17.
Cortical traveling waves: mechanisms and computational principles
Lyle Muller, Frédéric Chavane, John Reynolds, Terrence J. Sejnowski
Nature Reviews Neuroscience, 19: 255-268, 2018
16.
Thalamocortical and intracortical laminar connectivity determines sleep spindle properties
Giri P. Krishnan, Burke Q. Rosen, Jen-Yung Chen, Lyle Muller, Terrence J. Sejnowski, Sydney S. Cash, Eric Halgren, Maxim Bazhenov
PLoS Computational Biology, 14: e1006171, 2018
15.
Improving voltage-sensitive dye imaging: with a little help from computational approaches
Sandrine Chemla*, Lyle Muller*, Alexandre Reynaud*, Sylvain Takerkart, Alain Destexhe, Frédéric Chavane
Neurophotonics, 4: 031215-031215, 2017
14.
Analytical derivation of nonlinear spectral effects and 1/f scaling artifact in signal processing of real-world data
Claudia Lainscsek, Lyle Muller, Aaron Sampson, Terrence J. Sejnowski
Neural Computation, 29: 2004-2020, 2017
13.
Interpretation of the precision matrix and its application in estimating sparse brain connectivity during sleep spindles from human electrocorticography recordings
Anup Das et al.
Neural Computation, 29: 603-642, 2017
12.
Rotating waves during human sleep spindles organize global patterns of activity that repeat precisely through the night
Lyle Muller, Giovani Piantoni, Dominik Koller, Sydney Cash, Eric Halgren, Terrence J. Sejnowski
eLife, 5: e17267, 2016
11.
High-frequency oscillations in human and monkey neocortex during the wake-sleep cycle
Michel Le van Quyen*, Lyle Muller*, Bartosz Telenczuk*, Eric Halgren, Sydney Cash, Nicholas Hatsopoulos, Nima Dehghani, Alain Destexhe
PNAS 113: 9363-9368, 2016
10.
On a link between Dirichlet kernels and central multinomial coefficients
Michelle Rudolph-Lilith and Lyle Muller
Discrete Mathematics 338: 1567-1572, 2015
9.
Characterization and compensation of network-level anomalies in mixed-signal neuromorphic modeling platforms.
Mihai Petrovici et al.
PLoS ONE 9: e108590, 2014
8.
Brain networks: small-worlds, after all?
Lyle Muller, Alain Destexhe, and Michelle Rudolph-Lilith
New Journal of Physics 16: 105004, 2014
7.
Aspects of randomness in neural graph structures.
Michelle Rudolph-Lilith and Lyle Muller
Biological Cybernetics 108: 381-396, 2014
6.
The stimulus-evoked population response in visual cortex of awake monkey is a propagating wave.
Lyle Muller*, Alexandre Reynaud*, Frédéric Chavane, Alain Destexhe
Nature Communications 5: 3675, 2014
5.
On a representation of the Verhulst logistic map.
Michelle Rudolph-Lilith and Lyle Muller
Discrete Mathematics 304: 19-27, 2014
4.
Algebraic approach to small-world network models.
Michelle Rudolph-Lilith and Lyle Muller
Physical Review E 89: 012812, 2014
3.
Propagating waves in thalamus, cortex and the thalamocortical system: experiments and models.
Lyle Muller and Alain Destexhe
Journal of Physiology (Paris) 106: 222-238, 2012
2.
A comprehensive workflow for general-purpose neural modeling with highly configurable neuromorphic hardware systems.
Daniel Brüderle et al.
Biological Cybernetics 104: 263-296, 2011
1.
Spike-timing dependent plasticity and feed-forward input oscillations produce precise and invariant spike phase-locking.
Lyle Muller, Romain Brette, Boris Gutkin
Frontiers in Computational Neuroscience 5: 45, 2011