scholarly article | Q13442814 |
P356 | DOI | 10.1002/HBM.20899 |
P698 | PubMed publication ID | 19890847 |
P50 | author | Yoichi Miyawaki | Q79747328 |
P2093 | author name string | Masato Okada | |
Yasushi Naruse | |||
Ayumu Matani | |||
P2860 | cites work | Magnetoencephalography—theory, instrumentation, and applications to noninvasive studies of the working human brain | Q21698173 |
Relevance of nonlinear lumped-parameter models in the analysis of depth-EEG epileptic signals | Q28141694 | ||
Oscillatory gamma activity in humans and its role in object representation | Q28143833 | ||
The brainweb: phase synchronization and large-scale integration | Q28210063 | ||
Dynamic brain sources of visual evoked responses | Q28216590 | ||
Prestimulus oscillatory activity in the alpha band predicts visual discrimination ability | Q28269318 | ||
EEG alpha and theta oscillations reflect cognitive and memory performance: a review and analysis | Q29619431 | ||
New vistas for α-frequency band oscillations | Q30052035 | ||
Neural correlates of tactile detection: a combined magnetoencephalography and biophysically based computational modeling study. | Q33839352 | ||
Increased synchronization of neuromagnetic responses during conscious perception. | Q33865673 | ||
Dynamics of the human alpha rhythm: evidence for non-linearity? | Q33881548 | ||
Top-down processing mediated by interareal synchronization. | Q33928466 | ||
Modelling event-related responses in the brain | Q34408715 | ||
Understanding layer 4 of the cortical circuit: a model based on cat V1. | Q35017101 | ||
Horizontal integration and cortical dynamics | Q36331762 | ||
EEG alpha oscillations: the inhibition-timing hypothesis. | Q36556038 | ||
Intrinsic firing patterns of diverse neocortical neurons | Q36570760 | ||
Neural mechanisms underlying brain waves: from neural membranes to networks | Q36670067 | ||
Signal-space projections of MEG data characterize both distributed and well-localized neuronal sources | Q36681084 | ||
Evoked brain responses are generated by feedback loops | Q36693397 | ||
Phase-locked alpha and theta oscillations generate the P1-N1 complex and are related to memory performance. | Q38422865 | ||
Brain oscillations and human memory: EEG correlates in the upper alpha and theta band | Q38454277 | ||
Memory processes, brain oscillations and EEG synchronization | Q38458574 | ||
Human cortical oscillations: a neuromagnetic view through the skull | Q41326402 | ||
Trial-to-trial variability and its effect on time-varying dependency between two neurons | Q42667772 | ||
Dynamic causal modeling of evoked responses in EEG and MEG. | Q43817303 | ||
Cortical neuronal mechanisms in flutter-vibration studied in unanesthetized monkeys. Neuronal periodicity and frequency discrimination | Q43895817 | ||
A neural mass model for MEG/EEG: coupling and neuronal dynamics | Q44671677 | ||
Perception-related modulations of local field potential power and coherence in primary visual cortex of awake monkey during binocular rivalry | Q44750331 | ||
Neuronal generators of the visual evoked potentials: intracerebral recording in awake humans | Q44828089 | ||
Dynamic causal modelling of evoked responses: the role of intrinsic connections. | Q46448900 | ||
Attentional modulation of oscillatory activity in human visual cortex. | Q47585383 | ||
A quantitative assessment of the dependency of the visual temporal frame upon the cortical rhythm | Q48140726 | ||
Response properties of vibrissa units in rat SI somatosensory neocortex | Q48191900 | ||
Perception's shadow: long-distance synchronization of human brain activity | Q48282861 | ||
Alpha frequency, cognitive load and memory performance | Q48350152 | ||
A neurophysiologically-based mathematical model of flash visual evoked potentials. | Q48356487 | ||
Comparative electrophysiology of pyramidal and sparsely spiny stellate neurons of the neocortex | Q48450597 | ||
Visual evoked cortical magnetic responses to checkerboard pattern reversal stimulation: a study on the neural generators of N75, P100 and N145. | Q48468793 | ||
