phase synchrony in brain signals. | Q52893925 | ||
P577 | publication date | 2017-03-13 | |
P1433 | published in | IEEE Transactions on Neural Systems and Rehabilitation Engineering | Q15758805 |
P1476 | title | BCI Use and Its Relation to Adaptation in Cortical Networks |
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