Influence of seamlessness between pre- and poststimulus alpha rhythms on visual evoked potential | Q48491320 | ||
Desynchronization of brain rhythms with soft phase-resetting techniques | Q48510368 | ||
Model of brain rhythmic activity. The alpha-rhythm of the thalamus | Q48554967 | ||
Transient synchrony of distant brain areas and perceptual switching in ambiguous figures | Q48620500 | ||
Pattern reversal visual evoked responses of V1/V2 and V5/MT as revealed by MEG combined with probabilistic cytoarchitectonic maps | Q48649042 | ||
Dissociation between phase-locked and nonphase-locked alpha oscillations in a working memory task | Q48650130 | ||
Visual evoked cortical magnetic fields to pattern reversal stimulation | Q48662059 | ||
Prediction of electroencephalographic spectra from neurophysiology | Q48680942 | ||
Visual and auditory evoked phase resetting of the alpha EEG. | Q48694164 | ||
Spatiotemporal brain imaging of visual-evoked activity using interleaved EEG and fMRI recordings | Q48694355 | ||
Pattern visual evoked potentials recorded from human occipital cortex with chronic subdural electrodes | Q48859669 | ||
Neuromagnetic evidence that the P100 component of the pattern reversal visual evoked response originates in the bottom of the calcarine fissure. | Q48925672 | ||
The relation of simple response time to brain-wave frequency and the effects of age. | Q51288159 | ||
Electrographic patterns of the occipital lobe in man: a topographic study based on use of implanted electrodes. | Q51295475 | ||
Propagator theory of brain dynamics. | Q51967008 | ||
Evaluation of different measures of functional connectivity using a neural mass model. | Q52003099 | ||
Frequency characteristics of evoked and oscillatory electroencephalic activity in a human memory scanning task. | Q52010198 | ||
Electroencephalogram and visual evoked potential generation in a mathematical model of coupled cortical columns. | Q52331895 | ||
Measuring phase synchrony in brain signals. | Q52893925 | ||
The Continuous Wagon Wheel Illusion Is Associated with Changes in Electroencephalogram Power at 13 Hz | Q56902894 | ||
Oscillatory gamma-band (30-70 Hz) activity induced by a visual search task in humans | Q57570229 | ||
Stimulus specificity of phase-locked and non-phase-locked 40 Hz visual responses in human | Q57570230 | ||
Waves of consciousness: ongoing cortical patterns during binocular rivalry | Q57649063 | ||
Frequency of the ‘Alpha’ Rhythm, Reaction Time and Age | Q58989220 | ||
Chemical Oscillations, Waves, and Turbulence | Q60608903 | ||
Alpha Phase Reset Contributes to the Generation of ERPs | Q60678987 | ||
Perceptual framing and cortical alpha rhythm | Q71013039 | ||
P433 | issue | 5 | |
P1104 | number of pages | 13 | |
P304 | page(s) | 703-715 | |
P577 | publication date | 2010-05-01 | |
P1433 | published in | Human Brain Mapping | Q5936947 |
P1476 | title | Influence of coherence between multiple cortical columns on alpha rhythm: a computational modeling study | |
P478 | volume | 31 |
Q42663591 | Beyond establishing involvement: quantifying the contribution of anticipatory α- and β-band suppression to perceptual improvement with attention |
Q47960074 | Deriving theoretical phase locking values of a coupled cortico-thalamic neural mass model using center manifold reduction. |
Q42624599 | Does sleep restore the topology of functional brain networks? |
Q54944302 | Generate the scale-free brain music from BOLD signals. |
Q51656935 | Inference in alpha rhythm phase and amplitude modeled on Markov random field using belief propagation from electroencephalograms |
Q47693617 | Macroscopic neural mass model constructed from a current-based network model of spiking neurons |
Q51648034 | Role of neuronal synchrony in the generation of evoked EEG/MEG responses. |
Q30627329 | Statistical method for detecting phase shifts in alpha rhythm from human electroencephalogram data |
Q91642966 | Synchronization of Independent Neural Ensembles in Human EEG during Choice Tasks |
Q37697621 | The role of alpha-rhythm states in perceptual learning: insights from experiments and computational models. |
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